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1262 Commits

Author SHA1 Message Date
Ronan Collobert 24828b1b2f CMakeLists.txt update 2025-10-31 16:55:04 -07:00
Ronan Collobert 9f649b5658 WIP (python) 2025-10-31 16:24:51 -07:00
Ronan Collobert 18aa921388 WIP 2025-10-31 16:24:35 -07:00
Ronan Collobert 8d13a0bc6b WIP (metal) 2025-10-31 16:24:21 -07:00
Ronan Collobert ac75c87fd7 WIP (cpu) 2025-10-31 16:24:09 -07:00
Ronan Collobert 7107802e09 WIP (examples) 2025-10-31 16:23:51 -07:00
Ronan Collobert c5913131cf WIP (distributed) 2025-10-31 13:32:56 -07:00
Ronan Collobert 19ab7911f6 WIP (cuda) 2025-10-31 13:32:43 -07:00
Ronan Collobert 4a1b1796b7 WIP (io) 2025-10-31 13:20:47 -07:00
Ronan Collobert b48d298205 WIP (distributed) 2025-10-31 13:20:09 -07:00
Ronan Collobert 8277e71ea9 WIP (gpu) 2025-10-31 13:19:54 -07:00
Ronan Collobert b0d985416a fix arg_reduce 2025-10-31 13:13:15 -07:00
Ronan Collobert 8d10f3ec75 WIP (metal) 2025-10-31 11:47:03 -07:00
Ronan Collobert 6343622c67 fix small vector indexing checks 2025-10-31 11:46:36 -07:00
Ronan Collobert 979abf462b WIP (metal) 2025-10-31 09:43:29 -07:00
Ronan Collobert 981d2fdaf0 WIP (cpu) 2025-10-31 09:40:50 -07:00
Ronan Collobert 5a306d3495 WIP (common) 2025-10-31 09:40:13 -07:00
Ronan Collobert 5baa361779 WIP (tests) 2025-10-31 09:39:38 -07:00
Ronan Collobert 1bac0db7e3 WIP 2025-10-30 16:25:36 -07:00
Ronan Collobert a1212b4e44 WIP (distributed) 2025-10-30 16:25:11 -07:00
Ronan Collobert 45a8b226af WIP (cpu) 2025-10-30 16:24:51 -07:00
Ronan Collobert 76ef1e98f3 WIP (common) 2025-10-30 16:18:59 -07:00
Ronan Collobert 63d91557e0 fix FFT (PocketFFT requires size_t for axis) 2025-10-29 17:05:48 -07:00
Ronan Collobert 310e501e6a WIP (cpu) 2025-10-29 16:52:25 -07:00
Ronan Collobert cacc3ab7fd WIP (common) 2025-10-29 16:51:42 -07:00
Ronan Collobert 53525cba23 WIP 2025-10-29 16:51:05 -07:00
Ronan Collobert 3d67b717a0 the cpu simd case 2025-10-29 16:43:18 -07:00
Ronan Collobert 953b2f5be2 WIP 2025-10-29 16:11:32 -07:00
Ronan Collobert 26f7155537 SmallVector: keep sizes small (int) 2025-10-29 16:06:10 -07:00
Ronan Collobert 66fcb9fe94 array: use int or int64_t instead of size_t 2025-10-29 16:04:04 -07:00
Awni Hannun d1e06117e8 bump python (#2694) 2025-10-27 11:34:31 -07:00
Awni Hannun 539d8322d1 add median op (#2705) 2025-10-27 11:33:42 -07:00
Awni Hannun c4767d110f fix addmm cpu (#2699) 2025-10-27 11:33:32 -07:00
David Koski 895217f25b optionally load metallib from framework (#2702)
* optionally load metallib from framework

* pre-commit

* adjust logic
2025-10-27 07:52:03 -07:00
Manuel Villanueva 0cfeeb60ca Einsum error msg improvement (#2690)
* Improved error message for Einsum

* Modifications via pre-commit

* format

* nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-10-27 06:31:47 -07:00
Ronan Collobert 8f8af61a37 fix warnings showing up with -Wall (#2692) 2025-10-24 11:43:35 -07:00
Manuel Villanueva 233384161e Improved mx.split() docs (#2689)
* Improved mx.split() documentation

* Fix typo in docstring for array split function

* add example

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-10-24 09:48:41 -07:00
Awni Hannun 5bcf3a6794 format 2025-10-22 16:08:47 -07:00
wickedcoder 7707196297 Merge commit from fork
* add length validation to the header

* fix accessing out of bound index with .at()
2025-10-22 15:31:25 -07:00
wickedcoder 7e3471c987 Merge commit from fork
* add tensor->weights_data validation

* add null pointer check for tensor
2025-10-22 15:31:03 -07:00
Awni Hannun 9f0ba3ddf1 patch bump (#2680) 2025-10-17 12:12:07 -07:00
Awni Hannun 4bce5f9b2d suppress gcc 10.1 warnings (#2679)
* suppress gcc 10.1 warnings

* suppress gcc 10.1 warnings
2025-10-17 12:09:21 -07:00
Anastasiia Filippova e9eab527eb Nccl timeout (#2673)
* print the error & delete nccl group

* timeout for nccl binding

* typo

* revert error

* fixed a typo
2025-10-14 12:29:54 -07:00
Awni Hannun 36ca62dba8 remove unused unary file (#2672) 2025-10-13 19:36:26 -07:00
Manuel Villanueva 9cbb1b0148 Modified sort behavior when running CPU or Metal to match NumPy/JAX (#2667)
* Modified sort behavior when running CPU or Metal to match NumPy/JAX sorting behavior.

* Modified sort behavior when running CPU or Metal to match NumPy/JAX

* nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-10-13 14:36:45 -07:00
Fabrizio Milo 9bfc476d72 Normalize README bullet formatting (#2671) 2025-10-13 12:13:30 -07:00
Awni Hannun 25e2356316 speed up scalars (#2669) 2025-10-13 12:10:15 -07:00
Awni Hannun 226a1d24e0 Debug cuda conv (#2662)
* use t4

* use t4
2025-10-10 16:12:47 -07:00
Awni Hannun 630350ad3e Precise sigmoid (#2659)
* bump patch

* Sigmoid matches PyTorch and is more precise on tails
2025-10-10 10:05:23 -07:00
Awni Hannun 380aeb58ae enable admm low-precision cpu (#2661) 2025-10-10 09:50:54 -07:00
Awni Hannun f37389d100 bump patch (#2658) 2025-10-10 08:36:41 -07:00
Awni Hannun e89e8b4272 Export with callback (#2612)
* export with callback

* export with callback

* Add types, fix kwarg ordering bug + test

* cleanup, test, fix

* typos
2025-10-08 19:24:33 -07:00
AN Long 85a8824a8c Fix cumulative operations when axis=None (#2653) 2025-10-08 15:25:38 -07:00
Awni Hannun f5d4397e5c Fix fast synch when fence is waited before a command buffer is created (#2657) 2025-10-08 11:23:46 -07:00
Awni Hannun 343e33b6d5 fix all_gather vjp (#2654) 2025-10-07 06:05:23 -07:00
Angelos Katharopoulos 0073096dd1 Split name into directories for cuda jit (#2656) 2025-10-07 01:52:58 -07:00
Angelos Katharopoulos e3d004fed9 Fix and refactor row-reduce (#2650) 2025-10-07 01:51:08 -07:00
Awni Hannun a393435d28 Speed up compile for node with many parents (#2649) 2025-10-03 19:30:36 -07:00
Awni Hannun a7a94b29d7 Fix compile when outputs change (#2648) 2025-10-03 08:40:57 -07:00
Daniel Yeh 22a5da76c8 Faster complex matmul (#2571) 2025-10-02 23:33:15 -07:00
Andrey Portnoy 287c63a093 Configure CMake to export compile_commands.json (#2645)
This helps enable LSP for code navigation using clangd.
2025-10-02 15:40:32 -07:00
Awni Hannun 1c9ae1eaa1 cuda fix flaky test (#2646) 2025-10-02 15:40:04 -07:00
Angelos Katharopoulos c2c3e0b0a2 [CUDA] Add a small column specialization to reduce (#2642) 2025-10-02 14:41:05 -07:00
Awni Hannun b0cc71ae71 Faster triu, tril, where with scalar (#2644) 2025-10-02 12:21:27 -07:00
Awni Hannun e88f2d4a8e fix cross entropy axis param (#2641)
* fix cross entropy axis param

* faster grad clipping
2025-10-01 16:49:55 -07:00
Angelos Katharopoulos 9cee557423 Fix status message (#2638) 2025-10-01 16:43:45 -07:00
Awni Hannun bbf1423953 wait for tasks in cuda (#2636) 2025-09-30 16:08:46 -07:00
Angelos Katharopoulos eb24267b56 Compile now can attach arbitrary data to an entry (#2634) 2025-09-30 13:33:27 -07:00
Awni Hannun dc371ae7a5 fix for max block dim (#2631) 2025-09-29 08:59:25 -07:00
AN Long e76a8dd5c5 Fix incorrect path and typos (#2630) 2025-09-28 06:03:04 -07:00
Cheng b466dea982 [CUDA] Make CudaEvent work with multi-device (#2614)
* Set current device when creating cuda event

* Separate cuda events by device

* Avoid race condition in pool
2025-09-27 11:27:17 +09:00
Angelos Katharopoulos 7a6adda1e6 Bump the version (#2627) 2025-09-26 15:15:28 -07:00
Angelos Katharopoulos 1a9f820af6 Compiled should not end in broadcast (#2622) 2025-09-26 13:36:09 -07:00
Awni Hannun d4f4ff3c5e Allow None input to compiled functions (#2621)
* Allow None input to compiled functions

* Allow None input to compiled functions
2025-09-25 08:42:23 -07:00
Jagrit Digani 7c7e48dbd1 New tuning for small K gemv (#2620)
* New tuning for small K gemv
2025-09-23 12:28:35 -07:00
Daniel Yeh fbbf3b9b3e Support pickling array for bfloat16 (#2586)
* add bfloat16 pickling

* Improvements

* improve

---------

Co-authored-by: Chen-Chen Yeh <ge96noj@mytum.de>
2025-09-22 20:12:15 -07:00
Daniel Yeh bf01ad9367 fix (#2613)
Co-authored-by: Chen-Chen Yeh <ge96noj@mytum.de>
2025-09-22 20:12:04 -07:00
Cheng ae438d05fa [CUDA] Recycle CUDA events (#2604)
* Make CudaEvent a CudaHandle

* Add caching for CudaEvent

* Make sure cuda events are destroyed at last

* Fix headers

* SharedEvent => AtomicEvent

* RawCudaEvent => CudaEventHandle, CudaEventWrapper => CopyableCudaEvent

* Remove unneeded asserts
2025-09-23 10:42:03 +09:00
Awni Hannun 711a645807 avoid producing NaN in attention (#2608) 2025-09-22 13:10:43 -07:00
Josh Bleecher Snyder aa9d44b3d4 implement Convolution::output_shape (#2601)
- pull conv_out_shape out for re-use
- add Conv::output_shape
- add e2e python tests confirming shapeless=True support and correctness

Updates #2599
2025-09-22 10:09:45 -07:00
Awni Hannun ec2ab42888 Lower sorted QMM gather threshold (#2609) 2025-09-19 18:22:55 -07:00
Cheng 787c0d90cd Detect cache thrashing in LRUCache (#2600)
* Detect cache thrashing in LRUCache

* Do not check cache thrashing in tests
2025-09-19 09:12:14 +09:00
Oleksandr Bilous e8b604a6a3 fix: library loading for swift dynamic frameworks (#2568) 2025-09-18 13:54:59 -07:00
Awni Hannun 50cc09887f expose depends (#2606) 2025-09-18 10:06:15 -07:00
Umberto Mignozzetti 3f730e77aa Update export function example for array input (#2598)
After changing the shape to conform (same shapes for all objects), the example works.
2025-09-16 14:38:05 -07:00
Awni Hannun caecbe876a no copy batch rope (#2595) 2025-09-15 14:23:48 -07:00
Umberto Mignozzetti 8afb6d62f2 Fix typo in average_gradients function call (#2594) 2025-09-15 11:29:21 -07:00
Awni Hannun 6ccfa603cd fix metal scan (#2591) 2025-09-15 11:01:57 -07:00
Umberto Mignozzetti 36cad99a11 Refactor code examples to use 'gelu' (#2592)
Updated code examples to use 'gelu' directly instead of 'nn.gelu'.
2025-09-15 09:47:02 -07:00
Awni Hannun ee18e1cbf0 patch bump (#2588) 2025-09-11 17:10:09 -07:00
Awni Hannun af120c2bc0 set nccl ABI version (#2587) 2025-09-11 16:55:53 -07:00
Cheng 6a3acf2301 [CUDA] Set bias as input when using bias epilogue (#2584) 2025-09-11 15:31:09 +09:00
Awni Hannun d6977f2a57 Add sdpa with sinks (#2558)
* add sdpa with sinks

* fix 2 pass

* fix matrix sdpa

* fix perf regression

* add to cuda (#2580)
2025-09-10 14:53:00 -07:00
Gökdeniz Gülmez db5443e831 Adding Relu2 (#2582)
* in. com.

* upd. ackn.

* update __init__

* nits

* nits + format

* used mx.maximum(x, 0) instead of calling the function and moves relu6 under relu2 to make it nicer

* same with _make_activation_module

* Update python/mlx/nn/layers/activations.py

upd

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* update funct.rst

* upd. layers.rst

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2025-09-10 07:24:30 -07:00
Cheng 52b8384d10 Fix flaky addmm tests (#2581) 2025-09-10 14:22:22 +09:00
Cheng 44cc5da4bc [CUDA] Fix alpha not respected when using bias epilogue (#2578) 2025-09-10 09:08:01 +09:00
Cheng dde3682b69 [CUDA] Use GEMM with epilogue instead of AddMM (#2569) 2025-09-09 13:18:49 +09:00
Awni Hannun 17310d91a6 Add batch offsets for mx.fast.rope (#2564)
* implement batch rope for Metal

* cuda rope (#2576)
2025-09-08 17:35:07 -07:00
Cheng b194d65a6a Some tweaks in cmake files (#2574)
* Do proper check of Metal lib

* Update doctest to get rid of cmake version hack
2025-09-09 08:27:18 +09:00
Cheng a44b27f5f8 Fix a few ccache cache miss (#2573)
* Fix ccache cache miss

* Do not define _VERSION_ in python bindings
2025-09-09 07:41:05 +09:00
Awni Hannun e5a33f2223 faster depthwise 1D conv (#2567) 2025-09-08 11:37:23 -07:00
Cheng c1e3340b23 Set ccache size before building (#2570) 2025-09-07 09:00:31 +09:00
XXXXRT666 8f163a367d typing: add type hints to mlx.core.array, linalg, distributed, and random (#2565)
* Add type annotations to mlx methods

* Missing list_or_scalar
2025-09-04 09:08:11 -07:00
Manuel Villanueva 89a3df9014 Fixed several type annotations in the MLX stubs which degraded to Unknown/Any (#2560)
* Added scalar to stubs to fix Unkown Type Hint

### Proposed changes

Issue #2478 reports that several type annotations in the MLX stubs degrade to Unknown/Any in editors like VS Code with Pylance, due to missing imports (Union, Optional, Tuple) and an undefined scalar type alias.

This PR updates the stub generation patterns to:
	•	Add missing typing imports in mlx.core.__prefix__ so that Union, Optional, Tuple, etc. are always available.
	•	Define and export scalar: TypeAlias = Union[int, float, bool] in mlx.core.__suffix__ so that functions typed with Union[scalar, array] resolve correctly instead of falling back to Any.
	•	Update submodule stub prefixes (distributed, fast, linalg, metal, random) to import scalar alongside array, Device, and Stream, ensuring type checkers resolve the union consistently across modules.

With these changes, functions like mlx.add now display rich type signatures such as:

```
def add(
    a: scalar | array,
    b: scalar | array,
    stream: Stream | Device | None = None
) -> array
```

instead of degrading to Any.

### Checklist

	•	I have read the CONTRIBUTING document
	•	I have run pre-commit run --all-files to format my code / installed pre-commit prior to committing changes
	•	I have added tests that prove my fix is effective or that my feature works (n/a — stub generation only)
	•	I have updated the necessary documentation (if needed)

* add bool to patterns

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-09-03 12:52:08 -07:00
Krishi Saripalli c5d2937aa5 chore: Update Docs With Slice Copy Example (#2559)
* chore: updated docs with slice copy example

* nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-09-02 22:07:02 -07:00
Awni Hannun b61a65e313 fix copies in sdpa (#2563) 2025-09-02 11:00:36 -07:00
wrmsr 04cbb4191c Fix dequantize python sig (#2562) 2025-09-01 11:50:20 -07:00
Artur Antonov c5460762e7 Fix AdamW weight_decay default value in docstring (#2557) 2025-08-31 21:29:30 -07:00
Awni Hannun 8ce49cd39e fix quantized vjp for mxfp4 (#2555) 2025-08-29 10:06:15 -07:00
Awni Hannun 9c68b50853 version bump (#2554) 2025-08-29 06:54:17 -07:00
Awni Hannun 111f1e71af Faster contiguous gather for indices in the first axis (#2552)
* faster contiguous gather for indices in the first axis

* work per thread > 1

* angelos suggestion for scales / biases
2025-08-28 21:26:30 -07:00
Awni Hannun 827003d568 fix METAL quantization in JIT (#2553) 2025-08-28 18:26:25 -07:00
Awni Hannun d363a76aa4 Bump xcode in circle (#2551)
* bump xcode in circle

* bump xcode in circle

* bump xcode in circle
2025-08-28 13:13:34 -07:00
Awni Hannun 70560b6bd5 Add mode parameter for quantization (#2499)
* add mode parameter for quantization

* mxfp4 quantize/dequantize + start of optional biases

* mxfp4 works

* speedup

* cpu mxfp4

* fix

* fix test tol

* fix

* refactor

* add quant mode enum
2025-08-28 06:45:26 -07:00
Awni Hannun 7ef8a6f2d5 [CUDA] fix sort (#2550)
* [CUDA] fix sort

* fix test
2025-08-27 19:48:43 -07:00
Cheng 31c6f6e33f [CUDA] Use ConcurrentContext in concatenate_gpu (#2549) 2025-08-28 09:30:08 +09:00
Awni Hannun 584d48458e link with nccl (#2546) 2025-08-27 10:01:07 -07:00
Cheng 5cf984ca87 Separate cpu compilation cache by versions (#2548) 2025-08-27 11:25:15 +09:00
Cheng a9bac3d9e5 Run CPP tests for CUDA build in CI (#2544) 2025-08-27 08:06:46 +09:00
Awni Hannun 5458d43247 add load with path tests (#2543) 2025-08-26 14:24:47 -07:00
Awni Hannun a4dba65220 Enable cuda graph toggle (#2545)
* enable cuda graph toggle

* increase cache size
2025-08-26 12:50:38 -07:00
Awni Hannun 3dcb286baf Remove stream from average grads so it uses default (#2532)
* Remove stream from average grads so it uses default

* comment
2025-08-25 15:56:29 -07:00
Cheng 4822c3dbe9 [CUDA] Implement DynamicSlice/DynamicSliceUpdate (#2533)
* Move DynamicSlice to gpu/primitives

* Implement compute_dynamic_offset in CUDA
2025-08-26 07:31:39 +09:00
Awni Hannun 2ca75bb529 Remove nccl install in release (#2542) 2025-08-25 15:20:18 -07:00
Awni Hannun db14e29a0b allow pathlib.Path to save/load functions (#2541) 2025-08-25 14:58:49 -07:00
Awni Hannun d2f540f4e0 Use nccl header only when nccl is not present (#2539)
* use nccl header only when nccl is not present

* larger machine for cuda build
2025-08-25 14:17:25 -07:00
Cheng 333ffea273 [CUDA] Remove thrust in arange (#2535) 2025-08-24 16:22:36 +09:00
Cheng f55b6f1f2f Enable COMPILE_WARNING_AS_ERROR for linux builds in CI (#2534) 2025-08-24 15:33:08 +09:00
Awni Hannun 30561229c7 Fix allocation bug in NCCL (#2530) 2025-08-22 14:39:43 -07:00
Awni Hannun 068a4612e9 nccl default for backend=any (#2528)
* nccl default for backend=any

* check num gpus + ensure row contiguous for all reduce

* comment
2025-08-22 12:24:27 -07:00
Andrey Portnoy 5722c147de [CUDA] Update calls to cudaMemAdvise and cudaGraphAddDependencies for CUDA 13 (#2525)
* [CUDA] Update cudaMemAdvise and cudaGraphAddDependencies for CUDA 13

These functions' signatures changed in CUDA 13, so we differentiate
between CUDA 13 and preceding releases at compile time.

* Mention NVIDIA in ACKNOWLEDGMENTS.md
2025-08-21 19:57:20 -07:00
Cheng f6819a1f26 Fix warning 186-D from nvcc (#2527) 2025-08-22 10:29:55 +09:00
Awni Hannun f93f87c802 nccl dep + default for cuda (#2526) 2025-08-21 17:57:49 -07:00
Anastasiia Filippova 9392fc3f88 NCCL backend (#2476) 2025-08-21 11:56:15 -07:00
Awni Hannun e843c4d8d5 fix power (#2523) 2025-08-21 06:46:01 -07:00
Angelos Katharopoulos 0c5fc63a36 Fix docs omission (#2524) 2025-08-20 17:56:06 -07:00
Angelos Katharopoulos e397177f6e Custom cuda kernel (#2517) 2025-08-20 17:20:22 -07:00
Cheng f4c8888cbe [CUDA] Fix stride of singleton dims before passing to cuDNN (#2521) 2025-08-21 08:55:26 +09:00
Angelos Katharopoulos 25c1e03205 Fix overflow in large filter small channels (#2520) 2025-08-20 08:03:29 -07:00
russellizadi 512281781c Remove state return from function example in compile documentation (#2518) 2025-08-20 00:45:05 -07:00
Cheng ac85ddfdb7 [CUDA] Add GEMM-based fallback convolution kernels (#2511)
* Add gemm_conv

* Add gemm_grouped_conv
2025-08-20 10:06:22 +09:00
Cheng 65d0d40232 Split cuDNN helpers into a separate header (#2491)
* Add RAII managed CudaGraph class

* Implement forward rms_norm with cuDNN

* Revert back to old rms norm kernel
2025-08-20 09:29:28 +09:00
Awni Hannun cea9369610 fix lapack svd (#2515) 2025-08-18 15:07:59 -07:00
Awni Hannun e7c6e1db82 no segfault with uninitialized array.at (#2514) 2025-08-18 08:33:38 -07:00
Awni Hannun c5fcd5b61b fix custom kernel test (#2510) 2025-08-18 06:45:59 -07:00
Angelos Katharopoulos 1df9887998 Ensure no oob read in gemv_masked (#2508) 2025-08-17 08:42:33 -07:00
Angelos Katharopoulos 73f22d6226 Ensure small sort doesn't use indices if not argsort (#2506) 2025-08-17 08:42:20 -07:00
Cheng c422050ca7 Update cuDNN Frontend to v1.14 (#2505) 2025-08-17 19:13:01 +09:00
Cheng 1ba18ff7d9 [CUDA] Fix conv grads with groups (#2495)
* Put reshape utils in one file

* [CUDA] Fix conv grads with groups

* Put the reshape utils in gpu/copy.h
2025-08-16 10:09:18 +09:00
Cheng 37b440faa8 Clean up code handling both std::vector and SmallVector (#2493) 2025-08-16 09:01:10 +09:00
Cheng 888b13ed63 Remove the hack around SmallVector in cpu compile (#2494) 2025-08-16 08:17:24 +09:00
Cheng 4abb218d21 The naive_conv_2d is no longer used (#2496) 2025-08-16 07:57:30 +09:00
Awni Hannun 6441c21a94 Faster general unary op (#2472)
* faster general unary op

* faster general ops + reorg

* fix + comment

* binary two

* copy general
2025-08-15 15:04:12 -07:00
Cheng dfb5022eab Rename cu::Matmul to CublasGemm (#2488) 2025-08-13 09:37:40 +09:00
Daniel Yeh ac207ce7aa make code blocks copyable (#2480)
Co-authored-by: Chen-Chen Yeh <ge96noj@mytum.de>
2025-08-12 12:29:02 -07:00
Abe Leininger fce53b61d6 Fix reduce sum/prod overflow (#2477) 2025-08-12 00:05:33 -07:00
Angelos Katharopoulos 8ae4a76308 Use CMake <4.1 to avoid the nvpl error (#2489) 2025-08-12 00:03:42 -07:00
Cheng 7fde1b6a1e Fix logsumexp/softmax not fused for some cases (#2474) 2025-08-08 14:07:17 -07:00
Cheng aa7b47481a [CUDA] Optimize set_mm_device_pointers for small ndim (#2473) 2025-08-08 15:23:30 +09:00
Awni Hannun 56be773610 version (#2470) 2025-08-07 00:36:04 -07:00
Jagrit Digani a9bdd67baa Add CUDA sdpa vector (#2468) 2025-08-06 21:40:26 -07:00
Angelos Katharopoulos f2adb5638d Fix typo in metal command encoder (#2471) 2025-08-06 16:58:23 -07:00
Luca Vivona 728d4db582 Support destination arg in tree flatten/unflatten (#2450) 2025-08-06 15:34:59 -07:00
Awni Hannun db5c7efcf6 revert default cuda install (#2465)
* revert default cuda install

* revert default cuda install
2025-08-06 06:19:12 -07:00
Awni Hannun 7bb96e4249 fix cublas on h100 (#2466) 2025-08-06 06:18:58 -07:00
Awni Hannun fa89f0b150 faster gather qmm sorted test (#2463) 2025-08-05 06:27:40 -07:00
Awni Hannun ca973d1e83 fix install tags (#2464) 2025-08-04 20:01:23 -07:00
Cheng 828c5f1137 Use SmallVector for shapes and strides (#2454)
* Use SmallVector for shapes and strides

* Convert SmallVector to tuple
2025-08-05 09:41:03 +09:00
Gaétan Lepage 7d86a5c108 Feat: add USE_SYSTEM_FMT CMake option (#2219) 2025-08-04 16:36:11 -07:00
Awni Hannun 0b807893a7 fix wraps compile (#2461) 2025-08-04 16:14:18 -07:00
Awni Hannun 6ad0889c8a default install cuda on linux (#2462) 2025-08-04 15:33:05 -07:00
Zamderax 737dd6d1ac Add missing <algorithm> header to jit_compiler.cpp (#2460)
Fixes compilation error on Linux where std::find_if is used on line 121
but the <algorithm> header was not included. While this might work on
some platforms due to transitive includes, it's not guaranteed by the
C++ standard.

Resolves issue #2459
2025-08-04 14:00:46 -07:00
Cheng aaf78f4c6b Use LRU cache for cuda graph (#2448)
* Use LRU cache for cuda graph

* Remove unused destructor
2025-08-02 21:28:57 +09:00
Angelos Katharopoulos 8831064493 Fix arctan2 grads (#2453) 2025-08-01 21:06:04 -07:00
Angelos Katharopoulos be9bc96da4 [CUDA] Matmul utils initial commit (#2441) 2025-08-01 14:22:25 -07:00
Angelos Katharopoulos 86258f292f [CUDA] Vectorize generated kernels (#2444) 2025-07-31 18:18:57 -07:00
Cheng b26d88591c [CUDA] Save primitive inputs faster (#2449)
* Add more nvtx loggings

* [CUDA] Saving primitive inputs faster

* Remove unneeded check
2025-08-01 10:16:06 +09:00
Cheng 86c6a15571 [CUDA] Backward convolution (#2431) 2025-08-01 09:54:05 +09:00
junpeiz 8b25ce62d5 Add tests for export including control flow models and quantized models (#2430)
* Add tests for export, including control flow export and quantized model export.

* Skip quantization related test for CUDA backend.
2025-07-31 11:06:26 -07:00
Awni Hannun da5912e4f2 fix custom metal extension (#2446) 2025-07-31 06:25:36 -07:00
Cheng daafee676f Fix wrong graph key when using concurrent context (#2447) 2025-07-31 06:01:05 -07:00
Awni Hannun d32519c8ee fix gemv regression (#2445) 2025-07-30 14:23:01 -07:00
Awni Hannun b405591249 fix circular reference (#2443) 2025-07-30 09:37:44 -07:00
Angelos Katharopoulos 3bf81ed1bd [CUDA] Quantized refactoring (#2442) 2025-07-30 08:27:20 -07:00
Cheng 2204182bba Make CI faster (#2440) 2025-07-30 02:26:36 -07:00
Cheng 3628e5d497 Use load_vector in arg_reduce (#2439) 2025-07-30 17:40:26 +09:00
Cheng a0ae49d397 Move arange to its own file (#2438) 2025-07-30 13:05:51 +09:00
Cheng 254476718b Remove the kernel arg from get_launch_args (#2437) 2025-07-30 11:43:02 +09:00
Awni Hannun 3adba92ebe Cuda faster softmax (#2435)
* faster softmax and logsumexp

* faster softmax and logsumexp

* format
2025-07-29 17:18:12 -07:00
Awni Hannun ef631d63af faster rms norm (#2433) 2025-07-29 13:12:00 -07:00
Cheng 970dbe8e25 Use ccache in CI (#2414)
* Detect ccache

* Use ccache in CI

* Separate cache for different images

* Test both 12.2 and 12.9 for PRs
2025-07-29 08:43:22 +09:00
Awni Hannun 641be9463b Add more CUDA architectures for PyPi package (#2427)
* add cuda sm 90

* add more archs
2025-07-28 12:35:15 -07:00
Awni Hannun ab0e608862 [CUDA] More sizes for gemv (#2429)
* route more to gemv

* route more sizes to custom gemv
2025-07-28 12:35:01 -07:00
Awni Hannun 1588659062 no occupancy query for launch params (#2426) 2025-07-28 09:09:41 -07:00
Awni Hannun b9e88fb976 [CUDA] Fix segfault on exit (#2424)
* fix cuda segfault on exit

* comment
2025-07-27 08:08:13 -07:00
Awni Hannun 4ad53414dd fix cuda pypi package (#2423)
* fix cuda pypi package

* patch bump
2025-07-25 15:20:29 -07:00
Awni Hannun d1165b215e version (#2420) 2025-07-25 13:29:28 -07:00
Awni Hannun dcb8319f3d update install docs and requirements (#2419) 2025-07-25 12:13:19 -07:00
Awni Hannun 5597fa089c Fix qvm splitk (#2415) 2025-07-25 11:50:24 -07:00
Awni Hannun 9acec364c2 [CUDA] Always use batched matmul (#2404)
* cuda batched mm

* addmm as well

* comment
2025-07-24 20:46:02 -07:00
Skonor 7d9d6ef456 docs: fix adam and adamw eps placement (#2416)
Co-authored-by: Mikhail Gorbunov <m_gorbunov@apple.com>
2025-07-24 16:40:45 -07:00
Cheng 6f5874a2f2 [CUDA] Initial implementation of Convolution with cuDNN (#2385)
* Link with cuDNN

* Initial implementation

* Remove backend apis

* Fix recording cudnn conv

* More unused backend apis

* Fix C++ conv tests

* include cudnn as python dep

* Install libcudnn9-dev-cuda-12 in CI

* cudnn only accepts contiguous inputs

* Switch to backend apis

* Plan needs to be kept alive

* Turn off tf32

* Add cache

* Test the native cuda graph api

* Set cudnn stream before execution

* Make LRUCache more like a normal container

* Do error check for cublas handle

* Zero-initilizing array

* Use tf32 for conv

* Skip TestConv.test_torch_conv_2D test

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-07-25 08:12:10 +09:00
Awni Hannun 70dc336785 Test on cuda 12.2 and 12.9 (#2413) 2025-07-24 06:06:15 -07:00
Awni Hannun 4e504039f5 [Metal] Release metal events (#2412)
* release metal events

* fix

* fix
2025-07-23 19:53:42 -07:00
Awni Hannun d1f4d291e8 Fix uv install and add dev release (#2411)
* fix uv install and add dev release

* fix docstring

* pin cuda deps

* cuda release on cpu-only machine
2025-07-23 16:54:19 -07:00
Awni Hannun e1840853ce full row mask in sdpa consistently gives nan (#2406) 2025-07-23 16:37:03 -07:00
Cheng 0f5ce173da [CUDA] --compress-mode requires CUDA 12.8 (#2407) 2025-07-23 06:11:11 -07:00
Cheng 588854195f Remove unused code in Convolution::vjp (#2408) 2025-07-23 06:11:00 -07:00
Fangjun Kuang 28d068bce6 Fix an error in the comment for mx.dequantize (#2409) 2025-07-23 06:10:50 -07:00
Awni Hannun d107d8d495 add cuda gemv (#2400) 2025-07-22 08:24:13 -07:00
Awni Hannun 1e496ddb82 [CUDA] Simplify allocator (#2392)
* simplify allocator and fixe race with small pool

* Don't use shared event in worker

* use cuda buffer in small pool

* comment

* comment
2025-07-22 08:24:01 -07:00
Awni Hannun 74eccbf3fa use size option in binary (#2399) 2025-07-22 07:00:53 -07:00
Awni Hannun 08638223ca Fix including stubs in wheel (#2398)
* fix including stubs in wheel

* fix bool_
2025-07-22 06:30:17 -07:00
Cheng 56cc858af9 Add contiguous_copy_cpu util for copying array (#2397) 2025-07-21 07:30:35 -07:00
Cheng f55c4ed1d6 Remove thrust iterators (#2396) 2025-07-21 07:30:27 -07:00
Awni Hannun 93d70419e7 [CUDA] speedup handling scalars (#2389)
* speedup scalars in cuda

* comment
2025-07-18 21:47:31 -07:00
Awni Hannun 63f663d9c6 fix cuda manylinux version to match others (#2388) 2025-07-18 21:02:16 -07:00
Awni Hannun 84b4d96efa fix release build + patch bump (#2387) 2025-07-18 14:47:37 -07:00
Awni Hannun aec67f2fa6 patch bump (#2386) 2025-07-18 12:25:48 -07:00
Gökdeniz Gülmez deee214a95 Adding support for the Muon Optimizer (#1914)
* initial commit with workong optmimizer

* update ACKNOWLEDGMENTS.md

* nits and adding it to test

* nits

* G.astype(mx.bfloat16) to G.astype(G.dtype)

* G.ndim >= 2 to assert G.ndim == 2

* remove coments

* replace with  mx.addmm

* remove comments

* format

* nits

* match muon

* fix addmm

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-07-18 12:25:28 -07:00
Cheng 45adec102c Add contiguous_copy_gpu util for copying array (#2379) 2025-07-18 06:44:25 -07:00
Cheng 31fc530c76 [CUDA] Add more ways finding CCCL headers in JIT (#2382) 2025-07-17 15:25:34 -07:00
Awni Hannun fbb3f65a1a fix resource leaks in matmul and graph (#2383) 2025-07-17 06:50:15 -07:00
Angelos Katharopoulos 6b1b8ea91b [CUDA] Add work per thread to compile (#2368) 2025-07-17 06:47:52 -07:00
Awni Hannun b2273733ea Test with CUDA 12.2 (#2375)
* Test with CUDA 12.0

* try older image

* fix cpu sort
2025-07-16 13:00:37 -07:00
Awni Hannun f409b229a4 fix ring distributed test (#2380) 2025-07-16 11:25:24 -07:00
Cheng 30571e2326 Rename the copy util in cpu/copy.h to copy_cpu (#2378) 2025-07-16 07:34:24 -07:00
Awni Hannun d7734edd9f fix complex reduce + nan propagation in min and max (#2377) 2025-07-15 18:19:47 -07:00
Awni Hannun 2ba69bc8fa lower memory uniform sampling (#2361)
* lower memory uniform

* use fp32

* fix
2025-07-15 14:22:07 -07:00
Cheng cb349a291c [CUDA] Use cuda::std::complex in place of cuComplex (#2372) 2025-07-15 00:36:13 -07:00
Awni Hannun f0a0b077a0 Install linux with mlx[cuda] and mlx[cpu] (#2356)
* install linux with mlx[cuda] and mlx[cpu]

* temp for testing

* cleanup circle, fix cuda repair

* update circle

* update circle

* decouple python bindings from core libraries
2025-07-14 17:17:33 -07:00
Awni Hannun 49114f28ab fix flaky test (#2371) 2025-07-14 17:16:18 -07:00
Awni Hannun e7d2ebadd2 [CUDA] Affine quantize (#2354)
* affine quantize and dequantize kernels

* format

* fix

* format
2025-07-14 15:45:44 -07:00
Awni Hannun e569803d7c update linux build (#2370) 2025-07-14 15:13:56 -07:00
Cheng d34f887abc Add Primitive::name and remove Primitive::print (#2365) 2025-07-14 14:06:35 -07:00
Angelos Katharopoulos 5201df5030 Fix imag() vjp (#2367) 2025-07-14 13:11:16 -07:00
Cheng 2d3c26c565 [CUDA] Do not put kernels in annoymous namespace (#2362) 2025-07-12 14:24:45 -07:00
Cheng 6325f60d52 [CUDA] Bundle CCCL for JIT compilation (#2357)
* Ship CCCL for JIT compilation

* Remove cexpf
2025-07-11 18:45:37 -07:00
Awni Hannun 42cc9cfbc7 fix copy dispatch (#2360) 2025-07-11 10:59:35 -07:00
Cheng 8347575ba1 [CUDA] Implement Scan kernel (#2347)
* Contiguous scan

* Strided scan

* Enable tests

* Fix failing logaddexp test

* Use cexpf in Metal
2025-07-10 16:54:12 -07:00
Angelos Katharopoulos b6eec20260 Fix edge check in qmm_n QuantizedLoader (#2355) 2025-07-10 16:28:50 -07:00
Angelos Katharopoulos 0eb035b4b1 Fix type promotion in Adam with bias correction (#2350) 2025-07-10 11:14:42 -07:00
Cheng afb9817599 [CUDA] Put version in ptx cache dir path (#2352) 2025-07-10 07:24:21 -07:00
Cheng 8fb3e7a26c [CUDA] Set current device before cudaGraphLaunch (#2351) 2025-07-10 07:24:02 -07:00
jhavukainen 8c7bc30ce4 Align mlx::core::min op nan propagation with NumPy (#2346) 2025-07-10 06:20:43 -07:00
Cheng 85873cb162 [CUDA] Do vectorized store/load in contiguous elementwise ops (#2342)
* Do vectorized store/load in unary ops

* Do vectorized store/load in binary_two ops

* Do vectorized store/load in copy ops

* Do vectorized store/load in ternary ops

* Use int32_t for IdxT

* binary => binary_two in binary_two.cu

* Fix tests on large arrays

* Use uint as index type

* Contig uses uint as index and non-contig uses int
2025-07-09 18:48:43 -07:00
Awni Hannun e14ee12491 add zero for argsort vjp (#2345) 2025-07-09 14:37:14 -07:00
jhavukainen 8b9a3f3cea Align mlx::core::max op nan propagation with NumPy (#2339)
* Make max op NaN propagation rules align with numpy

* Adding benchmarks and testing for max op nanpropagation

* Pre-commit formatting

* Fix max complex64 nan propagation and add test

* Improve the cpp unittest

* Only check nans on non-integral types in simd_reduce_impl.

* Cleanup using namespace alias

* Add cpu Max nanpropagation. Fix a small fib in cpu max dispatch data types for int8/int16.

* Make the max nanpropagation test more meaningful for integer types

* Remove tuple unpacking syntax to comply with earlier python versions. Add cuda skip to nanpropagation tests, fix cuda implementation in a separate PR.
2025-07-09 11:26:27 -07:00
Awni Hannun fb4e8b896b patch bump (#2343) 2025-07-08 14:26:07 -07:00
Cheng 2ca533b279 Fix compilation with CUDA 11 (#2331) 2025-07-07 20:00:43 -07:00
Angelos Katharopoulos 4a9b29a875 MoE backward improvements (#2335) 2025-07-07 17:59:53 -07:00
Awni Hannun a4fcc893cd auto build linux release (#2341) 2025-07-07 09:29:23 -07:00
Cheng 9d10239af7 [CUDA] Do vectorized store/load in binary ops (#2330) 2025-07-07 08:44:14 -07:00
Cheng 19facd4b20 Build with all cpu cores by default (#2336) 2025-07-07 06:06:45 -07:00
Angelos Katharopoulos f5299f72cd Fix layernorm race condition (#2340) 2025-07-07 06:06:01 -07:00
Cheng 0e0d9ac522 [CUDA] Add MLX_CUDA_GRAPH_CACHE_SIZE env for setting graph cache size (#2329) 2025-07-05 08:33:29 -07:00
Awni Hannun 8917022deb fix graphs for older cuda (#2328) 2025-07-02 19:37:58 -07:00
Awni Hannun ec0d5db67b [CUDA] Switch to CUDA graphs (#2317)
* cuda graph prototype

fix signal bug + start to add dependencies

capture more

capture more ops

remaining ops

fix reduce and rope deps

add concurrent context

try update, but not working

cosistent topology order

use node api

use node api directly to reduce overhead

fix bug

use kernels in unary

cache graph

format

fix synchronization

format

* comment
2025-07-02 15:59:13 -07:00
Cheng e76e9b87f0 Fix compilation error from integral_constant (#2326) 2025-07-02 06:04:38 -07:00
Awni Hannun cfb6a244ea allow parameters to be deleted (#2325) 2025-07-01 21:27:23 -07:00
Awni Hannun 58f3860306 patch bump (#2324) 2025-07-01 12:12:16 -07:00
Awni Hannun dd4f53db63 use fp32 for testing, add more complex ops (#2322) 2025-07-01 07:30:00 -07:00
Angelos Katharopoulos 3d5e17e507 MLX_SWITCH macros to templates (#2320) 2025-07-01 01:33:44 -07:00
Awni Hannun 33bf1a244b Fix module update in strict mode (#2321)
* fix module update in strict mode

* allow GELU to be pickled
2025-06-29 11:12:29 -07:00
Angelos Katharopoulos 772f471ff2 [CUDA] Fix reductions (#2314) 2025-06-27 12:59:20 -07:00
Angelos Katharopoulos 2c11d10f8d Split broadcast so it is always fused in compile (#2318) 2025-06-26 22:08:18 -07:00
Angelos Katharopoulos 656ed7f780 Fix get 2d grid dims (#2316) 2025-06-25 13:03:09 -07:00
Awni Hannun 81bb9a2a9e Compile float64 functions on CPU (#2311) 2025-06-24 10:18:52 -07:00
Angelos Katharopoulos 5adf185f86 Fix update_modules() when providing a subset (#2308) 2025-06-20 17:19:46 -07:00
Awni Hannun c9a9180584 Cuda perf tuning (#2307)
* perf tuning

* fix adding inputs arrays in matmul / srot

* format

* fix
2025-06-20 14:50:57 -07:00
Awni Hannun 76831ed83d Build CUDA release in Circle (#2306)
* cuda release

* add license
2025-06-19 15:26:36 -07:00
Angelos Katharopoulos b3d7b85376 Make ptx cache settable by environment variable (#2304) 2025-06-17 23:55:56 -07:00
Awni Hannun cad5c0241c [CUDA] synch properly waits for all tasks to finish and clear (#2303)
* cuda synch properly waits for all tasks to finish and clear

* fix copy
2025-06-17 12:03:25 -07:00
Awni Hannun b8022c578a divmod, partition, sort fixes (#2302) 2025-06-16 18:49:32 -07:00
Awni Hannun bc53f8293f Cuda bug fixes 2 (#2298)
* more bug fixes

* more bug fixes

* format
2025-06-16 13:14:46 -07:00
Awni Hannun c552ff2451 [CUDA] Fix back-end bugs and enable corresponding tests (#2296)
* Fix some cuda back-end bugs and enable corresponding tests

* more fixes

* enable more tests

* format
2025-06-16 08:45:40 -07:00
Awni Hannun 4fda5fbdf9 add python testing for cuda with ability to skip list of tests (#2295) 2025-06-15 10:56:48 -07:00
Angelos Katharopoulos 580776559b RoPE for CUDA (#2293)
* First working CUDA rope

* Fix random
2025-06-15 06:08:07 -07:00
Awni Hannun a14aaa7c9d Fix cuda arg reduce (#2291) 2025-06-14 17:54:00 -07:00
Awni Hannun a6d780154f fix cuda gemm for bf16 (#2288) 2025-06-13 22:10:46 -07:00
Awni Hannun 6871e2eeb7 fix cuda jit (#2287) 2025-06-13 19:21:46 -07:00
Awni Hannun 8402a2acf4 Fix complex power and print (#2286)
* fix complex power and print

* fix complex matmul shape
2025-06-13 11:13:00 -07:00
Jagrit Digani fddb6933e1 Collection of refactors (#2274)
* Refactor gemv into a function

* Refactor splitk step 1

* Refactor split k axpby

* Rearrange steel_gemm_regular

* Redirect steel_gemm_regular

* Add axpby routing to steel_matmul_regular

* Refactor AddMM step 1

* Redirect steel_gemm

* Update addmm

* Comments and format

* Some cleanup

* Add architecture gen to device

* Update no copy condition in normalization to account for axis size 1
2025-06-13 10:44:56 -07:00
Cheng c8b4787e4e CUDA backend: indexing ops (#2277) 2025-06-12 21:44:19 -07:00
Awni Hannun 2188199ff8 [CUDA] ternary with select op (#2283)
* cuda ternary with select op

* comment + fix

* fix
2025-06-12 20:24:43 -07:00
Awni Hannun aa07429bad Fix cuda build (#2284) 2025-06-12 17:48:05 -07:00
Awni Hannun 918761a25a [CUDA] RMSNorm and VJP (#2280)
* rms norm start

* nit
2025-06-12 17:09:49 -07:00
Cheng a4fc671d3e CUDA backend: compile (#2276)
* CUDA backend: compile

* Rename kernels/ to device/
2025-06-12 17:08:39 -07:00
Awni Hannun f5f65ef48c Make sliceUpdate general (#2282)
* Make sliceUpdate general

* fix
2025-06-12 16:48:54 -07:00
Cheng c2dd81a8aa Fix warnings from latest CUDA toolkit (#2275) 2025-06-12 06:03:01 -07:00
Cheng d7e680ffe4 CUDA backend: layernorm (#2271) 2025-06-11 15:48:32 -07:00
Cheng c371baf53a CUDA backend: softmax (#2272) 2025-06-11 13:55:22 -07:00
Cheng ccf78f566c CUDA backend: argreduce (#2270) 2025-06-11 13:26:17 -07:00
Cheng c9fa68664a CUDA backend: reduce (#2269) 2025-06-11 11:22:25 -07:00
Awni Hannun c35f4d089a start cuda circle config (#2256)
* rebase

* fix metal kernel linking issue on cuda

* start cuda circle config
2025-06-10 21:19:47 -07:00
Angelos Katharopoulos 8590c0941e Add load_safe to the general conv loaders (#2258) 2025-06-10 20:58:16 -07:00
Cheng 095163b8d1 Fix building cpp benchmarks on Linux (#2268) 2025-06-10 17:10:24 -07:00
Cheng 99c33d011d rebase + nit (#2260)
Co-authored-by: Awni Hannun <awni@apple.com>
2025-06-10 10:51:51 -07:00
Awni Hannun 62fecf3e13 fix conv export (#2265) 2025-06-10 09:34:01 -07:00
Cheng 7c4eb5d03e CUDA backend: random (#2261) 2025-06-10 08:59:56 -07:00
Cheng bae9a6b404 CUDA backend: sort (#2262)
Co-authored-by: Awni Hannun <awni@apple.com>
2025-06-10 08:59:47 -07:00
Christopher Fleetwood 004c1d8ef2 Report number of missing parameters (#2264)
* chore: inform

* chore: format

---------

Co-authored-by: FL33TW00D <FL33TW00D@users.noreply.github.com>
2025-06-10 06:37:50 -07:00
Cheng 7ebb2e0193 CUDA backend: binary ops (#2259) 2025-06-10 06:37:40 -07:00
Awni Hannun 9ce77798b1 fix export to work with gather/scatter axis (#2263) 2025-06-09 20:37:27 -07:00
Cheng f8bad60609 CUDA backend: unary ops (#2158) 2025-06-09 06:45:08 -07:00
Emmanuel Ferdman 5866b3857b Refactor the lu test (#2250)
Signed-off-by: Emmanuel Ferdman <emmanuelferdman@gmail.com>
2025-06-07 06:12:08 -07:00
Awni Hannun 1ca616844b Fix unintuitive metal kernel caching (#2242)
* Fix unintuitive metal kernel caching

* alternative solution
2025-06-06 20:08:15 -07:00
Angelos Katharopoulos 2e8cf0b450 Change layernorms to two pass algorithm (#2246) 2025-06-06 13:34:56 -07:00
Cheng 24f89173d1 CUDA backend: matmul (#2241) 2025-06-06 12:24:04 -07:00
Awni Hannun c6a20b427a Improve metal elementwise kernels (#2247)
* improve metal elementwise kernels

* compile and copy

* fix jit
2025-06-06 11:37:40 -07:00
Awni Hannun a5ac9244c4 fix linux linking error (#2248) 2025-06-06 10:41:51 -07:00
Awni Hannun c763fe1be0 default strict mode for module update and update_modules (#2239) 2025-06-05 15:27:02 -07:00
Cheng 52dc8c8cd5 Add profiler annotations in common primitives for CUDA backend (#2244) 2025-06-04 19:55:12 -07:00
Angelos Katharopoulos aede70e81d Perf regression fix (#2243) 2025-06-03 17:55:12 -07:00
Cheng 85a8beb5e4 Avoid atomic updates across CPU/GPU in CUDA event (#2231) 2025-06-03 16:49:06 -07:00
Cheng 0bb89e9e5f Share more common code in Compiled (#2240)
* Share more common code in Compiled

* Remove build_lib_name
2025-06-03 16:48:50 -07:00
Cheng 5685ceb3c7 Avoid invoking allocator::malloc when creating CUDA event (#2232) 2025-06-03 16:48:40 -07:00
Suryash Malviya 0408ba0a76 Optimizing Complex Matrix Multiplication using Karatsuba’s Algorithm (#2220)
* Implementing Complex Matmul using Karatsuba Algorithm

* Implemented Karatsuba's Algorithm for complex matmul and pre-commit them

* fix

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-06-02 15:58:46 -07:00
Awni Hannun cbad6c3093 version (#2237) 2025-06-02 15:58:33 -07:00
Cheng 1b021f6984 Fast primitives decide when to use the fallback (#2216) 2025-06-02 13:26:37 -07:00
Cheng 95b7551d65 Do not check event.is_signaled() in eval_impl (#2230) 2025-06-02 13:23:34 -07:00
Cheng db5a7c6192 Add memory cache to CUDA backend (#2221)
* Move BufferCache out of allocator

* Add memory cache to cuda backend allocator

* Simplify BufferCache assuming buf can not be null
2025-05-30 12:12:54 -07:00
Awni Hannun 6ef2f67e7f 5bit quants (#2226)
* 5bit quants

* 5bit quants
2025-05-30 12:12:10 -07:00
Cheng f76ee1ffd2 Move some dims utils to common (#2223) 2025-05-29 06:48:30 -07:00
Cheng 54a71f270a Remove unused defines (#2217) 2025-05-23 06:14:58 -07:00
Awni Hannun 55b4062dd8 copyright in docs (#2214) 2025-05-21 17:13:04 -07:00
Cheng 79071bfba4 Fix out-of-bounds default value in logsumexp/softmax (#2213) 2025-05-21 07:25:16 -07:00
Cheng 7774b87cbd Remove redundant simd_sum in logsumexp (#2210) 2025-05-21 07:25:03 -07:00
Cheng 35c87741cf Build for compute capability 70 instead of 75 (#2209) 2025-05-20 19:42:48 -07:00
Jack Wind 4cbe605214 Feat: Allow per-target Metal debug flags (#2201)
* feat: allow per-target Metal debug flags

* formatting fix
2025-05-20 10:22:26 -07:00
Clement Liaw ab8883dd55 include mlx::core::version() symbols in the mlx static library (#2207) 2025-05-20 07:39:11 -07:00
Awni Hannun eebe73001a fix large arg reduce (#2206) 2025-05-19 13:10:44 -07:00
Angelos Katharopoulos 0359bf02c9 Nearest upsample (#2202) 2025-05-19 11:23:38 -07:00
Cheng 237f9e58a8 Fix BEFORE keyword in target_include_directories (#2204) 2025-05-19 06:10:44 -07:00
Awni Hannun 8576e6fe36 fix conv2d bug + faster conv 1d (#2195)
* fix conv2d bug + faster conv 1d

* revert sort + flaky test
2025-05-18 06:05:11 -07:00
Angelos Katharopoulos 0654543dcc Add complex eigh (#2191) 2025-05-18 00:18:43 -07:00
Awni Hannun 48ef3e74e2 reduce vjp for all and any (#2193) 2025-05-16 08:38:49 -07:00
Cheng 7d4b378952 Include cuda_bf16.h for bfloat16 overloads (#2192)
* Include cuda_bf16.h for bfloat16 overloads

* Add NO_GPU_MULTI(Eig) in cuda backend
2025-05-16 06:44:42 -07:00
Jack Wind 7ff5c41e06 Add set_threadgroup_memory_length to CommandEncoder (#2183) 2025-05-16 00:28:03 -07:00
Awni Hannun 602f43e3d1 fix conv grad (#2187) 2025-05-15 19:20:36 -07:00
Awni Hannun a2cadb8218 real and imag properties (#2189) 2025-05-15 18:17:50 -07:00
Awni Hannun c1eb9d05d9 non-symmetric eig and eigh (#2188) 2025-05-15 13:01:44 -07:00
Angelos Katharopoulos cf6c939e86 Fix some complex vjps (#2178) 2025-05-14 23:37:12 -07:00
Angelos Katharopoulos 130df35e1b Add random normal distribution for complex numbers (#2182) 2025-05-13 22:43:45 -07:00
Cheng 0751263dec Fix typo in row_reduce_small (#2179) 2025-05-13 20:19:54 -07:00
Cheng eca2f3eb97 Add remove_index utility (#2173) 2025-05-13 17:09:56 -07:00
Angelos Katharopoulos 3aa9cf3f9e Fix put_along_axis for empty arrays (#2181) 2025-05-13 14:27:53 -07:00
Awni Hannun 8f3d208dce Close a couple edge case bugs: hadamard and addmm on empty inputs (#2177)
* handle hadamard and addmm on empty inputs

* fix
2025-05-12 10:48:57 -07:00
Ivan Fioravanti caaa3f1f8c Small typos in mx.metal deprecations (#2176) 2025-05-11 06:03:47 -07:00
Awni Hannun 659a51919f patch bump (#2162) 2025-05-09 14:35:14 -07:00
Awni Hannun 6661387066 Fix fft for integer overflow (#2161) 2025-05-09 14:25:12 -07:00
ATurker a7fae8a176 fix: conv_general differences between gpu, cpu (#2070)
* fix general_conv padding

* fix bugs

* add test

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-05-09 10:26:52 -07:00
Cheng 0cae0bdac8 CUDA backend: backbone (#2075) 2025-05-06 21:26:46 -07:00
Awni Hannun 5a1a5d5ed1 fix input coherent kernel launch (#2153) 2025-05-05 17:30:50 -07:00
Cheng 1683975acf Move common gpu primitives to backend/gpu (#2145) 2025-05-05 13:45:29 -07:00
Awni Hannun af705590ac fix batched vector sdpa (#2152) 2025-05-05 13:13:03 -07:00
Awni Hannun 825124af8f fix bw for elementwise ops (#2151)
* fix bw for elementwise ops

* add compile

* fix

* fix

* fix

* fix
2025-05-05 06:15:04 -07:00
Awni Hannun 9c5e7da507 fix compile merging (#2150) 2025-05-02 15:08:50 -07:00
Angelos Katharopoulos 481349495b GPU Hadamard for large N (#1879) 2025-05-01 17:19:17 -07:00
Awni Hannun 9daa6b003f fix shapeless export (#2148) 2025-05-01 15:02:02 -07:00
Angelos Katharopoulos a3a632d567 Fix the launcher when ran locally (#2147) 2025-05-01 12:56:09 -07:00
Awni Hannun e496c5a4b4 fix integer overflow in qmm (#2143) 2025-04-30 09:28:56 -07:00
Cheng ea890d8710 Remove metal-only tests (#2139) 2025-04-30 09:08:39 -07:00
Awni Hannun aa5d84f102 Allow quant layer to be unfrozen (#2142) 2025-04-30 09:08:29 -07:00
Awni Hannun f1606486d2 Generalize gpu backend (#2138)
* generalize gpu backend

* fix no_gpu build

* fix no_gpu build

* generalize gpu backend
2025-04-30 09:08:17 -07:00
Cheng 87720a8908 Fix building with uv (#2141) 2025-04-30 06:04:07 -07:00
Aashiq Dheeraj bb6565ef14 add fftshift and ifftshift fft helpers (#2135)
* add fftshift and ifftshift fft helpers

* address comments

* axes have to be iterable

* fix fp error in roll + add test

---------

Co-authored-by: Aashiq Dheeraj <aashiq@aashiq-mbp-m4.local>
2025-04-29 22:13:45 -07:00
Awni Hannun 7bb063bcb3 Enable vjp for quantized scale and bias (#2129)
* Enable vjp for quantized scale and bias

* higher tol
2025-04-29 13:03:09 -07:00
Alex Chi Z. b36dd472bb return library if it is successfully loaded (#2131) 2025-04-29 07:30:36 -07:00
hdeng-apple 167b759a38 Fix typos (#2136) 2025-04-29 07:26:05 -07:00
charan-003 99b9868859 Clarify dimension notation in conv1d, conv2d, and conv3d docstrings (#2123)
* Clarify dimension notation in conv1d, conv2d, and conv3d docstrings

* Updating transposed convs in conv1d, conv2d, and conv3d

---------

Co-authored-by: Sai Charan Arvapally <saicharan@Sais-MacBook-Pro.local>
2025-04-25 12:18:30 -07:00
1ndig0 6b2d5448f2 Fix the error message in mx.right_shift and mx.left_shift (#2121)
* update right_shift and lef_shift

* simplify

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-04-25 09:14:28 -07:00
Awni Hannun eaf709b83e patch (#2119) 2025-04-24 16:11:07 -07:00
Angelos Katharopoulos f0e70afff0 Fix swift pm load (#2117) 2025-04-24 10:58:29 -07:00
hdeng-apple 86984cad68 Remove static initializers (#2059)
* Remove static initializers in device.cpp, load.cpp, pocketfft.h

* Remove static initializer InTracing::trace_stack

* Remove static initializer of CompilerCache cache

* Revert changes in pocketfft.h

* Remove duplicate private section of thread_pool()
2025-04-24 06:14:49 -07:00
Awni Hannun fbc89e3ced fix pinv (#2110) 2025-04-23 13:08:28 -07:00
hdeng-apple 38c1e720c2 Search mlx.metallib in macOS framework "Resources" dir (#2061)
---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2025-04-23 09:53:13 -07:00
Param Thakkar 600e87e03c Added output_padding parameters in conv_transpose (#2092) 2025-04-23 09:26:33 -07:00
Hyunsung Lee 3836445241 Add broadcast_shapes in python API (#2091) 2025-04-22 18:57:39 -07:00
Yury Popov 1d2c9d6a07 Complex scan (#2094) 2025-04-22 18:56:28 -07:00
Awni Hannun e8ac6bd2f5 irfft throws instead of segfaults on scalars (#2109) 2025-04-22 10:25:55 -07:00
Awni Hannun fdadc4f22c Add more complex unary ops (#2101) 2025-04-21 13:04:54 -07:00
Awni Hannun 79b527f45f conv vmap (#2102) 2025-04-21 13:04:39 -07:00
Awni Hannun dc4eada7f0 Use unordered map for kwargs in export/import (#2087)
* use unordered map for kwargs in export/import

* comment
2025-04-21 07:17:22 -07:00
Cheng 70ebc3b598 Return const ref in array::data_shared_ptr (#2100) 2025-04-21 07:17:09 -07:00
Cheng b13f2aed16 Introduce macros for dispatching dynamic dtypes as static types (#2073) 2025-04-19 06:16:30 -07:00
Param Thakkar 5f04c0f818 Fixed shift operations issue (#2080)
* Fixed shift operations issue

* Added tests and fixes

* Fixed loop syntax error

* Added tests for bool

* Fixed typo
2025-04-18 14:28:33 -07:00
Awni Hannun 55935ccae7 fix py gc edge case (#2079) 2025-04-18 12:46:53 -07:00
Awni Hannun b529515eb1 minor bump (#2081) 2025-04-17 14:57:11 -07:00
Angelos Katharopoulos 3cde719eb7 Route to gather qmm only for many tokens per expert (#2082) 2025-04-17 14:53:08 -07:00
Angelos Katharopoulos 5de6d94a90 Gather qmm batched kernel and refactoring of quantized (#2078) 2025-04-17 13:53:11 -07:00
Angelos Katharopoulos 99eefd2ec0 Gather mm new kernel and small refactoring (#2040) 2025-04-14 16:37:36 -07:00
Yury Popov e9e268336b LogCumSumExp (#2069) 2025-04-13 01:27:29 -07:00
Awni Hannun 7275ac7523 Fix release build (#2072) 2025-04-12 20:41:58 -07:00
Angelos Katharopoulos c4189a38e4 Add float mask to sdpa vector (#2068) 2025-04-11 17:29:40 -07:00
Awni Hannun 68d1b3256b nit: fix exception handling (#2066) 2025-04-11 14:12:08 -07:00
Awni Hannun 9c6953bda7 Fix stubgen (#2065)
* Fix stubgen

* add multi optim to docs
2025-04-11 12:02:54 -07:00
Awni Hannun ef7ece9851 fix fft bug (#2062) 2025-04-10 19:41:27 -07:00
Angelos Katharopoulos ddaa4b7dcb Fix the test and add custom min/max reductions for uncommon MPI types (#2060) 2025-04-10 17:01:17 -07:00
Cheng dfae2c6989 Fix MSVC build due to use of M_LN2 (#2058) 2025-04-10 07:41:41 -07:00
Anastasiia Filippova 515f104926 Min / max reductions (#2041) 2025-04-09 23:22:20 -07:00
Angelos Katharopoulos 9ecefd56db Do not load the default lib if another is requested (#2055) 2025-04-09 13:31:38 -07:00
Awni Hannun e5d35aa187 no sdpa in grad (#2054) 2025-04-08 19:13:54 -07:00
Awni Hannun 00794c42bc Fix causal mask sdpa vec (#2053)
* fix sdpa vector causal mask

* test
2025-04-08 09:11:23 -07:00
Cheng 08a1bf3f10 Remove Event::Signal() (#2052) 2025-04-08 06:20:27 -07:00
Awni Hannun 60c4154346 Only request residency once (#2051) 2025-04-07 10:47:51 -07:00
Awni Hannun f2c85308c1 add a half simd gemm fallback (#2046)
* add a half simd gemm fallback

* nit
2025-04-07 09:31:29 -07:00
Awni Hannun 1a28b69ee2 only add to residency set once (#2049) 2025-04-06 17:38:25 -07:00
Cheng ba09f01ce8 Remove test of converting negative float to uint (#2048) 2025-04-06 06:21:46 -07:00
Cheng 6cf48872b7 wait_for_one should wait for task to finish (#2047) 2025-04-05 20:05:16 -07:00
Angelos Katharopoulos 7b3b8fa000 Fix ci release (#2045) 2025-04-04 20:25:01 -07:00
Awni Hannun ec5e2aae61 nit in doc (#2044) 2025-04-04 12:04:17 -07:00
Awni Hannun 86389bf970 patch bump (#2043) 2025-04-03 13:15:18 -07:00
Jagrit Digani 3290bfa690 Add new sdpa function overload (#2035)
* Add new sdpa function overload

* Address comments

* Remove std::varaint from cpp sdpa function
2025-04-03 11:58:28 -07:00
Jagrit Digani 8777fd104f Depthwise Conv2D optimization (#2036)
- Add new specialized kernel for small kernel (kernels size <= 7), small strides (strides <= 2) depthwise 2d convolutions
- Add related tests
2025-04-03 09:42:04 -07:00
Awni Hannun c41f7565ed fix softmax / logsumexp (#2042) 2025-04-03 08:32:59 -07:00
Awni Hannun 9ba81e3da4 tune quant dispatch (#2031) 2025-04-02 20:05:54 -07:00
Awni Hannun c23888acd7 Fix build warning (#2033) 2025-04-01 14:42:27 -07:00
Awni Hannun f98ce25ab9 fix residency set for real (#2032) 2025-04-01 12:59:48 -07:00
Awni Hannun de5f38fd48 Custom logsumexp (#2028)
* initial custom logsumexp

* more tests

* comments + fix
2025-03-31 07:36:55 -07:00
Angelos Katharopoulos ec2854b13a Swap -inf for finite_minimum value (#2029) 2025-03-30 21:55:04 -07:00
Stephen Panaro 90823d2938 Add missing funcs to docs (#2021) 2025-03-30 18:29:33 -07:00
Jesper Stemann Andersen 5f5770e3a2 Fix CPU sign for unsigned ints (#2024)
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2025-03-30 17:56:59 -07:00
Awni Hannun 28f39e9038 Log for complex numbers in Metal (#2025)
* Log for complex numbers in Metal

* fix log2
2025-03-30 17:04:38 -07:00
Awni Hannun b2d2b37888 fix residency set clearing (#2027) 2025-03-30 16:27:26 -07:00
Awni Hannun fe597e141c add pinv to doc (#2020) 2025-03-30 15:54:18 -07:00
Yi Wang 72ca1539e0 Remove unused variable in /setup.py (#2026)
This is a follow up of https://github.com/ml-explore/mlx/pull/2011
2025-03-30 12:52:33 -07:00
Awni Hannun 13b26775f1 use minimum deployment target (#2016) 2025-03-28 14:31:53 -07:00
Awni Hannun 05d7118561 causal vector sdpa (#2018)
* causal vector sdpa

* get rid of memory threshold
2025-03-28 12:36:13 -07:00
Awni Hannun 98b901ad66 enable complex gemm (#2017) 2025-03-28 10:45:13 -07:00
Awni Hannun 5580b47291 iinfo and scalar overflow detection (#2009) 2025-03-27 19:54:56 -07:00
Awni Hannun bc62932984 sdpa specialization for head dim 256 (#2007) 2025-03-27 19:31:25 -07:00
Awni Hannun a6b5d6e759 revise cmake minimum for doctest (#2014) 2025-03-27 19:30:58 -07:00
Yi Wang a8931306e1 Remove unused variable in CMakeBuild (#2011)
Fix https://github.com/ml-explore/mlx/issues/2010
2025-03-27 16:00:51 -07:00
Yi Wang fecdb8717e Polish CONTRIBUTING>md (#2005) 2025-03-25 19:06:34 -07:00
Awni Hannun 916fd273ea wire cache (#2006) 2025-03-25 18:54:01 -07:00
Yi Wang 0da8506552 Update docs for extensions (#2004) 2025-03-25 18:35:03 -07:00
Cheng eda7a7b43e Do not join threads during process exit on Windows (#1738) 2025-03-25 06:33:08 -07:00
Chunyang Wen 022eabb734 Remove unused import (#1987) 2025-03-24 20:19:32 -07:00
Awni Hannun aba899cef8 patch bump (#2000) 2025-03-24 12:47:05 -07:00
Jagrit Digani 6a40e1c176 Fix looping limit in causal attention (#1999) 2025-03-24 12:28:00 -07:00
Jesper Stemann Andersen 9307b2ab8b Fixed 32-bit platform support for distributed/ring implementation (#1996)
Replaced unsigned long integer literals with size_t literals in ring implementation, e.g., 1UL with size_t(1).
2025-03-24 08:08:40 -07:00
Jesper Stemann Andersen 522d8d3917 Added missing netinet/in.h include that fixes build on FreeBSD (#1997)
Defines IPPROTO_TCP.
2025-03-24 08:07:34 -07:00
Awni Hannun a84cc0123f promote mask when needed (#1998) 2025-03-23 19:58:28 -07:00
Andrey Velichkevich f018e248cd fix(backend): Include algorithm library in Allocator (#1992)
Signed-off-by: Andrey Velichkevich <andrey.velichkevich@gmail.com>
2025-03-22 21:27:51 -07:00
Awni Hannun cfd7237a80 fix docs (#1991) 2025-03-21 19:58:53 -07:00
Angelos Katharopoulos 4eef8102c9 Distributed layers (#1270) 2025-03-21 13:52:17 -07:00
Angelos Katharopoulos 69e4dd506b Add a ring all gather (#1985) 2025-03-21 13:36:51 -07:00
Angelos Katharopoulos 25814a9458 Disable mpi on version mismatch (#1989) 2025-03-21 13:36:26 -07:00
Awni Hannun 2a980a76ce Add stats and limit to common allocator and enable tests (#1988)
* add stats to common allocator and enable tests

* linux memory and default

* fix
2025-03-21 12:28:36 -07:00
Angelos Katharopoulos d343782c8b Cross platform libmpi loading (#1975) 2025-03-21 11:23:10 -07:00
Awni Hannun 4e1994e9d7 move memory APIs into top level mlx.core (#1982) 2025-03-21 07:25:12 -07:00
jiyzhang 65a38c452b update the formula of smooth_l1_loss (#1986) 2025-03-21 06:25:23 -07:00
Awni Hannun 7b7e2352cd fix malloc or wait deadlock (#1976) 2025-03-20 16:48:43 -07:00
Awni Hannun 1177d28395 patch bump (#1981) 2025-03-20 15:12:22 -07:00
Awni Hannun 005e7efa64 fix mask in sdpa (#1980)
* fix mask in sdpa

* fix attention mask

* Re-enable routing for array mask

---------

Co-authored-by: Jagrit Digani <digani@apple.com>
2025-03-20 14:53:12 -07:00
Jagrit Digani b42d13ec84 Update attention tests to show diff, disable array masks (#1978) 2025-03-20 14:25:38 -07:00
Jagrit Digani 9adcd1a650 Support fused masking in Attention (#1924)
* Update API to allow mask='causal' in fast::sdpa

* Add fallback

* Update steel::AttnParams

* Fix typo

* WIP, basic causal

* Update tests

* Update benchmarking

* Update masking loop limits

* Add bool masking and update tests

* Update additive mask

* Update benchmarks

* Update benchmarks

* Update tests

* Update for bfloat error

* Update early exit

* Add random seed to tests
2025-03-20 11:01:32 -07:00
Awni Hannun 3c164fca8c Fix multistream GPU deadlock (#1969)
* fix multistream GPU deadlock

* comments
2025-03-20 07:19:47 -07:00
jiyzhang 95e335db7b Update smooth_l1_loss in losses.py (#1974)
According the definition of smooth_l1_loss, the line 

diff = predictions - targets

Should be updated to 

diff = mx.abs(predictions - targets)

After the modification, the result is consistent with PyTorch smooth_l1_loss
2025-03-19 20:19:02 -07:00
Awni Hannun f90206ad74 Guard nullptr dereference (#1972)
* guard nullptr dereference

* comment
2025-03-19 16:24:10 -07:00
Chunyang Wen 3779150750 refactor: all use schedule (#1973) 2025-03-19 11:24:04 -07:00
Cheng 0a9777aa5c Do not define MLX_VERSION globally (#1966) 2025-03-18 07:12:40 -07:00
Chunyang Wen 45ad06aac8 Fix typo; Fix lint warning when reuse the same name (#1968)
* Fix typo; Fix lint warning when reuse the same name

* Add missing period
2025-03-18 07:12:24 -07:00
Awni Hannun c6ea2ba329 Use same accumulation precision in gemv as gemm (#1962)
* use same accumulation precision in gemv as gemm

* faster

* fix compile
2025-03-16 07:13:24 -07:00
Awni Hannun 2770a10240 fix grad with inplace updates (#1961) 2025-03-13 19:13:09 -07:00
Awni Hannun d2a94f9e6a Only compile warnings as errors for circle (#1957) 2025-03-12 13:08:19 -07:00
Awni Hannun 32da94507a fix vmap for flatten (#1955) 2025-03-11 10:42:22 -07:00
Awni Hannun 736a340478 reduce binary size (#1952) 2025-03-11 06:30:44 -07:00
Awni Hannun 117e1355a2 fix copy for large arrays (#1953) 2025-03-10 15:04:25 -07:00
Awni Hannun 3c3e558c60 Support transposed head/seq for kv (#1950)
* support transposed head/seq for kv

* fix flaky test

* nit
2025-03-10 10:53:45 -07:00
Chunyang Wen cffceda6ee Add type hint for _extra_repr (#1948) 2025-03-10 06:05:36 -07:00
Chunyang Wen 048805ad2c Remove unused modules (#1949) 2025-03-10 06:05:26 -07:00
Chunyang Wen d14c9fe7ea Add file info when raising errors in save (#1943) 2025-03-08 14:51:04 -08:00
Chunyang Wen 5db90ce822 Fix obsured warning (#1944) 2025-03-08 14:50:39 -08:00
Chunyang Wen d699cc1330 Fix unreachable warning (#1939)
* Fix unreachable warning

* Update error message
2025-03-07 17:23:04 -08:00
Awni Hannun c4230747a1 redesign for faster cpu/gpu synch (#1869)
* redesign for faster cpu/gpu synch

* load + more async CPU

* use command encoder API and move more ops to use it

* make fence back-end generic + CPU only fence

* faster build

* fix async eval

* fixes + handle temporaries

* fix / improve cpu conv

* remove unused status, fix siblings

* fix extensions

* fix

* fix no cpu build

* format

* comments

* fix perf regression, remove unecessary abort

* fix events, task limit cpu

* fix waiting

* fix donation / temporaries in normalization
2025-03-06 19:23:38 -08:00
Awni Hannun 5245f12a46 always use json (#1938) 2025-03-06 15:35:56 -08:00
Chunyang Wen a198b2787e Remove unused modules (#1936) 2025-03-06 14:20:27 -08:00
Chunyang Wen 04edad8c59 Add doc string for path (#1937) 2025-03-06 14:20:09 -08:00
David Wisdom 392b3060b0 Fix typo in randint docstring (#1932)
This commit fixes a typo in the docstring for mlx.core.random.randint() by changing "roadcastable" to "broadcastable".
2025-03-05 21:48:00 -08:00
Chunyang Wen 85b34d59bc Clean unused sys (#1929) 2025-03-05 13:48:03 -08:00
Awni Hannun f599c11bc8 bump (#1931) 2025-03-05 13:16:53 -08:00
Angelos Katharopoulos 0792ff02ff Only fail when 10 consecutive socket errors occur (#1928) 2025-03-05 13:16:19 -08:00
Alex Barron fd0d63ba5b Affine quant always in fp32 (#1925)
* do affine quant in fp32

* static cast
2025-03-04 17:50:19 -08:00
Abe Leininger 3835a428c5 Adds nuclear norm support (#1894)
* adjust norm unit test tolerance
2025-03-04 13:26:02 -08:00
Angelos Katharopoulos 9680f72cca Add a multi optimizer (#1916) 2025-03-04 13:16:35 -08:00
Angelos Katharopoulos a0737273d3 Allow debugging in distributed mode (#1920) 2025-03-04 13:01:10 -08:00
Awni Hannun e613d0eaf0 SDPA support for small batch (over sequence) queries (#1922)
* batch query sdpa

* batch sdpa for query
2025-03-04 10:59:04 -08:00
Awni Hannun 6bcd6bcf70 fix donation in scan (#1917) 2025-03-03 11:30:59 -08:00
Awni Hannun ba12e4999a Use a heap for small sizes (#1911)
* use a heap for small sizes

* check if VM
2025-03-03 06:50:57 -08:00
Awni Hannun 4e7cd31d12 Fix slice data size (#1913)
* fix slice data size

* add test
2025-03-02 21:50:42 -08:00
Angelos Katharopoulos 5e6c130d93 RMS norm without scaling (#1915) 2025-02-28 20:26:57 -08:00
Angelos Katharopoulos 5d68082881 Ring docs (#1829) 2025-02-28 11:34:21 -08:00
Angelos Katharopoulos 607181644f Add mlx.distributed_config script (#1902) 2025-02-28 11:16:39 -08:00
Jagrit Digani 89d327075f Enabling fused attention for head dim 128 (#1899)
* Share KV smem

* Fix bfloat error

* Unroll O = S @ V loop

* Perf upgrade

* Remove commented out function

* Add -Wno-c++17-extensions flag to metal flags

* Add -Wno-c++17-extensions flag to metal extension flags
2025-02-26 10:02:06 -08:00
Angelos Katharopoulos 6bf00ef631 Fix ring of 2 and allow scalars in API (#1906) 2025-02-25 17:03:01 -08:00
Awni Hannun 7d042f17fe Double for lapack (#1904)
* double for lapack ops

* add double support for lapack ops
2025-02-25 11:39:36 -08:00
Awni Hannun 28b8079e30 fix double type promotion (#1901) 2025-02-25 06:00:53 -08:00
Awni Hannun 7face5d9fd fix cpu compile (#1897) 2025-02-24 14:10:30 -08:00
Awni Hannun a44dc4bdb0 fix leaking objc (#1898) 2025-02-24 13:57:59 -08:00
Awni Hannun 2d0f384b6f fix simd erf_inv (#1896) 2025-02-24 13:57:47 -08:00
Awni Hannun 8ff84b5c43 fix version and expose command queue getter (#1892) 2025-02-20 15:25:15 -08:00
Angelos Katharopoulos 10b271d963 Ring update (#1885) 2025-02-20 14:32:31 -08:00
Jesper Stemann Andersen 0ebc8a3d25 Fixed issue where Clang on FreeBSD failed to compile mlx/backend/cpu/quantized.cpp (#1890) 2025-02-20 12:02:12 -08:00
Awni Hannun bbda0fdbdb Allow non-square lu (#1889) 2025-02-20 08:13:23 -08:00
Jesper Stemann Andersen c86422bdd4 Added mlx::core::version() returning std::string(MLX_VERSION) (#1819)
* Added version.h providing mlx::core::version() returning std::string(MLX_VERSION)

Also, added MLX_VERSION_MAJOR, MLX_VERSION_MINOR, MLX_VERSION_PATCH, MLX_VERSION_NUMERIC, and accompanying functions.

* Added version.h to mlx.h

* Changed version int functions to be constexpr

* Formatting

* Added handling of MLX_VERSION where only the prefix has major.minor.patch format

* Changed version function to be constexpr
2025-02-19 20:30:19 -08:00
Awni Hannun c707b2b0a6 Limit compile buffers (#1887)
* limit compile buffers

* maybe not flaky test
2025-02-19 20:28:13 -08:00
Angelos Katharopoulos 78ba24c37d Raise an exception in the rope op if input is integer (#1884) 2025-02-19 14:43:39 -08:00
Angelos Katharopoulos 1a2cb72030 Ensure linspace always contains start and stop (#1883) 2025-02-19 13:53:20 -08:00
Abe Leininger 344a29506e Enforce triangular matrix form in tri_inv (#1876)
* fix tri_inv bug

* Revert "fix tri_inv bug"

This reverts commit b74b2902016204117040949231887f0622bc2c39.

* Make sure that tri_inv returns a triangular matrix

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2025-02-19 12:42:33 -08:00
Angelos Katharopoulos 71de73a668 Fix convs by reverting #1803 (#1882) 2025-02-18 14:36:34 -08:00
Alex Barron 4c1dfa58b7 xor op on arrays (#1875) 2025-02-17 00:24:53 -08:00
Awni Hannun 5274c3c43f compiler warnings are errors (#1870) 2025-02-17 00:07:49 -08:00
Angelos Katharopoulos 1762793989 Remove unused uniform (#1867) 2025-02-14 15:51:41 -08:00
Awni Hannun 6cec78d8f2 bump (#1866) 2025-02-14 13:09:34 -08:00
Jagrit Digani 2dc307f2e6 Winograd Update for Small batches (#1803)
* Build in padding to Winograd kernels
* Add new fused Winograd kernel
* Enable weight flipping in Winograd kernels
2025-02-14 13:08:13 -08:00
Awni Hannun 7aea5b1895 Allow dynamic ops per buffer based on dispatches and memory (#1864)
* Allow dynamic ops per buffer based on dispatches and memory

* add initial arch values
2025-02-13 19:18:22 -08:00
Ronan Collobert 9733e16496 fix function pointer (#1865) 2025-02-13 18:46:11 -08:00
Alex Barron 7f2d1024f3 add f8_e4m3 loading (#1859) 2025-02-13 17:10:03 -08:00
Awni Hannun 428f589364 Revert "More buffer donation in some cases (#1858)" (#1863)
This reverts commit d274ae77f2.
2025-02-13 14:21:44 -08:00
Alex Barron 5cd97f7ffe Bitwise Inverse (#1862)
* add bitwise inverse

* add vmap + fix nojit

* inverse -> invert

* add to compile + remove unused
2025-02-13 08:44:14 -08:00
Awni Hannun e425dc00c0 Faster small batch qmv (#1861)
* faster small batch qmv

* swap batch and block dims for qvm and qmv regular
2025-02-12 22:02:36 -08:00
Awni Hannun d274ae77f2 More buffer donation in some cases (#1858)
* more donation

* fix

* add test
2025-02-12 19:41:37 -08:00
Alex Barron 55c5ac7820 fix int64 bug (#1860) 2025-02-12 19:23:46 -08:00
Angelos Katharopoulos 0145911bea Fixes output donation for IO ops on the GPU (#1857) 2025-02-12 10:52:30 -08:00
Awni Hannun 0a5215693e Fix grad copies (#1854)
* fix grad with copies

* add test

* add test
2025-02-11 15:26:42 -08:00
Awni Hannun 2a45056ba8 Cycle leak break (#1856)
* detect and break leaks in custom function

* detect and break leaks in custom function
2025-02-11 14:45:02 -08:00
Cheng 142b77751d Fix compilation error on Windows (#1844) 2025-02-10 19:53:05 -08:00
Abe Leininger a5ededf1c3 CPU LU factorization and linear solvers (#1451)
* linalg solve backend

* nits

* more nits + fix

* luf primitive and lu, solve, and solve_triangular backends

* changes / nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-02-10 12:32:24 -08:00
Franck Verrot 7df3f792a2 Ensure Conv2D and Conv3D's kernel sizes aren't trimmed (#1852)
Before the change, this snippet:

```
print(nn.Conv1d(1, 32, 3, padding=1))
print(nn.Conv2d(1, 32, (3, 3), padding=1))
print(nn.Conv3d(1, 32, (3, 3, 3), padding=1))
```

would output:

```
Conv1d(1, 32, kernel_size=3, stride=1, padding=1, dilation=1, groups=1, bias=True)
Conv2d(1, 32, kernel_size=(3,), stride=(1, 1), padding=(1, 1), dilation=1, groups=1, bias=True)
Conv3d(1, 32, kernel_size=(3, 3), stride=(1, 1, 1), padding=(1, 1, 1), dilation=1, bias=True)
```

After the change, the output will be:

```
Conv1d(1, 32, kernel_size=3, stride=1, padding=1, dilation=1, groups=1, bias=True)
Conv2d(1, 32, kernel_size=(3, 3), stride=(1, 1), padding=(1, 1), dilation=1, groups=1, bias=True)
Conv3d(1, 32, kernel_size=(3, 3, 3), stride=(1, 1, 1), padding=(1, 1, 1), dilation=1, bias=True)
```
2025-02-10 06:27:01 -08:00
Angelos Katharopoulos 9eb7d7362f Fix Split::vmap (#1845) 2025-02-08 09:22:13 -08:00
Awni Hannun 1c0c118f7c Fp64 on the CPU (#1843)
* add fp64 data type

* clean build

* update docs

* fix bug
2025-02-07 15:52:22 -08:00
Awni Hannun 1a1b2108ec bump (#1840) 2025-02-06 11:53:24 -08:00
Jagrit Digani b6c6552d20 Add missing #pragma once (#1838) 2025-02-06 11:11:22 -08:00
Awni Hannun 83a0340fa7 allow command (#1836) 2025-02-06 10:32:24 -08:00
Nripesh Niketan a62fc1b39f chore: pre-commit bump (#1837) 2025-02-06 08:55:01 -08:00
Awni Hannun af1b725fda Fix a couple of slicing bugs (#1827)
* fix a few bugs

* fix conv grad

* speedup test

* comment
2025-02-05 19:50:08 -08:00
Awni Hannun 9174606d4c fix sort (#1835) 2025-02-05 17:16:27 -08:00
Awni Hannun ca305afdbe loading empty list is ok when strict = false (#1834) 2025-02-05 16:19:27 -08:00
Awni Hannun fe5987b81d faster sort (#1831) 2025-02-05 06:10:22 -08:00
Awni Hannun a229c8cef0 don't duplicate malloc with custom kernel init (#1830) 2025-02-04 13:20:57 -08:00
Jesper Stemann Andersen f6c0499b8d Resolved ambiguity in mlx::core::take_along_axis (#1822)
* Resolved ambiguity in mlx::core::take_along_axis

Detected by GCC 10 on riscv64-linux-gnu.

* Formatted

* Removed superfluous parentheses in random_tests.cpp
2025-02-04 06:06:17 -08:00
Awni Hannun 1156c84e86 Refactor common into cpu specific and truly common (#1817)
* refactor

* fix extension example

* fix no-cpu
2025-02-03 15:58:02 -08:00
Awni Hannun ec7c7def40 no line buffer for mpi jobs (#1825) 2025-02-03 12:02:15 -08:00
Jesper Stemann Andersen 2d8e667400 MinGW support (#1806)
* Changed /bin/bash to bash for generating compiling preamble

* Fix wrt jit_compiler mingw like msvc wrt. WEXITSTATUS

* Solved ambiguity wrt. bernoulli test shape

* Disabled distributed/ring on Windows

* Fixed jit_compiler command wrt. MinGW

* Extended jit_compiler patch wrt. WEXITSTATUS to FreeBSD
2025-02-01 12:40:06 -08:00
Awni Hannun 80c863b972 Remove accelerate/ (#1816)
* remove accelerate

* comments

* neon reduction
2025-02-01 07:18:26 -08:00
Angelos Katharopoulos f5cc1eea72 Allow different value dimensions in sdpa_vector (#1811) 2025-01-31 20:58:59 -08:00
Awni Hannun b7c9f1d38f scatter axis + gather axis primitives (#1813)
* scatter axis + gather axis primitives

* add transforms

* comment
2025-01-31 20:48:08 -08:00
Awni Hannun c6fc07f1f4 Unify CPU matmuls, remove unused accelerate conv (#1814)
* unify matmuls

* Update mlx/backend/common/matmul.cpp

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2025-01-31 14:43:37 -08:00
Angelos Katharopoulos ded914f442 Small distributed launch helper (#1810) 2025-01-29 17:55:04 -08:00
Awni Hannun 4758c8baa1 Start to cleanup/unify accelerate and common back-ends (Part 1/N) (#1777)
* start to cleanup/unify accelerate and common back-ends

* more progress

* simplify

* add half type and allow infs in simd exp

* unify softmax + quantized, more dispatches to simd quantized mm

* add sin/cos, use simd in vector-scalar ops

* faster CPU vectorize quant

* faster erf/erfinv
2025-01-29 14:34:49 -08:00
Awni Hannun 7064fed1b1 Minor update on MPI docs (#1805) 2025-01-28 11:00:08 -08:00
Awni Hannun 1017ac4a9e add dilation for conv 3d layers + test for 3d conv w/ dilation (#1802) 2025-01-28 06:17:07 -08:00
Angelos Katharopoulos ccb61d7aae Ring distributed backend (#1784) 2025-01-27 22:15:01 -08:00
Awni Hannun 2235dee906 catch stream errors earlier to avoid aborts (#1801) 2025-01-27 14:05:43 -08:00
Awni Hannun 28091aa1ff allow build python lib without specifying path (#1799) 2025-01-27 11:22:35 -08:00
Awni Hannun 121d9a0702 Fix rope fallback to not upcast (#1797)
* fix rope fallback to not upcast

* Update mlx/fast.cpp

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2025-01-26 19:07:21 -08:00
Nick 0cea88bcc5 Use @ matrix multiplication syntax to document matrix-matrix multiplication (#1793)
Co-authored-by: Nick Thompson <nicholas_a_thompson@apple.com>
2025-01-25 16:02:36 -08:00
Angelos Katharopoulos 72146fc4cd Einsum ellipsis (#1788) 2025-01-25 01:28:03 -08:00
Awni Hannun e6a7ab9675 non square qr (#1783) 2025-01-21 14:07:47 -08:00
Angelos Katharopoulos 1f4c127fb9 Move some kernels to get_template_definition (#1782) 2025-01-21 08:59:44 -08:00
Awni Hannun 90532b1f37 recompile when shapeless is different (#1776) 2025-01-20 21:07:10 -08:00
Awni Hannun a8666a757a fix shapeless compile on ubuntu24 (#1775) 2025-01-18 06:04:36 -08:00
Awni Hannun a4667da1eb Faster synchronization Fence primitive (#1773)
* try faster synchronization

move event

fixes

update bench

fix

fix

* non-functioning kernel

* try alternative fence

* cleanup barrier

* get rid of event_fence

* update benchmarks

* doc string in metal fence
2025-01-17 18:42:19 -08:00
Awni Hannun 0c259961ac matmul jvps (#1772) 2025-01-17 10:36:26 -08:00
Awni Hannun f288db8d34 Fix synchronization bug for in stream async works (#1768) 2025-01-15 06:07:34 -08:00
Awni Hannun 33421c1dd3 Limit grad recursion depth by not recursing through non-grad inputs (#1764)
* limit grad recursion depth

* add grad of module test
2025-01-14 14:33:18 -08:00
Nripesh Niketan 5cc5201914 feat: Add orthogonal initializer and corresponding tests (#1651)
* feat: Add orthogonal initializer and corresponding tests

* lint

* Add acknowledgements

* nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2025-01-13 07:29:20 -08:00
Awni Hannun 252e423e81 fix and cleanup event signal/wait for metal (#1765) 2025-01-10 18:37:26 -08:00
wrmsr a4a2764a52 Fix broadcast_arrays python sig (#1763) 2025-01-10 12:33:26 -08:00
Cheng ab8e832c18 0ul is not size_t on MSVC (#1762) 2025-01-10 12:33:11 -08:00
Angelos Katharopoulos 1ce0c0fcb0 Bump version (#1761) 2025-01-09 13:48:20 -08:00
Awni Hannun 657f466402 use sdpa and exportable functions in transformer multi head attention (#1760) 2025-01-09 13:11:55 -08:00
Alex Barron c7b0300af5 Fix batched qmv bug (#1758) 2025-01-09 11:45:57 -08:00
Awni Hannun da8c885784 Simplify removes no-ops from the tape (#1759)
* simplify removes no-ops from the tape

* comment
2025-01-09 11:23:19 -08:00
Awni Hannun 1ccaf80575 Dynamic broadcasting for shapeless compile/export (#1722)
* working towards dynamic broadcast

* shapeless broadcast

* fix build + nits

* use broadcast arrays in quantize matmul

* some cleanup / consistency

* mend

* some comments

* add vjp, jvp for broadcast axes
2025-01-09 11:04:24 -08:00
Cheng ec36bfa317 Include command stdout in error message (#1756)
* Include command stdout in error message

* On Windows pclose returns the exit code
2025-01-08 07:17:03 -08:00
Cheng b8f76f717a Print exceptions in eval_cpu/eval_gpu and abort (#1754) 2025-01-08 06:31:09 -08:00
Awni Hannun d1766f2c70 Add boolean mask support in vector SDPA (#1757) 2025-01-07 20:24:53 -08:00
Awni Hannun 516ded618b Dynamic slicing (#1741)
* dynamic slice and slice update

* python bindings + tests + fix set item

* fix compile issue

* comment

* fix jit
2025-01-07 14:02:16 -08:00
Jesper Stemann Andersen c9c81d0584 Added additional missing unordered_map include that fixes build on FreeBSD (#1755) 2025-01-07 08:27:55 -08:00
Angelos Katharopoulos 545f84d905 Refactor distributed backend (#1752) 2025-01-06 17:33:15 -08:00
Awni Hannun d5ec172c95 Allow boolean mask in sdpa (#1753)
* allow boolean mask in sdpa

* more permissive donation in ternary
2025-01-06 16:57:07 -08:00
Angelos Katharopoulos 25b3a3e541 Optionally specify names for arrays when exporting (#1749) 2025-01-06 13:07:46 -08:00
Awni Hannun 058d6ce683 mpi send use input as output (#1750)
* mpi send use input as output

* move earlier
2025-01-06 06:08:43 -08:00
Angelos Katharopoulos eab93985b8 Update custom function docs (#1748) 2025-01-03 16:35:25 -08:00
Awni Hannun b51d70a83c export docs (#1747) 2025-01-03 15:04:17 -08:00
Awni Hannun 259025100e Fix nd ternary on GPU (#1746) 2025-01-03 11:52:17 -08:00
Awni Hannun c9d30aa6ac MLX in C++ example (#1736)
* MLX in C++ example

* nits

* fix docs
2025-01-02 19:09:04 -08:00
Angelos Katharopoulos 8544b42007 Add namespace (#1745) 2025-01-02 16:49:23 -08:00
Awni Hannun 6fa0501387 Fix concatenate/slice_update vjp + reduce binary size (#1735)
* fix concatenate vjp + reduce binary size

* also cast in slice update
2025-01-02 16:36:33 -08:00
Awni Hannun ae69cb15e9 shapeless compile in docs and partially shapeless reshape (#1742) 2025-01-02 16:24:42 -08:00
Awni Hannun a64a8dfe45 fix extension (#1740) 2025-01-02 16:16:16 -08:00
Venkata Naga Aditya Datta Chivukula 491fa95b1f Added Kronecker Product (#1728) 2025-01-02 16:00:34 -08:00
Danilo Peixoto 92ec632ad5 Fix Distributed Communication documentation (#1731)
* Add missing `size()` method call for group
2025-01-02 14:08:38 -08:00
Cheng 8ecdfb718b Fix export.cpp compilation with MSVC (#1737) 2024-12-29 06:56:30 -08:00
Awni Hannun 4ba0c24a8f Export / import functions to / from a file (#1642)
* export and import functions

* refactor + works for few primitives

* nit

* allow primitives with state

* nit

* nit

* simplify serialize / deserialize

* fix for constants

* python bindings

* maybe fix serialize failure case

* add example

* more primitives, training kind of works

* same result for python and c++

* some fixes

* fix export

* template it up

* some simplificatoin

* rebase

* allow kwargs and multiple functions

* exporter

* more primitives for exporting

* deal with endianness

* handle invalid stream

* add docstring
2024-12-24 11:19:13 -08:00
Cheng 935c8c4bb1 Make mx.compile work on Windows (#1697)
* Invoke MSVC on Windows in mx.compile

* Export kernel symbol on MSVC

* Remove unused template

* Parse env pairs in a robust way

* No need of cassert

* Remove unnecessary helpers

* Fix right trim

* Move command building to a separate file

* Missing header

* Do not pollute cwd with cl.exe

* Simplify str concat

* Pass output dir

* Fix styling
2024-12-24 07:02:33 -08:00
Valentin Roussellet 88f993da38 Explicit parentheses around some logical operators (#1732)
* fix some warnings

* format
2024-12-24 07:02:20 -08:00
Awni Hannun ebfe64b92d shapeless slice update and broadcast when possible (#1727) 2024-12-23 11:25:15 -08:00
Awni Hannun 0308e9af71 Allow offset to be an mx.array for mx.fast.rope (#1724)
* allow offset for rope

* comment
2024-12-19 15:51:44 -08:00
Awni Hannun c3628eea49 Add mx.finfo and use it when making causal mask (#1726)
* finfo

* fixes

* docs
2024-12-19 14:52:41 -08:00
Awni Hannun e03f0372b1 More shape type (#1705)
* more shape type

* fix
2024-12-19 08:08:20 -08:00
Alex Barron f17536af9c More lenient mask type check in SDPA (#1723)
* check mask type

* require promotion
2024-12-18 19:41:38 -08:00
Cheng ed4ec81bca Link python extension with mlx statically on Windows (#1716)
* Link python extension with mlx statically on Windows

* More readable code
2024-12-18 19:26:04 -08:00
Awni Hannun 7480059306 track resource limit and throw if exceeded (#1718) 2024-12-18 18:45:58 -08:00
Awni Hannun 8bae22b0fa fix deletion of non-evaled arrays with siblings (#1714) 2024-12-18 18:45:36 -08:00
Alex Barron 49c34c4161 check mask type (#1721) 2024-12-18 14:25:18 -08:00
Awni Hannun 5548fcc96d fix synch race (#1719) 2024-12-18 12:25:16 -08:00
Cheng 070bd433ab Shorter kernel name for Windows (#1701)
* Shorter kernel name for Windows

* Only hash the clipped part
2024-12-17 18:51:38 -08:00
Cheng c8fb54951a Define NOMINMAX before windows.h (#1715) 2024-12-17 18:51:24 -08:00
Awni Hannun f110357aaa Bump nanobind to 2.4 + fix (#1710)
* bump nanobind to 2.4 + fix

* fix
2024-12-17 10:57:54 -08:00
Tomohiro Oga a6b426422e add cubic to type hinting for upsample (#1709) 2024-12-17 07:30:23 -08:00
Awni Hannun d03c01dfbc fix unflatten vjp (#1708) 2024-12-16 18:37:57 -08:00
Jesper Stemann Andersen a82996e9fb io/load: Enabled pread implementation for mingw32 (#1706) 2024-12-16 07:20:45 -08:00
Cheng af5a614aad Eval before cleanup so model file is unlocked (#1702) 2024-12-14 21:41:49 -08:00
Cheng f9640e049d Install mlx.dll into the same dir with python bindings on Windows (#1690)
* Install mlx.dll into the same dir with python bindings on Windows

* Set BUILD_SHARED_LIBS for dlfcn-win32

* Update cmake requirements to 3.25

* Fix cmake style
2024-12-13 19:50:39 -08:00
Cheng 4768c61b57 Make sure gguf_ctx is closed when error happens (#1699) 2024-12-13 19:50:19 -08:00
Cheng dfccd17ab9 Use psutil to get memory info on Windows (#1700) 2024-12-13 19:50:13 -08:00
Cheng 635117c5d4 Read/write files in binary mode (#1698) 2024-12-13 17:37:05 -08:00
Awni Hannun 50f3535693 Use expand_dims / unflatten / etc in more places (#1696)
* use expand_dims / unflatten in a couple more places

* few more

* few more

* fix
2024-12-12 17:00:44 -08:00
Awni Hannun 9111999af3 Fix small sort with metal validation (#1695) 2024-12-12 09:21:45 -08:00
Awni Hannun 6bd28d246e Allow no copy negative strides in as_strided and slice (#1688)
* allow no copy negative strides in as_strided and slice

* fix jit

* fix jit
2024-12-12 08:59:45 -08:00
Cheng 4d595a2a39 Make compiled preamble work in MSVC (#1675)
* Make compiled preamble work in MSVC

* Remove logging

* Only use powershell for MSVC
2024-12-12 08:55:49 -08:00
Awni Hannun 3a21f61772 Fix build (#1693) 2024-12-11 23:56:25 -08:00
Awni Hannun 4e1e9520e1 Flatten and unflatten (#1692)
* flatten and unflatten

* fix grad

* fix shape infer

* use squeeze + unsqueeze in get_item
2024-12-11 21:51:37 -08:00
Cheng 0bf19037ca Remove "using namespace mlx::core" in python/src (#1689) 2024-12-11 15:45:39 -08:00
Awni Hannun f3dfa36a3a Fix x86 tests (#1691)
* fix x86 tests

* comment
2024-12-11 07:47:18 -08:00
Cheng 4f9b60dd53 Remove "using namespace mlx::core" in benchmarks/examples (#1685)
* Remove "using namespace mlx::core" in benchmarks/examples

* Fix building example extension

* A missing one in comment

* Fix building on M chips
2024-12-11 07:08:29 -08:00
Awni Hannun f76a49e555 ExpandDims primitive (#1687)
* add squeeze primitive

* simplify squeeze, use in gather

* fix

* fix

* fix

* fix

* fix no cpu

* use squeeze in matmul and friends

* expand dims primitive

* comment
2024-12-10 16:39:07 -08:00
Cheng 310ad8d9db Build OpenBLAS from source code for MSVC (#1674)
* Download OpenBLAS binaries when building with MSVC

* Download dlfcn-win32

* Link with dlfcn-win32 correctly

* Build OpenBLAS from source code

* Link with openblas statically

* Link with BLAS privately
2024-12-10 16:14:44 -08:00
Cheng 56db268f47 Provide a pread implementation for MSVC (#1666) 2024-12-10 15:55:53 -08:00
Cheng 92ab6bdeb8 Fix shared library not exporting symbols on Windows (#1684)
* Fix shared library not exporting symbols on Windows

* Function name style
2024-12-10 13:59:14 -08:00
Cheng 0070e360a1 Disable MSVC warnings (#1680) 2024-12-09 19:41:14 -08:00
Amethyst Shen 9df8fed046 Metal-cpp version bump (#1668)
* Metal-cpp version bump

Apple has released the stable version of Metal-cpp for macOS 15 and iOS 18. CMakeLists.txt is updated to build with it instead of the beta one.

* Fix style with cmake-format
2024-12-09 19:40:35 -08:00
Cheng a59fae040f Fix library output directory for MSVC (#1681) 2024-12-09 19:07:50 -08:00
Awni Hannun 29a620cab2 No reshapes in quantized embedding (#1682)
* no reshapes in quantized embedding

* fix inadvertant cast

* add tol
2024-12-09 18:57:38 -08:00
Cheng 87d7a2520e Use Py_ssize_t in python bindings (#1678)
* Use Py_ssize_t in python bindings

* Args passed to std::max must be same type
2024-12-09 12:59:19 -08:00
Awni Hannun 40c62c1321 Use int64 stride everywhere (#1671)
* use int64 stride everywhere

* fix ext

* fix ext

* more shape + cleanup

* one more

* few more
2024-12-09 11:09:02 -08:00
Awni Hannun 35b412c099 Fix compile hasher for string constants. (#1677)
* fix hash

* add test

* nit
2024-12-09 09:26:18 -08:00
Cheng d0f471cff7 Using math defines requires switch in MSVC (#1665)
* Using math defines requires switch in MSVC

* Fix more math macros

* Fix type

* Remove _MSC_VER guard for math defines
2024-12-08 08:16:28 -08:00
Cheng 6f316b8bf5 Use int64_t instead of ssize_t (#1673) 2024-12-07 20:10:44 -08:00
Cheng 7c10c93a1f Convert filesystem path to std::string explicitly (#1672) 2024-12-07 20:10:06 -08:00
Cheng d92ea094f1 Use && instead of and (#1663)
* Use && instead of and

* Remove "and" in ops.cpp
2024-12-07 18:26:39 -08:00
Cheng 6ae5423b4a Do not pass integers to isnan (#1664) 2024-12-07 18:26:23 -08:00
Cheng 9635cffdc8 Include io.h in MSVC for IO functions (#1661) 2024-12-07 18:26:06 -08:00
Cheng 96986fb362 Use auto* for pointers (#1662) 2024-12-07 18:25:40 -08:00
Cheng 3ceb341a75 Use correct complex type for MSVC (#1660) 2024-12-07 18:25:22 -08:00
Awni Hannun 50fa705125 patch bump (#1656) 2024-12-06 13:16:19 -08:00
Awni Hannun 69a2991614 allow compiling lambdas in C++ (#1650)
* allow compiling lambdas in C++

* fix test

* more tests

* auto detect capture-less lambda
2024-12-06 13:13:21 -08:00
mt_caret fd3377dd1f Support bias correction in Adam and AdamW optimizers (#1640) 2024-12-06 12:13:34 -08:00
Awni Hannun d0b6cb0425 More primitives for compiling with shapeless (#1653)
* more shapeless and more Shape

* more shape

* fix

* fix
2024-12-06 11:29:18 -08:00
Alex Barron 95c4a2e3af add back conditionaltype (#1655) 2024-12-06 11:12:01 -08:00
Awni Hannun bc2a29f033 fix (#1654) 2024-12-06 10:48:58 -08:00
Nripesh Niketan 3bb5b4a302 Chore: Add default language in pre-commit and bump hooks (#1652) 2024-12-06 07:54:29 -08:00
Awni Hannun fc88fd9097 Shape and Strides 1 / N (#1645)
* shape and stride type def

* more shape
2024-12-05 12:53:43 -08:00
Awni Hannun c5b0928c1f fix fallback (#1646) 2024-12-05 11:59:53 -08:00
Awni Hannun e047fd977d compile changes if stream changes (#1644) 2024-12-03 14:37:44 -08:00
Jagrit Digani 9d40e521d7 Stop matrix copies with new attention kernel (#1639) 2024-12-02 14:12:38 -08:00
Alex Barron 1445dcaa60 let class predicate specify quantization parameters (#1638) 2024-12-02 14:09:28 -08:00
Jesper Stemann Andersen e4eeb4e910 Added missing unordered_map includes (#1635)
* Added missing includes in mlx/io.h and mlx/backend/metal/metal.h

* Added additional missing unordered_map includes that fixes build on FreeBSD
2024-12-02 07:03:03 -08:00
Awni Hannun aa86876813 fix transformer decoder post norm LN (#1637) 2024-12-02 07:02:17 -08:00
Jesper Stemann Andersen 974bb54ab2 CMake: Enabled using Accelerate on x86_64 / x64 (#1625)
* CMake: Enabled using Accelerate on x86_64 / x64

Cf. https://github.com/JuliaPackaging/Yggdrasil/pull/9761

* CMake: Removed superfluous MLX_BUILD_ARM
2024-11-28 10:55:45 -08:00
Ikko Eltociear Ashimine 9bc2183a31 docs: update device.cpp (#1632)
unecessary -> unnecessary
2024-11-27 20:58:26 -08:00
Awni Hannun d4b222b6d3 Fix some leaks and races (#1629)
* fix leak and fix potential race

* more leak fixes

* fix one more
2024-11-27 20:01:20 -08:00
Jesper Stemann Andersen af2af818a6 Enables build for *-linux-musl (#1627)
Also contributes to being able to build for *-w64-mingw32.

Cf. https://github.com/JuliaPackaging/Yggdrasil/pull/9761
2024-11-27 13:14:24 -08:00
Jesper Stemann Andersen 698e63a608 CMake: Build with dlfcn-win32 to have dlopen etc. on win32 (#1628)
Cf. https://github.com/JuliaPackaging/Yggdrasil/pull/9761
2024-11-27 13:14:13 -08:00
Awni Hannun 211411faf2 fix large ops (#1620) 2024-11-24 09:17:10 -08:00
Awni Hannun bb303c45a5 version (#1617) 2024-11-22 12:00:03 -08:00
Alex Barron 6f7986d592 Cleaner qmv/qvm (#1616) 2024-11-22 11:14:08 -08:00
Awni Hannun 7cbb4aef17 Doc fix (#1615) 2024-11-22 11:12:25 -08:00
Jagrit Digani 02bec0bb6d Matrix Attention kernel (#1610)
* Rough INIT

* [WIP]: Loading and Matmuls added

* [WIP]: Reductions and min working aligned kernel at headdim = 64

* [WIP] Added headdim 80 for testing

* [WIP] Update dispatch params for testing

* [WIP] Add support for unaligned seq lengths - still looks messy

* Update sdpa_benchmarks

* Update sdpa_benchmarks

* Update sdpa_benchmarks

* Enable gqa support

* Update benchmark and switch off 128 headdim

* Update headdim 128 tuning

* Remove older fast attention code. Write out O strided

* Disable hd=128 until further optimizations

* Enable bf16

* Fix data size bug

* Enable attn build outside of jit
2024-11-22 10:34:05 -08:00
Alex Barron c79f6a4a8c 3 and 6 bit quantization (#1613)
* Support 3 and 6 bit quantization
2024-11-22 10:22:13 -08:00
Awni Hannun 0c5eea226b Reduce specializations (#1607)
* start of reduce specializations

* fix all reduce

* fix many dims

* fix

* non-jit tests clear

* cleanup instantiations

* cpu merges

* change dim specializations

* optimize

* fix jit

* fix jit

* use higher precision for integer sum+prod

* fixes
2024-11-21 19:53:00 -08:00
Awni Hannun dcca0d7477 contiguous op / prim (#1612) 2024-11-21 19:51:49 -08:00
Cocoa 0d5e7716ad fix typo: accross -> across (#1609)
Signed-off-by: Cocoa <i@uwucocoa.moe>
2024-11-20 15:30:51 -08:00
Angelos Katharopoulos d8c824c594 Formatting fixes (#1606) 2024-11-20 15:30:36 -08:00
Saanidhya cb431dfc9f Adds 3D pooling (#1526) 2024-11-19 16:45:24 -08:00
Awni Hannun 61d787726a Fix view scalar bug segfault (#1603)
* fix view scalar bug

* fix view scalar bug

* one more fix
2024-11-19 10:54:05 -08:00
Angelos Katharopoulos 5e89aace9b Fix concatenate vmap (#1600) 2024-11-19 10:44:04 -08:00
Awni Hannun 2af7e8a9a6 fix cmake version (#1601) 2024-11-19 08:45:05 -08:00
Awni Hannun 2419edd5b2 Faster indexing math in a few kernels (#1589)
* wip: faster compiled kernels

* faster general unary with uint specialization

* index type in compiled, unary, binary, ternary, copy

* fix jit

* jit fix

* specialize gather + scatter

* nit in docs
2024-11-18 19:52:00 -08:00
Awni Hannun bf481e8e5d Fix sibling leak (#1590)
* add test

* fix + test

* fix fix
2024-11-18 19:17:01 -08:00
Awni Hannun 9d7fa6b8e6 Use osx deployment target to pick Metal version (#1595)
* choose metal based on deployment target rather than system version

* nit

* unused compile def
2024-11-18 19:16:49 -08:00
Angelos Katharopoulos 073076ac7d 2-Pass Sdpa Inference Kernel (#1597) 2024-11-18 17:31:53 -08:00
Awni Hannun 9bd03dd9b4 More buffer donation with no-ops (#1591)
* more donation

* fix test

* fix build
2024-11-18 08:35:41 -08:00
Awni Hannun 6931f84412 fix dispatch threads for a few kernels (#1594) 2024-11-18 08:35:25 -08:00
xnorai 16ec0556a0 Allocate raw JSON metadata buffer on the heap, and limit its size (#1596)
* Allocate raw JSON metadata buffer on the heap, and limit its size to 1GiB

* Set the upper size limit for the header to 100K as in Rust safetensors
2024-11-18 07:22:51 -08:00
Awni Hannun 610af352d4 Dispatch bf16 at run time when using the JIT (#1584)
* Dispatch bf16 at run time when using the JIT

* fix extension

* fix extension build

* fix extension build

* Update utils.h
2024-11-15 16:54:36 -08:00
Awni Hannun b35f1e3c9c fix donation in sdpa (#1587) 2024-11-13 17:21:13 -08:00
Awni Hannun dfa0b9aab4 Cpu fast quantize (#1578)
* cpu quantize

* fix
2024-11-08 20:10:39 -08:00
Alex Barron a4c47b0276 OOB QMV fix (#1579)
* fix oob access in qmv

* skip more

* fix small case
2024-11-08 17:59:45 -08:00
Alex Barron 111fefd5e9 Fix OOB access in qmv (#1577)
* fix oob access in qmv

* skip more
2024-11-08 15:41:30 -08:00
Awni Hannun c1fe1ef081 Bfs width limit (#1568)
* width limit

* fix

* large limit

* put env vars in env namespace
2024-11-08 15:00:46 -08:00
Awni Hannun 8c34c9dac4 throw for invalid case and remove test (#1575) 2024-11-08 12:04:03 -08:00
Awni Hannun 91c0277356 fix per-example mask + docs in sdpa (#1574) 2024-11-08 11:51:15 -08:00
Awni Hannun 9f0d5c12fc Fully wrap the command encoder (#1572)
* fully wrap the command encoder

* use consistent style + fix extensions
2024-11-08 11:50:21 -08:00
Awni Hannun 59247c2b62 add groups in conv2d (#1569) 2024-11-07 13:57:53 -08:00
Awni Hannun 9a3842a2d9 fix (#1566) 2024-11-06 17:10:33 -08:00
Alex Barron 726dbd9267 v0.20.0 (#1565) 2024-11-05 12:37:57 -08:00
Awni Hannun 54f05e7195 Fix gather vmap (#1563)
* fix gather

* fix
2024-11-05 11:29:20 -08:00
Alex Barron 26be608470 Add split_k qvm for long context (#1564)
* Add splitk qvm

* configurable splitk

* tuning

* remove extra instantiation

* remove refactor

* separate test

* cpu tolerance
2024-11-05 11:25:19 -08:00
Angelos Katharopoulos 248431eb3c Reductions update (#1351) 2024-11-04 22:25:16 -08:00
Awni Hannun 76f275b4df error in rms for wrong size (#1562) 2024-11-04 13:24:02 -08:00
Awni Hannun f1951d6cce Use fewer barriers (#1561)
* use fewer barriers

* comment
2024-11-04 10:26:49 -08:00
Angelos Katharopoulos 62f297b51d Sdpa fix (#1558) 2024-11-02 21:25:46 -07:00
Awni Hannun 09bc32f62f No extra reshape (#1557)
* no extra reshape

* lint
2024-11-02 19:07:20 -07:00
Chris Offner 46d8b16ab4 Fix vmap example in docs (#1556) 2024-11-02 17:44:14 -07:00
Chris Offner 42533931fa Fix typo "it's" -> "its" (#1555) 2024-11-02 06:06:34 -07:00
Awni Hannun 9bd3a7102f add python 3.13 to circle (#1553) 2024-11-01 20:55:35 -07:00
Alex Barron 9e516b71ea Add dispatchThreads to custom kernel doc (#1551)
* add dispatchThreads info

* update

* add link
2024-11-01 13:07:48 -07:00
Awni Hannun eac961ddb1 patch (#1550) 2024-10-31 16:10:14 -07:00
Awni Hannun 57c6aa7188 fix multi output leak (#1548) 2024-10-31 09:32:01 -07:00
Awni Hannun cde5b4ad80 patch (#1546) 2024-10-30 19:31:22 -07:00
Awni Hannun 4f72c66911 improvements to scatter / gather (#1541) 2024-10-30 19:30:54 -07:00
Jagrit Digani 960e3f0f05 Gemm update (#1518) 2024-10-30 19:30:28 -07:00
Awni Hannun 884af42da2 Fix thread group for large arrays (#1543)
* fix thread group for large arrays

* comment

* one more
2024-10-30 16:25:12 -07:00
Alex Barron 048fabdabd Fix vmap constant output size (#1524)
* use inputs to determine output size

* remove noop vmap tests
2024-10-30 16:16:53 -07:00
Léo 917252a5a1 Add favicon to docs (#1545)
* add sphinx's html_favicon config

* removed unneeded newline

* ran pre-commit hooks
2024-10-30 13:54:13 -07:00
Carlo Cabrera 1a992e31e8 Skip using Residency sets in VMs (#1537)
* Skip using Residency sets in VMs

Attempting to use residency sets in a VM throws[^1]

    libc++abi: terminating due to uncaught exception of type std::runtime_error: [metal::Device] Unable to construct residency set.

Not quite sure if this is the best fix, but it does make the error go
away.

Note that it was previously possible to run simple programs that used
mlx in a VM prior to 0eb56d5be0. See
related discussion at Homebrew/homebrew-core#195627.

[^1]: https://github.com/Homebrew/homebrew-core/actions/runs/11525831492/job/32105148462#step:3:56

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* change residency check

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-10-29 19:37:23 -07:00
Awni Hannun d2ff04a4f2 fix format (#1539) 2024-10-28 18:29:14 -07:00
Awni Hannun 015c247393 change wino dispatch conditoin (#1534) 2024-10-28 11:13:44 -07:00
Awni Hannun d3cd26820e Faster bits and bernoulli (#1535)
* faster bits and bernoulli

* fix bernoulli
2024-10-28 11:11:00 -07:00
Awni Hannun 91f6c499d7 fix (#1529) 2024-10-25 19:25:35 -07:00
Awni Hannun 35e9c87ab9 patch bump (#1528) 2024-10-25 13:13:23 -07:00
Awni Hannun 8e88e30d95 BFS graph evaluation order (#1525)
* bfs order

* try fix event issue
2024-10-25 10:27:19 -07:00
Awni Hannun 0eb56d5be0 Wired (#1510)
* expose residency sets as wire/unwire

* returns wired size

* fix

* runtime support check

* fix os check

* fix test

* fix no metal build

* docs

* nit

* nits in docs

* nits
2024-10-25 09:35:33 -07:00
Paul Hansel f70764a162 Fix typo in build docs (#1522) 2024-10-24 20:55:06 -07:00
Awni Hannun dad1b00b13 fix (#1523) 2024-10-24 19:17:46 -07:00
Venkata Naga Aditya Datta Chivukula 430ffef58a [Feature] Added Sparse Initialization (#1498)
Co-authored-by: Saanidhyavats <saanidhyavats@gmail.com>
2024-10-24 12:31:24 -07:00
Alex Barron 3d17077187 Add mx.array.__format__ (#1521)
* add __format__

* actually test something

* fix
2024-10-24 11:11:39 -07:00
Angelos Katharopoulos c9b41d460f Working 64-bit scans (#1506) 2024-10-24 11:05:46 -07:00
xnorai 32972a5924 C++20 compatibility for fmt (#1519)
* C++20 compatibility for fmt

* Address review feedback

* Remove stray string

* Add newlines back
2024-10-24 08:54:51 -07:00
Dhruv Govil f6afb9c09b Remove use of vector<const T> (#1514) 2024-10-22 16:31:52 -07:00
Kashif Rasul 3ddc07e936 Eigenvalues and eigenvectors (#1334)
* initial eigvalsh

* add compute_vectors

* add compute_vectors_

* return a pair

* add eigh to return only eigenvectors

* fixed typo

* merge merge Eighvalsh and Eigh into a single primitive

* use the same primate with the flag

* fix primatives

* use MULTI

* fix eval_gpu

* fix decleration

* rename EighPrimitive to Eigh

* tests

* tests

* fix rebase and format

* cleanup lapack

* format

* add cblas.h

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-10-22 12:18:48 -07:00
Awni Hannun c26208f67d Remove Hazard tracking with Fences (#1509)
* remove hazard tracking

* with fence map

* no hazard tracking with fences

* nits

* fix fence retain

* cleanup

* fix quantized rebase
2024-10-21 19:33:32 -07:00
Alex Barron d15fa13daf Batched Quantized Matmul + Fast Small QMV (#1503)
* add fast qmv for small dims

* fix test

* batched cpu

* add batched template param

* refactor metal quantized.cpp
2024-10-21 16:23:17 -07:00
Awni Hannun 58a855682c v0.19.0 (#1502) 2024-10-18 11:55:18 -07:00
Awni Hannun 92d7cb71f8 Fix compile (#1501)
* fix compile

* fix space
2024-10-18 11:06:40 -07:00
Angelos Katharopoulos 50d8bed468 Fused attention for single query (#1497) 2024-10-18 00:58:52 -07:00
Awni Hannun 9dd72cd421 fix gumbel (#1495) 2024-10-17 13:52:39 -07:00
Awni Hannun 343aa46b78 No more 3.8 (#1493) 2024-10-16 17:51:38 -07:00
Awni Hannun b8ab89b413 Docs in ci (#1491)
* docs in circle
2024-10-15 17:40:00 -07:00
Awni Hannun f9f8c167d4 fix submodule stubs (#1492) 2024-10-15 16:23:37 -07:00
Awni Hannun 3f86399922 Real and Imag (#1490)
* real and imag

* fix

* fix
2024-10-15 16:23:15 -07:00
LastWhisper 2b8ace6a03 Typing the dropout. (#1479) 2024-10-15 06:45:46 -07:00
Awni Hannun 0ab8e099e8 Fix cpu segfault (#1488)
* fix cpu segfault

* nit in tests
2024-10-14 16:17:03 -07:00
Awni Hannun 020f048cd0 A few updates for CPU (#1482)
* some updates

* format

* fix

* nit
2024-10-14 12:45:49 -07:00
Awni Hannun 881615b072 Faster metal compiled kernels + some fixes (#1486)
* bump mac tests to use py39

* work per thread for compiled kernels

* fixe for large arrays

* fix
2024-10-14 12:45:38 -07:00
Awni Hannun 0eef4febfd bump mac tests to use py39 (#1485) 2024-10-14 10:40:32 -07:00
Awni Hannun b54a70ec2d Make push button linux distribution (#1476)
* try again

* try again

* try again

* try again

* try again

* try again

* try again

* try again

* .circleci/config.yml

* one more fix

* nit
2024-10-14 06:21:44 -07:00
Awni Hannun bf6ec92216 Make the GPU device more thread safe (#1478)
* gpu stream safety

* comment

* fix
2024-10-12 17:49:15 -07:00
Awni Hannun c21331d47f version bump (#1477) 2024-10-10 13:05:17 -07:00
Awni Hannun e1c9600da3 Add mx.random.permutation (#1471)
* random permutation

* comment
2024-10-08 19:42:19 -07:00
Awni Hannun 1fa0d20a30 consistently handle all -inf in softmax (#1470) 2024-10-08 09:54:02 -07:00
Awni Hannun 3274c6a087 Fix array is_available race cases (#1468) 2024-10-07 19:13:50 -07:00
Angelos Katharopoulos 9b12093739 Add the roll op (#1455) 2024-10-07 17:21:42 -07:00
Awni Hannun f374b6ca4d Bump nanobind to 2.2 (#1461)
* bump nanobind

* extension version for tests
2024-10-07 16:52:40 -07:00
Awni Hannun 0070e1db40 Fix deep recursion with siblings (#1462)
* fix recursion with siblings

* fix

* add test

* increase tol
2024-10-07 06:15:33 -07:00
Awni Hannun 95d04805b3 Fix complex power on Metal (#1460) 2024-10-06 19:58:30 -07:00
Awni Hannun e4534dac17 Conv grad with groups + bugfix (#1449)
* fix bug in flipped conv with groups, start of grad for groups

* fix

* fix

* fix + test
2024-10-06 07:08:53 -07:00
Angelos Katharopoulos fef3c4ec1d Fix mpi test in CI (#1456)
* Fix mpi test in CI

* Set bind to none
2024-10-06 06:09:17 -07:00
Awni Hannun 1bdc038bf9 fix argpartition + faster {arg} sorts / partitions (#1453) 2024-10-03 14:21:25 -07:00
Awni Hannun 5523d9c426 faster cpu indexing (#1450) 2024-10-03 13:53:47 -07:00
Angelos Katharopoulos d878015228 Fix normalization check_input (#1452) 2024-10-03 13:26:56 -07:00
Cheng 5900e3249f Fix building on Linux (#1446) 2024-09-30 07:00:39 -07:00
Angelos Katharopoulos bacced53d3 Fix row reduce with very few rows (#1447) 2024-09-29 20:00:35 -07:00
Lucas Newman 4a64d4bff1 Add support for grouped 1D convolutions to the nn API (#1444)
* Fix the weight shape for grouped convolutions from the nn API.

* Add tests.

* Pre-commit formatting.

* Add input validation.

* Use integer division instead of casting.

* docs

* nit

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-09-28 06:41:07 -07:00
Awni Hannun b1e2b53c2d bump (#1445) 2024-09-27 13:53:02 -07:00
Awni Hannun 11354d5bff Avoid io timeout for large arrays (#1442) 2024-09-27 13:32:14 -07:00
Awni Hannun 718aea3f1d allow take to work with integer index (#1440) 2024-09-26 15:58:03 -07:00
Awni Hannun 5b6f38df2b Faster cpu ops (#1434)
* faster binary and cleaner copy

* use recursive template for other ops

* more cleanup

* fix from cleanup

* more clean

* fix binary

* use contiguous iterator

* add 3d

* nits

* fix

* fix?

* fix

* fix rebase
2024-09-26 09:19:13 -07:00
Awni Hannun 0b4a58699e Some overhead reductions in mx.fast.metal_kernel (#1437)
* some overhead reductions

* fix

* use +=

* use more +=
2024-09-25 17:25:21 -07:00
Awni Hannun 4f9f9ebb6f Faster Metal unary and binary for general case (#1431)
* faster unary and binary for general case

* update ternary + jit fix

* fix jit

* unary work per thread
2024-09-25 12:07:43 -07:00
Awni Hannun afc9c0ec1b dtype is copy assignable (#1436) 2024-09-25 12:07:13 -07:00
Awni Hannun 195b429d99 Put along axis + fixe for partition grad (#1430)
* put along axis, fixes for partition grad

* zeros for arg reduce
2024-09-23 10:03:38 -07:00
Luke Carlson 2b878e9dd7 Create CITATION.cff (#1425) 2024-09-20 11:39:46 -07:00
Awni Hannun 67b6bf530d Optimization for general ND copies (#1421) 2024-09-17 17:59:51 -07:00
Nripesh Niketan 6af5ca35b2 feat: add cross_product (#1252)
* feat: add cross_product

* lint

* python binding

* refactor: Improve error message for cross_product function

* refactor: more close to numpy cross product

* refactor: improve error message for cross_product function

* finish

* fix acks

* allow old numpy

* doc

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-09-17 13:12:43 -07:00
Awni Hannun 4f46e9c997 More fixes for arrays with large sizes (#1405)
* compile works for big arrays when contiguous

* style

* nits in docs

* a bunch more stuff

* update jit

* update jit

* use constant for shapes and strides and remove elem_to_loc overload

* use kernel instantiation

* docs nits

* update binary and ternary

* comments
2024-09-17 12:46:31 -07:00
Awni Hannun c6739ba7f3 Faster RNN layers (#1419)
* faster rnn

* use admm
2024-09-17 06:04:19 -07:00
Angelos Katharopoulos 914409fef9 Data parallel helper (#1407) 2024-09-16 18:17:21 -07:00
jjuang-apple 8d68a3e805 remove fmt dependencies from MLX install (#1417) 2024-09-16 13:32:28 -07:00
jjuang-apple 6bbcc453ef avoid using find_library to make install truly portable (#1416) 2024-09-16 13:21:32 -07:00
Awni Hannun d5ed4d7a71 override class function (#1418) 2024-09-16 13:21:04 -07:00
Nripesh Niketan 669c27140d Chore: add pre-commit hook for cmake (#1362)
* reset and lint

* format

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-09-16 12:53:01 -07:00
Max-Heinrich Laves adcc88e208 Conv cpu improvements (#1410) 2024-09-15 18:45:10 -07:00
Awni Hannun d6492b0163 fix clip (#1415) 2024-09-14 16:09:09 -07:00
Awni Hannun b3f52c9fbe ensure io/comm streams are active before eval (#1412) 2024-09-14 06:17:36 -07:00
c0g bd8396fad8 Fix typo in transformer docs (#1414) 2024-09-14 06:05:15 -07:00
Angelos Katharopoulos d0c58841d1 Patch bump (#1408) 2024-09-12 16:44:23 -07:00
Angelos Katharopoulos 881f09b2e2 Allow querying the allocator for the buffer size (#1404) 2024-09-11 21:02:16 -07:00
Awni Hannun 8b30acd7eb fix module attribute set, reset, set (#1403) 2024-09-11 16:30:42 -07:00
Awni Hannun 02efb310ca Xcode 160 (#1384)
* xcode 16.0 with debug tests

* limit nproc for builds

* vmap bug

* assert bug

* run python tests in debug mode

* fix view, bool copies preserve bits'

* actual view fix
2024-09-10 15:15:17 -07:00
Awni Hannun e7e59c6f05 Fix copying scalars by adding fill_gpu (#1402)
* fix copying scalars by adding fill_gpu

* Another copy scalar changed to fill

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-09-09 15:54:08 -07:00
Awni Hannun 3ae6aabe9f throw for certain cases of non captured inputs in compile (#1401) 2024-09-09 14:54:31 -07:00
xnorai dc627dcb5e Replace the use of result_of_t with invoke_result_t (#1397)
* Fix C++20 incompatibility

* Fix C++20 incompatibility
2024-09-06 19:52:57 -07:00
Max-Heinrich Laves efeb9c0f02 Transposed Convolution (#1245)
* initial implementation for conv_transpose

ran pre-commit

implemented conv_transpose

updated conv_general docstring

updated conv_general docstring

updated code comments

removed commented run_conv_checks

updated acknowledgments

added missing entry to ops.rst

added op to nn.layers

resolved merge conflicts

* removed ConvolutionTranspose primitive as suggested by reviewer

removed ConvolutionTranspose primitive as suggested by reviewer

* remove transpose flag, add another test

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-09-06 19:52:38 -07:00
Awni Hannun ba3e913c7a Simplifications for MLX C (#1396)
* simplifications for MLX C

* use vectors instead of map

* update examples
2024-09-06 19:16:50 -07:00
Awni Hannun 7cca1727af Fix slice data size (#1394)
* fix slice data size and add tests

* fix contiguous flag

* simplify stride and perform copy for non-contiguous arrays

* fix cpu

* comment
2024-09-04 19:10:43 -07:00
Bhargav Yagnik 11371fe251 Test to prevent bugs like #1386 (#1391)
* updated test_array for missing ops

* formatting changes
2024-09-04 17:24:30 -07:00
Awni Hannun 41c603d48a fix jit reduce (#1395) 2024-09-04 14:03:10 -07:00
Angelos Katharopoulos 969337345f Fix reduce edge case (#1389) 2024-09-01 21:37:51 -07:00
Awni Hannun 9592766939 add std as method (#1387)
* add std as method

* add std as method
2024-09-01 19:49:16 -07:00
Angelos Katharopoulos 58dca7d846 Fix copy in the sort primitive (#1383) 2024-08-31 08:32:14 -07:00
Awni Hannun 0d302cd25b Fix compiel with byte sized constants (#1381) 2024-08-30 17:24:35 -07:00
Alex Barron da691257ec Fix overflow in quantize/dequantize (#1379)
* add 2d indices to prevent overflow

* use nthreads not out size
2024-08-30 13:32:41 -07:00
Angelos Katharopoulos 1600092e92 Patch bump (#1376) 2024-08-29 16:54:30 -07:00
Awni Hannun dba2bd1105 Even Even Faster IO (#1374)
* even more faster io

* make reader pool static

* make python reader thread safe

* one more optimization
2024-08-29 16:05:40 -07:00
Alex Barron 28be4de7c2 Fix JIT reductions (#1373) 2024-08-28 16:39:11 -07:00
Awni Hannun a6c3b38fba Async load (#1372)
* async load

* async load
2024-08-28 14:21:55 -07:00
Awni Hannun fcb65a3897 Even Faster I/O (#1369)
* try multithreading for faster IO

* smaller batch size

* Account for pread returning less than size

* nit

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-08-28 11:49:07 -07:00
Saanidhya 4e22a1dffe In continuation to PR1243 to solve issue #1240 (#1365)
* Solves issue #1240

* Correction

* Update python/mlx/utils.py

* Update python/mlx/utils.py

---------

Co-authored-by: Awni Hannun <awni@apple.com>
Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-08-28 11:40:41 -07:00
Awni Hannun 291cf40aca Some fixes to typing (#1371)
* some fixes to typing

* fix module reference

* comment
2024-08-28 11:16:19 -07:00
Jeethu Rao bd47e1f066 Fix neon_fast_exp and add more softmax tests (#1367) 2024-08-27 23:42:42 -07:00
Aditya Dhulipala e6b223df5f Pinv (#875) 2024-08-27 23:06:12 -07:00
Angelos Katharopoulos e64349bbdd Make eval just wait if all arrays are scheduled (#1368) 2024-08-27 17:01:22 -07:00
Angelos Katharopoulos cdb59faea6 Adds send/recv ops in distributed (#1366) 2024-08-26 23:01:37 -07:00
Alex Barron 1d94ac3f90 Add optional headers to `mx.fast.metal_kernel` (#1358) 2024-08-26 21:45:45 -07:00
Awni Hannun 5f7d19d1f5 MPI ops in GPU stream for faster comms (#1356) 2024-08-26 15:12:50 -07:00
Awni Hannun 2fdf9eb535 Fix ternary for large arrays (#1359)
* fix ternary for large arrays

* fix
2024-08-26 11:22:27 -07:00
Awni Hannun 860d3a50d7 fix extension metal library finding (#1361) 2024-08-26 09:18:50 -07:00
Alex Barron d1183821a7 int() and float() for mx.array (#1360) 2024-08-25 20:41:44 -07:00
Angelos Katharopoulos 8081df79be Fix boolean all reduce bug (#1355) 2024-08-24 10:09:32 -07:00
Nripesh Niketan 64bec4fad7 Chore: update pre-commit hooks (#1353)
* Chore: update pre-commit refs

* run pre-commit
2024-08-24 06:46:36 -07:00
Alex Barron b96e105244 Add grid_sample example to metal_kernel docs (#1352)
* Add `zero_outputs` and `atomic_outputs` options to `metal_kernel`

* add grid sample to docs

* zero_outputs -> init_value

* add missing header for linux
2024-08-23 18:24:16 -07:00
Awni Hannun 3b4d5484c7 Bump extension MLX version (#1350)
* Bump extension MLX version

* fix some docs nits
2024-08-23 12:38:34 -07:00
Alex Barron 684e11c664 patch (#1347) 2024-08-23 10:42:02 -07:00
Angelos Katharopoulos b57a52813b Further reduction tuning (#1349)
* More reduction tuning
* Forgotten pdb
* Small column long row specialization
2024-08-23 10:35:25 -07:00
Alex Barron da8deb2b62 fix bug with multiple attributes (#1348)
Co-authored-by: Alex Barron <abarron22@apple.com>
2024-08-23 10:06:15 -07:00
Awni Hannun 98b6ce3460 Refactor reductions and fix scatter atomics for large sizes (#1300)
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-08-22 16:03:31 -07:00
Awni Hannun f9e00efe31 fix nanobind and stub gen in circle (#1346) 2024-08-22 14:07:27 -07:00
Alex Barron 0fd2a1f4b0 Custom Metal Kernels from Python (#1325)
* start

* simple kernels working

* restructure

* inverse example working

* docs + fixes

* missing file

* fix imports

* address comments

* add docs + fix test

* Review comments + refactor to a single function

* update docs

* remove hashing

* fix contig bug in test

* back to a class

* trailing whitespace

* fix tests

* match c++ and python apis

* add link + make args kw_only
2024-08-22 13:46:29 -07:00
Awni Hannun df3233454d 2d gather specialization (#1339) 2024-08-22 10:48:24 -07:00
Awni Hannun 82db84b899 bump nanobind + fix extension (#1344) 2024-08-21 16:05:07 -07:00
Awni Hannun 8ae751d3da fix io (#1343)
* fix io

* fix io

* comment
2024-08-21 13:14:46 -07:00
Awni Hannun d40e76809f Fix rope (#1340)
* add test

* fix rope

* fix test
2024-08-20 17:37:52 -07:00
Awni Hannun bb1b76d9dc RoPE with frequencies as optional input (#1337)
* start rope with freq input

* rope with frequencies

* nits

* fix bug

* fix bug + test

* cleanup

* optional base
2024-08-19 18:30:50 -07:00
Angelos Katharopoulos 9d26441224 Fix contiguity check (#1336)
Co-authored-by: Alex Barron <abarron22@apple.com>
2024-08-19 16:05:06 -07:00
Awni Hannun f12f24a77c fix compiling with space in paths (#1332) 2024-08-15 16:39:24 -07:00
Awni Hannun ae5b5cabfd Fix optimizer reloading from checkpoint (#1329)
* fix optimizer reloading from checkpoint

* comment
2024-08-15 07:33:23 -07:00
Awni Hannun d0630ffe8c Read arrays from files faster (#1330)
* read faster

* faster write as well

* set default permission for linux

* comment
2024-08-14 20:09:56 -07:00
Alex Barron 99bb7d3a58 GPU mx.sign for complex64 (#1326) 2024-08-14 07:54:53 -07:00
Awni Hannun 63ae767232 fix transformer (#1327) 2024-08-13 16:04:26 -07:00
Awni Hannun eaaea02010 Add isfinite (#1318)
* isfinite

* remove reduce test since fix is not complete
2024-08-13 14:49:28 -07:00
Bhargav Yagnik a098bc92e0 Fix: Preserve input dtype in Dropout layer output (#1323)
* Fix: Preserve input dtype in Dropout layer output

- Modified Dropout implementation to ensure that the output dtype matches the input dtype.
- This resolves the issue #1321

* Update test cases in test_nn.py

- Revised test cases to align with updated dropout code
- Fixed assertion method: replaced self.assertTrue with self.assertEqual for accurate comparisons in test_nn.py -> test_rope, test_alibi and test_dropout,

* updated dropout.py
2024-08-13 11:54:21 -07:00
Awni Hannun 1086dc4db0 patch (#1320) 2024-08-12 16:13:33 -07:00
Brian Keene 19fb69e2ed Add memory_efficient_threshold kwarg to sdpa kernel (#1319)
Allows opt-in to memory efficient GPU shader at proscribed sequence
length.  Otherwise, utilizes aggregate MLX primitives for best latency.
2024-08-12 12:57:09 -07:00
Awni Hannun 9231617eb3 Move to nanobind v2 (#1316) 2024-08-08 17:17:46 -07:00
Alex Barron 32668a7317 CPU mx.linalg.cholesky_inverse and mx.linalg.tri_inv (#1307)
* add cholesky inv + tri inv

* always run tri_inv on cpu

* consistent naming
2024-08-08 15:18:02 -07:00
Angelos Katharopoulos 780c197f95 Fix test tolerance and patch bump (#1315) 2024-08-08 14:51:09 -07:00
Angelos Katharopoulos eb8819e91e Revert variance to be numerically stable (#1314) 2024-08-08 13:35:02 -07:00
Awni Hannun 30bbea2f08 Add gemv masked to JIT plus some fixes (#1310)
* add gemv masked to JIT plus some fixes

* some cleanup

* add utils

* fix

* fix 2

* more cleaning

* fix

* remove unused mps matmul support

* one more nit

* revert
2024-08-07 13:38:07 -07:00
Alex Barron 635ccd9e25 Add "edge" mode to mx.pad (#1309)
* Add edge padding mode

* fix pad in pooling

* string arg instead of enum
2024-08-06 11:23:10 -07:00
nicolov 8c9f0278b9 Add vmap to scatter (#1200)
* Add vmap to scatter

* updates

* vmap updates + a few more tests

* bug fix

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-08-05 20:12:27 -07:00
Awni Hannun 58d0e199e1 add bfloat conv for windograd (#1306)
* add bfloat conv for windograd

* accumulate in fp32

* accumulate in fp32

* accumulate in bf16
2024-08-05 15:51:13 -07:00
Awni Hannun 10b5835501 fix creating array from bf16 tensors in jax / torch (#1305) 2024-08-01 16:20:51 -07:00
Awni Hannun 6c8dd307eb faster group norm (#1304) 2024-08-01 12:49:23 -07:00
Awni Hannun 43ffdab172 fix rope and random (#1301)
* fix rope and random

* comment
2024-07-31 16:18:25 -07:00
Awni Hannun 40b6d67333 Fixes for large arrays with a few ops (#1299)
* fixes for large arrays with a few ops

* fix bug

* fix all of copy
2024-07-30 17:18:39 -07:00
Alex Barron c52d1600f0 Fused Affine Quantize/Dequantize ops (#1282)
* Add fast affine dequantize

* add full quantize kernel

* fused kernel with scale/bias computation

* fix docstring

* fix no jit error

* fix test

* test fix

* reduce fast api to only affine_quantize
2024-07-29 15:11:38 -07:00
Awni Hannun aa1d6cadad Fix docs latex build and nits (#1297)
* fix docs latex build and nits

* fix stub gen and try to clean up building
2024-07-29 11:44:06 -07:00
Atakan Tekparmak 6e06e3a904 feat: Added "tanh" option to GELU approximation (#1268) 2024-07-28 09:07:56 +02:00
Yaroslav 8cfb9fc0b8 Update requirements.txt (#1291) 2024-07-26 12:59:52 -07:00
Awni Hannun 7b456fd2c0 Array api (#1289)
* some updates for numpy 2.0 and array api

* some updates for numpy 2.0 and array api

* fix array api doc
2024-07-26 10:40:49 -07:00
Awni Hannun e9e53856d2 patch bump (#1287) 2024-07-25 11:42:09 -07:00
Anton Belov 5029894662 [Issue #1187] Add nan_to_num function initial attempt (#1247)
* initial attempt, working with wrong types

* not compiling; mx.float16 and mx.bfloat16 tests added

* fix nan to num

* nit

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-07-25 09:57:37 -07:00
Awni Hannun baf9fa5f42 Einsum (#1269)
* einsum initial

* fix comma break

* sum axis was wrong

* small cleanups

* python binding

* changed bindings to resemble numpy

* remove todo comment

* comment changes

* add count of operands/inputs

* fail fast if operands list is empty

* ignore comma if no output

* einsum path matching numpy

* getting somewhere with path

* remove print

* it passes the first test

* moved einsum tests to seperate file

* seperated einsum path

* moved einsum naive

* remove space from equation

* fast fail if no operands passed

* update tests and remove printf

* small cleanup

* some more cleanups

* removed python helper file

* ack

* utilize std for finding min in vector

* duplicate def

* remove the tuple as it was unreadable

* moved einsum_naive back to ops

* remaining isn't needed

* avoid creating another set

* cleanup

* greedy path, start of naive einsum

* more einsum

* fix some bugs

* some more fixes, tests pass

* benchmark

* some simplify

* fix einsum and test

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>

* add a bunch more tests and fix a bunch more bugs

* some docs nits

---------

Co-authored-by: dc-dc-dc <dgcruz983@gmail.com>
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-07-25 09:36:44 -07:00
Jagrit Digani 7f914365fd Fix GPU sort for large arrays (#1285)
* Fix GPU sort for large arrays
2024-07-24 14:37:10 -07:00
Paul Paczuski ebd7135b50 Improve stability of BCE loss calculation for input probabilities close to or exactly 0 or 1 (#1280)
* Improve stability of BCE loss calculation

* Standardize comment

* Apply formatting with black via pre-commit

* Add usage recommendation to docstring

* Update python/mlx/nn/losses.py

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-07-24 08:38:22 -07:00
fgranqvist 50eff6a10a Implement sampling from laplace distribution. (#1279) 2024-07-24 15:15:37 +02:00
Alex Barron c34a5ae7f7 Fix bfloat16 Hadamard (#1283)
* fix bfloat16 hadamard

* add scale

* review comments

---------

Co-authored-by: Alex Barron <abarron22@apple.com>
2024-07-23 14:54:43 -07:00
Awni Hannun e2aa6ec8ae some fixes (#1281) 2024-07-23 11:49:05 -07:00
toji 6768c6a54a Adding missing type hints (#1243)
* added type hints for `run`, `tree_map` and `tree_map_with_path`

* fix lint

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-07-23 07:29:38 -07:00
Tim Gymnich 6307d166eb Fix overflow / underflow handling for expm1f (#1278)
* Fix overflow / underflow handling for expm1f

* update tests
2024-07-23 07:29:06 -07:00
Awni Hannun 1fba87b0df Fix leak with multi-output primitives (#1274)
* fix leak with multi-output primitives

* hopefully an actual fix
2024-07-23 06:34:18 -07:00
Awni Hannun df124e018a fix gguf (#1273)
* fix gguf

* comment
2024-07-18 07:35:35 -07:00
Cheng 2f83d6e4b7 Do not release buffers on exit (#1142) 2024-07-15 15:12:24 -07:00
Feng Shijie 987785d8d7 Fix typo and missing header (#1266) 2024-07-15 08:20:24 -07:00
Awni Hannun 8c01a7893b minor fix in optimizer + docs (#1264) 2024-07-12 12:18:02 -07:00
Awni Hannun 218047c75a docs fixes (#1263) 2024-07-11 15:59:07 -07:00
Alex Barron d0da74209b version bump (#1260) 2024-07-11 11:17:55 -07:00
Angelos Katharopoulos 5c1fa64fb0 Custom transforms (#1246) 2024-07-10 18:00:01 -07:00
Alex Barron a3c287354f Fast Hadamard Transform (#1249)
* Working hadamard for powers of 2

* working for m*2^k

* add scale and check contiguity

* add size check

* clean up

* fix test

* add grads + vmap

* gpu only

* skip on linux

* test typo

* add cpu impl

* remove gpu only tests

* fix linux build + add is_equivalent
2024-07-09 20:39:01 -07:00
Angelos Katharopoulos 03cf033f82 Fix reshape copy bug (#1253) 2024-07-07 21:37:00 -07:00
Alex Barron bdb36c9a63 add zero vjps for bitwise ops and gather w.r.t. index (#1256) 2024-07-07 21:34:59 -07:00
Awni Hannun 20bb301195 CPU binary reduction + Nits (#1242)
* very minor nits

* reduce binary

* fix test
2024-06-28 13:50:42 -07:00
Awni Hannun d6383a1c6a version bump (#1239) 2024-06-27 10:43:13 -07:00
Angelos Katharopoulos b05bcfd27f Fixes segfault when compiling checkpointed functions (#1235) 2024-06-26 16:14:45 -07:00
Alex Barron 2615660e62 Fix strided sort bug (#1236)
* Use output strides in sort kernel

* fix zero strides bug
2024-06-26 14:32:11 -07:00
Awni Hannun 5b0af4cdb1 fix donation condition for compilation (#1237) 2024-06-26 09:04:05 -07:00
Jagrit Digani 8c2e15e6c8 Accelerate import updates for iOS (#1227)
* Update veclib and bnns includes to #include <Accelerate/Accelerate.h> for compatibility with ios

* Mark float literals in softmax.cpp to be float16_t for errors in ios

* Add arm neon vector operation guards

* Redirect to common backend for consistency
2024-06-26 09:01:50 -07:00
Awni Hannun 56c8a33439 Get metal version from xcode (#1228)
* get metal version from xcode

* typo

* fix
2024-06-26 07:02:11 -07:00
David Koski 4eef1e8a3e fix typo (#1215) 2024-06-24 13:36:35 -07:00
Alex Barron 95d11bda06 Fix NumPy 2.0 pickle test (#1221)
* fix numpy version <2 temporarily

* typo

* better fix

* Fix just for bfloat16

---------

Co-authored-by: Alex Barron <abarron22@apple.com>
2024-06-23 05:47:22 -07:00
Awni Hannun af9079cc1f version bump (#1212) 2024-06-14 11:28:51 -07:00
Jagrit Digani 2d6cd47713 Masked gemv (#1211) 2024-06-14 09:52:26 -07:00
Awni Hannun fe3167d7ea smaller CPU binary (#1203)
* smaller CPU binary

* fix no cpu build
2024-06-14 09:46:55 -07:00
Awni Hannun 31e134be35 Build for macOS 15 (#1208)
* Build for macos 15

* metal32 as well

* comment

---------

Co-authored-by: Awni Hannun <Awni Hannun>
2024-06-13 13:31:44 -07:00
Awni Hannun e84ba8056d only allow openmpi (#1209) 2024-06-13 12:14:44 -07:00
Fangjun Kuang f20e97b092 minor fixes (#1194)
* minor fixes

* fix build errors
2024-06-12 22:06:49 -07:00
Alex Barron 934683088e Refactor JIT for unary/binary/ternary ops (#1206)
* refactor unary/binary/ternary ops

* get_primitive_string util

---------
2024-06-12 14:22:12 -07:00
Awni Hannun de2b9e7d0a Fix kernel deps to reduce build times (#1205) 2024-06-12 11:17:39 -07:00
Alex Barron dd7d8e5e29 Add Quantized Ops to the JIT (#1204)
* JIT for quantized ops

* remove unused imports

* address comments

* fix imports

* second attempt to fix imports

---------

Co-authored-by: Alex Barron <abarron22@apple.com>
2024-06-12 09:47:12 -07:00
Awni Hannun df964132fb fix scatter + test (#1202)
* fix scatter + test

* fix test warnings

* fix metal validation
2024-06-11 14:35:12 -07:00
Awni Hannun 709ccc6800 install mpi for release build (#1199) 2024-06-10 10:09:32 -07:00
Awni Hannun cf236fc390 version (#1191) 2024-06-06 17:16:40 -07:00
Alex Barron 27d70c7d9d Feature complete Metal FFT (#1102)
* feature complete metal fft

* fix contiguity bug

* jit fft

* simplify rader/bluestein constant computation

* remove kernel/utils.h dep

* remove bf16.h dep

* format

---------

Co-authored-by: Alex Barron <abarron22@apple.com>
2024-06-06 12:57:25 -07:00
nicolov 0e585b4409 Add docstring for scatter (#1189)
* Add docstring for scatter

* docs nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-06-06 11:51:25 -07:00
Angelos Katharopoulos 0163a8e57a Add docs for the distributed namespace (#1184) 2024-06-06 11:37:00 -07:00
Awni Hannun 578842954c fix jit scan when output doesn't have primitive (#1190) 2024-06-06 07:24:58 -07:00
Awni Hannun 496315fe1d Fix scan (#1188)
* fix scan

* improve grid size

* fix cpu cummax
2024-06-05 14:21:58 -07:00
Angelos Katharopoulos 0fe6895893 Fix the hard-shrink test (#1185) 2024-06-04 16:22:56 -07:00
Nikhil Mehta 0b7d71fd2f Add softmin, hardshrink, hardtanh (#1180)
---------

Co-authored-by: Nikhil Mehta <nikmehta@tesla.com>
2024-06-04 15:48:18 -07:00
Awni Hannun 83b11bc58d Fix Metal API validation for empty concat (#1183) 2024-06-04 13:17:08 -07:00
Alex Barron 375a8bbdcc Add some internal GPU apis (#1177)
* Add unary/binary/ternay/slice/concat internal GPU ops

* add pad internal op

* formatting + no_cpu fix
2024-06-04 09:24:26 -07:00
Awni Hannun ea9090bbc4 Add view op (#1179)
* add view primitive

* nit

* fix view
2024-06-04 08:05:27 -07:00
nicolov 81def6ac76 Fix benchmark (#1175) 2024-06-04 07:50:46 -07:00
Angelos Katharopoulos 3de8ce3f3c In place all-reduce and forgiving init (#1178) 2024-06-03 16:47:47 -07:00
Alex Barron 4d485fca24 Add defines include (#1176)
Co-authored-by: Alex Barron <abarron22@apple.com>
2024-06-03 09:50:10 -07:00
Brian Keene 1865299a30 Metal shaders for memory efficient self attention on large sequences (#964)
* Metal shaders for efficient self attention on large sequences

Updated fast attention: GEMM-ified with Steel primitives
Uses flash attention 1 for scale correction

* more compiler silencing

* Address rebase issues

* Templatize kernel instantiation, revise cpu bindings

* Safer writes to output

* Permit batch size > 1

* Numerical fixes for sdpa self attention

* Re-enable test, remove unused variable

* add benchmarking script

* Disable sdpa prior to perf tuning, and simplify tests for per-patch CI
2024-06-03 09:16:19 -07:00
Dominik Schlösser 3576b547c5 Doc error for default for scale in SinusoidalPositionalEncoding (#1174) 2024-06-02 13:42:45 -07:00
Awni Hannun 079882495d version bump (#1172) 2024-05-31 12:29:12 -07:00
K Venkat Ramnan ab977109db feat: Added dlpack device (#1165)
* feat: Added dlpack device

* feat: Added device_id to dlpack device

* feat: Added device_id to dlpack device

* doc: updated conversion docs

* doc: updated numpy.rst dlpack information

* doc: updated numpy.rst dlpack information

* Update docs/src/usage/numpy.rst

* Update docs/src/usage/numpy.rst

---------

Co-authored-by: Venkat Ramnan Kalyanakumar <venkatramnankalyanakumar@Venkats-MacBook-Air.local>
Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-05-31 12:29:01 -07:00
Awni Hannun fd1c08137b stable cumprod grad at 0 (#1167) 2024-05-31 12:28:42 -07:00
Jagrit Digani 76b6cece46 Fix multi-block sort stride management (#1169)
* Fix multi-block sort stride management

* Add seed to tests
2024-05-31 11:10:54 -07:00
Jagrit Digani 9f0df51f8d Fix matvec vector stride bug (#1168) 2024-05-29 12:18:28 -07:00
Awni Hannun e7a2a3dcd1 Fix a couple bugs (#1161)
* fix jit reduce for RMS norm

* make strides a single buffer

* better eval error message

* fix compiling with inf and bf16

* fix cpu compile with bf16
2024-05-28 15:18:18 -07:00
Awni Hannun a87ef5bfc1 fix broadcast bug in bitwise ops (#1157) 2024-05-24 11:44:40 -07:00
Awni Hannun 9f9cb7a2ef version bump (#1154) 2024-05-23 18:08:08 -07:00
Awni Hannun 7e26fd8032 Option to JIT steel gemm / conv (#1139) 2024-05-23 18:07:34 -07:00
Jagrit Digani eab2685c67 Float mask update (#1152)
* Float mask update

* Update CPU impl
2024-05-23 17:20:44 -07:00
Angelos Katharopoulos 50dfb664db Comms (#1097)
* Start the communications branch using MPI
* Add ops and primitives
* Add python bindings for distributed
2024-05-23 17:04:02 -07:00
Awni Hannun 0189ab6ab6 More jitting (#1132)
* docs + circle min size build

* jit scan, arange, softmax

* add sort

* jit reductions

* remove print

* fix deps

* clean includes / nits
2024-05-23 16:23:44 -07:00
Rifur13 9401507336 Add groups to 2-D convolutions (#1129)
* Added groups to 2-D convolutions. Only implemented for **some** specializations.

Also fixed 1D grouped convs with different kernel strides and added more tests.

* fix channels condition
2024-05-22 20:01:44 -07:00
Awni Hannun eb8321d863 list based indexing (#1150) 2024-05-22 15:52:05 -07:00
Abe Leininger 79ef49b2c2 add mx.trace (#1143) (#1147)
* working c++ trace implementation

* updated throw + added overloads

* added python binding for trace function

* pre-commit reformatting

* add trace to docs

* resolve comments

* remove to_stream call
2024-05-22 15:50:27 -07:00
Awni Hannun e110ca11e2 Fix offset bug for device buffers (#1151)
* fix bug with large offsets for buffers

* add a test

* remove test as its too big for small machine
2024-05-22 15:50:05 -07:00
Awni Hannun 226748b3e7 JIT compile option for binary minimization (#1091)
* try cpp 20 for compile

* unary, binary, ternary in jit

* nits

* fix gather/scatter

* fix rebase

* reorg compile

* add ternary to compile

* jit copy

* jit compile flag

* fix build

* use linked function for ternary

* some nits

* docs + circle min size build

* docs + circle min size build

* fix extension

* fix no cpu build

* improve includes
2024-05-22 12:57:13 -07:00
Awni Hannun d568c7ee36 Rename block sparse (#1149)
* block_sparse_mm to gather_mm

* rename

* nit

* nit
2024-05-22 07:48:34 -07:00
Awni Hannun e6fecbb3e1 Some fixes in docs (#1141)
* fixes in docs

* nit
2024-05-20 11:51:47 -07:00
Angelos Katharopoulos da83f899bb Improve qvm speed (#1140) 2024-05-20 09:20:44 -07:00
jlwitthuhn 7e5674d8be Treate 'minimum' differently in cosine decay (#1138) 2024-05-20 08:00:48 -07:00
Shixian Sheng 0a558577bf Update README.md (#1136) 2024-05-20 06:16:40 -07:00
Awni Hannun fb71a82ada Fix copy bug with many dims (#1137) 2024-05-17 21:10:03 -07:00
Awni Hannun 23406c9e9e Choose the right MLX bf16 for extensions (#1135)
* default to custom bf

* choose right bf

* fix extensions

* fix circle conf
2024-05-17 15:09:28 -07:00
Luca Arnaboldi b3ec792380 Implemented Cholesky on CPU (#1119) 2024-05-17 12:31:59 -07:00
Awni Hannun 6a9b584f3d patch bump (#1131) 2024-05-16 20:51:33 -07:00
Awni Hannun 81dd33af66 allow conversion to dlpack (#1120) 2024-05-16 16:11:37 -07:00
Awni Hannun 8b76571896 Fix extensions (#1126)
* fix extensions

* title

* enable circle

* fix nanobind tag

* fix bug in doc

* try to fix config

* typo
2024-05-16 15:36:25 -07:00
Angelos Katharopoulos e78a6518fa Block sparse qmm (#1124) 2024-05-16 15:24:14 -07:00
Awni Hannun 1873ffda01 Detect metal version and propagate correctly for JIT (#1109)
* detect metal version and propagate correctly for JIT

* remove softmax

* fix versions
2024-05-15 17:42:09 -07:00
Jacket c417e42116 [Fix] minor typo in default argument for argpartition's "axis" parameter (#1125)
According to the document, argpartition's axis parameter can be None, but due to a previous typo it can't really accepts a None value.
2024-05-15 15:25:25 -07:00
Jagrit Digani 358e1fd6ab Fused GEMM (#1123)
* Basic gemm working

* Update addmm

* Clear out steel_gemm and steel_addmm kernels

* Fuse and clear out gather gemm

* Update objc releases
2024-05-15 10:30:41 -07:00
Awni Hannun 631dfbe673 fix scatter index bug (#1122) 2024-05-14 15:04:58 -07:00
Cheng 56a4eaed72 Pass missing stream arg in array.flatten (#1111) 2024-05-14 06:50:16 -07:00
Cheng bf925d9dc7 Move args in conv_general (#1118)
Also fix a typo that padding_lo is passed as padding_hi.
2024-05-14 06:50:09 -07:00
Cheng 1a7ed5dcb6 Fill vector with constructor instead of fill_n (#1113) 2024-05-14 06:28:55 -07:00
Cheng 5be5daa6ef Use compiled function in Sigmoid module (#1116) 2024-05-14 06:25:57 -07:00
Cheng 60cb11764e Use correct module type in quantized.py (#1115) 2024-05-14 06:25:42 -07:00
Cheng cbd5445ea7 The tile op does not accept None as reps (#1117) 2024-05-14 06:25:25 -07:00
Cheng 2c7e9b5158 Add missing docs for some ops (#1110) 2024-05-14 06:09:05 -07:00
Mike Drob 2263e4b279 Experiment with medium machines for CI (#1000) 2024-05-13 19:40:19 -07:00
Awni Hannun 863039da4c Allow scatter type exception to be caught by checking in op (#1077)
* allow exception to be caught in main thread

* only for gpu

* more detailed scatter error
2024-05-13 17:43:53 -07:00
Awni Hannun 7178ac0111 No CPU option for binary minimization (#1105)
* no cpu build option

* docs

* fix
2024-05-13 16:08:11 -07:00
Ravindra R. Jaju e7f9710499 Fix typo in a variable name in example code. (#1104)
* Fix typo in a variable name in example code.

* Rename df2dx2 to d2fdx2 - the appropriate naming for the second derivative

* Update CONTRIBUTING.md - add needed python packages, and a virtual-env hint

* Revert "Fix typo in a variable name in example code."

This reverts commit bc10a175345c3e20eab689c47f7d866073a3c233.

* Rename df2dx2 to d2fdx2
2024-05-13 06:04:23 -07:00
Max-Heinrich Laves ff4223904d Conv3d (#993)
* added conv3d

added conv3d

implemented explicit_gemm_conv_ND_cpu and bounds checks for slow_conv_3D

* incorporated reviewer comments

* fixed test

* reduced tensor shapes in test for conv3d

* Reviewer suggestion

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

Reviewer suggestion

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

Reviewer suggestion

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

Reviewer suggestion
2024-05-11 06:15:02 -07:00
Awni Hannun a9f80d60f6 improve error messaging in eval (#1101) 2024-05-10 10:04:07 -07:00
Alex Barron 2e158cf6d0 Add conjugate operator (#1100)
* cpu and gpu impl

* add mx.conj and array.conj()

---------

Co-authored-by: Alex Barron <abarron22@apple.com>
2024-05-10 07:22:20 -07:00
Awni Hannun 8bd6bfa4b5 version (#1099) 2024-05-09 17:52:39 -07:00
Awni Hannun 8b1906abd0 Add compiler flags to disable safetensors and gguf (#1098)
* with docs

* nit
2024-05-09 17:39:44 -07:00
Awni Hannun 06375e6605 Split encoders in non-concurrent context with a max ops per encoder (#1085)
* split encoders

* fix race
2024-05-09 16:21:02 -07:00
Awni Hannun b21242faf1 Allow unary ops to accept array like (#1093) 2024-05-09 09:36:02 -07:00
Rahul Yedida cc05a281c4 Added ArcTan2 operation (#1079)
* Added ArcTan2 operation

* Cleanup, bug fixes from code review

* Minor cleanup, fixed Linux tests
2024-05-08 08:35:15 -07:00
Jagrit Digani fe96ceee66 Update block offset adjustment to be in size_t (#1087) 2024-05-08 08:10:23 -07:00
Awni Hannun 9814a2ae12 fix conversion to array (#1070) 2024-05-06 16:02:49 -07:00
Shubham 6992498e7a add keyword positonal (#1081) 2024-05-06 07:18:49 -07:00
Awni Hannun 21623156a3 Reset peak memory (#1074)
* reset peak memory

* fix linux

* nits in docs
2024-05-03 17:12:51 -07:00
Nripesh Niketan 79c859e2e0 feat: implement clip_grad_norm (#1043)
* feat: implement `clip_grad_norm`

* pre-commit

* Add test for clip_grad_norm function in test_optimizers.py

* small fixes

* fix

* lint

* Update tree_reduce

* Update python/mlx/utils.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/mlx/utils.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/mlx/utils.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/mlx/utils.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/mlx/utils.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/mlx/utils.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Refactor clip_grad_norm function to include documentation and improve readability

* format docstring

* Add acknowlegements

* text wrap

* pre-commit

* nits in docs

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-05-03 09:07:02 -07:00
Awni Hannun b00ac960b4 change initial memory limits and add memory size to device info (#1064) 2024-05-03 06:50:15 -07:00
Awni Hannun 02a9fc7bfa Patch bump (#1067)
* version

* use 0.12.2
2024-05-02 16:37:31 -07:00
Jagrit Digani f390957685 Block sparse mm (#1058) 2024-05-02 14:03:58 -07:00
Angelos Katharopoulos 17f57df797 Improvements in the quantizer and dequantization kernel (#1061) 2024-05-01 18:19:11 -07:00
Awni Hannun 7f7b9662ea Fix leak for multi-output primitives which are never detached (#1059)
* fix multi output leak

* ignore arrays that will be detached

* add some comments

* stray print
2024-05-01 07:31:45 -07:00
Awni Hannun 19bef39f5c Add a mx.metal.device_info (#1060)
* device inof

* add variant

* fix linux

* fix doc
2024-04-30 15:47:27 -07:00
Nripesh Niketan a30e7ed2da feat: metal formatting and pre-commit bump (#1038)
* feat: metal formatting and pre-commit bump

* add guards

* update

* more guards

* more guards

* smakk fix

* Refactor instantiation of ternary types in ternary.metal

* fix scan.metal
2024-04-30 07:18:09 -07:00
Angelos Katharopoulos 8db7161c94 Bug fix in quantize (#1054) 2024-04-29 20:55:04 -07:00
Awni Hannun 09f1777896 fix slice update indexing (#1053) 2024-04-29 12:17:40 -07:00
Jacket 490c0c4fdc [Fix] expand axes for dimension with integer indices in mlx_slice_update (#1035)
* Not sure if this is correct

* Format

* Edit tests

* Add negative test

* Format

* add one more test

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-04-29 07:57:28 -07:00
Rifur13 c4a471c99d Add groups to Conv1d (#948)
* Add conv1d grouped convs on CPU

* Add GPU support

* Parallelize inside metal kernel

* clenaup

* Update mlx/ops.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* New unfold kernel + remove unused code

* Remove copy and refactor

* Update vjp and reuse steel gemm

* Fixed groups on cpu

* Fix metal validation

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-04-27 06:24:57 -07:00
Awni Hannun 86f495985b Add bitwise ops (#1037)
* bitwise ops

* fix tests
2024-04-26 22:03:42 -07:00
Awni Hannun 67d1894759 fix order device -> scheduler (#1039) 2024-04-26 13:46:41 -07:00
Awni Hannun 5bfe89bdb1 Cpp docs (#1036)
* start of C++ docs

* fix stream doc

* only include ops for now
2024-04-26 12:56:05 -07:00
Angelos Katharopoulos 82463e9938 Bump the version to 0.12 (#1034) 2024-04-25 14:18:08 -07:00
Awni Hannun 771575d27b Expose function to clear memory cache (#1032)
* expose function to clear memory cache

* fix linux build

* fix metal tests
2024-04-24 16:48:51 -07:00
Angelos Katharopoulos 20a01bbd9f Simplifying and improving qmm (#1030) 2024-04-24 13:07:45 -07:00
Angelos Katharopoulos ec8578d41a Fix quantization of all 0s (#1028) 2024-04-24 00:40:42 -07:00
Aneesh Shetty d0dbfe0b97 Adds radians and degrees (#1011) 2024-04-22 11:17:49 -07:00
Awni Hannun 3d405fb3b1 Add synchronize function (#1006)
* add synchronize function

* fix linux

* fix linux

* fix and fix docs

* fix test

* try synchronize in stream destroy

* synchronize works for both cpu and gpu
2024-04-22 08:25:46 -07:00
Angelos Katharopoulos b0012cdd0f Bump the patch version for the quants (#1018) 2024-04-19 20:28:34 -07:00
Angelos Katharopoulos 84d61d27aa Make sure 0 is represented in the quantization (#1016) 2024-04-19 19:47:26 -07:00
Awni Hannun ed83908931 fix gguf loading quants (#1014)
* fix gguf loading quants

* fix nanobind install

* actual fix
2024-04-19 12:24:07 -07:00
Angelos Katharopoulos ef5f7d1aea Fix buffer protocol buffer size designation (#1010) 2024-04-19 06:06:13 -07:00
Awni Hannun 090ff659dc bump (#1007) 2024-04-18 13:18:43 -07:00
Jagrit Digani 85c8a91a27 Fix mask broadcasting bug and add relevant test (#1003) 2024-04-17 17:33:48 -07:00
Piotr Rybiec 581b699ac9 avgpool, not maxpool (#1002) 2024-04-17 08:26:22 -07:00
Awni Hannun 8a0677d56d Shared events for synchronization + async eval (#998)
* more async eval

* fix rebase

* try correct async eval

* fix async

* more tests for async eval

* use shared events for synchronization

* comment + cleanup

* with autorelease pool

* fix no metal build

* fix compile

* fix patch

* don't eval if asyn evale'd

* don't use is_evaled

* comments

* more multi stream tests

* try and cleanup use of is_evaled

* use a status flag
2024-04-17 06:16:02 -07:00
Jagrit Digani b18468bf81 Masked mm (#978)
* Add block masked matmul op and primitive
2024-04-16 14:45:39 -07:00
Shiyu 107ba2891a gelu tanh approx (#989)
* gelu tanh approx

* gelu tanh approx

* replace gelu approx with tanh approach

* fix comments

* fix comment
2024-04-15 19:49:00 -07:00
Awni Hannun cd9e184529 Quantize embedding (#994)
* quantize embedding

* rename as_linear + comment

* consistency in docs

* fix test
2024-04-15 16:42:10 -07:00
Alex Barron 2e7c02d5cd Metal FFT for powers of 2 up to 2048 (#915)
* add Metal FFT for powers of 2

* skip GPU test on linux

* fix contiguity bug

* address comments

* Update mlx/backend/metal/fft.cpp

* Update mlx/backend/metal/fft.cpp

* fix bug in synch

---------

Co-authored-by: Alex Barron <abarron22@apple.com>
Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-04-11 21:40:06 -07:00
Awni Hannun ae18326533 No copy command encoder (#986)
* no copy command encoder

* up layer norm test tolerances
2024-04-11 21:15:36 -07:00
Alex Shepard 91eba8e485 fix for grammatical typo in docs (#988)
thanks for mlx!
2024-04-11 17:02:06 -07:00
Awni Hannun d07e295c62 bumpity bump (#987) 2024-04-11 12:48:52 -07:00
Angelos Katharopoulos dce4bd74a4 Add ArrayDesc destructor to avoid possible stack overflow (#982) 2024-04-11 11:37:02 -07:00
Nripesh Niketan ffff671273 Update pre-commit hooks (#984) 2024-04-11 07:27:53 -07:00
Awni Hannun 12d4507ee3 Explicit barriers with concurrent dispatch (#977) 2024-04-10 21:45:31 -07:00
Awni Hannun 8580d997ff Try a stack-based DFS for eval (#980)
* rebase

* nit

* fix eval in vmap
2024-04-10 17:05:13 -07:00
Shiyu 061cf9a4ce Upsample with bicubic interpolation (#967) 2024-04-10 15:47:22 -07:00
Awni Hannun 99abb9eff4 Async eval (#972) 2024-04-09 18:34:00 -07:00
Luca Arnaboldi fffe072028 Implementation of mlx.random.multivariate_normal (#502) (#877)
* Implementation of mlx.random.multivariate_normal (#502)

* Update python/src/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Updated typo in docstring

* Restricted multivariate_normal to  float32

* Generic mean and variance shapes

* Review edits

* Update mlx/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/random.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Test for ndim of mean and cov

* nits

* smaller size for test

* fix broadcasted sampling

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-04-09 13:50:12 -07:00
Abe Leininger a1a31eed27 Add mx.meshgrid (#961) 2024-04-09 11:43:08 -07:00
Awni Hannun ae812350f9 use string (#976) 2024-04-09 11:22:00 -07:00
Awni Hannun b63ef10a7f Extensions (#962)
* start to fix extensions

* mostly fixed extensions

* fix extension build

* couple more nits
2024-04-09 08:50:36 -07:00
Awni Hannun 42afe27e12 std and expm1 (#973)
* std and expm1

* actually add expm1

* fix linux

* fix vjp

* relax tol for linux test

* Add it to the compilable primitives

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-04-08 14:26:01 -07:00
Awni Hannun 76e63212ff Enable bfloat scan (#974)
* enable bfloat scan
* fix tests
2024-04-08 12:29:19 -07:00
Awni Hannun aac2f9fb61 Improve profiling with gpu tracing (#969)
* improve profiling with gpu tracing

* fix for linux

* nit

* doc fix

* fix example
2024-04-07 21:47:43 -07:00
Awni Hannun bddf23f175 patch bump (#956) 2024-04-04 11:56:37 -07:00
Awni Hannun 039da779d1 No quant reshape (#957)
* precise option on cpu

* remove print

* remove reshape in quant matmul

* no quant reshape
2024-04-04 11:52:12 -07:00
Awni Hannun d88d2124b5 segfaut layer norm grad (#955) 2024-04-04 10:59:15 -07:00
Awni Hannun e142aaf8a1 Option for precise softmax (#953)
* precise softmax

* Add an equivalency check

* Make the threadgroup memory definition fixed

* precise cpu softmax

* precise option on cpu

* remove print

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-04-04 08:32:35 -07:00
AmirHossein_Razlighi 0caf35f4b8 Better exceptions in case of invalid operations on mlx.core.array (#910) (#926)
* Nicer exceptions for ops on non-arrays
2024-04-02 21:11:24 -07:00
Angelos Katharopoulos 3fc993f82d Properly handle negative axes in python vmap (#944) 2024-04-02 18:07:23 -07:00
Awni Hannun 741eb28443 fix a couple bugs (#952) 2024-04-02 12:07:41 -07:00
Angelos Katharopoulos 1a87dc5ea8 Fix compile fusion for multi-output edge cases (#950)
* Fix compile fusion for multi-output edge cases

* Add a test for multi-output compile
2024-04-02 08:42:31 -07:00
Awni Hannun 2427fa171e Fix cpu compile (#934)
* fix one cpu bug, test for another

* format hooks

* simplify contiguity check for cpu compile

* fix

* add back donation

* comment
2024-04-01 17:37:12 -07:00
Jagrit Digani 639e06e1f3 Indexing bug fix (#947)
* Fix axes accounting

* Add tests
2024-04-01 12:18:50 -07:00
Angelos Katharopoulos 02fedbf1da Fix array initialization from list (#942)
* Fix array initialization from list

* Change the error message in the test
2024-04-01 06:27:52 -07:00
Angelos Katharopoulos 110d9b149d Layer norm grad fix donation bug (#941)
* add layer norm grad test

* Fix donation bug in layernorm vjp

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-04-01 06:15:50 -07:00
Angelos Katharopoulos 9cbff5ec1d Fix typo in qmm check (#940) 2024-03-31 19:15:44 -07:00
Suvan Kumar 433c0206b0 Update saving_and_loading.rst (#929)
Update saving / load docs.
2024-03-30 14:30:06 -07:00
Awni Hannun 8915901966 Donation bug (#933)
* donation

* buf

* fix bug in softmax

* comment

* remove print
2024-03-30 10:08:54 -07:00
AmirHossein_Razlighi f48bc496c7 Comparing python objects (such as list/tuple) with mlx.core.array (#920)
* add implicit conversion of list to array for equality constraint

* add tests for array equality

* add test for tuple and array equality

* return False if __eq__ arg is list or tuple

* write tests for equality

* update the rule of comparison for __ge__/__gt__/__lt__/__le__

* add a helper function for detecting mlx.core.array

* return true in case fo inequality

* debug minor issue regarding detecting mlx array

* add tests for inequality comparisons

* add name for contribution

* reformat files using pre-commit

* update tests for float

* update tests for inequality

* raise exception in case of invalid comparisons

* use isinstance instead of string comparison

* replace "is_convirtable_to_array" with previous logic

* remove throwing exceptions for other operations

* just a comment

* minor changes for efficiency

* optimize a utils function

* change the function name

* Update ACKNOWLEDGMENTS.md

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-03-29 06:52:30 -07:00
Cheng 913b19329c Add missing && when forwarding args (#925)
Without the && args would be copied and perfect forwarding won't work.
2024-03-29 06:48:29 -07:00
Awni Hannun d8cb3128f6 bump (#924)
* bump

* fix version
2024-03-28 16:14:55 -07:00
Angelos Katharopoulos 5f9ba3019f Fix qmm_t for unaligned cases (#923) 2024-03-28 15:34:57 -07:00
Cheng 46caf0bef0 Remove unnecessary string copies (#891)
1. Use string_view instead of string when there is no need for copy.
2. Otherwise move string when possible.
2024-03-28 13:14:59 -07:00
Jack Mousseau 45f636e759 Add Metal debug option and capture functions (#707)
* Add Metal debug option and capture functions

* Add brief Metal debugger documentation

* doc nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-03-28 09:40:31 -07:00
Cheng a7b404ff53 Use uintptr_t instead of size_t to store funtion id (#916)
Also does some small cleanup of the compile cache code.
2024-03-28 06:37:59 -07:00
Angelos Katharopoulos c4fd0e5ede Fixes #918 bug in compile_tests (#919) 2024-03-27 22:37:37 -07:00
Cheng bab5386306 Make ops aware of rvalues: astype/as_strided/copy/full (#895)
When compositing transforms lots of temporary of arrays will be created
and passed to next primitive, and by making ops accepting args by value
we can avoid lots of copies of temporary arrays.
2024-03-27 22:35:55 -07:00
Angelos Katharopoulos aca7584635 Fix OOB read in qmv when non-divisible by blocksize (#917) 2024-03-27 22:18:35 -07:00
AmirHossein_Razlighi d611251502 Support Chaining for some of functionalities of nn.Module (#885) (#897)
* add chaining support for some of the functionalities of "nn.Module"

* reformat

* change the return types

* remove return types

* add return type with forward referencing

* add tests for chaining

* add name to contributors

* Update python/mlx/nn/layers/base.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/mlx/nn/layers/base.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* update docstring

* update docstrings

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-03-27 19:58:29 -07:00
Cheng f30b659291 Make MLX build on x64 macOS (#901)
The arm64 macbook pros are heavy and I usually care my intel one for
mobile, it would be nice if I can play with MLX on it.

To build with x64, user must pass `MLX_ENABLE_X64_MAC` to cmake:
CMAKE_ARGS='-DMLX_ENABLE_X64_MAC=ON' python setup.py
2024-03-27 06:14:29 -07:00
Cheng 90dfa43ff1 Don't use make_unique to create shared_ptr (#902)
The code compiled because shared_ptr's constructor actually accepts
unique_ptr.
2024-03-27 06:13:29 -07:00
Awni Hannun dc175f08d3 Fix race in multi-stream eval (#911)
* maybe fix race

* comment
2024-03-26 16:36:36 -07:00
Angelos Katharopoulos 29221fa238 Implement vjps for some primitives in the fast namespace (#883)
* Implement rope vjp in terms of rope
* RMSNormVJP primitive and kernel
* Add LayerNormVJP primitive and kernel
2024-03-26 16:35:34 -07:00
Cheng a789685c63 Remove duplicate defines of StreamOrDevice and is_big_endian (#892) 2024-03-26 15:15:11 -07:00
Jagrit Digani 240d10699c Implement negative padding in conv with slicing (#907)
* Implement negative padding with slicing

* Update mlx/ops.cpp

Co-authored-by: Awni Hannun <awni@apple.com>

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-03-26 14:59:19 -07:00
Jagrit Digani 925014b661 Fix multiblock sort limits (#906)
* Fix multiblock sort limits

* Fix metal validation error
2024-03-26 14:00:00 -07:00
Abdussamet Türker 5611e1a95e Fix unsqueeze with None (#899)
* Fix unsqueeze with None

* Clean unnecessary files
2024-03-26 13:59:44 -07:00
Awni Hannun 570f2bf29e pick up preivously set attributes (#905) 2024-03-26 11:19:59 -07:00
Angelos Katharopoulos 9948eddf11 Fix nan and improve speed for qvm (#903) 2024-03-26 10:41:45 -07:00
Luca Arnaboldi a3ee03da01 Fixing random.normal for half-precision dtype #642 (#904)
* Fixing random.normal for half-precision dtype #642

* Update python/tests/test_random.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-03-26 09:58:27 -07:00
Cheng 28fcd2b519 Add missing && when forwarding args (#894)
Without the && args would be copied and perfect forwarding won't work.

Also add template utils to make sure the function only forwards array
and not vector<array>.
2024-03-25 14:55:54 -07:00
Jack Mousseau 8e686764ac Ensure shape dimensions are within supported integer range (#566) (#704)
* Ensure shape dimensions are within supported integer range (#566)

* fix build

* fix rebase bug

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-03-25 13:29:45 -07:00
Daniel Strobusch 479051ce1c add numeric type hierarchy and issubdtype as well as a set_dtype meth… (#427)
* add numeric type hierarchy and issubdtype as well as a set_dtype method to nn.Module with predicate

numeric type hierarchy and issubtype is compatible to the [numpy hierarchy](https://github.com/numpy/numpy/blob/220f0ab2c5958f9d49b9a28c69a760657b06d9b9/numpy/_core/numerictypes.py#L42).

Closes #285.

* nits in docs

* unify type category checking

* nits in docs

* nits in docs

* more docs nits

* fix callable type

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-03-25 12:32:59 -07:00
Awni Hannun bfb5bad4f0 patch (#893) 2024-03-24 21:03:59 -07:00
Awni Hannun 1e16331d9c post nanobind docs fixes and some updates (#889)
* post nanobind docs fixes and some updates

* one more doc nit

* fix for stubs and latex
2024-03-24 15:03:27 -07:00
Awni Hannun be98f4ab6b Reduce a little overhead (#871)
* some small overhead improvements

* use result_type in rms_norm

* remove release force

* fix + use non-vector version

* revert compile change

* fix ops

* a little more overhead

* a little more cleanup and overhead
2024-03-22 17:29:36 -07:00
Angelos Katharopoulos 6ee1112f30 Fix copy donation and add partial rope (#881) 2024-03-22 17:28:26 -07:00
Jagrit Digani 8e5a5a1ccd Set item bug fix (#879)
* set item shaping bug fix

* Add extra tests
2024-03-22 12:11:17 -07:00
Angelos Katharopoulos fcda3a0e66 Increase test tolerance for fast.layer_norm (#880) 2024-03-22 12:10:27 -07:00
Cheng 9663c22fe9 Do not store iostream in shared_ptr (#872)
There is no need to store iostream in shared_ptr, doing so adds the cost
of a heap allocation.
2024-03-22 06:54:45 -07:00
Cheng f0ae00da12 Reduce implicit copies in make_array (#874)
1. Move shapes into outputs instead of copying them.
2. Pass primitive by const ref as it is always copied into outputs, which
   removes a copy when calling make_array.
2024-03-22 06:29:16 -07:00
Awni Hannun 44390bd3d0 Bump (#869)
* bump

* fix none in a few ops
2024-03-21 13:56:56 -07:00
Angelos Katharopoulos 2225374060 Adds mx.fast.layer_norm (#870) 2024-03-21 13:55:51 -07:00
nicolov 105d236889 Add vmap for SVD and inverse (#849) 2024-03-21 13:18:27 -07:00
Angelos Katharopoulos 53e6a9367c Use reshape and transpose for non-overlapping pooling windows (#867) 2024-03-21 10:21:03 -07:00
Chime Ogbuji f5a1582fe8 Add minimum for cosine decay function (#859)
* Add minimum for cosine decay function

* Update python/mlx/optimizers/schedulers.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-03-21 07:33:29 -07:00
Awni Hannun a54f06b16f Fast RMS Norm (#862)
* fast rmsnorm

* no rms gpu

* kernel

* fix shared mem

* looped rms and donation in softmax

* Make the squaring in float32 to avoid underflow

* Fix the default StreamOrDevice for rope and rms_norm in fast

* nits

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-03-21 07:20:54 -07:00
Cheng 4650d94d98 Add missing && in eval (#864)
Without the && args would be copied and perfect forwarding won't work.

To avoid eval calling itself recursively, the vector version of eval is
changed to take by value instead, which will save a copy of array when a
rvalue is passed.
2024-03-21 06:15:48 -07:00
Jagrit Digani a5681ebc52 Update set item (#861)
* Update mlx_set_item to handle regular slices without expanding

* Refactor ellipsis handling

* Route mlx_set_item to slice_update where possible

* Update mlx_scatter_args_slice

* Don't route to gather if no array indices
2024-03-21 02:48:13 -07:00
Cheng e849b3424a Do not use static constexpr in header (#863)
Doing so results in each compilation unit (.cpp file) having its own
copy of the variable, while inline constexpr makes sure there is only
one copy.
2024-03-20 21:28:05 -07:00
Jagrit Digani b219d12a6b Check edge case handling in row reduce med kernel (#858) 2024-03-20 11:37:58 -07:00
Jagrit Digani cec8661113 Add a SliceUpdate op and primitive (#850)
* Enable copy to work with int64 strides
* Fix uniform buffer indices or copy kernel arguments
* Update utils.h
* Remove manual unrolling of elem to loc loop
* GPU copy updated to handle negative strides
* Add slice update primitive
2024-03-20 10:39:25 -07:00
Cheng 73a8c090e0 Pass shape and inputs by value in array's constructor (#853)
Since the shape and inputs are always saved as copy in ArrayDesc, we can
unify array's constructors to just take the arguments by value.

There are 2 cases:
1. When shape is a lvalue, it will be copied into array's constructor and
   then moved into ArrayDesc's member. So only 1 copy happens.
2. When shape is a rvalue, it will be moved into array's constructor and
   then moved into ArrayDesc's member. So no copy happens.

So having 1 constructor that takes by value is equivalent to having 2
constructors that const reference and rvalue separately.
2024-03-20 07:54:30 -07:00
Md. Rasel Mandol db6796ac61 simple typo fille (#848) 2024-03-19 06:15:17 -07:00
Awni Hannun 9a8ee00246 Switch to nanobind (#839)
* mostly builds

* most tests pass

* fix circle build

* add back buffer protocol

* includes

* fix for py38

* limit to cpu device

* include

* fix stubs

* move signatures for docs

* stubgen + docs fix

* doc for compiled function, comments
2024-03-18 20:12:25 -07:00
Cheng d39ed54f8e Some C++ code are not needed (#841)
1. Anonymous namespace means internal linkage, static keyword is not needed.
2. The default constructor of std::shared_ptr initializes the pointer to
   nullptr, you don't need to explicitly set it.
2024-03-18 17:04:10 -07:00
Awni Hannun 16546c70d8 No reshape rope (#838)
* no reshape rope

* no reshape rope
2024-03-18 17:03:07 -07:00
nicolov eaba55c9bf Add matrix inversion primitive (#822) 2024-03-15 06:34:36 -07:00
Awni Hannun 19ec023256 vmap matmul and admm (#836) 2024-03-14 14:38:22 -07:00
Awni Hannun 63ab0ab580 version (#835) 2024-03-14 12:20:40 -07:00
Jagrit Digani 8dfc376c00 Strided reduce specialization for small reductions (#826)
* Add small column / general reduction specialization
2024-03-14 09:16:53 -07:00
Angelos Katharopoulos 1efee9db09 Add types and order in kernel name (#831) 2024-03-13 20:34:06 -07:00
Awni Hannun 43abc402d8 route to fallback (#828) 2024-03-13 19:56:04 -07:00
Angelos Katharopoulos 3f8b1668c4 Make reshape faster for row_contiguous cases (#829) 2024-03-13 16:22:03 -07:00
Angelos Katharopoulos 76c919b4ec NumberOfElements for shapeless compile and vmap fixes (#802) 2024-03-13 10:34:14 -07:00
Angelos Katharopoulos 29d0c10ee5 Reshape improvement (#818) 2024-03-12 17:54:31 -07:00
Jagrit Digani 5ad133f8bb No copy gems (#801)
* Enable collapsing batch dims in gemm
* Update gemm to only make copies when neither of the last 2 axes are contiguous
* Update addmm to support gemv shapes
* Update addmm to support irregular batch strides
* Update tests
2024-03-12 13:13:41 -07:00
nicolov d0c544a868 Add SVD primitive (#809)
Add SVD op using Accelerate's LAPACK following
https://developer.apple.com/documentation/accelerate/
compressing_an_image_using_linear_algebra

Co-authored-by: Nicolo Valigi <nvaligi@apple.com>
2024-03-12 12:30:11 -07:00
Daniel Falbel ffb19df3c0 Fix docstring for correctly rendering (#820) 2024-03-12 11:46:44 -07:00
Awni Hannun 8b7532b9ab fix scatter (#821) 2024-03-12 11:42:07 -07:00
Awni Hannun 366478c560 fix modules with dict (#819) 2024-03-12 08:54:06 -07:00
Justin Deschenaux 8e5600022a Implement RNN, GRU, LSTM (#268)
* RNN base implementation

* Address comments+format

* nits in docs

* add tests for prb

* fix test

* add a couple tests

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-03-11 21:14:44 -07:00
Awni Hannun 0e95b64942 Fix bug in tape order during simplify (#816)
* fix bug in tape order during simplify

* properly fix compile

* last bug
2024-03-11 17:29:05 -07:00
nicolov 0ae22b915b Remove code duplication in reduce ops (#793)
* Remove code duplication in reduce ops

* Remove the unnecessary lambda

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-03-11 10:57:07 -07:00
Awni Hannun 7c441600fe Compile stride bug (#812)
* fix compile stride bug

* revert sdpa fix

* fix cpu

* fix bug with simplifying outputs
2024-03-11 06:31:31 -07:00
Awni Hannun a4d290adb9 Remove depth traversal (#813)
* no depth traversal

* counter outside loop
2024-03-09 20:21:32 -08:00
Awni Hannun 28301807c2 Version bump and os error (#807) 2024-03-07 13:57:58 -08:00
Awni Hannun 74ed0974b3 Support 13.0+ with xcode 14.3 (#806)
* Support 13.0+ with xcode 14.3

* revert revert
2024-03-07 13:27:57 -08:00
Jagrit Digani ec8a4864fa Fix SDPA kernel bug on Mac OS 13.3 SDK (#805)
* Move sdpa kernel to allocate tgp mem statically and allow macOS 13.3 SDK builds

* Style
2024-03-07 10:18:09 -08:00
Awni Hannun b7588fd5d7 fix inplace to not make a shallow copy (#804) 2024-03-07 09:34:11 -08:00
Awni Hannun f512b905c7 Minimum xcode / sdk (#800)
* minimum xcode /sdk

* try multiple xcode versions in CI

* update python

* metal validation for python tests
2024-03-07 08:19:43 -08:00
Awni Hannun afd5274049 route to fallback for bfloat (#794) 2024-03-06 15:39:12 -08:00
Awni Hannun 1074674e32 Add a maximum graph depth (#797)
* add a maximum graph depth

* remember how to use C++
2024-03-06 15:39:00 -08:00
AlexCheema 7762e07fde Update function_transforms.rst (#796)
Fix typo in function_transforms.rst
2024-03-06 12:03:37 -08:00
Luca Arnaboldi cbefd9129e Implementation of pickle, copy and deepcopy for Python arrays (#300 & #367). (#713)
* Implemented pickling and copy for Python arrays(#300 & #367)

* Fixing typos

* Pickle with NumPy arrays

* Pickle: workaround for bfloat16

* Revert "Pickle: workaround for bfloat16"

This reverts commit 25afe6bc09ff30588053e6c6e3ccf040d2cf6da9.

* Added an error when pickling bfloat16

* Update python/tests/test_array.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/tests/test_array.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/array.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/array.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* clang-format applied

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-03-06 08:02:41 -08:00
Angelos Katharopoulos e39bebe13e Fix reshaping of empty arrays (#791) 2024-03-05 23:33:22 -08:00
Angelos Katharopoulos 14b4e51a7c Improved quantized matrix vector product (#786) 2024-03-05 17:32:19 -08:00
Awni Hannun cbcf44a4ca Some fixes in cache / thread safety (#777)
* some fixes in cache / thread safety

* speed up no cache case

* fix opt test

* optimizer docs

* otpimizer docs

* fix adafactor

* fix adafactor
2024-03-05 13:30:50 -08:00
Awni Hannun 859ae15a54 Fix test (#785) 2024-03-04 23:02:27 -08:00
Brian Keene 0787724c44 Fast Inference SDPA op (#735)
* Fast Inference SDPA op

Implements metal shaders for:

o = mx.fast_inference_sdpa(queries, keys, values, scale, mask)

Supports fp16, fp32 dtypes; assumes d_k = 128.

Generic op support / prompt encoding supported via mlx primitives.
Metal implementation is for the inference use case only.

Majority of performance benefits appears to results from GQA & reduced
bandwidth requirements; there is approximate performance parity for the
MHA use case (from some measurements on M3 Max).

* Flush shared memory to zero before unprotected reads for (scores @ values)

* Move to fast:: namespace, address reviewer comments

... also attempt to revert formatter auto-change for files not relevant
to this change

* Shared memory flush to top of kernel

* Resolve compiler warnings

* Update python/src/fast.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/fast.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/fast.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/fast.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update docstring per PR feedback

* Softmax in higher precision, ...

* route to fallback for more use cases - batch size > 1, head_dim other
  than 128, etc.
* Address linux build failure
* Address other reviewer comments

* Remove extraneous eval_cpu function per review

---------

Co-authored-by: Atila Orhon <64497909+atiorh@users.noreply.github.com>
Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
Co-authored-by: atila <atiorh@icloud.com>
2024-03-04 21:06:11 -08:00
Awni Hannun 7b463ffb07 Ios compile (#784)
* try to fix build for ios

* skip cpu compile

* fix namespace

* fix namespace

* Use CMake for platform specific cpu compile

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-03-04 20:02:26 -08:00
Jagrit Digani 6686e61ca4 Reduce update (#783)
* Split reduction files to reduce compile times

* Add small and medium axis size specializations for row reductions

* Add non-row-reduction options for small and med kernels
2024-03-04 19:09:51 -08:00
Awni Hannun c096a77b9b revision bump (#778) 2024-03-04 13:41:53 -08:00
Awni Hannun 5121f028d9 nice tensordot for mlx c (#782) 2024-03-04 09:51:02 -08:00
Piotr Rybiec 6a665ea6ed Dilation for convolutional layers (#766)
* add dilation parameter to Conv1d layer

* space here too

* add conv1d dilation test

* add dilation parameter for Conv2d layer

* conv2d dilation test
2024-03-04 06:43:00 -08:00
Awni Hannun bc06cb9ff6 Pickle + dtype fix for numpy conversion (#763)
* pickle + dtype fix for numpy conversion

* fix getattribute on Module base

* remove unused function

* fix tests

* add topk to ops

* fix doc
2024-03-02 06:09:29 -08:00
Angelos Katharopoulos 8e281c76c3 Fix the top-k op (#768) 2024-03-01 22:08:43 -08:00
Awni Hannun d5964a2710 bindings for memory info (#761)
* bindings for memory info

* update api

* keep cache low if requested

* fix default

* nit in ops error
2024-03-01 19:51:58 -08:00
Ikko Eltociear Ashimine cf3eb87e52 Fix typo in transforms.cpp (#764)
occuring -> occurring
2024-02-29 22:23:46 -08:00
Awni Hannun ab3a466711 bump (#760) 2024-02-29 11:58:54 -08:00
Awni Hannun 4494970f47 avoid nested closures in module (#759) 2024-02-29 09:39:52 -08:00
Jagrit Digani 776c3d226d Convolution update (#651)
* Init steel conv and update Conv primitive

* Update slow CPU implementation to support flipping and input dilation winograd conv routing

Co-authored-by: Awni Hannun <awni@apple.com>
2024-02-28 20:11:16 -08:00
Awni Hannun f5f18b704f fix temporary bug (#752) 2024-02-27 17:44:39 -08:00
Awni Hannun 420ff2f331 Add back compiled function signatures and docstrings (#749)
* try to add back compiled function signatures and docstrings

* add indentation to docstring
2024-02-27 13:18:59 -08:00
Awni Hannun 56ba3ec40e fix cpu compile on older OS (#747) 2024-02-26 22:20:53 -08:00
Noah Kasmanoff de3d2467a3 Update: Fast GeLU Approximation (#744)
* add: fast gelu approx

* fix docs

* Update gelu_fast_approx function documentation

* Update python/mlx/nn/layers/activations.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* fix: test gelu

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-02-26 21:08:50 -08:00
Awni Hannun fe1dabf272 Fix compile with non standard types (#745)
* refactor tree utils

* fix compile + tree code refactor

* Add an extra test

* add a few missing activations to docs

* hash structure

* Encode the full argument structure

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-26 19:28:53 -08:00
Hinrik Snær Guðmundsson 08226ab491 added atleast *args input support (#710)
* added atleast list(array) input support

* function overloading implemented

* Refactoring

* fixed formatting

* removed pos_only
2024-02-26 11:17:59 -08:00
Chime Ogbuji 3b661b7394 Add linear warmup and schedule joining for use with existing schedules (#721)
* Add linear warmup to schedules for use with existing schedules

* Changed parameters for simplicity of most common case (0 initial value)

* Added ScheduleJoiner and updated documentation

* ScheduleJoiner -> join_schedules (ala optax #)

* black compliance

* Different evaluation of schedules

* nits

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-02-26 07:28:48 -08:00
Awni Hannun e6418781ab Fix logsumexp edge case (#740)
* fix logsumexp

* fix inf constant

* also fix power grad

* fix ternary dispatch
2024-02-25 08:39:55 -08:00
Awni Hannun ac02cf33bd Fix some issues using MLX in C++ (#739)
* fix preamble build

* fix some issues with using MLX as a dep in C++
2024-02-24 22:20:57 -08:00
Gabrijel Boduljak 22364c40b7 Upsample2d (#414)
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-02-23 09:55:04 -08:00
Noah Farr d729a1991b Fix arange with inf step (#686)
* Fix case for step=inf in arange and add inf check for start/stop

* Add test cases for arange

* Update ops.cpp to include climits header

* Fix arange

* Fix formatting

* Refactor

* Add missing include
2024-02-23 06:18:15 -08:00
Rifur13 126c9869c8 Implement the 'where' primitive for conditional selection (#664) 2024-02-22 15:10:48 -08:00
Angelos Katharopoulos ad4a45e615 Fix the release builds in CI (#729) 2024-02-22 14:09:13 -08:00
Awni Hannun 04fc896016 version bump (#727) 2024-02-22 11:54:17 -08:00
Jagrit Digani 884b4ed43b Fix threadgroup memory in arg reduce (#723) 2024-02-21 19:42:16 -08:00
Vijay Krish 972d9a3aea Up to 10x faster scatter. (#709)
* Faster scatter.

Add specialization for 1-d index tensors.

* Address review comments.

- Check for row contiguity of index, update tensors
  instead of checking strides.
- Add support for 1d specialization with col contiguous update
  tensor, along with a test.

* Nit1

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Nit2

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-02-21 11:09:30 -08:00
Angelos Katharopoulos 7dcdd88e27 Change the logo and add a dark option (#716) 2024-02-20 10:57:02 -08:00
Awni Hannun 8120a3b65c link to other APIs (#715)
* link to other APIs

* remove sec
2024-02-20 09:54:49 -08:00
Awni Hannun 5798256fcf Shapeless compilation for some graphs (#687)
* shapeless compilation for some graphs

* update compile benchmark

* default compile a few activations

* buffer donation

* bugfix

* shapeless fix

* update tests to work for cpu and gpu fusion

* test kwargs

* add kwargs to compile

* Recompile when python arguments change

* no compile for tanh

* some constant tests

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-19 21:43:54 -08:00
Awni Hannun d0fda82595 fix tolist for half types (#702) 2024-02-19 09:44:27 -08:00
Hinrik Snær Guðmundsson f883fcede0 Added support for atleast_1d, atleast_2d, atleast_3d (#694) 2024-02-19 09:40:52 -08:00
Diogo e1bdf6a8d9 discover doctests in cmake (#703) 2024-02-19 07:03:56 -08:00
Awni Hannun 1a4f4c5ea6 Refactor CPU compile preamble (#708)
* refactor cpu preamble

* fix include order

* fix some issues'

* fixes for linux

* try to fix includes

* add back warning suppression

* more linux fixes
2024-02-19 06:12:53 -08:00
Jack Mousseau 0925af43b0 Remove unused variables (#706) 2024-02-18 12:50:10 -08:00
Awni Hannun dc937b8ed3 CPU compile (#691)
* build and load shared object for cpu compile

* nits

* cpu compile tests pass

* cpu compile tests pass

* fix preamble for g++

* donation

* fix gpu buffer donation

* reuse prebuilt libraries

* faster contiguity conditoins

* fix test

* rid compiler warning

* fast erf

* Fix float16 for compile and add more types to cpu compile

* Remove a forgotten comment

* use cached libs

* nits

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-17 06:54:32 -08:00
Awni Hannun c3965fc5ee Separate fast ops and primitives (#699) 2024-02-16 19:16:39 -08:00
Awni Hannun bf7cd29970 version bump (#698) 2024-02-16 08:44:08 -08:00
Nripesh Niketan a000d2288c feat: update black pre-commit hook to 24.2.0 (#696) 2024-02-16 06:01:59 -08:00
Mike Drob 165abf0e4c Auto-run PRs from contributors (#692) 2024-02-15 17:30:35 -08:00
Srimukh Sripada 818cda16bc Support LR schedulers (#334)
* Add a few LR schedulers

* Move parents's constructor call to the top

* Fix docstring

* refactor optimizers into two files

* add docs

* nit

* Fix Callable type annotation for python 3.8

---------

Co-authored-by: Awni Hannun <awni@apple.com>
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-15 11:26:20 -08:00
toji 85143fecdd improved error msg for invalid axis(mx.split) (#685)
* improved error msg for invalid axis(`mx.split`)

* Apply suggestions from code review

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* fixed formatting issue

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-02-15 07:25:38 -08:00
Diogo 35431a4ac8 Adds device context manager (#679) 2024-02-14 14:14:58 -08:00
Awni Hannun ccf1645995 Custom primitive + RoPE fat op (#676)
* extensions start

* rope custom op

* fix build

* docs + rope benchmark

* fix test

* Add a Metal kernel for RoPE

* Fix position of traditional

* transform tests

* Move rope computation to float and fix tests

* Fix the test and a typo

* change to fast

* fix no metal build

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-14 14:04:25 -08:00
Jagrit Digani 1a48713d32 Update gather and scatter to not use Argument Encoder (#683)
* Replace argument encoder usage for gather and scatter

* Use constant address space for shapes and strides

* Split gather and scatter to improve compile times

* Enable the GPU tests

* Update the CI config

* Fix scatter dispatch for scalar indices

* Remove arg encoder utils

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-14 13:42:13 -08:00
Awni Hannun 1eb04aa23f Fix empty array construction in cpp (#684) 2024-02-13 23:34:17 -08:00
Noah Farr 0c65517e91 Return empty array when repeats is 0 in mx.repeat (#681)
* Return empty array when repeats is 0

* Add test case for repeats = 0
2024-02-13 17:49:31 -08:00
Vijay Krish 2fdc2462c3 Faster gather and scatter. (#682)
Reduce unnecessary integer ops, especially since
there kernels are integer bound.

Increase number of iterations for benchmarks for
better smoothing.

Github Issue #506

Co-authored-by: Vijay Krishnamoorthy <vijay_krish@apple.com>
2024-02-13 17:47:41 -08:00
Hinrik Snær Guðmundsson be6e9d6a9f Fixed wording in extensions.rst (#678)
changed "learn how add" -> "learn how to add"
2024-02-13 08:39:02 -08:00
Gabrijel Boduljak e54cbb7ba6 Pooling layers (#357)
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-02-12 22:08:13 -08:00
Angelos Katharopoulos 40c108766b Quantized matmul fix (#677)
* Fix qmv for small or unaligned matrices

* Fix qmm
2024-02-12 18:54:21 -08:00
Mike Drob 4cc70290f7 PR Builder Workflow (#659) 2024-02-12 17:47:21 -08:00
Awni Hannun 74caa68d02 nit in readme (#675) 2024-02-12 12:25:04 -08:00
Awni Hannun 3756381358 Faster bfloat quantized mat-vec and vec-mat (#663) 2024-02-11 21:53:16 -08:00
Awni Hannun d12573daa6 quote file name (#670) 2024-02-11 10:33:30 -08:00
Nripesh Niketan 0dbc4c7547 feat: Update pre-commit-config.yaml (#667) 2024-02-11 06:08:20 -08:00
Vijay Krish 06072601ce Scatter optimization : Eliminate 64b integer divide. (#662)
Launch 2D grid to eliminate divide and mod in device code,
since 64b integer division is very expensive.

Github Issue #506

Co-authored-by: Vijay Krishnamoorthy <vijay_krish@apple.com>
2024-02-10 08:49:51 -08:00
Angelos Katharopoulos 11d2c8f7a1 Linux build for CI of other packages (#660) 2024-02-09 18:17:04 -08:00
Awni Hannun 7f3f8d8f8d Fix the softmax fix (#661) 2024-02-09 17:02:13 -08:00
Awni Hannun b96be943dc bug fix (#658) 2024-02-09 16:50:45 -08:00
Abdussamet Türker b670485185 Remainder negative numerator bug fixed (#641)
Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-09 16:49:14 -08:00
Diogo b57bd0488d Metadata support for safetensors (#639)
* metadata support for safetensors

* aliases making it alittle more readable

* addressing comments

* python binding tests
2024-02-08 19:33:15 -08:00
Angelos Katharopoulos 221f8d3fc2 Bump the version to 0.2 (#656) 2024-02-08 11:27:12 -08:00
Awni Hannun 5c03efaf29 Compile docs (#653)
* compile docs

* docs nits + comments
2024-02-08 11:21:50 -08:00
LeonEricsson 7dccd42133 updated calls to use loc &scale (#643) 2024-02-08 09:01:59 -08:00
Awni Hannun 1b97b2958b Compile with capture (#629)
* Simple kernel generation

* Remove the generate kernel from graph_utils

* fix multi-output with compile

* fuse with stopgrad

* v1 input, output capture in compile

* cleanup tree update with visitor update

* nit

* remove todo

* state for model, optional explicit init and more pure optimizer steps

* move learning rate to state

* add lr to opt state, some fixes in capture

* fix optim

* update tuple of containers as well

* fix stream for compiled output

* rng state for compile

* nit

* updates and comments

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-02-07 17:29:22 -08:00
Awni Hannun e5e816a5ef fix sequential with empty modules at end (#647) 2024-02-07 13:22:27 -08:00
Angelos Katharopoulos 28eac18571 Kernel generation (#614)
Generate reusable element-wise kernels given a computation graph.
2024-02-07 13:15:59 -08:00
Noah Farr 5fd11c347d Add loc and scale to random.normal (#638)
* Add loc and scale to random.normal

* Add tests for loc and scale for random.normal

* Run pre-commit hooks

* Fix code review
2024-02-07 11:49:59 -08:00
Aryan Gupta ef73393a19 Feat: Add weights argument in BCE Loss and tests (#620) 2024-02-07 09:39:52 -08:00
Angelos Katharopoulos ea406d5e33 CI change (#645)
* CI update

* Skip large binary test for now

* Upgrade pip

* Add proper env variable skipping

* Update the CI

* Fix workflow name

* Set the low memory flag for the tests

* Change build process

* Add pip upgrade

* Use a venv

* Add a missing env activate

* Add setuptools

* Add twine upload back

* Re-enable automatic release builds
2024-02-07 06:04:34 -08:00
Awni Hannun 146bd69470 Skip compile when transforming (#635)
* skip compile when transforming

* simplify message
2024-02-05 21:28:37 -08:00
Jagrit Digani 316ff490b3 Remove masks from BlockLoader and clear out load case for invalid thread (#634) 2024-02-05 16:00:17 -08:00
Awni Hannun d40a04f8dc minor fixes (#631)
* minor fixes

* var with ddof >= nelements
2024-02-05 13:27:49 -08:00
Awni Hannun d75ae52ecd Compile primitive (#571)
* Compiled primitive with basic binary, unary graph-level fusion
2024-02-05 06:51:22 -08:00
Avikant Srivastava 31fea3758e feat: enhancement of the error message for mlx.core.mean (#608)
* add error message
2024-02-05 01:21:49 -08:00
Awni Hannun e319383ef9 Faster gather (#626)
* faster gather

* update copyright
2024-02-04 17:25:44 -08:00
Awni Hannun 5c3ac52dd7 fix test (#627) 2024-02-04 16:18:03 -08:00
David Koski ebfd3618b0 fixes for building and running on iOS (#619)
* fixes for building and running on iOS

* per suggestion just use Accelerate
2024-02-04 12:29:17 -08:00
Avikant Srivastava 11a9fd40f0 fix: handle linspace function when num is 1 (#602)
* fix: handle linspace function when num is 1

* add comment

* fix test case

* remove breakpoint
2024-02-04 11:03:49 -08:00
Daniel Strobusch 4fd2fb84a6 make python array SupportsAbs conform (like numpy) (#624) 2024-02-04 09:31:02 -08:00
Daniel Strobusch 9852af1a19 fix "shape" docstring. (#623) 2024-02-04 09:21:22 -08:00
minghuaw 16750f3c51 Fix typo in CMakeLists.txt (#616) 2024-02-03 05:59:26 -08:00
Awni Hannun 95b5fb8245 minor changes (#613) 2024-02-02 11:48:35 -08:00
AtomicVar 83f63f2184 Add Margin Ranking Loss (#536) 2024-02-02 10:57:31 -08:00
Awni Hannun cb6156d35d Fix eval in trace bugs (#612)
* Fix eval in trace bugs

* comment nit
2024-02-02 09:57:12 -08:00
Piotr Rybiec 506d43035c typo fix (#607) 2024-02-01 17:39:55 -08:00
Angelos Katharopoulos 36cff34701 Bump the version (#604) 2024-02-01 11:41:38 -08:00
Awni Hannun e88e474fd1 Reduce vmap + some fixes (#601) 2024-02-01 11:30:28 -08:00
David Koski 601c6d6aa8 Fix for AdaDelta (#603)
- state was being read from parameter "s"
- but being stored in parameter "u"
2024-02-01 09:56:27 -08:00
Angelos Katharopoulos ba8d6bf365 Change the transformer to norm_first by default (#599) 2024-01-31 12:55:30 -08:00
Sugato Ray 4a5f3b21bb Add py.typed to support PEP-561 (type-hinting) for mlx (#588)
* Add `py.typed` to support PEP-561 (type-hinting)

This adds support for type-hinting information as laid in [PEP-561](https://peps.python.org/pep-0561/).

* add py.typed to MANIFEST.in
2024-01-31 12:05:42 -08:00
Vijay Krish fcc5ac1c64 Add GPU support for uint64/int64 reductions (#569) 2024-01-31 11:18:04 -08:00
nathan bad67fec37 Added TeX line breaks to mlx.optimizers.Lion docstring (#595)
Fixes the "misplaced &" MathJax error in documentation.
2024-01-30 19:37:34 -08:00
Angelos Katharopoulos 199aebcf77 Change the variance computation (#319) 2024-01-30 19:28:56 -08:00
Angelos Katharopoulos 0de5988f92 Custom VJP and checkpointing (#541)
* Implement custom_vjp and checkpointing
* Add a dependency management primitive
* Change the eval order to deep branches first
* Add graph depth tracking to the array
2024-01-30 16:04:45 -08:00
Jacket 143e2690d5 Fix SGD implementation (#473) 2024-01-30 15:50:46 -08:00
Jagrit Digani 375446453e Update Compute Pipeline Creation API (#581)
* Add option to specialize metal functions on function constants
* Update Compute Pipeline Creation API
* Add options to make libraries from source and stitching
* Update function specialization name options
2024-01-30 15:42:36 -08:00
Angelos Katharopoulos 1895d34c20 Fix log1p with inf inputs (#592) 2024-01-30 14:02:50 -08:00
Awni Hannun 09b9275027 Make shape a tuple (#591)
* shape tuple

* also remove simplify from docs

* rebase
2024-01-30 13:11:01 -08:00
Andre Slavescu d3a9005454 Softshrink mapping + op (#552)
* Added Softshrink mapping + op

* formatting

* docs + nits in docstring

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-30 12:56:28 -08:00
Jacket 3f7aba8498 Implement diagonal operator (#562)
* Implement diagonal operator

This implements mx.diagonal in operator level, inspired by
@ManishAradwad.

* added `mx.diag` with tests

* corrected few things

* nits in bindings

* updates to diag

---------

Co-authored-by: ManishAradwad <manisharadwad@gmail.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-30 09:45:48 -08:00
Angelos Katharopoulos 65d0b8df9f Fix binary op dispatch (#584) 2024-01-29 19:36:17 -08:00
Awni Hannun 3c2f192345 Propagate nans in binary ops (#579)
* propagate nans in binary ops

* handle empty matmul

* cpu minimum/maximum propagate nan

* benchmark maximum

* add min as well

* throw on negative indices with full

* verbose on linux

* fix matmul for zero K
2024-01-29 11:19:38 -08:00
Angelos Katharopoulos 37d98ba6ff No gil eval (#565) 2024-01-26 22:03:52 -08:00
Awni Hannun 8993382aaa Buffer Donation (#519)
* buffer donation

* fix to move shared pointer

* format

* gpu in place for copy and binary

* revert ops test

* cpu in place

* a little cleanup

* remove useless bench
2024-01-26 16:30:33 -08:00
Awni Hannun 07f35c9d8a Fix a few issues: docs for flatten, erf, dequantize validation (#560)
* doc flatten

* erf doc

* check values for dequantize

* format
2024-01-26 15:16:46 -08:00
Jagrit Digani bf17ab5002 Add more checks and clearer error messages to conv operations (#563)
* Add more checks and clearer error messages to conv operations
2024-01-26 15:13:26 -08:00
Awni Hannun 8fa6b322b9 Compile front-end (#476)
* fix tests for linux

* make a move on compile

* basic compile scaffold works

* compile binding

* clean

* fix

* fix grad, more tests

* basic python tests

* fix segfault on python exit

* compile works with python closures

* fix test

* fix python globals bug, and erase

* simplify

* more cpp tests

* bug fix with move function and compile at exit

* simplify inputs also

* enable and disable compiler

* remove simplify

* simplify tests use compile now

* fix multi-output with compile

* clear output tree from cache when function goes out of scope

* ../python/src/transforms.cpp

* remove closure capture

* comments
2024-01-26 13:45:30 -08:00
David Koski 874b739f3c Fix cache key in RoPE (#561) 2024-01-26 13:10:02 -08:00
taher 077c1ee64a QR factorization (#310)
* add qr factorization

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-26 09:27:31 -08:00
Rifur13 2463496471 [Fix] mx.allclose bug with infinite values (#539)
* Added isclose op and fixed comparison with inf values

* Added 'equal_nan' to match numpy

* format

* Add test

* Update python/src/ops.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Update python/src/ops.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* Addressed CR comments

* Update python/src/ops.cpp

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* nits

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-25 20:47:06 -08:00
Angelos Katharopoulos 87b7fa9ba2 Bump the version (#554) 2024-01-25 11:01:05 -08:00
Danilo Peixoto 624065c074 Fix package installation for CI (#521)
Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-01-25 09:43:34 -08:00
Awni Hannun f27ec5e097 More helpful error message in vjp transform + concate bug (#543)
* more helpful message in vjp transform

* fix concatenate on mismatch dims

* typo

* typo
2024-01-24 09:58:33 -08:00
Awni Hannun f30e63353a Minor updates to address a few issues (#537)
* docs on arg indices return type

* arange with nan

* undo isort
2024-01-23 22:24:41 -08:00
Juarez Bochi 4fe2fa2a64 GGUF: Avoid dequantization when format is compatible (#426)
* GGUF: Don't dequantize q4_1

* Fix weight order. First in low bits

* Add unpacking for q4_0

* Don't dequantize q8_0

* rebase quants and split file

* don't quantize every weight

* reapply patch

* error handling

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-23 15:43:57 -08:00
Hazem Essam 37fc9db82c Added Adafactor (#415)
* Added adafactor

* Added Adafactor and ran pre-commit

* modified operations

* Added docstrings

* Switched two ops to fix a bug

* added underscore for internal functions and removed the plus sign in the last return statment

* Removed parameter rms from the optimizer state because its not needed

* Added simple MNIST test for Adafactor and temporary training log

* remove test files

* nits in docs

* comment nit

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-23 15:11:27 -08:00
AtomicVar 755dcf6137 Enable cross_entropy loss to handle dense targets (#517)
* Enable cross_entropy loss to handle dense targets

Dense targets means probabilities or one-hot encodings.

* better shape check of weights

* nits in docstring

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-23 12:17:22 -08:00
LeonEricsson 6b4b30e3fc Common neural network initializers nn.initializers (#456)
* initial commit: constant, normal, uniform

* identity, glorot and he initializers

* docstrings

* rm file

* nits

* nits

* nits

* testing suite

* docs

* nits in docs

* more docs

* remove unused template

* rename packakge to nn.innit

* docs, receptive field

* more docs

---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-23 06:47:20 -08:00
Awni Hannun 86e0c79467 remove stale benchmarks (#527) 2024-01-22 22:17:58 -08:00
Awni Hannun 98c37d3a22 use axes in tensordot (#525) 2024-01-22 21:17:00 -08:00
Sugato Ray f326dd8334 Update README.md (#524)
Add conda install option in docs.
2024-01-22 20:53:54 -08:00
Jagrit Digani 6d3bee3364 Fix oob reads in gemv kernel (#523) 2024-01-22 12:06:04 -08:00
Danilo Peixoto ecb174ca9d Type annotations for mlx.core module (#512) 2024-01-21 12:53:12 -08:00
Awni Hannun 7a34e46677 Quantize with groups of 32 (#511)
* allow quantize with group sizes of 32

* missing cpu dispatch

* remove print

* Fix qvm for group_size 32

---------

Co-authored-by: Angelos Katharopoulos <a_katharopoulos@apple.com>
2024-01-21 06:19:05 -08:00
Nripesh Niketan 92c22c1ea3 feat: Update isort version to 5.13.2 (#514) 2024-01-21 06:11:48 -08:00
Awni Hannun d52383367a format (#510) 2024-01-20 10:33:46 -08:00
Arda Orçun 363d3add6d Add ValuError message for Adamax (#508)
* ValuError message added

* beta errors added

* some corrections and testing

* Learning rate limitation deleted
2024-01-20 07:56:15 -08:00
Awni Hannun b207c2c86b Power VJP fix for 0 (#505) 2024-01-20 01:17:40 -08:00
Awni Hannun 6bf779e72b fix array from list for > 32 bit types (#501) 2024-01-19 15:49:25 -08:00
Juarez Bochi ddf50113c5 GGUF: Load and save metadata (#446)
* gguf metadata
---------

Co-authored-by: Awni Hannun <awni@apple.com>
2024-01-19 14:06:05 -08:00
Arda Orçun 6589c869d6 Added MSE message (#500)
* Added MSE message

* changed wrong line.

* Update examples/python/linear_regression.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-01-19 06:27:50 -08:00
Anchen f6feb61f92 feat: add support for saving safetensors in the save_weights (#497)
* feat: add save safetensors support in module save_weights

* chore: checking missing changes

* Update python/mlx/nn/layers/base.py

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>

* chore: update docstring for load_weights

---------

Co-authored-by: Awni Hannun <awni.hannun@gmail.com>
2024-01-19 06:19:33 -08:00
Awni Hannun c4ec836523 fix isinf for integer types (#494) 2024-01-19 05:31:10 -08:00
AtomicVar 550d4bf7c0 Update binary_cross_entropy function to handle both logits and probabilities (#492) 2024-01-18 19:22:23 -08:00
793 changed files with 134622 additions and 28484 deletions
+467 -131
View File
@@ -1,18 +1,73 @@
version: 2.1
orbs:
apple: ml-explore/pr-approval@0.1.0
parameters:
nightly_build:
type: boolean
default: false
weekly_build:
test_release:
type: boolean
default: false
jobs:
linux_build_and_test:
docker:
- image: cimg/python:3.9
build_documentation:
parameters:
upload-docs:
type: boolean
default: false
macos:
xcode: "26.0.0"
resource_class: m4pro.medium
steps:
- checkout
- run:
name: Install
command: |
xcodebuild -downloadComponent MetalToolchain
brew install python@3.10
brew install doxygen
python3.10 -m venv env
source env/bin/activate
pip install --upgrade pip
pip install --upgrade cmake
pip install -r docs/requirements.txt
pip install . -v
- when:
condition:
not: << parameters.upload-docs >>
steps:
- run:
name: Build documentation
command: |
source env/bin/activate
cd docs && doxygen && make html O=-W
- when:
condition: << parameters.upload-docs >>
steps:
- add_ssh_keys:
fingerprints:
- "SHA256:OhcVVMovbT0pkgMeiVRyxMnjV9R2t+hKBsNcuxq9h+0"
- run:
name: Upload documentation
command: |
source env/bin/activate
git config user.email "mlx@group.apple.com"
git config user.name "CircleCI Docs"
git checkout gh-pages
git rebase main
cd docs
git rm -rf build/html
doxygen && make html O=-W
git add -f build/html
git commit -m "rebase"
git push -f origin gh-pages
linux_build_and_test:
machine:
image: ubuntu-2204:current
resource_class: large
steps:
- checkout
- run:
@@ -24,197 +79,403 @@ jobs:
- run:
name: Install dependencies
command: |
pip install --upgrade cmake
pip install --upgrade pybind11[global]
pip install numpy
export DEBIAN_FRONTEND=noninteractive
export NEEDRESTART_MODE=a
sudo apt-get update
sudo apt-get install libblas-dev
sudo apt-get install -y libblas-dev liblapack-dev liblapacke-dev
sudo apt-get install openmpi-bin openmpi-common libopenmpi-dev
curl -LsSf https://astral.sh/uv/install.sh | sh
- run:
name: Build python package
name: Install Python package
command: |
CMAKE_ARGS="-DMLX_BUILD_METAL=OFF" CMAKE_BUILD_PARALLEL_LEVEL="" python3 setup.py build_ext --inplace
CMAKE_ARGS="-DMLX_BUILD_METAL=OFF" CMAKE_BUILD_PARALLEL_LEVEL="" python3 setup.py develop
uv venv
uv pip install cmake
DEBUG=1 CMAKE_ARGS="-DCMAKE_COMPILE_WARNING_AS_ERROR=ON" \
uv pip install -e ".[dev]" -v
- run:
name: Run the python tests
name: Generate package stubs
command: |
python3 -m unittest discover python/tests
# TODO: Reenable when extension api becomes stable
# - run:
# name: Build example extension
# command: |
# cd examples/extensions && python3 -m pip install .
uv pip install typing_extensions
uv run --no-project setup.py generate_stubs
- run:
name: Run Python tests
command: |
source .venv/bin/activate
python -m unittest discover python/tests -v
mpirun --bind-to none -host localhost:8 -np 8 python python/tests/mpi_test_distributed.py
mlx.launch --verbose -n 8 python/tests/ring_test_distributed.py -v 2> >(tee -a stderr.log >&2)
if $(grep "\[WARN\]" stderr.log); then echo "Distributed ring test failed"; exit 1; fi
- run:
name: Build CPP only
command: |
mkdir -p build && cd build && cmake .. -DMLX_BUILD_METAL=OFF && make -j
source .venv/bin/activate
mkdir -p build && cd build
cmake .. -DMLX_BUILD_METAL=OFF -DCMAKE_BUILD_TYPE=DEBUG
make -j `nproc`
- run:
name: Run CPP tests
command: ./build/tests/tests
mac_build_and_test:
machine: true
resource_class: ml-explore/m-builder
parameters:
xcode_version:
type: string
default: "26.0.0"
macosx_deployment_target:
type: string
default: ""
macos:
xcode: << parameters.xcode_version >>
environment:
MACOSX_DEPLOYMENT_TARGET: << parameters.macosx_deployment_target >>
resource_class: m4pro.medium
steps:
- checkout
- run:
name: Install dependencies
command: |
eval "$(conda shell.bash hook)"
rm -r $CONDA_PREFIX/envs/runner-env
conda create -y -n runner-env python=3.9
conda activate runner-env
pip install --upgrade cmake
pip install --upgrade pybind11[global]
pip install numpy
pip install torch
pip install tensorflow
pip install unittest-xml-reporting
xcodebuild -downloadComponent MetalToolchain
HOMEBREW_NO_AUTO_UPDATE=1 HOMEBREW_NO_INSTALL_CLEANUP=1 \
brew install openmpi uv
- run:
name: Build python package
name: Install Python package
command: |
eval "$(conda shell.bash hook)"
conda activate runner-env
CMAKE_BUILD_PARALLEL_LEVEL="" python setup.py build_ext --inplace
CMAKE_BUILD_PARALLEL_LEVEL="" python setup.py develop
uv venv --python 3.10
uv pip install \
nanobind==2.4.0 \
cmake \
numpy \
torch \
tensorflow \
unittest-xml-reporting
DEBUG=1 CMAKE_ARGS="-DCMAKE_COMPILE_WARNING_AS_ERROR=ON" \
uv pip install -e . -v
- run:
name: Run the python tests
name: Generate package stubs
command: |
eval "$(conda shell.bash hook)"
conda activate runner-env
DEVICE=cpu python -m xmlrunner discover -v python/tests -o test-results/cpu
DEVICE=gpu python -m xmlrunner discover -v python/tests -o test-results/gpu
# TODO: Reenable when extension api becomes stable
# - run:
# name: Build example extension
# command: |
# eval "$(conda shell.bash hook)"
# conda activate runner-env
# cd examples/extensions && python -m pip install .
uv pip install typing_extensions
uv run --no-project setup.py generate_stubs
- run:
name: Run Python tests
command: |
source .venv/bin/activate
LOW_MEMORY=1 DEVICE=cpu python -m xmlrunner discover -v python/tests -o test-results/cpu
LOW_MEMORY=1 DEVICE=gpu METAL_DEVICE_WRAPPER_TYPE=1 METAL_DEBUG_ERROR_MODE=0 python -m xmlrunner discover -v python/tests -o test-results/gpu
mpirun --bind-to none -host localhost:8 -np 8 -x DYLD_LIBRARY_PATH=/opt/homebrew/lib/ python python/tests/mpi_test_distributed.py
mlx.launch --verbose -n 8 python/tests/ring_test_distributed.py -v 2> >(tee -a stderr.log >&2)
if $(grep "\[WARN\]" stderr.log); then echo "Distributed ring test failed"; exit 1; fi
- run:
name: Build example extension
command: |
source .venv/bin/activate
cd examples/extensions
uv pip install -r requirements.txt
uv run --no-project setup.py build_ext --inplace
uv run --no-project python test.py
- store_test_results:
path: test-results
- run:
name: Build CPP only
command: |
mkdir -p build && cd build && cmake .. && make -j
source .venv/bin/activate
mkdir -p build && cd build && cmake .. && make -j `sysctl -n hw.ncpu`
- run:
name: Run CPP tests
command: METAL_DEVICE_WRAPPER_TYPE=1 METAL_DEBUG_ERROR_MODE=0 ./build/tests/tests
command: |
DEVICE=gpu METAL_DEVICE_WRAPPER_TYPE=1 METAL_DEBUG_ERROR_MODE=0 ./build/tests/tests
- run:
name: Build small binary
command: |
source .venv/bin/activate
cd build/
cmake .. -DCMAKE_BUILD_TYPE=MinSizeRel \
-DBUILD_SHARED_LIBS=ON \
-DMLX_BUILD_CPU=OFF \
-DMLX_BUILD_SAFETENSORS=OFF \
-DMLX_BUILD_GGUF=OFF \
-DMLX_METAL_JIT=ON
make -j `sysctl -n hw.ncpu`
- run:
name: Run Python tests with JIT
command: |
CMAKE_ARGS="-DMLX_METAL_JIT=ON" \
uv pip install -e . -v
LOW_MEMORY=1 DEVICE=gpu METAL_DEVICE_WRAPPER_TYPE=1 \
METAL_DEBUG_ERROR_MODE=0 \
uv run --no-project python -m xmlrunner discover \
-v python/tests \
-o test-results/gpu_jit
cuda_build_and_test:
parameters:
image_date:
type: string
default: "2023.11.1"
machine:
image: "linux-cuda-12:<< parameters.image_date >>"
resource_class: gpu.nvidia.small.gen2
steps:
- checkout
- restore_cache:
keys:
- cuda-<< parameters.image_date >>-{{ arch }}-
- run:
name: Install dependencies
command: |
sudo apt-get update
sudo apt-get install libcudnn9-dev-cuda-12
sudo apt-get install libblas-dev liblapack-dev liblapacke-dev
sudo apt-get install libnccl2 libnccl-dev
curl -sL https://github.com/ccache/ccache/releases/download/v4.11.3/ccache-4.11.3-linux-x86_64.tar.xz | tar xJf -
sudo mv ccache-4.11.3-linux-x86_64/ccache /usr/bin/ccache
rm -rf ccache-4.11.3-linux-x86_64
curl -LsSf https://astral.sh/uv/install.sh | sh
- run:
name: Set CCache size
command: ccache --max-size 1G
- run:
name: Install Python package
command: |
uv venv
uv pip install cmake
DEBUG=1 CMAKE_ARGS="-DMLX_BUILD_CUDA=ON -DCMAKE_COMPILE_WARNING_AS_ERROR=ON -DCMAKE_CUDA_COMPILER=`which nvcc`" \
uv pip install -e ".[dev]" -v
- run:
name: Run Python tests
command: |
source .venv/bin/activate
LOW_MEMORY=1 DEVICE=cpu python -m unittest discover python/tests -v
LOW_MEMORY=1 DEVICE=gpu python -m tests discover python/tests -v
- run:
name: Build CPP only
command: |
source .venv/bin/activate
cmake . -B build \
-DMLX_BUILD_CUDA=ON \
-DCMAKE_CUDA_COMPILER=`which nvcc` \
-DCMAKE_BUILD_TYPE=DEBUG
cmake --build build -j `nproc`
- run:
name: Run CPP tests
command: ./build/tests/tests -sfe="*fft_tests.cpp,*linalg_tests.cpp"
- run:
name: CCache report
command: |
ccache --show-stats
ccache --zero-stats
ccache --cleanup
- save_cache:
key: cuda-<< parameters.image_date >>-{{ arch }}-{{ epoch }}
paths:
- /home/circleci/.cache/ccache
build_release:
machine: true
resource_class: ml-explore/m-builder
parameters:
python_version:
type: string
default: "3.9"
macos_version:
default: "3.10"
xcode_version:
type: string
default: "14"
default: "26.0.0"
build_env:
type: string
default: ""
macosx_deployment_target:
type: string
default: ""
macos:
xcode: << parameters.xcode_version >>
resource_class: m4pro.medium
environment:
MACOSX_DEPLOYMENT_TARGET: << parameters.macosx_deployment_target >>
steps:
- checkout
- run:
name: Install dependencies
command: |
eval "$(conda shell.bash hook)"
rm -r $CONDA_PREFIX/envs/runner-env
conda create -y -n runner-env python=<< parameters.python_version >>
conda activate runner-env
xcodebuild -downloadComponent MetalToolchain
mkdir -p ~/miniconda3
curl https://repo.anaconda.com/miniconda/Miniconda3-latest-MacOSX-arm64.sh -o ~/miniconda3/miniconda.sh
bash ~/miniconda3/miniconda.sh -b -u -p ~/miniconda3
rm ~/miniconda3/miniconda.sh
source ~/miniconda3/bin/activate
conda init --all
conda create -n env python=<< parameters.python_version >> -y
conda activate env
pip install --upgrade cmake
pip install --upgrade pybind11[global]
pip install nanobind==2.4.0
pip install --upgrade setuptools
pip install numpy
pip install twine
pip install build
- run:
name: Build package
name: Install Python package
command: |
eval "$(conda shell.bash hook)"
conda activate runner-env
DEVELOPER_DIR=$(developer_dir_macos_<< parameters.macos_version >>) \
PYPI_RELEASE=1 \
CMAKE_BUILD_PARALLEL_LEVEL="" \
python setup.py bdist_wheel
twine upload dist/* --repository mlx
conda activate env
env -u MACOSX_DEPLOYMENT_TARGET DEV_RELEASE=1 \
pip install . -v
- run:
name: Generate package stubs
command: |
conda activate env
pip install typing_extensions
python setup.py generate_stubs
- run:
name: Build Python package
command: |
conda activate env
python setup.py clean --all
<< parameters.build_env >> MLX_BUILD_STAGE=1 python -m build -w
- when:
condition:
equal: ["3.10", << parameters.python_version >>]
steps:
- run:
name: Build common package
command: |
conda activate env
python setup.py clean --all
<< parameters.build_env >> MLX_BUILD_STAGE=2 python -m build -w
- when:
condition: << parameters.build_env >>
steps:
- run:
name: Upload package
command: |
conda activate env
twine upload dist/*
- store_artifacts:
path: dist/
build_dev_release:
machine: true
resource_class: ml-explore/m-builder
build_linux_release:
parameters:
python_version:
type: string
default: "3.9"
macos_version:
default: "3.10"
build_env:
type: string
default: "14"
default: ""
machine:
image: ubuntu-2204:current
resource_class: large
steps:
- checkout
- run:
name: Install dependencies
name: Build wheel
command: |
eval "$(conda shell.bash hook)"
rm -r $CONDA_PREFIX/envs/runner-env
conda create -y -n runner-env python=<< parameters.python_version >>
conda activate runner-env
PYTHON=python<< parameters.python_version >>
export DEBIAN_FRONTEND=noninteractive
export NEEDRESTART_MODE=a
sudo apt-get update
TZ=Etc/UTC sudo apt-get -y install tzdata
sudo add-apt-repository -y ppa:deadsnakes/ppa
sudo apt-get install -y $PYTHON $PYTHON-dev $PYTHON-full
sudo apt-get install -y libblas-dev liblapack-dev liblapacke-dev
$PYTHON -m venv env
source env/bin/activate
pip install --upgrade pip
pip install --upgrade cmake
pip install --upgrade pybind11[global]
pip install numpy
pip install auditwheel
pip install patchelf
pip install build
pip install twine
- run:
name: Build package
command: |
eval "$(conda shell.bash hook)"
conda activate runner-env
DEVELOPER_DIR=$(developer_dir_macos_<< parameters.macos_version >>) \
DEV_RELEASE=1 \
CMAKE_BUILD_PARALLEL_LEVEL="" \
python setup.py bdist_wheel
twine upload dist/* --repository mlx
<< parameters.build_env >> pip install ".[dev]" -v
pip install typing_extensions
python setup.py generate_stubs
python setup.py clean --all
MLX_BUILD_STAGE=1 << parameters.build_env >> python -m build -w
bash python/scripts/repair_linux.sh
- when:
condition:
equal: ["3.10", << parameters.python_version >>]
steps:
- run:
name: Build common package
command: |
source env/bin/activate
python setup.py clean --all
<< parameters.build_env >> MLX_BUILD_STAGE=2 \
python -m build -w
auditwheel repair dist/mlx_cpu*.whl --plat manylinux_2_35_x86_64
- when:
condition: << parameters.build_env >>
steps:
- run:
name: Upload packages
command: |
source env/bin/activate
twine upload wheelhouse/*.whl
- store_artifacts:
path: dist/
path: wheelhouse/
build_package:
machine: true
resource_class: ml-explore/m-builder
build_cuda_release:
parameters:
python_version:
build_env:
type: string
default: "3.9"
macos_version:
type: string
default: "14"
default: ""
machine:
image: ubuntu-2204:current
resource_class: xlarge
steps:
- checkout
- run:
name: Install dependencies
name: Build wheel
command: |
eval "$(conda shell.bash hook)"
rm -r $CONDA_PREFIX/envs/runner-env
conda create -y -n runner-env python=<< parameters.python_version >>
conda activate runner-env
pip install --upgrade cmake
pip install --upgrade pybind11[global]
pip install numpy
export DEBIAN_FRONTEND=noninteractive
export NEEDRESTART_MODE=a
wget https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2404/x86_64/cuda-keyring_1.1-1_all.deb
sudo dpkg -i cuda-keyring_1.1-1_all.deb
sudo apt-get update
sudo apt-get install cuda-toolkit-12-9 libcudnn9-dev-cuda-12
sudo apt-get install libblas-dev liblapack-dev liblapacke-dev
sudo apt-get install zip
pip install auditwheel
pip install patchelf
pip install build
pip install twine
- run:
name: Build package
command: |
eval "$(conda shell.bash hook)"
conda activate runner-env
DEVELOPER_DIR=$(developer_dir_macos_<< parameters.macos_version >>) \
CMAKE_BUILD_PARALLEL_LEVEL="" \
python setup.py bdist_wheel
export PATH=/usr/local/cuda/bin${PATH:+:${PATH}}
export LD_LIBRARY_PATH=/usr/local/cuda/lib64${LD_LIBRARY_PATH:+:${LD_LIBRARY_PATH}}
<< parameters.build_env >> MLX_BUILD_STAGE=2 \
CMAKE_ARGS="-DMLX_BUILD_CUDA=ON -DCMAKE_CUDA_COMPILER=`which nvcc`" \
python -m build -w
bash python/scripts/repair_cuda.sh
- when:
condition: << parameters.build_env >>
steps:
- run:
name: Upload package
command: |
twine upload wheelhouse/*.whl
- store_artifacts:
path: dist/
path: wheelhouse/
workflows:
build_and_test:
when:
and:
- matches:
pattern: "^(?!pull/)[-\\w]+$"
value: << pipeline.git.branch >>
- not: << pipeline.parameters.nightly_build >>
- not: << pipeline.parameters.weekly_build >>
- not: << pipeline.parameters.test_release >>
jobs:
- mac_build_and_test:
matrix:
parameters:
macosx_deployment_target: ["13.5", "15.0"]
- linux_build_and_test
- mac_build_and_test
- cuda_build_and_test:
matrix:
parameters:
image_date: ["2023.11.1", "2025.05.1"]
- build_documentation
build_pypi_release:
when:
and:
- not: << pipeline.parameters.nightly_build >>
- not: << pipeline.parameters.test_release >>
jobs:
- build_release:
filters:
tags:
@@ -223,21 +484,96 @@ workflows:
ignore: /.*/
matrix:
parameters:
python_version: ["3.8", "3.9", "3.10", "3.11", "3.12"]
macos_version: ["13", "14"]
python_version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
macosx_deployment_target: ["13.5", "14.0", "15.0"]
build_env: ["PYPI_RELEASE=1"]
xcode_version: ["26.0.0"]
- build_documentation:
filters:
tags:
only: /^v.*/
branches:
ignore: /.*/
upload-docs: true
- build_linux_release:
filters:
tags:
only: /^v.*/
branches:
ignore: /.*/
matrix:
parameters:
python_version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
build_env: ["PYPI_RELEASE=1"]
- build_cuda_release:
filters:
tags:
only: /^v.*/
branches:
ignore: /.*/
matrix:
parameters:
build_env: ["PYPI_RELEASE=1"]
prb:
when:
matches:
pattern: "^pull/\\d+(/head)?$"
value: << pipeline.git.branch >>
jobs:
- hold:
type: approval
- apple/authenticate:
context: pr-approval
- mac_build_and_test:
requires: [ hold ]
matrix:
parameters:
macosx_deployment_target: ["13.5", "15.0"]
- linux_build_and_test:
requires: [ hold ]
- cuda_build_and_test:
requires: [ hold ]
matrix:
parameters:
image_date: ["2023.11.1", "2025.05.1"]
nightly_build:
when: << pipeline.parameters.nightly_build >>
when:
and:
- equal: [ main, << pipeline.git.branch >> ]
- << pipeline.parameters.nightly_build >>
jobs:
- build_package:
- build_release:
matrix:
parameters:
python_version: ["3.8", "3.9", "3.10", "3.11", "3.12"]
macos_version: ["13", "14"]
weekly_build:
when: << pipeline.parameters.weekly_build >>
jobs:
- build_dev_release:
python_version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
macosx_deployment_target: ["13.5", "14.0", "15.0"]
xcode_version: ["26.0.0"]
- build_linux_release:
matrix:
parameters:
python_version: ["3.8", "3.9", "3.10", "3.11", "3.12"]
macos_version: ["13", "14"]
python_version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
- build_cuda_release
build_dev_release:
when:
and:
- equal: [ main, << pipeline.git.branch >> ]
- << pipeline.parameters.test_release >>
jobs:
- build_release:
matrix:
parameters:
python_version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
macosx_deployment_target: ["13.5", "14.0", "15.0"]
build_env: ["DEV_RELEASE=1"]
xcode_version: ["26.0.0"]
- build_linux_release:
matrix:
parameters:
python_version: ["3.10", "3.11", "3.12", "3.13", "3.14"]
build_env: ["DEV_RELEASE=1"]
- build_cuda_release:
matrix:
parameters:
build_env: ["DEV_RELEASE=1"]
+1 -1
View File
@@ -17,4 +17,4 @@ jobs:
pip install pre-commit black isort clang-format
- name: Run lint
run: |
pre-commit run --all-files
pre-commit run --all-files
+4
View File
@@ -36,6 +36,7 @@ share/python-wheels/
.installed.cfg
*.egg
MANIFEST
uv.lock
# vim
*.swp
@@ -76,6 +77,9 @@ build/
*.out
*.app
# Debug symbols
*.pdb
# VSCode
.vscode/
.DS_Store
+8 -3
View File
@@ -1,16 +1,21 @@
repos:
- repo: https://github.com/pre-commit/mirrors-clang-format
rev: v17.0.6
rev: v19.1.7
hooks:
- id: clang-format
# Using this mirror lets us use mypyc-compiled black, which is about 2x faster
- repo: https://github.com/psf/black-pre-commit-mirror
rev: 23.12.1
rev: 25.1.0
hooks:
- id: black
- repo: https://github.com/pycqa/isort
rev: 5.12.0
rev: 6.0.0
hooks:
- id: isort
args:
- --profile=black
- repo: https://github.com/cheshirekow/cmake-format-precommit
rev: v0.6.13
hooks:
- id: cmake-format
+17 -4
View File
@@ -7,16 +7,29 @@ with a short description of your contribution(s) below. For example:
MLX was developed with contributions from the following individuals:
- Nripesh Niketan: Added `softsign`, `softmax`, `hardswish`, `logsoftmax` activation functions. Added `dropout3d` ops. Added `LogicalAnd` and `LogicalOR` ops.
- Nripesh Niketan: Added `softsign`, `softmax`, `hardswish`, `logsoftmax` activation functions. Added `dropout3d` ops. Added `LogicalAnd` and `LogicalOR` ops. Added `clip_grad_norm` along with `tree_reduce`. Added `cross`. Added `orthogonal` initializer.
- Juarez Bochi: Fixed bug in cross attention.
- Justin Deschenaux: Sine, Cosine, arange, randint, truncated normal, bernoulli, lion optimizer, Dropout2d, linear and logistic regression python example.
- Diogo Da Cruz: Added `tri`, `tril`, `triu`, `tensordot`, `inner`, `outer`, `tile` and safetensor support
- Gabrijel Boduljak: Added `mlx.core.linalg`, implemented `norm` method and `InstanceNorm` layer.
- Diogo Da Cruz: Added `tri`, `tril`, `triu`, `tensordot`, `inner`, `outer`, `tile`, `StreamContext`, `stream`, safetensors support, `einsum`, and `einsum_path`.
- Gabrijel Boduljak: Added `mlx.core.linalg`, implemented `norm` method and `InstanceNorm` layer. Implemented pooling layers and ``Upsample``.
- Hinrik Snær Guðmundsson: Added `atleast_1d`, `atleast_2d`, `atleast_3d` ops.
- Luca Arnaboldi: Added `Ceil` and `Floor` ops; implemented pickling, copy and deepcopy for mlx arrays.
- Brian Keene & Atila Orhon, with Argmax Inc.: Added `fast.scaled_dot_product_attention`
- AmirHossein Razlighi: Added chaining support for some of the ops in `nn.Module`. Comparison works for non array objects in `mlx.core.array`. Exception handling for invalid operations in `mlx.core.array`.
- Gleb Pobudzey: Added the `where` primitive, and groups in 1D and 2D convolutions.
- Paul Paczuski: Improved stability of BCE loss calculation
- Max-Heinrich Laves: Added `conv_transpose1d`, `conv_transpose2d`, and `conv_transpose3d` ops.
- Gökdeniz Gülmez: Added the `Muon (MomentUm Orthogonalized by Newton-schulz)` optimizer, and the `ReLU²` activation function.
<a href="https://github.com/ml-explore/mlx/graphs/contributors">
<img class="dark-light" src="https://contrib.rocks/image?repo=ml-explore/mlx&anon=0&columns=20&max=100&r=true" />
</a>
# Organizations
MLX has received contributions from the following companies:
- NVIDIA Corporation & Affiliates
# Third-Party Software
MLX leverages several third-party software, listed here together with
@@ -252,4 +265,4 @@ Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
limitations under the License.
+24
View File
@@ -0,0 +1,24 @@
cff-version: 1.2.0
title: mlx
message: >-
If you use this software, please cite it using the
metadata from this file.
type: software
authors:
- given-names: Awni
family-names: Hannun
affiliation: Apple
- given-names: Jagrit
family-names: Digani
affiliation: Apple
- given-names: Angelos
family-names: Katharopoulos
affiliation: Apple
- given-names: Ronan
family-names: Collobert
affiliation: Apple
repository-code: 'https://github.com/ml-explore'
abstract: >-
MLX: efficient and flexible machine learning on Apple
silicon
license: MIT
+260 -135
View File
@@ -1,13 +1,36 @@
cmake_minimum_required(VERSION 3.24)
cmake_minimum_required(VERSION 3.25)
project(mlx LANGUAGES C CXX)
if(NOT MLX_VERSION)
file(STRINGS "mlx/version.h" _mlx_h_version REGEX "^#define MLX_VERSION_.*$")
string(REGEX MATCH "#define MLX_VERSION_MAJOR ([0-9]+)" _ "${_mlx_h_version}")
set(_major ${CMAKE_MATCH_1})
string(REGEX MATCH "#define MLX_VERSION_MINOR ([0-9]+)" _ "${_mlx_h_version}")
set(_minor ${CMAKE_MATCH_1})
string(REGEX MATCH "#define MLX_VERSION_PATCH ([0-9]+)" _ "${_mlx_h_version}")
set(_patch ${CMAKE_MATCH_1})
set(MLX_PROJECT_VERSION "${_major}.${_minor}.${_patch}")
set(MLX_VERSION ${MLX_PROJECT_VERSION})
else()
string(REGEX REPLACE "^([0-9]+\.[0-9]+\.[0-9]+).*" "\\1" MLX_PROJECT_VERSION
${MLX_VERSION})
endif()
project(
mlx
LANGUAGES C CXX
VERSION ${MLX_PROJECT_VERSION})
if(CMAKE_CXX_COMPILER_ID STREQUAL "AppleClang")
add_compile_options(-Wall -Wextra)
endif()
# ----------------------------- Setup -----------------------------
set(CMAKE_MODULE_PATH "${PROJECT_SOURCE_DIR}/cmake")
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD 20)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
set(CMAKE_POSITION_INDEPENDENT_CODE ON)
set(CMAKE_INSTALL_MESSAGE NEVER)
set(CMAKE_EXPORT_COMPILE_COMMANDS ON)
# ----------------------------- Configuration -----------------------------
option(MLX_BUILD_TESTS "Build tests for mlx" ON)
@@ -15,37 +38,50 @@ option(MLX_BUILD_EXAMPLES "Build examples for mlx" ON)
option(MLX_BUILD_BENCHMARKS "Build benchmarks for mlx" OFF)
option(MLX_BUILD_PYTHON_BINDINGS "Build python bindings for mlx" OFF)
option(MLX_BUILD_METAL "Build metal backend" ON)
option(MLX_BUILD_CPU "Build cpu backend" ON)
option(MLX_BUILD_CUDA "Build cuda backend" OFF)
option(MLX_METAL_DEBUG "Enhance metal debug workflow" OFF)
option(MLX_ENABLE_X64_MAC "Enable building for x64 macOS" OFF)
option(MLX_BUILD_GGUF "Include support for GGUF format" ON)
option(MLX_BUILD_SAFETENSORS "Include support for safetensors format" ON)
option(MLX_BUILD_BLAS_FROM_SOURCE "Build OpenBLAS from source code" OFF)
option(MLX_METAL_JIT "Use JIT compilation for Metal kernels" OFF)
option(MLX_USE_CCACHE "Use CCache for compilation cache when available" ON)
option(BUILD_SHARED_LIBS "Build mlx as a shared library" OFF)
if(NOT MLX_VERSION)
set(MLX_VERSION 0.0.10)
endif()
option(USE_SYSTEM_FMT "Use system's provided fmt library" OFF)
# --------------------- Processor tests -------------------------
message(
STATUS
"Building MLX for ${CMAKE_SYSTEM_PROCESSOR} processor on ${CMAKE_SYSTEM_NAME}"
)
message(STATUS "Building MLX for ${CMAKE_HOST_SYSTEM_PROCESSOR} processor on ${CMAKE_SYSTEM_NAME}")
set(MLX_BUILD_ARM OFF)
if (${CMAKE_SYSTEM_NAME} MATCHES "Darwin")
if (${CMAKE_HOST_SYSTEM_PROCESSOR} MATCHES "x86_64" AND ${CMAKE_HOST_APPLE})
message(FATAL_ERROR
"Building for x86_64 on macOS is not supported."
" If you are on an Apple silicon system, check the build"
" documentation for possible fixes: "
"https://ml-explore.github.io/mlx/build/html/install.html#build-from-source")
elseif (${CMAKE_HOST_SYSTEM_PROCESSOR} MATCHES "x86_64")
message(WARNING
"Building for x86_64 on macOS is not supported."
" If you are on an Apple silicon system, "
" make sure you are building for arm64.")
elseif(${CMAKE_HOST_SYSTEM_PROCESSOR} MATCHES "arm64")
set(MLX_BUILD_ARM ON)
if(${CMAKE_SYSTEM_NAME} MATCHES "Darwin")
if(${CMAKE_SYSTEM_PROCESSOR} MATCHES "x86_64")
if(NOT MLX_ENABLE_X64_MAC)
message(
FATAL_ERROR
"Building for x86_64 on macOS is not supported."
" If you are on an Apple silicon system, check the build"
" documentation for possible fixes: "
"https://ml-explore.github.io/mlx/build/html/install.html#build-from-source"
)
else()
set(MLX_BUILD_METAL OFF)
message(WARNING "Building for x86_64 arch is not officially supported.")
endif()
endif()
else()
message(WARNING "MLX is prioritised for Apple silicon systems using macOS.")
set(MLX_BUILD_METAL OFF)
endif()
if(MLX_USE_CCACHE)
find_program(CCACHE_PROGRAM ccache)
if(CCACHE_PROGRAM)
set(CMAKE_C_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
set(CMAKE_CXX_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
set(CMAKE_CUDA_COMPILER_LAUNCHER "${CCACHE_PROGRAM}")
endif()
endif()
# ----------------------------- Lib -----------------------------
@@ -56,141 +92,237 @@ cmake_policy(SET CMP0135 NEW)
add_library(mlx)
if (MLX_BUILD_METAL)
if(MLX_BUILD_CUDA)
enable_language(CUDA)
endif()
if(MLX_BUILD_METAL)
find_library(METAL_LIB Metal)
find_library(FOUNDATION_LIB Foundation)
find_library(QUARTZ_LIB QuartzCore)
endif()
if (MLX_BUILD_METAL AND NOT METAL_LIB)
message(STATUS "Metal not found. Unable to build GPU")
set(MLX_BUILD_METAL OFF)
elseif (MLX_BUILD_METAL)
message(STATUS "Building METAL sources")
add_compile_definitions(_METAL_)
# Throw an error if xcrun not found
execute_process(COMMAND zsh "-c" "/usr/bin/xcrun -sdk macosx --show-sdk-version"
OUTPUT_VARIABLE MACOS_VERSION
COMMAND_ERROR_IS_FATAL ANY)
message(STATUS "Building with SDK for macOS version ${MACOS_VERSION}")
if (${MACOS_VERSION} GREATER_EQUAL 14.2)
set(METAL_CPP_URL https://developer.apple.com/metal/cpp/files/metal-cpp_macOS14.2_iOS17.2.zip)
elseif (${MACOS_VERSION} GREATER_EQUAL 14.0)
set(METAL_CPP_URL https://developer.apple.com/metal/cpp/files/metal-cpp_macOS14_iOS17-beta.zip)
elseif (${MACOS_VERSION} GREATER_EQUAL 13.3)
set(METAL_CPP_URL https://developer.apple.com/metal/cpp/files/metal-cpp_macOS13.3_iOS16.4.zip)
if(METAL_LIB)
message(STATUS "Metal found ${METAL_LIB}")
else()
message(FATAL_ERROR "MLX requires macOS >= 13.4 to be built with MLX_BUILD_METAL=ON" )
message(
FATAL_ERROR
"Metal not found. Set MLX_BUILD_METAL=OFF to build without GPU")
endif()
FetchContent_Declare(
metal_cpp
URL ${METAL_CPP_URL}
)
if(MLX_METAL_DEBUG)
add_compile_definitions(MLX_METAL_DEBUG)
endif()
# Throw an error if xcrun not found
execute_process(
COMMAND zsh "-c" "/usr/bin/xcrun -sdk macosx --show-sdk-version"
OUTPUT_VARIABLE MACOS_SDK_VERSION
OUTPUT_STRIP_TRAILING_WHITESPACE COMMAND_ERROR_IS_FATAL ANY)
if(${MACOS_SDK_VERSION} LESS 14.0)
message(
FATAL_ERROR
"MLX requires macOS SDK >= 14.0 to be built with MLX_BUILD_METAL=ON")
endif()
message(STATUS "Building with macOS SDK version ${MACOS_SDK_VERSION}")
set(METAL_CPP_URL
https://developer.apple.com/metal/cpp/files/metal-cpp_macOS15_iOS18.zip)
if(NOT CMAKE_OSX_DEPLOYMENT_TARGET STREQUAL "")
set(XCRUN_FLAGS "-mmacosx-version-min=${CMAKE_OSX_DEPLOYMENT_TARGET}")
endif()
execute_process(
COMMAND
zsh "-c"
"echo \"__METAL_VERSION__\" | xcrun -sdk macosx metal ${XCRUN_FLAGS} -E -x metal -P - | tail -1 | tr -d '\n'"
OUTPUT_VARIABLE MLX_METAL_VERSION COMMAND_ERROR_IS_FATAL ANY)
FetchContent_Declare(metal_cpp URL ${METAL_CPP_URL})
FetchContent_MakeAvailable(metal_cpp)
target_include_directories(
mlx PUBLIC
$<BUILD_INTERFACE:${metal_cpp_SOURCE_DIR}>
$<INSTALL_INTERFACE:include/metal_cpp>
)
target_link_libraries(
mlx
${METAL_LIB}
${FOUNDATION_LIB}
${QUARTZ_LIB})
mlx PUBLIC $<BUILD_INTERFACE:${metal_cpp_SOURCE_DIR}>
$<INSTALL_INTERFACE:include/metal_cpp>)
target_link_libraries(mlx PUBLIC ${METAL_LIB} ${FOUNDATION_LIB} ${QUARTZ_LIB})
endif()
find_library(ACCELERATE_LIBRARY Accelerate)
if (MLX_BUILD_ARM AND ACCELERATE_LIBRARY)
message(STATUS "Accelerate found ${ACCELERATE_LIBRARY}")
set(MLX_BUILD_ACCELERATE ON)
target_link_libraries(mlx ${ACCELERATE_LIBRARY})
add_compile_definitions(ACCELERATE_NEW_LAPACK)
else()
message(STATUS "Accelerate or arm neon not found, using default backend.")
set(MLX_BUILD_ACCELERATE OFF)
#set(BLA_VENDOR Generic)
find_package(BLAS REQUIRED)
if (NOT BLAS_FOUND)
message(FATAL_ERROR "Must have BLAS installed")
endif()
# TODO find a cleaner way to do this
find_path(BLAS_INCLUDE_DIRS cblas.h
/usr/include
/usr/local/include
$ENV{BLAS_HOME}/include)
message(STATUS ${BLAS_LIBRARIES})
message(STATUS ${BLAS_INCLUDE_DIRS})
target_include_directories(mlx PRIVATE ${BLAS_INCLUDE_DIRS})
target_link_libraries(mlx ${BLAS_LIBRARIES})
if(CMAKE_SYSTEM_NAME STREQUAL "Linux")
# With newer clang/gcc versions following libs are implicitly linked, but when
# building on old distributions they need to be explicitly listed.
target_link_libraries(mlx PRIVATE dl pthread)
endif()
if(WIN32)
if(MSVC)
# GGUF does not build with MSVC.
set(MLX_BUILD_GGUF OFF)
# There is no prebuilt OpenBLAS distribution for MSVC.
set(MLX_BUILD_BLAS_FROM_SOURCE ON)
endif()
# Windows implementation of dlfcn.h APIs.
FetchContent_Declare(
dlfcn-win32
GIT_REPOSITORY https://github.com/dlfcn-win32/dlfcn-win32.git
GIT_TAG v1.4.1
EXCLUDE_FROM_ALL)
block()
set(BUILD_SHARED_LIBS OFF)
FetchContent_MakeAvailable(dlfcn-win32)
endblock()
target_include_directories(mlx PRIVATE "${dlfcn-win32_SOURCE_DIR}/src")
target_link_libraries(mlx PRIVATE dl)
endif()
if(MLX_BUILD_CPU)
find_library(ACCELERATE_LIBRARY Accelerate)
if(ACCELERATE_LIBRARY)
message(STATUS "Accelerate found ${ACCELERATE_LIBRARY}")
set(MLX_BUILD_ACCELERATE ON)
else()
message(STATUS "Accelerate not found, using default backend.")
set(MLX_BUILD_ACCELERATE OFF)
endif()
if(MLX_BUILD_ACCELERATE)
target_link_libraries(mlx PUBLIC ${ACCELERATE_LIBRARY})
add_compile_definitions(MLX_USE_ACCELERATE)
add_compile_definitions(ACCELERATE_NEW_LAPACK)
elseif(MLX_BUILD_BLAS_FROM_SOURCE)
# Download and build OpenBLAS from source code.
FetchContent_Declare(
openblas
GIT_REPOSITORY https://github.com/OpenMathLib/OpenBLAS.git
GIT_TAG v0.3.28
EXCLUDE_FROM_ALL)
set(BUILD_STATIC_LIBS ON) # link statically
set(NOFORTRAN ON) # msvc has no fortran compiler
FetchContent_MakeAvailable(openblas)
target_link_libraries(mlx PRIVATE openblas)
target_include_directories(
mlx PRIVATE "${openblas_SOURCE_DIR}/lapack-netlib/LAPACKE/include"
"${CMAKE_BINARY_DIR}/generated" "${CMAKE_BINARY_DIR}")
else()
if(${CMAKE_HOST_APPLE})
# The blas shipped in macOS SDK is not supported, search homebrew for
# openblas instead.
set(BLA_VENDOR OpenBLAS)
set(LAPACK_ROOT
"${LAPACK_ROOT};$ENV{LAPACK_ROOT};/usr/local/opt/openblas")
endif()
# Search and link with lapack.
find_package(LAPACK REQUIRED)
if(NOT LAPACK_FOUND)
message(FATAL_ERROR "Must have LAPACK installed")
endif()
find_path(LAPACK_INCLUDE_DIRS lapacke.h /usr/include /usr/local/include
/usr/local/opt/openblas/include)
message(STATUS "Lapack lib " ${LAPACK_LIBRARIES})
message(STATUS "Lapack include " ${LAPACK_INCLUDE_DIRS})
target_include_directories(mlx PRIVATE ${LAPACK_INCLUDE_DIRS})
target_link_libraries(mlx PRIVATE ${LAPACK_LIBRARIES})
# List blas after lapack otherwise we may accidentally incldue an old
# version of lapack.h from the include dirs of blas.
find_package(BLAS REQUIRED)
if(NOT BLAS_FOUND)
message(FATAL_ERROR "Must have BLAS installed")
endif()
# TODO find a cleaner way to do this
find_path(BLAS_INCLUDE_DIRS cblas.h /usr/include /usr/local/include
$ENV{BLAS_HOME}/include)
message(STATUS "Blas lib " ${BLAS_LIBRARIES})
message(STATUS "Blas include " ${BLAS_INCLUDE_DIRS})
target_include_directories(mlx PRIVATE ${BLAS_INCLUDE_DIRS})
target_link_libraries(mlx PRIVATE ${BLAS_LIBRARIES})
endif()
else()
set(MLX_BUILD_ACCELERATE OFF)
endif()
message(STATUS "Downloading json")
FetchContent_Declare(
json
URL https://github.com/nlohmann/json/releases/download/v3.11.3/json.tar.xz)
FetchContent_MakeAvailable(json)
target_include_directories(
mlx PRIVATE $<BUILD_INTERFACE:${json_SOURCE_DIR}/single_include/nlohmann>)
add_subdirectory(${CMAKE_CURRENT_LIST_DIR}/mlx)
target_include_directories(
mlx
PUBLIC
$<BUILD_INTERFACE:${CMAKE_CURRENT_LIST_DIR}>
$<INSTALL_INTERFACE:include>
)
mlx PUBLIC $<BUILD_INTERFACE:${CMAKE_CURRENT_LIST_DIR}>
$<INSTALL_INTERFACE:include>)
if (MLX_BUILD_PYTHON_BINDINGS)
# Do not add mlx_EXPORTS define for shared library.
set_target_properties(mlx PROPERTIES DEFINE_SYMBOL "")
if(USE_SYSTEM_FMT)
find_package(fmt REQUIRED)
else()
FetchContent_Declare(
fmt
GIT_REPOSITORY https://github.com/fmtlib/fmt.git
GIT_TAG 10.2.1
EXCLUDE_FROM_ALL)
FetchContent_MakeAvailable(fmt)
endif()
target_link_libraries(mlx PRIVATE $<BUILD_INTERFACE:fmt::fmt-header-only>)
if(MLX_BUILD_PYTHON_BINDINGS)
message(STATUS "Building Python bindings.")
find_package(Python COMPONENTS Interpreter Development)
find_package(pybind11 CONFIG REQUIRED)
find_package(
Python 3.8
COMPONENTS Interpreter Development.Module
REQUIRED)
execute_process(
COMMAND "${Python_EXECUTABLE}" -m nanobind --cmake_dir
OUTPUT_STRIP_TRAILING_WHITESPACE
OUTPUT_VARIABLE nanobind_ROOT)
find_package(nanobind CONFIG REQUIRED)
add_subdirectory(${CMAKE_CURRENT_LIST_DIR}/python/src)
endif()
if (MLX_BUILD_TESTS)
if(MLX_BUILD_TESTS)
include(CTest)
add_subdirectory(${CMAKE_CURRENT_LIST_DIR}/tests)
endif()
if (MLX_BUILD_EXAMPLES)
if(MLX_BUILD_EXAMPLES)
add_subdirectory(${CMAKE_CURRENT_LIST_DIR}/examples/cpp)
endif()
if (MLX_BUILD_BENCHMARKS)
if(MLX_BUILD_BENCHMARKS)
add_subdirectory(${CMAKE_CURRENT_LIST_DIR}/benchmarks/cpp)
endif()
# ----------------------------- Installation -----------------------------
include(GNUInstallDirs)
# Install library
install(
TARGETS mlx
EXPORT MLXTargets
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR}
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR}
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
INCLUDES DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}
)
TARGETS mlx
EXPORT MLXTargets
LIBRARY DESTINATION ${CMAKE_INSTALL_LIBDIR}
ARCHIVE DESTINATION ${CMAKE_INSTALL_LIBDIR}
RUNTIME DESTINATION ${CMAKE_INSTALL_BINDIR}
INCLUDES
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR})
# Install headers
install(
DIRECTORY ${CMAKE_CURRENT_LIST_DIR}/mlx
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}
COMPONENT headers
FILES_MATCHING PATTERN "*.h"
)
DIRECTORY ${CMAKE_CURRENT_LIST_DIR}/mlx
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}
COMPONENT headers
FILES_MATCHING
PATTERN "*.h"
PATTERN "backend/metal/kernels.h" EXCLUDE)
# Install metal dependencies
if (MLX_BUILD_METAL)
if(MLX_BUILD_METAL)
# Install metal cpp
install(
DIRECTORY ${metal_cpp_SOURCE_DIR}/
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/metal_cpp
COMPONENT metal_cpp_source
)
DIRECTORY ${metal_cpp_SOURCE_DIR}/
DESTINATION ${CMAKE_INSTALL_INCLUDEDIR}/metal_cpp
COMPONENT metal_cpp_source)
endif()
@@ -202,31 +334,24 @@ set(MLX_CMAKE_INSTALL_MODULE_DIR share/cmake/MLX)
install(
EXPORT MLXTargets
FILE MLXTargets.cmake
DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR}
)
DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR})
include(CMakePackageConfigHelpers)
write_basic_package_version_file(
${MLX_CMAKE_BUILD_VERSION_CONFIG}
COMPATIBILITY SameMajorVersion
VERSION ${MLX_VERSION}
)
VERSION ${MLX_VERSION})
configure_package_config_file(
${CMAKE_CURRENT_LIST_DIR}/mlx.pc.in
${MLX_CMAKE_BUILD_CONFIG}
${CMAKE_CURRENT_LIST_DIR}/mlx.pc.in ${MLX_CMAKE_BUILD_CONFIG}
INSTALL_DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR}
NO_CHECK_REQUIRED_COMPONENTS_MACRO
PATH_VARS CMAKE_INSTALL_LIBDIR CMAKE_INSTALL_INCLUDEDIR MLX_CMAKE_INSTALL_MODULE_DIR
)
PATH_VARS CMAKE_INSTALL_LIBDIR CMAKE_INSTALL_INCLUDEDIR
MLX_CMAKE_INSTALL_MODULE_DIR)
install(
FILES ${MLX_CMAKE_BUILD_CONFIG} ${MLX_CMAKE_BUILD_VERSION_CONFIG}
DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR}
)
install(FILES ${MLX_CMAKE_BUILD_CONFIG} ${MLX_CMAKE_BUILD_VERSION_CONFIG}
DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR})
install(
DIRECTORY ${CMAKE_MODULE_PATH}/
DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR}
)
install(DIRECTORY ${CMAKE_MODULE_PATH}/
DESTINATION ${MLX_CMAKE_INSTALL_MODULE_DIR})
+12 -12
View File
@@ -5,26 +5,26 @@ possible.
## Pull Requests
1. Fork and submit pull requests to the repo.
1. Fork and submit pull requests to the repo.
2. If you've added code that should be tested, add tests.
3. If a change is likely to impact efficiency, run some of the benchmarks before
and after the change. Examples of benchmarks can be found in `benchmarks/python/`.
4. If you've changed APIs, update the documentation.
5. Every PR should have passing tests and at least one review.
5. Every PR should have passing tests and at least one review.
6. For code formatting install `pre-commit` using something like `pip install pre-commit` and run `pre-commit install`.
This should install hooks for running `black` and `clang-format` to ensure
consistent style for C++ and python code.
You can also run the formatters manually as follows:
```
clang-format -i file.cpp
```
```
black file.py
```
```shell
clang-format -i file.cpp
```
```shell
black file.py
```
or run `pre-commit run --all-files` to check all files in the repo.
## Issues
+3
View File
@@ -1,3 +1,6 @@
include CMakeLists.txt
include mlx.pc.in
recursive-include mlx/ *
include cmake/*
include python/src/*
include python/mlx/py.typed # support type hinting as in PEP-561
+43 -28
View File
@@ -2,44 +2,46 @@
[**Quickstart**](#quickstart) | [**Installation**](#installation) |
[**Documentation**](https://ml-explore.github.io/mlx/build/html/index.html) |
[**Examples**](#examples)
[**Examples**](#examples)
[![CircleCI](https://circleci.com/gh/ml-explore/mlx.svg?style=svg)](https://circleci.com/gh/ml-explore/mlx)
MLX is an array framework for machine learning on Apple silicon, brought to you
by Apple machine learning research.
MLX is an array framework for machine learning on Apple silicon,
brought to you by Apple machine learning research.
Some key features of MLX include:
- **Familiar APIs**: MLX has a Python API that closely follows NumPy.
MLX also has a fully featured C++ API, which closely mirrors the Python API.
MLX has higher-level packages like `mlx.nn` and `mlx.optimizers` with APIs
that closely follow PyTorch to simplify building more complex models.
- **Familiar APIs**: MLX has a Python API that closely follows NumPy. MLX
also has fully featured C++, [C](https://github.com/ml-explore/mlx-c), and
[Swift](https://github.com/ml-explore/mlx-swift/) APIs, which closely mirror
the Python API. MLX has higher-level packages like `mlx.nn` and
`mlx.optimizers` with APIs that closely follow PyTorch to simplify building
more complex models.
- **Composable function transformations**: MLX supports composable function
transformations for automatic differentiation, automatic vectorization,
and computation graph optimization.
- **Composable function transformations**: MLX supports composable function
transformations for automatic differentiation, automatic vectorization,
and computation graph optimization.
- **Lazy computation**: Computations in MLX are lazy. Arrays are only
materialized when needed.
- **Lazy computation**: Computations in MLX are lazy. Arrays are only
materialized when needed.
- **Dynamic graph construction**: Computation graphs in MLX are constructed
dynamically. Changing the shapes of function arguments does not trigger
slow compilations, and debugging is simple and intuitive.
- **Dynamic graph construction**: Computation graphs in MLX are constructed
dynamically. Changing the shapes of function arguments does not trigger
slow compilations, and debugging is simple and intuitive.
- **Multi-device**: Operations can run on any of the supported devices
(currently the CPU and the GPU).
- **Multi-device**: Operations can run on any of the supported devices
(currently the CPU and the GPU).
- **Unified memory**: A notable difference from MLX and other frameworks
is the *unified memory model*. Arrays in MLX live in shared memory.
Operations on MLX arrays can be performed on any of the supported
device types without transferring data.
- **Unified memory**: A notable difference from MLX and other frameworks
is the *unified memory model*. Arrays in MLX live in shared memory.
Operations on MLX arrays can be performed on any of the supported
device types without transferring data.
MLX is designed by machine learning researchers for machine learning
researchers. The framework is intended to be user-friendly, but still efficient
to train and deploy models. The design of the framework itself is also
conceptually simple. We intend to make it easy for researchers to extend and
improve MLX with the goal of quickly exploring new ideas.
improve MLX with the goal of quickly exploring new ideas.
The design of MLX is inspired by frameworks like
[NumPy](https://numpy.org/doc/stable/index.html),
@@ -66,25 +68,38 @@ in the documentation.
## Installation
MLX is available on [PyPI](https://pypi.org/project/mlx/). To install the Python API, run:
MLX is available on [PyPI](https://pypi.org/project/mlx/). To install MLX on
macOS, run:
```
```bash
pip install mlx
```
To install the CUDA backend on Linux, run:
```bash
pip install mlx[cuda]
```
To install a CPU-only Linux package, run:
```bash
pip install mlx[cpu]
```
Checkout the
[documentation](https://ml-explore.github.io/mlx/build/html/install.html#)
for more information on building the C++ and Python APIs from source.
## Contributing
## Contributing
Check out the [contribution guidelines](CONTRIBUTING.md) for more information
Check out the [contribution guidelines](https://github.com/ml-explore/mlx/tree/main/CONTRIBUTING.md) for more information
on contributing to MLX. See the
[docs](https://ml-explore.github.io/mlx/build/html/install.html) for more
information on building from source, and running tests.
We are grateful for all of [our
contributors](ACKNOWLEDGMENTS.md#Individual-Contributors). If you contribute
contributors](https://github.com/ml-explore/mlx/tree/main/ACKNOWLEDGMENTS.md#Individual-Contributors). If you contribute
to MLX and wish to be acknowledged, please add your name to the list in your
pull request.
@@ -95,7 +110,7 @@ Hannun, Jagrit Digani, Angelos Katharopoulos, and Ronan Collobert. If you find
MLX useful in your research and wish to cite it, please use the following
BibTex entry:
```
```text
@software{mlx2023,
author = {Awni Hannun and Jagrit Digani and Angelos Katharopoulos and Ronan Collobert},
title = {{MLX}: Efficient and flexible machine learning on Apple silicon},
+11 -11
View File
@@ -5,35 +5,35 @@
#include "mlx/mlx.h"
#include "time_utils.h"
using namespace mlx::core;
namespace mx = mlx::core;
void time_value_and_grad() {
auto x = ones({200, 1000});
eval(x);
auto fn = [](array x) {
auto x = mx::ones({200, 1000});
mx::eval(x);
auto fn = [](mx::array x) {
for (int i = 0; i < 20; ++i) {
x = log(exp(x));
x = mx::log(mx::exp(x));
}
return sum(x);
return mx::sum(x);
};
auto grad_fn = grad(fn);
auto grad_fn = mx::grad(fn);
auto independent_value_and_grad = [&]() {
auto value = fn(x);
auto dfdx = grad_fn(x);
return std::vector<array>{value, dfdx};
return std::vector<mx::array>{value, dfdx};
};
TIME(independent_value_and_grad);
auto value_and_grad_fn = value_and_grad(fn);
auto value_and_grad_fn = mx::value_and_grad(fn);
auto combined_value_and_grad = [&]() {
auto [value, dfdx] = value_and_grad_fn(x);
return std::vector<array>{value, dfdx};
return std::vector<mx::array>{value, dfdx};
};
TIME(combined_value_and_grad);
}
int main() {
std::cout << "Benchmarks for " << default_device() << std::endl;
std::cout << "Benchmarks for " << mx::default_device() << std::endl;
time_value_and_grad();
}
+7 -7
View File
@@ -4,21 +4,21 @@
#include "mlx/mlx.h"
#include "time_utils.h"
using namespace mlx::core;
namespace mx = mlx::core;
void time_add_op() {
std::vector<int> sizes(1, 1);
for (int i = 0; i < 9; ++i) {
sizes.push_back(10 * sizes.back());
}
set_default_device(Device::cpu);
set_default_device(mx::Device::cpu);
for (auto size : sizes) {
auto a = random::uniform({size});
auto b = random::uniform({size});
eval(a, b);
auto a = mx::random::uniform({size});
auto b = mx::random::uniform({size});
mx::eval(a, b);
std::cout << "Size " << size << std::endl;
TIMEM("cpu", add, a, b, Device::cpu);
TIMEM("gpu", add, a, b, Device::gpu);
TIMEM("cpu", mx::add, a, b, mx::Device::cpu);
TIMEM("gpu", mx::add, a, b, mx::Device::gpu);
}
}
+80 -79
View File
@@ -1,110 +1,111 @@
// Copyright © 2023 Apple Inc.
#include <cstring>
#include <iostream>
#include <sstream>
#include "mlx/mlx.h"
#include "time_utils.h"
using namespace mlx::core;
namespace mx = mlx::core;
void time_irregular_binary_ops_1D() {
auto device = default_device();
auto device = mx::default_device();
int size = 1000000;
int step = 2;
auto a = random::uniform({size});
auto b = random::uniform({size});
eval(a, b);
auto a = mx::random::uniform({size});
auto b = mx::random::uniform({size});
mx::eval(a, b);
a = slice(a, {0}, {size}, {step});
b = slice(b, {0}, {size}, {step});
TIMEM("1D strided", add, a, b, device);
TIMEM("1D strided", mx::add, a, b, device);
}
void time_irregular_binary_ops_2D() {
auto device = default_device();
auto device = mx::default_device();
int size = 2048;
auto a = random::uniform({size, size});
auto b = random::uniform({size, size});
eval(a, b);
TIMEM("2D regular", add, a, b, device);
auto a = mx::random::uniform({size, size});
auto b = mx::random::uniform({size, size});
mx::eval(a, b);
TIMEM("2D regular", mx::add, a, b, device);
b = transpose(b);
eval(b);
TIMEM("2D transpose", add, a, b, device);
b = mx::transpose(b);
mx::eval(b);
TIMEM("2D mx::transpose", mx::add, a, b, device);
b = random::uniform({size});
eval(b);
TIMEM("2D broadcast dim 0", add, a, b, device);
b = mx::random::uniform({size});
mx::eval(b);
TIMEM("2D broadcast dim 0", mx::add, a, b, device);
b = reshape(b, {size, 1});
eval(b);
TIMEM("2D broadcast dim 1", add, a, b, device);
b = mx::reshape(b, {size, 1});
mx::eval(b);
TIMEM("2D broadcast dim 1", mx::add, a, b, device);
}
void time_irregular_binary_ops_3D() {
auto device = default_device();
auto device = mx::default_device();
int d0 = 32;
int d1 = 512;
int d2 = 512;
auto a = random::uniform({d0, d1, d2});
auto b = random::uniform({d0, d1, d2});
TIMEM("3D regular", add, a, b, device);
auto a = mx::random::uniform({d0, d1, d2});
auto b = mx::random::uniform({d0, d1, d2});
TIMEM("3D regular", mx::add, a, b, device);
b = transpose(b, {0, 2, 1});
TIMEM("3D transpose", add, a, b, device);
b = mx::transpose(b, {0, 2, 1});
TIMEM("3D mx::transpose", mx::add, a, b, device);
b = random::uniform({d1, d2});
TIMEM("3D broadcast dim 0", add, a, b, device);
b = mx::random::uniform({d1, d2});
TIMEM("3D broadcast dim 0", mx::add, a, b, device);
b = random::uniform({d0, 1, d2});
TIMEM("3D broadcast dim 1", add, a, b, device);
b = mx::random::uniform({d0, 1, d2});
TIMEM("3D broadcast dim 1", mx::add, a, b, device);
b = random::uniform({d0, d1, 1});
TIMEM("3D broadcast dim 2", add, a, b, device);
b = mx::random::uniform({d0, d1, 1});
TIMEM("3D broadcast dim 2", mx::add, a, b, device);
b = random::uniform({d2});
TIMEM("3D broadcast dims 0, 1", add, a, b, device);
b = mx::random::uniform({d2});
TIMEM("3D broadcast dims 0, 1", mx::add, a, b, device);
b = random::uniform({d1, 1});
TIMEM("3D broadcast dims 0, 2", add, a, b, device);
b = mx::random::uniform({d1, 1});
TIMEM("3D broadcast dims 0, 2", mx::add, a, b, device);
b = random::uniform({d0, 1, 1});
TIMEM("3D broadcast dims 1, 2", add, a, b, device);
b = mx::random::uniform({d0, 1, 1});
TIMEM("3D broadcast dims 1, 2", mx::add, a, b, device);
}
void time_irregular_binary_ops_4D() {
auto device = default_device();
auto device = mx::default_device();
std::vector<int> shape = {8, 8, 512, 512};
auto a = random::uniform(shape);
auto b = random::uniform(shape);
auto a = mx::random::uniform(shape);
auto b = mx::random::uniform(shape);
TIMEM("4D regular", add, a, b, device);
TIMEM("4D regular", mx::add, a, b, device);
b = transpose(b, {0, 1, 3, 2});
TIMEM("4D transpose", add, a, b, device);
b = mx::transpose(b, {0, 1, 3, 2});
TIMEM("4D mx::transpose", mx::add, a, b, device);
std::string om = "4D broadcast dims ";
for (int i = 0; i < shape.size(); ++i) {
shape[i] = 1;
b = random::uniform(shape);
b = mx::random::uniform(shape);
std::ostringstream msg;
msg << om << i;
TIMEM(msg.str(), add, a, b, device);
TIMEM(msg.str(), mx::add, a, b, device);
for (int j = i + 1; j < shape.size(); ++j) {
shape[j] = 1;
std::ostringstream msg;
msg << om << i << ", " << j;
b = random::uniform(shape);
TIMEM(msg.str(), add, a, b, device);
b = mx::random::uniform(shape);
TIMEM(msg.str(), mx::add, a, b, device);
shape[j] = a.shape(j);
for (int k = j + 1; k < shape.size(); ++k) {
shape[k] = 1;
std::ostringstream msg;
msg << om << i << ", " << j << ", " << k;
b = random::uniform(shape);
TIMEM(msg.str(), add, a, b, device);
b = mx::random::uniform(shape);
TIMEM(msg.str(), mx::add, a, b, device);
shape[k] = a.shape(k);
}
}
@@ -113,83 +114,83 @@ void time_irregular_binary_ops_4D() {
}
void time_irregular_reshape() {
auto device = default_device();
auto device = mx::default_device();
std::vector<int> shape;
auto reshape_fn = [&shape, device](const array& a) {
return reshape(a, shape, device);
auto reshape_fn = [&shape, device](const mx::array& a) {
return mx::reshape(a, shape, device);
};
int size = 64;
int d = 2 * size;
auto a = random::uniform({d, d, d});
auto a = mx::random::uniform({d, d, d});
shape = {8 * size, size, size};
TIMEM("3D contiguous", reshape_fn, a);
a = transpose(a);
a = mx::transpose(a);
shape = {8 * size, size, size};
TIMEM("3D transpose", reshape_fn, a);
TIMEM("3D mx::transpose", reshape_fn, a);
a = transpose(a, {1, 2, 0});
a = mx::transpose(a, {1, 2, 0});
shape = {8 * size, size, size};
TIMEM("3D transpose dims 1 2", reshape_fn, a);
TIMEM("3D mx::transpose dims 1 2", reshape_fn, a);
a = broadcast_to(random::uniform({d, d}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({d, d}), {d, d, d});
TIMEM("3D broadcast dim 0", reshape_fn, a);
a = broadcast_to(random::uniform({d, 1, d}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({d, 1, d}), {d, d, d});
TIMEM("3D broadcast dim 1", reshape_fn, a);
a = broadcast_to(random::uniform({d, d, 1}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({d, d, 1}), {d, d, d});
TIMEM("3D broadcast dim 2", reshape_fn, a);
a = broadcast_to(random::uniform({d}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({d}), {d, d, d});
TIMEM("3D broadcast dims 0, 1", reshape_fn, a);
a = broadcast_to(random::uniform({d, 1}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({d, 1}), {d, d, d});
TIMEM("3D broadcast dims 0, 2", reshape_fn, a);
a = broadcast_to(random::uniform({d, 1, 1}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({d, 1, 1}), {d, d, d});
TIMEM("3D broadcast dims 1, 2", reshape_fn, a);
a = broadcast_to(random::uniform({1, 1, 1}), {d, d, d});
a = mx::broadcast_to(mx::random::uniform({1, 1, 1}), {d, d, d});
TIMEM("3D broadcast dims 1, 2, 3", reshape_fn, a);
}
void time_irregular_astype_1D() {
auto device = default_device();
auto device = mx::default_device();
int size = 1000000;
int step = 2;
auto a = random::uniform({size});
auto a = mx::random::uniform({size});
a = slice(a, {0}, {size}, {step});
TIMEM("1D strided", astype, a, int32, device);
TIMEM("1D strided", mx::astype, a, mx::int32, device);
}
void time_irregular_astype_2D() {
auto device = default_device();
auto device = mx::default_device();
int size = 2048;
std::vector<int> shape = {size, size};
auto a = random::uniform(shape);
TIMEM("2D regular", astype, a, int32, device);
auto a = mx::random::uniform(shape);
TIMEM("2D regular", mx::astype, a, mx::int32, device);
a = transpose(a);
TIMEM("2D transpose", astype, a, int32, device);
a = mx::transpose(a);
TIMEM("2D mx::transpose", mx::astype, a, mx::int32, device);
a = broadcast_to(random::uniform({size}), shape);
TIMEM("2D broadcast dim 0", astype, a, int32, device);
a = mx::broadcast_to(mx::random::uniform({size}), shape);
TIMEM("2D broadcast dim 0", mx::astype, a, mx::int32, device);
a = broadcast_to(random::uniform({size, 1}), shape);
TIMEM("2D broadcast dim 1", astype, a, int32, device);
a = mx::broadcast_to(mx::random::uniform({size, 1}), shape);
TIMEM("2D broadcast dim 1", mx::astype, a, mx::int32, device);
}
int main(int argc, char** argv) {
if (argc > 1) {
bool use_gpu = !strcmp(argv[1], "gpu");
set_default_device(use_gpu ? Device::gpu : Device::cpu);
set_default_device(use_gpu ? mx::Device::gpu : mx::Device::cpu);
}
std::cout << "Benchmarks for " << default_device() << std::endl;
std::cout << "Benchmarks for " << mx::default_device() << std::endl;
time_irregular_binary_ops_1D();
time_irregular_binary_ops_2D();
time_irregular_binary_ops_3D();
+140 -116
View File
@@ -3,20 +3,20 @@
#include "mlx/mlx.h"
#include "time_utils.h"
using namespace mlx::core;
namespace mx = mlx::core;
void time_creation_ops() {
int M = 2000;
int N = 500;
auto shape = {M, N};
auto full_fp32 = [&]() { return full(shape, 3.3f); };
auto full_fp32 = [&]() { return mx::full(shape, 3.3f); };
TIME(full_fp32);
auto zeros_fp32 = [&]() { return zeros(shape, float32); };
auto zeros_fp32 = [&]() { return mx::zeros(shape, mx::float32); };
TIME(zeros_fp32);
auto ones_fp32 = [&]() { return ones(shape, float32); };
auto ones_fp32 = [&]() { return mx::ones(shape, mx::float32); };
TIME(ones_fp32);
auto arange_fp32 = [&]() { return arange(0.0, 10.0, 1e-4); };
auto arange_fp32 = [&]() { return mx::arange(0.0, 10.0, 1e-4); };
TIME(arange_fp32);
}
@@ -24,188 +24,212 @@ void time_type_conversions() {
int M = 2000;
int N = 500;
auto shape = {M, N};
auto device = default_device();
auto device = mx::default_device();
auto a = zeros(shape, float32);
eval(a);
TIMEM("float32 to int32", astype, a, int32, device);
TIMEM("float32 to uint32", astype, a, uint32, device);
auto a = mx::zeros(shape, mx::float32);
mx::eval(a);
TIMEM("mx::float32 to mx::int32", mx::astype, a, mx::int32, device);
TIMEM("mx::float32 to mx::uint32", mx::astype, a, mx::uint32, device);
a = zeros(shape, int32);
eval(a);
TIMEM("int32 to float32", astype, a, float32, device);
a = mx::zeros(shape, mx::int32);
mx::eval(a);
TIMEM("mx::int32 to mx::float32", mx::astype, a, mx::float32, device);
a = zeros(shape, bool_);
eval(a);
TIMEM("bool to float32", astype, a, float32, device);
TIMEM("bool to int32", astype, a, int32, device);
TIMEM("bool to uint32", astype, a, uint32, device);
a = mx::zeros(shape, mx::bool_);
mx::eval(a);
TIMEM("bool to mx::float32", mx::astype, a, mx::float32, device);
TIMEM("bool to mx::int32", mx::astype, a, mx::int32, device);
TIMEM("bool to mx::uint32", mx::astype, a, mx::uint32, device);
}
void time_random_generation() {
int M = 2000;
int N = 500;
auto uniform = [&]() { return random::uniform({M, N}, float32); };
auto uniform = [&]() { return mx::random::uniform({M, N}, mx::float32); };
TIME(uniform);
auto normal = [&]() { return random::normal({M, N}, float32); };
auto normal = [&]() { return mx::random::normal({M, N}, mx::float32); };
TIME(normal);
}
void time_unary_ops() {
int M = 2000;
int N = 500;
auto device = default_device();
auto device = mx::default_device();
auto a = random::normal({M, N});
eval(a);
auto a = mx::random::normal({M, N});
mx::eval(a);
TIME(mlx::core::abs, a, device);
TIME(negative, a, device);
TIME(sign, a, device);
TIME(square, a, device);
TIME(mx::negative, a, device);
TIME(mx::sign, a, device);
TIME(mx::square, a, device);
TIME(mlx::core::sqrt, a, device);
TIME(rsqrt, a, device);
TIME(mx::rsqrt, a, device);
TIME(mlx::core::exp, a, device);
a = random::uniform({M, N});
a = mx::random::uniform({M, N});
TIME(mlx::core::log, a, device);
}
void time_binary_ops() {
int M = 1000, N = 100, K = 10;
auto a = random::uniform({M, N, K});
auto b = random::uniform({M, N, K});
auto device = default_device();
eval(a, b);
auto condition = mx::random::randint(0, 2, {M, N, K});
auto a = mx::random::uniform({M, N, K});
auto b = mx::random::uniform({M, N, K});
auto device = mx::default_device();
mx::eval(a, b);
TIME(add, a, b, device);
TIME(subtract, a, b, device);
TIME(multiply, a, b, device);
TIME(divide, a, b, device);
TIME(maximum, a, b, device);
TIME(minimum, a, b, device);
TIME(mx::add, a, b, device);
TIME(mx::subtract, a, b, device);
TIME(mx::multiply, a, b, device);
TIME(mx::divide, a, b, device);
TIME(mx::maximum, a, b, device);
TIME(mx::minimum, a, b, device);
TIME(mx::where, condition, a, b, device);
b = random::uniform({1});
eval(b);
TIMEM("scalar", add, a, b, device);
TIMEM("vector-scalar", subtract, a, b, device);
TIMEM("scalar-vector", subtract, b, a, device);
TIMEM("scalar", multiply, a, b, device);
TIMEM("vector-scalar", divide, a, b, device);
TIMEM("scalar-vector", divide, b, a, device);
condition = mx::array({true});
b = mx::random::uniform({1});
mx::eval(b);
TIMEM("scalar", mx::add, a, b, device);
TIMEM("vector-scalar", mx::subtract, a, b, device);
TIMEM("scalar-vector", mx::subtract, b, a, device);
TIMEM("scalar", mx::multiply, a, b, device);
TIMEM("vector-scalar", mx::divide, a, b, device);
TIMEM("scalar-vector", mx::divide, b, a, device);
TIMEM("scalar-vector", mx::where, condition, a, b, device);
a = broadcast_to(random::uniform({1}), {1000, 100});
b = broadcast_to(random::uniform({1}), {1000, 100});
eval(a, b);
TIMEM("scalar-scalar broadcast", add, a, b, device);
TIMEM("scalar-scalar broadcast", subtract, a, b, device);
TIMEM("scalar-scalar broadcast", multiply, a, b, device);
TIMEM("scalar-scalar broadcast", divide, a, b, device);
condition = mx::broadcast_to(mx::array({true}), {1000, 100});
a = mx::broadcast_to(mx::random::uniform({1}), {1000, 100});
b = mx::broadcast_to(mx::random::uniform({1}), {1000, 100});
mx::eval(a, b);
TIMEM("scalar-scalar broadcast", mx::add, a, b, device);
TIMEM("scalar-scalar broadcast", mx::subtract, a, b, device);
TIMEM("scalar-scalar broadcast", mx::multiply, a, b, device);
TIMEM("scalar-scalar broadcast", mx::divide, a, b, device);
TIMEM("scalar-scalar broadcast", mx::where, condition, a, b, device);
}
void time_strided_ops() {
int M = 50, N = 50, O = 50, P = 50;
auto a = random::uniform({M, N, O, P});
auto b = random::uniform({M, N, O, P});
auto device = default_device();
eval(a, b);
TIMEM("non-strided", add, a, b, device);
a = transpose(a, {1, 0, 2, 3});
b = transpose(b, {3, 2, 0, 1});
eval(a, b);
TIMEM("strided", add, a, b, device);
auto a = mx::random::uniform({M, N, O, P});
auto b = mx::random::uniform({M, N, O, P});
auto device = mx::default_device();
mx::eval(a, b);
TIMEM("non-strided", mx::add, a, b, device);
a = mx::transpose(a, {1, 0, 2, 3});
b = mx::transpose(b, {3, 2, 0, 1});
mx::eval(a, b);
TIMEM("strided", mx::add, a, b, device);
}
void time_comparisons() {
int M = 1000, N = 100, K = 10;
auto a = random::uniform({M, N, K});
auto b = random::uniform({M, N, K});
auto device = default_device();
eval(a, b);
TIME(equal, a, b, device);
TIME(greater, a, b, device);
TIME(greater_equal, a, b, device);
TIME(less, a, b, device);
TIME(less_equal, a, b, device);
auto a = mx::random::uniform({M, N, K});
auto b = mx::random::uniform({M, N, K});
auto device = mx::default_device();
mx::eval(a, b);
TIME(mx::equal, a, b, device);
TIME(mx::greater, a, b, device);
TIME(mx::greater_equal, a, b, device);
TIME(mx::less, a, b, device);
TIME(mx::less_equal, a, b, device);
}
void time_matvec() {
int M = 2000, N = 200;
auto a = random::uniform({M, N});
auto b = random::uniform({N});
auto c = random::uniform({M});
eval(a, b, c);
auto matvec = [&]() { return matmul(a, b); };
auto a = mx::random::uniform({M, N});
auto b = mx::random::uniform({N});
auto c = mx::random::uniform({M});
mx::eval(a, b, c);
auto matvec = [&]() { return mx::matmul(a, b); };
TIME(matvec);
auto matvec_transpose = [&]() { return matmul(transpose(a), c); };
auto matvec_transpose = [&]() { return mx::matmul(mx::transpose(a), c); };
TIME(matvec_transpose);
}
void time_matmul() {
int M = 1000, N = 1000, K = 1000;
auto a = random::uniform({M, K});
auto b = random::uniform({K, N});
auto device = default_device();
eval(a, b);
TIME(matmul, a, b, device);
auto a = mx::random::uniform({M, K});
auto b = mx::random::uniform({K, N});
auto device = mx::default_device();
mx::eval(a, b);
TIME(mx::matmul, a, b, device);
auto transpose_matmul = [&]() { return matmul(transpose(a), b); };
auto transpose_matmul = [&]() { return mx::matmul(mx::transpose(a), b); };
TIME(transpose_matmul);
}
void time_reductions() {
auto a = random::normal({10000, 1000});
eval(a);
auto sum_all = [&a]() { return sum(a, false); };
auto a = mx::random::normal({10000, 1000});
mx::eval(a);
auto sum_all = [&a]() { return mx::sum(a, false); };
TIME(sum_all);
auto sum_along_0 = [&a]() { return sum(a, 0, false); };
auto sum_along_0 = [&a]() { return mx::sum(a, 0, false); };
TIME(sum_along_0);
auto sum_along_1 = [&a]() { return sum(a, 1, false); };
auto sum_along_1 = [&a]() { return mx::sum(a, 1, false); };
TIME(sum_along_1);
auto prod_all = [&a]() { return prod(a, false); };
auto prod_all = [&a]() { return mx::prod(a, false); };
TIME(prod_all);
auto all_true = [&a]() { return all(a, false); };
auto all_true = [&a]() { return mx::all(a, false); };
TIME(all_true);
auto all_along_0 = [&a]() { return all(a, 0, false); };
auto all_along_0 = [&a]() { return mx::all(a, 0, false); };
TIME(all_along_0);
auto all_along_1 = [&a]() { return all(a, 1, false); };
auto all_along_1 = [&a]() { return mx::all(a, 1, false); };
TIME(all_along_1);
auto any_true = [&a]() { return any(a, false); };
auto any_true = [&a]() { return mx::any(a, false); };
TIME(any_true);
auto argmin_along_0 = [&a]() { return argmin(a, 0, false); };
auto argmin_along_0 = [&a]() { return mx::argmin(a, 0, false); };
TIME(argmin_along_0);
auto argmin_along_1 = [&a]() { return argmin(a, 1, false); };
auto argmin_along_1 = [&a]() { return mx::argmin(a, 1, false); };
TIME(argmin_along_1);
auto indices = mx::array({1});
auto updates = mx::reshape(mx::array({NAN}), {1, 1, 1});
std::vector<int> axes{0};
auto b = scatter(a, {indices}, updates, axes);
mx::eval(b);
auto max_along_0 = [&b]() { return mx::max(b, 0, false); };
TIME(max_along_0);
auto max_along_1 = [&b]() { return mx::max(b, 1, false); };
TIME(max_along_1);
auto min_along_0 = [&b]() { return mx::min(b, 0, false); };
TIME(min_along_0);
auto min_along_1 = [&b]() { return mx::min(b, 1, false); };
TIME(min_along_1);
}
void time_gather_scatter() {
auto a = random::normal({1000, 768});
eval(a);
auto indices = random::randint(0, 1000, {256});
eval(indices);
auto a = mx::random::normal({1000, 768});
mx::eval(a);
auto indices = mx::random::randint(0, 1000, {256});
mx::eval(indices);
auto embedding_lookup = [&a, &indices]() { return take(a, indices, 0); };
auto embedding_lookup = [&a, &indices]() { return mx::take(a, indices, 0); };
TIME(embedding_lookup);
indices = random::randint(0, 768 * 1000, {256 * 768});
eval(indices);
indices = mx::random::randint(0, 768 * 1000, {256 * 768});
mx::eval(indices);
auto single_element_lookup = [&a, &indices]() { return take(a, indices); };
auto single_element_lookup = [&a, &indices]() {
return mx::take(a, indices);
};
TIME(single_element_lookup);
indices = random::randint(0, 1000, {256});
auto updates = random::normal({256, 1, 768});
eval(indices, updates);
indices = mx::random::randint(0, 1000, {256});
auto updates = mx::random::normal({256, 1, 768});
mx::eval(indices, updates);
auto embedding_update = [&a, &indices, &updates]() {
return scatter(a, indices, updates, 0);
@@ -217,10 +241,10 @@ void time_gather_scatter() {
};
TIME(embedding_add);
a = reshape(a, {-1});
indices = random::randint(0, 768 * 1000, {768 * 256});
updates = random::normal({256 * 768, 1});
eval(a, indices, updates);
a = mx::reshape(a, {-1});
indices = mx::random::randint(0, 768 * 1000, {768 * 256});
updates = mx::random::normal({256 * 768, 1});
mx::eval(a, indices, updates);
auto single_element_update = [&a, &indices, &updates]() {
return scatter(a, indices, updates, 0);
@@ -234,21 +258,21 @@ void time_gather_scatter() {
}
void time_divmod() {
auto a = random::normal({1000});
auto b = random::normal({1000});
eval({a, b});
auto a = mx::random::normal({1000});
auto b = mx::random::normal({1000});
mx::eval({a, b});
auto divmod_fused = [&a, &b]() { return divmod(a, b); };
auto divmod_fused = [&a, &b]() { return mx::divmod(a, b); };
TIME(divmod_fused);
auto divmod_separate = [&a, &b]() {
return std::vector<array>{floor_divide(a, b), remainder(a, b)};
return std::vector<mx::array>{mx::floor_divide(a, b), mx::remainder(a, b)};
};
TIME(divmod_separate);
}
int main() {
std::cout << "Benchmarks for " << default_device() << std::endl;
std::cout << "Benchmarks for " << mx::default_device() << std::endl;
time_creation_ops();
time_type_conversions();
time_unary_ops();
+5 -6
View File
@@ -17,14 +17,13 @@
<< std::setprecision(5) << time_fn(FUNC, ##__VA_ARGS__) << " msec" \
<< std::endl;
#define TIMEM(MSG, FUNC, ...) \
std::cout << "Timing " \
<< "(" << MSG << ") " << #FUNC << " ... " << std::flush \
<< std::setprecision(5) << time_fn(FUNC, ##__VA_ARGS__) << " msec" \
<< std::endl;
#define TIMEM(MSG, FUNC, ...) \
std::cout << "Timing " << "(" << MSG << ") " << #FUNC << " ... " \
<< std::flush << std::setprecision(5) \
<< time_fn(FUNC, ##__VA_ARGS__) << " msec" << std::endl;
template <typename F, typename... Args>
double time_fn(F fn, Args... args) {
double time_fn(F fn, Args&&... args) {
// warmup
for (int i = 0; i < 5; ++i) {
eval(fn(std::forward<Args>(args)...));
+3 -5
View File
@@ -142,9 +142,7 @@ def bench_shape(B, M, N, K, np_dtype, transpose="nn"):
t_b = (0, 1, 2) if transpose[1] == "n" else (0, 2, 1)
c_mlx = a_mx.transpose(t_a) @ b_mx.transpose(t_b)
c_npy = a_np.transpose(t_a).astype(np.float32) @ b_np.transpose(t_b).astype(
np.float32
)
c_npy = a_np.transpose(t_a).astype(np_dtype) @ b_np.transpose(t_b).astype(np_dtype)
atol = 1e-5 if np_dtype == np.float32 else 1e-4
@@ -163,7 +161,7 @@ def get_gflop_count(B, M, N, K):
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run gemm benchmarks")
dtypes = ("float32", "float16")
dtypes = ("float32", "float16", "complex64")
transposes = ("nn", "nt", "tn")
shapes = (
(16, 234, 768, 3072),
@@ -187,7 +185,7 @@ if __name__ == "__main__":
diff = gflops_mx / gflops_pt - 1.0
print(
f"{B:3d}, {M:4d}, {N:4d}, {K:4d}, {dtype}, {transpose}, {gflops_pt:05.3f}, {gflops_mx:05.3f}, {100. * diff:+5.2f}%"
f"{B:3d}, {M:4d}, {N:4d}, {K:4d}, {dtype}, {transpose}, {gflops_pt:05.3f}, {gflops_mx:05.3f}, {100.0 * diff:+5.2f}%"
)
if gflops_pt >= 2.0 * gflops_mx:
print("ATTENTION ^^^^^^^")
+2 -2
View File
@@ -196,7 +196,7 @@ def bench_with_out_len(ax, out_vec_len, in_vector_lens, dtype, transpose):
for transpose in (False, True):
for dtype in ("float32", "float16"):
for dtype in ("float32", "float16", "complex64"):
fig, axs = plt.subplots(
len(in_vec_sizes), 2, figsize=(8.5, 11), layout="constrained"
)
@@ -215,7 +215,7 @@ for transpose in (False, True):
fig.suptitle(f"{device_name}: {dtype} {op_name}")
fig.savefig(
os.path.join(
results_dir, f'{device_name.replace(" ", "_")}_{dtype}_{op_name}.pdf'
results_dir, f"{device_name.replace(' ', '_')}_{dtype}_{op_name}.pdf"
)
)
plt.close(fig)
+26 -4
View File
@@ -72,6 +72,9 @@ def _quant_matmul(x, w, s, b, transpose, group_size, bits):
quant_matmul = {
"quant_matmul_32_2": partial(_quant_matmul, transpose=False, group_size=32, bits=2),
"quant_matmul_32_4": partial(_quant_matmul, transpose=False, group_size=32, bits=4),
"quant_matmul_32_8": partial(_quant_matmul, transpose=False, group_size=32, bits=8),
"quant_matmul_64_2": partial(_quant_matmul, transpose=False, group_size=64, bits=2),
"quant_matmul_64_4": partial(_quant_matmul, transpose=False, group_size=64, bits=4),
"quant_matmul_64_8": partial(_quant_matmul, transpose=False, group_size=64, bits=8),
@@ -84,6 +87,15 @@ quant_matmul = {
"quant_matmul_128_8": partial(
_quant_matmul, transpose=False, group_size=128, bits=8
),
"quant_matmul_t_32_2": partial(
_quant_matmul, transpose=True, group_size=32, bits=2
),
"quant_matmul_t_32_4": partial(
_quant_matmul, transpose=True, group_size=32, bits=4
),
"quant_matmul_t_32_8": partial(
_quant_matmul, transpose=True, group_size=32, bits=8
),
"quant_matmul_t_64_2": partial(
_quant_matmul, transpose=True, group_size=64, bits=2
),
@@ -132,6 +144,13 @@ def reduction(op, axis, x):
mx.eval(ys)
def sum_and_add(axis, x, y):
z = x.sum(axis=axis, keepdims=True)
for i in range(50):
z = (z + y).sum(axis=axis, keepdims=True)
mx.eval(z)
def softmax(axis, x):
ys = []
for i in range(100):
@@ -368,10 +387,6 @@ if __name__ == "__main__":
if len(args.axis) > 1:
args.axis.pop(0)
if args.print_pid:
print(os.getpid())
input("Press enter to run")
if args.cpu:
mx.set_default_device(mx.cpu)
else:
@@ -394,6 +409,10 @@ if __name__ == "__main__":
x = xs[0]
axis = args.axis[0]
if args.print_pid:
print(os.getpid())
input("Press enter to run")
if args.benchmark == "matmul_square":
print(bench(matmul_square, x))
@@ -493,5 +512,8 @@ if __name__ == "__main__":
elif args.benchmark == "selu":
print(bench(selu, x))
elif args.benchmark == "sum_and_add":
print(bench(sum_and_add, axis, *xs))
else:
raise ValueError("Unknown benchmark")
+40 -8
View File
@@ -5,6 +5,7 @@ import os
import time
import torch
import torch.cuda
import torch.mps
@@ -44,8 +45,10 @@ def bench(f, *args):
def sync_if_needed(x):
if x.device != torch.device("cpu"):
if x.device == torch.device("mps"):
torch.mps.synchronize()
elif x.device == torch.device("cuda"):
torch.cuda.synchronize()
@torch.no_grad()
@@ -99,6 +102,14 @@ def reduction(op, axis, x):
sync_if_needed(x)
@torch.no_grad()
def sum_and_add(axis, x, y):
z = x.sum(axis=axis, keepdims=True)
for i in range(50):
z = (z + y).sum(axis=axis, keepdims=True)
sync_if_needed(x)
@torch.no_grad()
def softmax(axis, x):
ys = []
@@ -185,7 +196,7 @@ def prelu(x: torch.Tensor) -> torch.Tensor:
def mish(x: torch.Tensor) -> torch.Tensor:
y = x
for _ in range(100):
return torch.nn.functional.mish(y)
y = torch.nn.functional.mish(y)
sync_if_needed(x)
@@ -283,6 +294,14 @@ def topk(axis, x):
sync_if_needed(x)
@torch.no_grad()
def step_function(x):
y = x
for i in range(100):
y = torch.where(y < 0, 0, 1)
sync_if_needed(x)
@torch.no_grad()
def selu(x):
y = x
@@ -331,12 +350,12 @@ if __name__ == "__main__":
if len(args.axis) > 1:
args.axis.pop(0)
if args.print_pid:
print(os.getpid())
input("Press enter to run")
torch.set_num_threads(1)
device = "cpu" if args.cpu else "mps"
device = "mps"
if torch.cuda.is_available():
device = "cuda"
if args.cpu:
device = "cpu"
types = args.dtype
if not types:
@@ -354,6 +373,10 @@ if __name__ == "__main__":
x = xs[0]
axis = args.axis[0]
if args.print_pid:
print(os.getpid())
input("Press enter to run")
if args.benchmark == "matmul_square":
print(bench(matmul_square, x))
@@ -446,5 +469,14 @@ if __name__ == "__main__":
elif args.benchmark == "topk":
print(bench(topk, axis, x))
elif args.benchmark == "step":
print(bench(step_function, x))
elif args.benchmark == "selu":
print(bench(selu, x))
elif args.benchmark == "sum_and_add":
print(bench(sum_and_add, axis, *xs))
else:
raise ValueError("Unknown benchmark")
raise ValueError(f"Unknown benchmark `{args.benchmark}`.")
+5 -5
View File
@@ -16,7 +16,9 @@ def run_or_raise(*args, **kwargs):
result = run(*args, capture_output=True, **kwargs)
return float(result.stdout)
except ValueError:
raise ValueError(f"stdout: {result.stdout}\nstderr: {result.stderr}")
raise ValueError(
f"stdout: {result.stdout.decode()}\nstderr: {result.stderr.decode()}"
)
def compare(args):
@@ -80,10 +82,8 @@ if __name__ == "__main__":
_filter = make_predicate(args.filter, args.negative_filter)
if args.mlx_dtypes:
compare_filtered = (
lambda x: compare_mlx_dtypes(
x.split() + rest, args.mlx_dtypes[0], args.mlx_dtypes[1]
)
compare_filtered = lambda x: (
compare_mlx_dtypes(x.split() + rest, args.mlx_dtypes[0], args.mlx_dtypes[1])
if _filter(x)
else None
)
+107
View File
@@ -0,0 +1,107 @@
# Copyright © 2023-2024 Apple Inc.
import argparse
import math
import random
import mlx.core as mx
from time_utils import time_fn
def bench_gelu():
def gelu(x):
return x * (1 + mx.erf(x / math.sqrt(2))) / 2
x = mx.random.uniform(shape=(1000, 1024))
def gen_fun(fun):
def bench_fun(x):
for _ in range(10):
x = fun(x)
return x
return bench_fun
time_fn(gen_fun(gelu), x, msg="fixed gelu")
time_fn(gen_fun(mx.compile(gelu)), x, msg="compiled fixed gelu")
def randint():
return random.randint(1, x.shape[0])
def gen_fun(fun):
def bench_fun(x, y):
x = x[: randint()]
for _ in range(10):
x = fun(x)
y = fun(y)
return x, y
return bench_fun
y = mx.random.uniform(shape=(1000, 1024))
time_fn(gen_fun(gelu), x, y, msg="variable gelu")
time_fn(gen_fun(mx.compile(gelu)), x, y, msg="compiled variable gelu")
time_fn(
gen_fun(mx.compile(gelu, shapeless=True)),
x,
y,
msg="shapeless variable gelu",
)
def bench_layernorm():
weight = mx.random.uniform(shape=(4096,)).astype(mx.float16)
bias = mx.random.uniform(shape=(4096,)).astype(mx.float16)
mx.eval(weight, bias)
def layernorm(x):
x = x.astype(mx.float32)
means = mx.mean(x, axis=-1, keepdims=True)
var = mx.var(x, axis=-1, keepdims=True)
x = (x - means) * mx.rsqrt(var + 1e-4)
x = x.astype(mx.float16)
return weight * x + bias
x = mx.random.uniform(shape=(1000, 4096)).astype(mx.float16)
def gen_fun(fun):
def bench_fun(x):
for _ in range(10):
x = fun(x)
return x
return bench_fun
time_fn(gen_fun(layernorm), x, msg="fixed layernorm")
time_fn(gen_fun(mx.compile(layernorm)), x, msg="compiled fixed layernorm")
def randint():
return random.randint(1, x.shape[0])
def gen_fun(fun):
def bench_fun(x):
x = x[: randint()]
for _ in range(10):
x = fun(x)
return x
return bench_fun
random.seed(0)
time_fn(gen_fun(layernorm), x, msg="variable layernorm")
random.seed(0)
time_fn(gen_fun(mx.compile(layernorm)), x, msg="compiled variable layernorm")
random.seed(0)
time_fn(
gen_fun(mx.compile(layernorm, shapeless=True)),
x,
msg="shapeless variable layernorm",
)
if __name__ == "__main__":
parser = argparse.ArgumentParser("Compile benchmarks.")
args = parser.parse_args()
bench_gelu()
bench_layernorm()
+123
View File
@@ -0,0 +1,123 @@
import argparse
import math
import os
import subprocess
import time
import mlx.core as mx
import numpy as np
import torch
device_name = subprocess.check_output(["sysctl", "-n", "machdep.cpu.brand_string"])
device_name = device_name.decode("utf-8").strip("\n")
N_warmup = 10
N_iter_bench = 100
N_iter_func = 5
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
torch.mps.synchronize()
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_1D(strides=1, padding=0, groups=1):
def mx_conv_1D(a, b):
ys = []
for _ in range(N_iter_func):
y = mx.conv1d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_1D
def make_pt_conv_1D(strides=1, padding=0, groups=1):
@torch.no_grad()
def pt_conv_1D(a, b):
ys = []
for _ in range(N_iter_func):
y = torch.conv1d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
torch.mps.synchronize()
return ys
return pt_conv_1D
def bench_shape(N, iH, C, wH, O, strides, padding, np_dtype, groups):
scale = 1.0 / math.sqrt(wH * C)
a_np = np.random.uniform(0, 0.5, (N, iH, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, wH, int(C / groups))).astype(np_dtype)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 2, 1))).to("mps")
b_pt = torch.from_numpy(b_np.transpose((0, 2, 1))).to("mps")
torch.mps.synchronize()
f_mx = make_mx_conv_1D(strides, padding, groups)
f_pt = make_pt_conv_1D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv1d(a_mx, b_mx, stride=strides, padding=padding, groups=groups)
out_pt = torch.conv1d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, iH, C)}, {(O, wH, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 32, 32, 5, 32, 1, 2, 1),
(4, 32, 32, 5, 32, 1, 2, 2),
(4, 32, 32, 5, 32, 1, 2, 4),
(4, 32, 32, 5, 32, 1, 2, 8),
(4, 32, 32, 5, 32, 1, 2, 8),
(4, 32, 32, 5, 32, 1, 2, 16),
(4, 32, 32, 5, 32, 1, 2, 32),
(4, 32, 256, 5, 512, 1, 2, 2),
(4, 32, 256, 5, 512, 1, 2, 128),
(4, 32, 256, 5, 512, 1, 2, 256),
)
for dtype in dtypes:
print("(N, iH, C), (O, wH, C), dtype, stride, pads, groups, diff%")
for N, iH, C, wH, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, iH, C, wH, O, strides, padding, np_dtype, groups
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {iH:3d}, {C:3d}), ({O:3d}, {wH:2d}, {C:3d}), {dtype}, {strides:5d}, {padding:4d}, {groups:6d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
+127
View File
@@ -0,0 +1,127 @@
import argparse
import math
import time
import mlx.core as mx
import numpy as np
import torch
N_warmup = 1
N_iter_bench = 10
N_iter_func = 5
mx.set_default_device(mx.cpu)
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_2D(strides=(1, 1), padding=(0, 0), groups=1):
def mx_conv_2D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv2d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_2D
def make_pt_conv_2D(strides=(1, 1), padding=(0, 0), groups=1):
@torch.no_grad()
def pt_conv_2D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv2d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
return ys
return pt_conv_2D
def bench_shape(N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kH * kH * C)
a_np = np.random.uniform(0, 0.5, (N, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, kH, kW, int(C / groups))).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 3, 1, 2))).to("cpu")
b_pt = torch.from_numpy(b_np.transpose((0, 3, 1, 2))).to("cpu")
f_mx = make_mx_conv_2D(strides, padding, groups)
f_pt = make_pt_conv_2D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv2d(a_mx, b_mx, stride=strides, padding=padding, groups=groups)
out_pt = torch.conv2d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, H, W, C)}, {(O, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 32, 32, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 32, 32, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 32, 32, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 32, 32, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 32, 32, 512, 5, 5, 512, (1, 1), (2, 2), 1),
(4, 64, 64, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 64, 64, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 64, 64, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 1),
# (4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 2),
# (4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 16),
# (4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 64),
(4, 128, 128, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 128, 128, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 256, 256, 32, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 256, 256, 3, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 128, 128, 3, 5, 5, 64, (1, 1), (2, 2), 1),
)
for dtype in dtypes:
print(
"(N, H, W, C), ( O, kH, kW, C), dtype, stride, pads, groups, diff%"
)
for N, H, W, C, kH, kW, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kH:2d}, {kW:2d}, {C:3d}), {dtype}, {strides}, {padding}, {groups:7d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
+143
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import time
import mlx.core as mx
import mlx.nn
import mlx.optimizers as opt
import torch
def bench_mlx(steps: int = 20) -> float:
mx.set_default_device(mx.cpu)
class BenchNetMLX(mlx.nn.Module):
# simple encoder-decoder net
def __init__(self, in_channels, hidden_channels=32):
super().__init__()
self.net = mlx.nn.Sequential(
mlx.nn.Conv2d(in_channels, hidden_channels, kernel_size=3, padding=1),
mlx.nn.ReLU(),
mlx.nn.Conv2d(
hidden_channels, 2 * hidden_channels, kernel_size=3, padding=1
),
mlx.nn.ReLU(),
mlx.nn.ConvTranspose2d(
2 * hidden_channels, hidden_channels, kernel_size=3, padding=1
),
mlx.nn.ReLU(),
mlx.nn.ConvTranspose2d(
hidden_channels, in_channels, kernel_size=3, padding=1
),
)
def __call__(self, input):
return self.net(input)
benchNet = BenchNetMLX(3)
mx.eval(benchNet.parameters())
optim = opt.Adam(learning_rate=1e-3)
inputs = mx.random.normal([10, 256, 256, 3])
params = benchNet.parameters()
optim.init(params)
state = [benchNet.state, optim.state]
def loss_fn(params, image):
benchNet.update(params)
pred_image = benchNet(image)
return (pred_image - image).abs().mean()
def step(params, image):
loss, grads = mx.value_and_grad(loss_fn)(params, image)
optim.update(benchNet, grads)
return loss
total_time = 0.0
print("MLX:")
for i in range(steps):
start_time = time.perf_counter()
step(benchNet.parameters(), inputs)
mx.eval(state)
end_time = time.perf_counter()
print(f"{i:3d}, time={(end_time-start_time) * 1000:7.2f} ms")
total_time += (end_time - start_time) * 1000
return total_time
def bench_torch(steps: int = 20) -> float:
device = torch.device("cpu")
class BenchNetTorch(torch.nn.Module):
# simple encoder-decoder net
def __init__(self, in_channels, hidden_channels=32):
super().__init__()
self.net = torch.nn.Sequential(
torch.nn.Conv2d(in_channels, hidden_channels, kernel_size=3, padding=1),
torch.nn.ReLU(),
torch.nn.Conv2d(
hidden_channels, 2 * hidden_channels, kernel_size=3, padding=1
),
torch.nn.ReLU(),
torch.nn.ConvTranspose2d(
2 * hidden_channels, hidden_channels, kernel_size=3, padding=1
),
torch.nn.ReLU(),
torch.nn.ConvTranspose2d(
hidden_channels, in_channels, kernel_size=3, padding=1
),
)
def forward(self, input):
return self.net(input)
benchNet = BenchNetTorch(3).to(device)
optim = torch.optim.Adam(benchNet.parameters(), lr=1e-3)
inputs = torch.randn(10, 3, 256, 256, device=device)
def loss_fn(pred_image, image):
return (pred_image - image).abs().mean()
total_time = 0.0
print("PyTorch:")
for i in range(steps):
start_time = time.perf_counter()
optim.zero_grad()
pred_image = benchNet(inputs)
loss = loss_fn(pred_image, inputs)
loss.backward()
optim.step()
end_time = time.perf_counter()
print(f"{i:3d}, time={(end_time-start_time) * 1000:7.2f} ms")
total_time += (end_time - start_time) * 1000
return total_time
def main():
steps = 20
time_mlx = bench_mlx(steps)
time_torch = bench_torch(steps)
print(f"average time of MLX: {time_mlx/steps:9.2f} ms")
print(f"total time of MLX: {time_mlx:9.2f} ms")
print(f"average time of PyTorch: {time_torch/steps:9.2f} ms")
print(f"total time of PyTorch: {time_torch:9.2f} ms")
diff = time_torch / time_mlx - 1.0
print(f"torch/mlx diff: {100. * diff:+5.2f}%")
if __name__ == "__main__":
main()
@@ -0,0 +1,129 @@
import argparse
import math
import time
import mlx.core as mx
import numpy as np
import torch
N_warmup = 1
N_iter_bench = 10
N_iter_func = 5
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_transpose_2D(strides=(1, 1), padding=(0, 0), groups=1):
def mx_conv_transpose_2D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv_transpose2d(
a, b, stride=strides, padding=padding, groups=groups, stream=mx.cpu
)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_transpose_2D
def make_pt_conv_transpose_2D(strides=(1, 1), padding=(0, 0), groups=1):
@torch.no_grad()
def pt_conv_transpose_2D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv_transpose2d(
a, b, stride=strides, padding=padding, groups=groups
)
ys.append(y)
return ys
return pt_conv_transpose_2D
def bench_shape(N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kH * kH * C)
a_np = np.random.uniform(0, 0.5, (N, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (int(O / groups), kH, kW, C)).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 3, 1, 2))).to("cpu")
b_pt = torch.from_numpy(b_np.transpose((3, 0, 1, 2))).to("cpu")
f_mx = make_mx_conv_transpose_2D(strides, padding, groups)
f_pt = make_pt_conv_transpose_2D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv_transpose2d(
a_mx, b_mx, stride=strides, padding=padding, groups=groups, stream=mx.cpu
)
out_pt = torch.conv_transpose2d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, H, W, C)}, {(O, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 32, 32, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 32, 32, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 32, 32, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 32, 32, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 32, 32, 512, 5, 5, 512, (1, 1), (2, 2), 1),
(4, 64, 64, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 64, 64, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 64, 64, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 128, 128, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 128, 128, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 256, 256, 32, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 256, 256, 3, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 128, 128, 3, 5, 5, 64, (1, 1), (2, 2), 1),
)
for dtype in dtypes:
print(
"(N, H, W, C), ( O, kH, kW, C), dtype, stride, pads, groups, diff%"
)
for N, H, W, C, kH, kW, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kH:2d}, {kW:2d}, {C:3d}), {dtype}, {strides}, {padding}, {groups:7d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
+110
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import argparse
import math
import time
import mlx.core as mx
import numpy as np
import torch
N_warmup = 1
N_iter_bench = 10
N_iter_func = 5
mx.set_default_device(mx.cpu)
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_3D(strides=(1, 1), padding=(0, 0), groups=1):
def mx_conv_3D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv3d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_3D
def make_pt_conv_3D(strides=(1, 1), padding=(0, 0), groups=1):
@torch.no_grad()
def pt_conv_3D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv3d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
return ys
return pt_conv_3D
def bench_shape(N, D, H, W, C, kD, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kD * kH * kW * C)
a_np = np.random.uniform(0, 0.5, (N, D, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, kD, kH, kW, int(C / groups))).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 4, 1, 2, 3))).to("cpu")
b_pt = torch.from_numpy(b_np.transpose((0, 4, 1, 2, 3))).to("cpu")
f_mx = make_mx_conv_3D(strides, padding, groups)
f_pt = make_pt_conv_3D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv3d(a_mx, b_mx, stride=strides, padding=padding, groups=groups)
out_pt = torch.conv3d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 4, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, D, H, W, C)}, {(O, kD, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 16, 16, 16, 16, 5, 5, 5, 16, (1, 1, 1), (2, 2, 2), 1),
(4, 16, 16, 16, 32, 5, 5, 5, 32, (1, 1, 1), (2, 2, 2), 1),
)
for dtype in dtypes:
print(
"(N, D, H, W, C), ( O, kD, kH, kW, C), dtype, stride, pads, groups, diff%"
)
for N, D, H, W, C, kD, kH, kW, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, D, H, W, C, kD, kH, kW, O, strides, padding, groups, np_dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {D:3d}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kD:2d}, {kH:2d}, {kW:2d}, {C:3d}), {dtype}, {strides}, {padding}, {groups:7d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
+143
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@@ -0,0 +1,143 @@
import time
import mlx.core as mx
import mlx.nn
import mlx.optimizers as opt
import torch
def bench_mlx(steps: int = 20, shape=(10, 32, 32, 32, 3)) -> float:
mx.set_default_device(mx.cpu)
class BenchNetMLX(mlx.nn.Module):
# simple encoder-decoder net
def __init__(self, in_channels, hidden_channels=16):
super().__init__()
self.net = mlx.nn.Sequential(
mlx.nn.Conv3d(in_channels, hidden_channels, kernel_size=3, padding=1),
mlx.nn.ReLU(),
mlx.nn.Conv3d(
hidden_channels, 2 * hidden_channels, kernel_size=3, padding=1
),
mlx.nn.ReLU(),
mlx.nn.ConvTranspose3d(
2 * hidden_channels, hidden_channels, kernel_size=3, padding=1
),
mlx.nn.ReLU(),
mlx.nn.ConvTranspose3d(
hidden_channels, in_channels, kernel_size=3, padding=1
),
)
def __call__(self, input):
return self.net(input)
benchNet = BenchNetMLX(3)
mx.eval(benchNet.parameters())
optim = opt.Adam(learning_rate=1e-3)
inputs = mx.random.normal(shape)
params = benchNet.parameters()
optim.init(params)
state = [benchNet.state, optim.state]
def loss_fn(params, image):
benchNet.update(params)
pred_image = benchNet(image)
return (pred_image - image).abs().mean()
def step(params, image):
loss, grads = mx.value_and_grad(loss_fn)(params, image)
optim.update(benchNet, grads)
return loss
total_time = 0.0
print("MLX:")
for i in range(steps):
start_time = time.perf_counter()
step(benchNet.parameters(), inputs)
mx.eval(state)
end_time = time.perf_counter()
print(f"{i:3d}, time={(end_time-start_time) * 1000:7.2f} ms")
total_time += (end_time - start_time) * 1000
return total_time
def bench_torch(steps: int = 20, shape=(10, 3, 32, 32, 32)) -> float:
device = torch.device("cpu")
class BenchNetTorch(torch.nn.Module):
# simple encoder-decoder net
def __init__(self, in_channels, hidden_channels=16):
super().__init__()
self.net = torch.nn.Sequential(
torch.nn.Conv3d(in_channels, hidden_channels, kernel_size=3, padding=1),
torch.nn.ReLU(),
torch.nn.Conv3d(
hidden_channels, 2 * hidden_channels, kernel_size=3, padding=1
),
torch.nn.ReLU(),
torch.nn.ConvTranspose3d(
2 * hidden_channels, hidden_channels, kernel_size=3, padding=1
),
torch.nn.ReLU(),
torch.nn.ConvTranspose3d(
hidden_channels, in_channels, kernel_size=3, padding=1
),
)
def forward(self, input):
return self.net(input)
benchNet = BenchNetTorch(3).to(device)
optim = torch.optim.Adam(benchNet.parameters(), lr=1e-3)
inputs = torch.randn(*shape, device=device)
def loss_fn(pred_image, image):
return (pred_image - image).abs().mean()
total_time = 0.0
print("PyTorch:")
for i in range(steps):
start_time = time.perf_counter()
optim.zero_grad()
pred_image = benchNet(inputs)
loss = loss_fn(pred_image, inputs)
loss.backward()
optim.step()
end_time = time.perf_counter()
print(f"{i:3d}, time={(end_time-start_time) * 1000:7.2f} ms")
total_time += (end_time - start_time) * 1000
return total_time
def main():
steps = 10
time_mlx = bench_mlx(steps)
time_torch = bench_torch(steps)
print(f"average time of MLX: {time_mlx/steps:9.2f} ms")
print(f"total time of MLX: {time_mlx:9.2f} ms")
print(f"average time of PyTorch: {time_torch/steps:9.2f} ms")
print(f"total time of PyTorch: {time_torch:9.2f} ms")
diff = time_torch / time_mlx - 1.0
print(f"torch/mlx diff: {100. * diff:+5.2f}%")
if __name__ == "__main__":
main()
@@ -0,0 +1,116 @@
import argparse
import math
import time
import mlx.core as mx
import numpy as np
import torch
N_warmup = 1
N_iter_bench = 10
N_iter_func = 5
mx.set_default_device(mx.cpu)
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_3D(strides=(1, 1, 1), padding=(0, 0, 0), groups=1):
def mx_conv_3D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv_transpose3d(
a, b, stride=strides, padding=padding, groups=groups
)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_3D
def make_pt_conv_3D(strides=(1, 1, 1), padding=(0, 0, 0), groups=1):
@torch.no_grad()
def pt_conv_3D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv_transpose3d(
a, b, stride=strides, padding=padding, groups=groups
)
ys.append(y)
return ys
return pt_conv_3D
def bench_shape(N, D, H, W, C, kD, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kD * kH * kW * C)
a_np = np.random.uniform(0, 0.5, (N, D, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, kD, kH, kW, int(C / groups))).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 4, 1, 2, 3))).to("cpu")
b_pt = torch.from_numpy(b_np.transpose((4, 0, 1, 2, 3))).to("cpu")
f_mx = make_mx_conv_3D(strides, padding, groups)
f_pt = make_pt_conv_3D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv_transpose3d(
a_mx, b_mx, stride=strides, padding=padding, groups=groups
)
out_pt = torch.conv_transpose3d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 4, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, D, H, W, C)}, {(O, kD, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 16, 16, 16, 16, 5, 5, 5, 16, (1, 1, 1), (2, 2, 2), 1),
(4, 16, 16, 16, 32, 5, 5, 5, 32, (1, 1, 1), (2, 2, 2), 1),
)
for dtype in dtypes:
print(
"(N, D, H, W, C), ( O, kD, kH, kW, C), dtype, stride, pads, groups, diff%"
)
for N, D, H, W, C, kD, kH, kW, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, D, H, W, C, kD, kH, kW, O, strides, padding, groups, np_dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {D:3d}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kD:2d}, {kH:2d}, {kW:2d}, {C:3d}), {dtype}, {strides}, {padding}, {groups:7d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
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import argparse
import math
import os
import subprocess
import time
import mlx.core as mx
import numpy as np
import torch
device_name = subprocess.check_output(["sysctl", "-n", "machdep.cpu.brand_string"])
device_name = device_name.decode("utf-8").strip("\n")
N_warmup = 10
N_iter_bench = 100
N_iter_func = 5
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
torch.mps.synchronize()
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_2D(strides=(1, 1), padding=(0, 0), groups=1):
def mx_conv_2D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv2d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_2D
def make_pt_conv_2D(strides=(1, 1), padding=(0, 0), groups=1):
@torch.no_grad()
def pt_conv_2D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv2d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
torch.mps.synchronize()
return ys
return pt_conv_2D
def bench_shape(N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kH * kH * C)
a_np = np.random.uniform(0, 0.5, (N, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, kH, kW, int(C / groups))).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 3, 1, 2))).to("mps")
b_pt = torch.from_numpy(b_np.transpose((0, 3, 1, 2))).to("mps")
torch.mps.synchronize()
f_mx = make_mx_conv_2D(strides, padding, groups)
f_pt = make_pt_conv_2D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv2d(a_mx, b_mx, stride=strides, padding=padding, groups=groups)
out_pt = torch.conv2d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, H, W, C)}, {(O, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 32, 32, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 32, 32, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 32, 32, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 32, 32, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 32, 32, 512, 5, 5, 512, (1, 1), (2, 2), 1),
(4, 64, 64, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 64, 64, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 64, 64, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 2),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 16),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 64),
(4, 128, 128, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 128, 128, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 256, 256, 32, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 256, 256, 3, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 128, 128, 3, 5, 5, 64, (1, 1), (2, 2), 1),
)
for dtype in dtypes:
print(
"(N, H, W, C), ( O, kH, kW, C), dtype, stride, pads, groups, diff%"
)
for N, H, W, C, kH, kW, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kH:2d}, {kW:2d}, {C:3d}), {dtype}, {strides}, {padding}, {groups:7d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
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import argparse
import math
import os
import subprocess
import time
import mlx.core as mx
import numpy as np
import torch
N_warmup = 10
N_iter_bench = 100
N_iter_func = 5
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
torch.mps.synchronize()
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_transpose_2D(strides=(1, 1), padding=(0, 0), groups=1):
def mx_conv_transpose_2D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv_transpose2d(
a, b, stride=strides, padding=padding, groups=groups
)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_transpose_2D
def make_pt_conv_transpose_2D(strides=(1, 1), padding=(0, 0), groups=1):
@torch.no_grad()
def pt_conv_transpose_2D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv_transpose2d(
a, b, stride=strides, padding=padding, groups=groups
)
ys.append(y)
torch.mps.synchronize()
return ys
return pt_conv_transpose_2D
def bench_shape(N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kH * kH * C)
a_np = np.random.uniform(0, 0.5, (N, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, kH, kW, int(C / groups))).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 3, 1, 2))).to("mps")
b_pt = torch.from_numpy(b_np.transpose((3, 0, 1, 2))).to("mps")
torch.mps.synchronize()
f_mx = make_mx_conv_transpose_2D(strides, padding, groups)
f_pt = make_pt_conv_transpose_2D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv_transpose2d(
a_mx, b_mx, stride=strides, padding=padding, groups=groups
)
out_pt = torch.conv_transpose2d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, H, W, C)}, {(O, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run conv benchmarks")
dtypes = ("float32",)
shapes = (
(4, 32, 32, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 32, 32, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 32, 32, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 32, 32, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 32, 32, 512, 5, 5, 512, (1, 1), (2, 2), 1),
(4, 64, 64, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 64, 64, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 64, 64, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 64, 64, 256, 5, 5, 256, (1, 1), (2, 2), 1),
(4, 128, 128, 32, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 64, (1, 1), (2, 2), 1),
(4, 128, 128, 128, 5, 5, 128, (1, 1), (2, 2), 1),
(4, 256, 256, 32, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 256, 256, 3, 5, 5, 32, (1, 1), (2, 2), 1),
(4, 128, 128, 64, 5, 5, 3, (1, 1), (2, 2), 1),
(4, 128, 128, 3, 5, 5, 64, (1, 1), (2, 2), 1),
)
for dtype in dtypes:
print(
"(N, H, W, C), ( O, kH, kW, C), dtype, stride, pads, groups, diff%"
)
for N, H, W, C, kH, kW, O, strides, padding, groups in shapes:
np_dtype = getattr(np, dtype)
time_mlx, time_torch = bench_shape(
N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kH:2d}, {kW:2d}, {C:3d}), {dtype}, {strides}, {padding}, {groups:7d}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
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import math
import time
import mlx.core as mx
import numpy as np
import torch
N_warmup = 10
N_iter_bench = 100
N_iter_func = 5
def bench(f, a, b):
for i in range(N_warmup):
f(a, b)
torch.mps.synchronize()
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(a, b)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def make_mx_conv_2D(strides=(1, 1), padding=(0, 0), groups=1):
def mx_conv_2D(a, b):
ys = []
for i in range(N_iter_func):
y = mx.conv2d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
mx.eval(ys)
return ys
return mx_conv_2D
def make_pt_conv_2D(strides=(1, 1), padding=(0, 0), groups=1):
@torch.no_grad()
def pt_conv_2D(a, b):
ys = []
for i in range(N_iter_func):
y = torch.conv2d(a, b, stride=strides, padding=padding, groups=groups)
ys.append(y)
torch.mps.synchronize()
return ys
return pt_conv_2D
def bench_shape(N, H, W, C, kH, kW, O, strides, padding, groups, np_dtype):
scale = 1.0 / math.sqrt(kH * kH * C)
a_np = np.random.uniform(0, 0.5, (N, H, W, C)).astype(np_dtype)
b_np = np.random.uniform(-scale, scale, (O, kH, kW, int(C / groups))).astype(
np_dtype
)
a_mx = mx.array(a_np)
b_mx = mx.array(b_np)
a_pt = torch.from_numpy(a_np.transpose((0, 3, 1, 2))).to("mps")
b_pt = torch.from_numpy(b_np.transpose((0, 3, 1, 2))).to("mps")
torch.mps.synchronize()
f_mx = make_mx_conv_2D(strides, padding, groups)
f_pt = make_pt_conv_2D(strides, padding, groups)
time_torch = bench(f_pt, a_pt, b_pt)
time_mlx = bench(f_mx, a_mx, b_mx)
out_mx = mx.conv2d(a_mx, b_mx, stride=strides, padding=padding, groups=groups)
out_pt = torch.conv2d(
a_pt.to("cpu"), b_pt.to("cpu"), stride=strides, padding=padding, groups=groups
)
out_pt = torch.permute(out_pt, (0, 2, 3, 1))
out_pt = out_pt.numpy(force=True)
atol = 2e-5 if np_dtype == np.float32 else 1e-4
if not np.allclose(out_pt, out_mx, atol=atol):
print(
f"Failed at {(N, H, W, C)}, {(O, kH, kW, C)} [strides = {strides}, padding = {padding}, groups = {groups}] with max(|a - b|) = {np.max(np.abs(out_pt - out_mx))}"
)
return time_mlx, time_torch
if __name__ == "__main__":
dtype = "float32"
shapes = (
(4, 32, 32, 21, 3, 3, 128),
(4, 32, 32, 21, 3, 3, 37),
(4, 32, 32, 370, 3, 3, 370),
(4, 32, 32, 370, 7, 7, 128),
(2, 320, 640, 21, 7, 7, 21),
)
for N, H, W, C, kh, kw, O in shapes:
time_mlx, time_torch = bench_shape(
N, H, W, C, kh, kw, O, (1, 1), (0, 0), 1, dtype
)
diff = time_torch / time_mlx - 1.0
print(
f"({N}, {H:3d}, {W:3d}, {C:3d}), ({O:3d}, {kh:2d}, {kw:2d}, {C:3d}), {dtype}, {100. * diff:+5.2f}%"
)
if time_mlx >= 2.0 * time_torch:
print("ATTENTION ^^^^^^^")
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# Copyright © 2024 Apple Inc.
"""
Run with:
mpirun -n 2 python /path/to/distributed_bench.py
"""
import time
import mlx.core as mx
def time_fn(fn, *args, **kwargs):
msg = kwargs.pop("msg", None)
world = mx.distributed.init()
if world.rank() == 0:
if msg:
print(f"Timing {msg} ...", end=" ")
else:
print(f"Timing {fn.__name__} ...", end=" ")
# warmup
for _ in range(5):
mx.eval(fn(*args, **kwargs))
num_iters = 100
tic = time.perf_counter()
for _ in range(num_iters):
x = mx.eval(fn(*args, **kwargs))
toc = time.perf_counter()
msec = 1e3 * (toc - tic) / num_iters
if world.rank() == 0:
print(f"{msec:.5f} msec")
def time_all_sum():
shape = (4096,)
x = mx.random.uniform(shape=shape)
mx.eval(x)
def sine(x):
for _ in range(20):
x = mx.sin(x)
return x
time_fn(sine, x)
def all_sum_plain(x):
for _ in range(20):
x = mx.distributed.all_sum(x)
return x
time_fn(all_sum_plain, x)
def all_sum_with_sine(x):
for _ in range(20):
x = mx.sin(x)
x = mx.distributed.all_sum(x)
return x
time_fn(all_sum_with_sine, x)
if __name__ == "__main__":
time_all_sum()
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# Copyright © 2024 Apple Inc.
import time
import mlx.core as mx
import numpy as np
def timeit(fn, its=100, args=[]):
for _ in range(5):
fn(*args)
tic = time.perf_counter()
for _ in range(its):
fn(*args)
toc = time.perf_counter()
return 1e3 * (toc - tic) / its
def time_little_einsum_path():
subscripts = "ik,kj->ij"
x = mx.ones((32, 32))
y = mx.ones((32, 32))
mx_time = timeit(mx.einsum_path, args=(subscripts, x, y))
x = np.array(x)
y = np.array(y)
np_time = timeit(np.einsum_path, args=(subscripts, x, y))
print("Timing little einsum path...")
print(f"MLX ... {mx_time:.3f} ms")
print(f"NumPy... {np_time:.3f} ms")
def time_big_einsum_path():
chars = list("abcdefgh")
char_to_dim = {c: v for v, c in enumerate(chars)}
num_inputs = 10
inputs = []
subscripts = []
for _ in range(num_inputs):
subscript = np.random.choice(chars, size=5, replace=False).tolist()
subscripts.append("".join(subscript))
inputs.append(np.ones(list(char_to_dim[c] for c in subscript)))
subscripts = ",".join(subscripts)
np_time = timeit(np.einsum_path, args=(subscripts, *inputs))
inputs = [mx.array(x) for x in inputs]
mx_time = timeit(mx.einsum_path, args=(subscripts, *inputs))
print("Timing big einsum path...")
print(f"MLX ... {mx_time:.3f} ms")
print(f"NumPy... {np_time:.3f} ms")
def time_attention():
def regular_attention(x):
# shape [batch, sequence, num_heads, head_dim]
queries, keys, values = x, x, x
scores = queries.transpose(0, 2, 1, 3) @ keys.transpose(0, 2, 3, 1)
scores = mx.softmax(scores, axis=-1)
output = (scores @ values.transpose(0, 2, 1, 3)).swapaxes(1, 2)
mx.eval(output)
def einsum_attention(x):
# shape [batch, sequence, num_heads, head_dim]
queries, keys, values = x, x, x
scores = mx.einsum("itjk,iujk->ijtu", queries, keys)
scores = mx.softmax(scores, axis=-1)
output = mx.einsum("ijtu,iujk->itjk", scores, values)
mx.eval(output)
x = mx.random.uniform(shape=(8, 512, 32, 128))
regular_time = timeit(regular_attention, args=(x,))
ein_time = timeit(einsum_attention, args=(x,))
print("Timing einsum attention...")
print(f"Regular ... {regular_time:.3f} ms")
print(f"Einsum ... {ein_time:.3f} ms")
if __name__ == "__main__":
time_little_einsum_path()
time_big_einsum_path()
time_attention()
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# Copyright © 2024 Apple Inc.
import matplotlib
import mlx.core as mx
import numpy as np
import sympy
import torch
from time_utils import measure_runtime
matplotlib.use("Agg")
import matplotlib.pyplot as plt
def bandwidth_gb(runtime_ms, system_size):
bytes_per_fft = np.dtype(np.complex64).itemsize * 2
bytes_per_gb = 1e9
ms_per_s = 1e3
return system_size * bytes_per_fft / runtime_ms * ms_per_s / bytes_per_gb
def run_bench(system_size, fft_sizes, backend="mlx", dim=1):
def fft_mlx(x):
if dim == 1:
out = mx.fft.fft(x)
elif dim == 2:
out = mx.fft.fft2(x)
mx.eval(out)
return out
def fft_mps(x):
if dim == 1:
out = torch.fft.fft(x)
elif dim == 2:
out = torch.fft.fft2(x)
torch.mps.synchronize()
return out
bandwidths = []
for n in fft_sizes:
batch_size = system_size // n**dim
shape = [batch_size] + [n for _ in range(dim)]
if backend == "mlx":
x_np = np.random.uniform(size=(system_size // n, n)).astype(np.complex64)
x = mx.array(x_np)
mx.eval(x)
fft = fft_mlx
elif backend == "mps":
x_np = np.random.uniform(size=(system_size // n, n)).astype(np.complex64)
x = torch.tensor(x_np, device="mps")
torch.mps.synchronize()
fft = fft_mps
else:
raise NotImplementedError()
runtime_ms = measure_runtime(fft, x=x)
bandwidth = bandwidth_gb(runtime_ms, np.prod(shape))
print(n, bandwidth)
bandwidths.append(bandwidth)
return np.array(bandwidths)
def time_fft():
x = np.array(range(2, 512))
system_size = int(2**26)
print("MLX GPU")
with mx.stream(mx.gpu):
gpu_bandwidths = run_bench(system_size=system_size, fft_sizes=x)
print("MPS GPU")
mps_bandwidths = run_bench(system_size=system_size, fft_sizes=x, backend="mps")
print("CPU")
system_size = int(2**20)
with mx.stream(mx.cpu):
cpu_bandwidths = run_bench(system_size=system_size, fft_sizes=x)
x = np.array(x)
all_indices = x - x[0]
radix_2to13 = (
np.array([i for i in x if all(p <= 13 for p in sympy.primefactors(i))]) - x[0]
)
bluesteins = (
np.array([i for i in x if any(p > 13 for p in sympy.primefactors(i))]) - x[0]
)
for indices, name in [
(all_indices, "All"),
(radix_2to13, "Radix 2-13"),
(bluesteins, "Bluestein's"),
]:
# plot bandwidths
print(name)
plt.scatter(x[indices], gpu_bandwidths[indices], color="green", label="GPU")
plt.scatter(x[indices], mps_bandwidths[indices], color="blue", label="MPS")
plt.scatter(x[indices], cpu_bandwidths[indices], color="red", label="CPU")
plt.title(f"MLX FFT Benchmark -- {name}")
plt.xlabel("N")
plt.ylabel("Bandwidth (GB/s)")
plt.legend()
plt.savefig(f"{name}.png")
plt.clf()
av_gpu_bandwidth = np.mean(gpu_bandwidths)
av_mps_bandwidth = np.mean(mps_bandwidths)
av_cpu_bandwidth = np.mean(cpu_bandwidths)
print("Average bandwidths:")
print("GPU:", av_gpu_bandwidth)
print("MPS:", av_mps_bandwidth)
print("CPU:", av_cpu_bandwidth)
portion_faster = len(np.where(gpu_bandwidths > mps_bandwidths)[0]) / len(x)
print("Percent MLX faster than MPS: ", portion_faster * 100)
if __name__ == "__main__":
time_fft()
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# Copyright © 2023-2024 Apple Inc.
import argparse
import mlx.core as mx
import torch
from time_utils import measure_runtime
def benchmark_gather_mlx(x_shape, idx_shape):
def gather(x, idx):
mx.eval(x[idx])
idx = mx.random.randint(0, x_shape[0] - 1, idx_shape)
x = mx.random.normal(x_shape).astype(mx.float32)
runtime = measure_runtime(gather, x=x, idx=idx)
print(f"MLX: {runtime:.3f}ms")
def benchmark_gather_torch(x_shape, idx_shape, device):
def gather(x, idx, device):
_ = x[idx]
if device == torch.device("mps"):
torch.mps.synchronize()
idx = torch.randint(0, x_shape[0] - 1, idx_shape).to(device)
x = torch.randn(x_shape, dtype=torch.float32).to(device)
runtime = measure_runtime(gather, x=x, idx=idx, device=device)
print(f"PyTorch: {runtime:.3f}ms")
if __name__ == "__main__":
parser = argparse.ArgumentParser("Gather benchmarks.")
parser.add_argument("--cpu", action="store_true", help="Use the CPU.")
args = parser.parse_args()
if args.cpu:
mx.set_default_device(mx.cpu)
device = torch.device("cpu")
else:
device = torch.device("mps")
idx_shapes = [(1_000_000,), (100_000,), ()]
x_shapes = [(100, 64), (100, 1024), (4, 1_000_000)]
for x_shape, idx_shape in zip(x_shapes, idx_shapes):
print("=" * 20)
print(f"X {x_shape}, Indices {idx_shape}")
benchmark_gather_mlx(x_shape, idx_shape)
benchmark_gather_torch(x_shape, idx_shape, device=device)
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# Copyright © 2025 Apple Inc.
import mlx.core as mx
from time_utils import time_fn
N = 1024
D = 1024
M = 1024
E = 32
I = 4
def gather_sort(x, indices):
N, M = indices.shape
indices = indices.flatten()
order = mx.argsort(indices)
inv_order = mx.argsort(order)
return x.flatten(0, -3)[order // M], indices[order], inv_order
def scatter_unsort(x, inv_order, shape=None):
x = x[inv_order]
if shape is not None:
x = mx.unflatten(x, 0, shape)
return x
def gather_mm_simulate(x, w, indices):
x, idx, inv_order = gather_sort(x, indices)
for i in range(2):
y = mx.concatenate([x[i] @ w[j].T for i, j in enumerate(idx.tolist())], axis=0)
x = y[:, None]
x = scatter_unsort(x, inv_order, indices.shape)
return x
def time_gather_mm():
x = mx.random.normal((N, 1, 1, D)) / 1024**0.5
w1 = mx.random.normal((E, M, D)) / 1024**0.5
w2 = mx.random.normal((E, D, M)) / 1024**0.5
indices = (mx.random.uniform(shape=(N, I)) * E).astype(mx.uint32)
sorted_indices = mx.sort(indices.flatten()).reshape(N, I)
mx.eval(x, w1, w2, indices, sorted_indices)
def gather_mm(x, w1, w2, indices, sort):
idx = indices
inv_order = None
if sort:
x, idx, inv_order = gather_sort(x, indices)
x = mx.gather_mm(x, w1.swapaxes(-1, -2), rhs_indices=idx, sorted_indices=sort)
x = mx.gather_mm(x, w2.swapaxes(-1, -2), rhs_indices=idx, sorted_indices=sort)
if sort:
x = scatter_unsort(x, inv_order, indices.shape)
return x
time_fn(gather_mm, x, w1, w2, indices, False)
time_fn(gather_mm, x, w1, w2, sorted_indices, False)
time_fn(gather_mm, x, w1, w2, indices, True)
x = mx.random.normal((N * I, D)) / 1024**0.5
w1 = mx.random.normal((M, D)) / 1024**0.5
w2 = mx.random.normal((D, M)) / 1024**0.5
mx.eval(x, w1, w2)
def equivalent_matmul(x, w1, w2):
x = x @ w1.T
x = x @ w2.T
return x
time_fn(equivalent_matmul, x, w1, w2)
if __name__ == "__main__":
time_gather_mm()
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# Copyright © 2025 Apple Inc.
import mlx.core as mx
from time_utils import time_fn
N = 1024
D = 1024
M = 1024
E = 32
I = 4
def gather_sort(x, indices):
N, M = indices.shape
indices = indices.flatten()
order = mx.argsort(indices)
inv_order = mx.argsort(order)
return x.flatten(0, -3)[order // M], indices[order], inv_order
def scatter_unsort(x, inv_order, shape=None):
x = x[inv_order]
if shape is not None:
x = mx.unflatten(x, 0, shape)
return x
def gather_mm_simulate(x, w, indices):
x, idx, inv_order = gather_sort(x, indices)
for i in range(2):
y = mx.concatenate(
[
mx.quantized_matmul(x[i], w[0][j], w[1][j], w[2][j], transpose=True)
for i, j in enumerate(idx.tolist())
],
axis=0,
)
x = y[:, None]
x = scatter_unsort(x, inv_order, indices.shape)
return x
def time_gather_qmm():
x = mx.random.normal((N, 1, 1, D)) / 1024**0.5
w1 = mx.random.normal((E, M, D)) / 1024**0.5
w2 = mx.random.normal((E, D, M)) / 1024**0.5
w1 = mx.quantize(w1)
w2 = mx.quantize(w2)
indices = (mx.random.uniform(shape=(N, I)) * E).astype(mx.uint32)
sorted_indices = mx.sort(indices.flatten()).reshape(N, I)
mx.eval(x, w1, w2, indices, sorted_indices)
def gather_mm(x, w1, w2, indices, sort):
idx = indices
inv_order = None
if sort:
x, idx, inv_order = gather_sort(x, indices)
x = mx.gather_qmm(x, *w1, transpose=True, rhs_indices=idx, sorted_indices=sort)
x = mx.gather_qmm(x, *w2, transpose=True, rhs_indices=idx, sorted_indices=sort)
if sort:
x = scatter_unsort(x, inv_order, indices.shape)
return x
time_fn(gather_mm, x, w1, w2, indices, False)
time_fn(gather_mm, x, w1, w2, sorted_indices, False)
time_fn(gather_mm, x, w1, w2, indices, True)
x = mx.random.normal((N * I, D)) / 1024**0.5
w1 = mx.random.normal((M, D)) / 1024**0.5
w2 = mx.random.normal((D, M)) / 1024**0.5
w1 = mx.quantize(w1)
w2 = mx.quantize(w2)
mx.eval(x, w1, w2)
def equivalent_matmul(x, w1, w2):
x = mx.quantized_matmul(x, *w1, transpose=True)
x = mx.quantized_matmul(x, *w2, transpose=True)
return x
time_fn(equivalent_matmul, x, w1, w2)
if __name__ == "__main__":
time_gather_qmm()
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import argparse
import matplotlib
import mlx.core as mx
import numpy as np
from time_utils import measure_runtime
matplotlib.use("Agg")
import matplotlib.pyplot as plt
def had(x):
y = mx.hadamard_transform(x)
mx.eval(y)
def copy(x):
y = x + 1.0
mx.eval(y)
def run(dtype):
system_size = 2**26
outputs = {}
for test_fn in (had, copy):
for m in [1, 12, 20, 28]:
if test_fn == copy:
key = "copy"
elif m == 1:
key = "had_2^k"
else:
key = "had_m*2^k"
outputs.setdefault(key, {})
for k in range(7, 14):
n = m * 2**k
if n > 2**15:
continue
x_np = np.random.normal(size=(system_size // n, n)).astype(dtype)
x = mx.array(x_np)
runtime_ms = measure_runtime(test_fn, x=x)
bytes_per_gb = 1e9
ms_per_s = 1e3
bytes_per_had = np.dtype(x_np.dtype).itemsize * 2
bandwidth_gb = (
system_size * bytes_per_had / runtime_ms * ms_per_s / bytes_per_gb
)
print(n, bandwidth_gb)
outputs[key][n] = bandwidth_gb
colors = {
"copy": "black",
"had_2^k": "steelblue",
"had_m*2^k": "skyblue",
}
for key, output in outputs.items():
plt.scatter(output.keys(), output.values(), color=colors[key], label=key)
plt.title(f"MLX Hadamard Benchmark -- {dtype.__name__}")
plt.xlabel("N")
plt.ylabel("Bandwidth (GB/s)")
plt.legend()
plt.savefig(f"bench_{dtype.__name__}.png")
plt.clf()
if __name__ == "__main__":
parser = argparse.ArgumentParser()
parser.add_argument("--fp16", action="store_true")
args = parser.parse_args()
dtype = np.float16 if args.fp16 else np.float32
run(dtype)
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# Copyright © 2023-2024 Apple Inc.
from functools import partial
import mlx.core as mx
import mlx.nn as nn
from time_utils import time_fn
def layer_norm(x, w, b, eps):
ot = x.dtype
x = x.astype(mx.float32)
mu = mx.mean(x, -1, keepdims=True)
v = mx.var(x, -1, keepdims=True)
y = (x - mu) * mx.rsqrt(v + eps)
if w is not None:
y = y * w
if b is not None:
y = y + b
return y
def time_layer_norm(N, dt):
L = 1024
f1 = lambda x, w, b, y: (layer_norm(x, w, b, 1e-5) * y).sum()
f2 = lambda x, w, b, y: (mx.fast.layer_norm(x, w, b, 1e-5) * y).sum()
g1 = mx.grad(f1, argnums=(0, 1, 2))
g2 = mx.grad(f2, argnums=(0, 1, 2))
x = mx.random.uniform(shape=(8, L, N)).astype(dt)
w = mx.random.uniform(shape=(N,)).astype(dt)
b = mx.random.uniform(shape=(N,)).astype(dt)
y = mx.random.uniform(shape=(8, L, N)).astype(dt)
mx.eval(x, w, b, y)
def layer_norm_loop(f, x, w, b):
for _ in range(32):
x = f(x, w, b)
return x
time_fn(layer_norm_loop, partial(layer_norm, eps=1e-5), x, w, b)
time_fn(layer_norm_loop, partial(mx.fast.layer_norm, eps=1e-5), x, w, b)
def layer_norm_grad_loop(g, x, w, b):
gx, gw, gb = x, w, b
for _ in range(32):
gx, gw, gb = g(gx, gw, gb, y)
return gx, gw, gb
time_fn(layer_norm_grad_loop, g1, x, w, b)
time_fn(layer_norm_grad_loop, g2, x, w, b)
time_fn(layer_norm_grad_loop, mx.compile(g1), x, w, b)
time_fn(layer_norm_grad_loop, mx.compile(g2), x, w, b)
f1 = lambda x, y: (layer_norm(x, None, None, 1e-5) * y).sum()
f2 = lambda x, y: (mx.fast.layer_norm(x, None, None, 1e-5) * y).sum()
g1 = mx.grad(f1, argnums=(0,))
g2 = mx.grad(f2, argnums=(0,))
x = mx.random.uniform(shape=(8, L, N)).astype(dt)
w = mx.random.uniform(shape=(N,)).astype(dt)
b = mx.random.uniform(shape=(N,)).astype(dt)
y = mx.random.uniform(shape=(8, L, N)).astype(dt)
mx.eval(x, w, b, y)
def layer_norm_grad_x_loop(g, x):
gx = x
for _ in range(32):
gx = g(gx, y)
return gx
time_fn(layer_norm_grad_x_loop, g1, x)
time_fn(layer_norm_grad_x_loop, g2, x)
time_fn(layer_norm_grad_x_loop, mx.compile(g1), x)
time_fn(layer_norm_grad_x_loop, mx.compile(g2), x)
if __name__ == "__main__":
for dt in [mx.float32, mx.float16, mx.bfloat16]:
for n in [1024, 2048, 4096, 8192, 8192 + 1024]:
print(dt, n)
time_layer_norm(n, dt)
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# Copyright © 2023 Apple Inc.
import math
import time
import jax
import jax.numpy as jnp
from flax import linen as nn
class RoPE(nn.Module):
dims: int
traditional: bool = False
def _compute_rope(self, costheta, sintheta, x):
x1 = x[..., : self.dims // 2]
x2 = x[..., self.dims // 2 : self.dims]
rx1 = x1 * costheta - x2 * sintheta
rx2 = x1 * sintheta + x2 * costheta
if self.dims < x.shape[-1]:
rx = jnp.concatenate([rx1, rx2, x[..., self.dims :]], axis=-1)
else:
rx = jnp.concatenate([rx1, rx2], axis=-1)
return rx
def _compute_traditional_rope(self, costheta, sintheta, x):
x1 = x[..., ::2]
x2 = x[..., 1::2]
rx1 = x1 * costheta - x2 * sintheta
rx2 = x1 * sintheta + x2 * costheta
if self.dims < x.shape[-1]:
raise NotImplementedError(
"RoPE doesn't implement partial traditional application"
)
rx = jnp.concatenate([rx1[..., None], rx2[..., None]], axis=-1)
return rx
@staticmethod
def create_cos_sin_theta(
N: int,
D: int,
offset: int = 0,
base: float = 10000,
dtype=jnp.float32,
):
D = D // 2
positions = jnp.arange(offset, N, dtype=dtype)
freqs = jnp.exp(-jnp.arange(0, D, dtype=dtype) * (math.log(base) / D))
theta = positions.reshape((-1, 1)) * freqs.reshape((1, -1))
costheta = jnp.cos(theta)
sintheta = jnp.sin(theta)
return costheta, sintheta
@nn.compact
def __call__(self, x, offset: int = 0):
shape = x.shape
x = x.reshape((-1, shape[-2], shape[-1]))
N = x.shape[1] + offset
costheta, sintheta = RoPE.create_cos_sin_theta(
N, self.dims, offset=offset, dtype=x.dtype
)
rope = (
self._compute_traditional_rope if self.traditional else self._compute_rope
)
rx = rope(costheta, sintheta, x)
return rx.reshape(shape)
class LlamaAttention(nn.Module):
dims: int
num_heads: int
dtype: jnp.dtype
def setup(self):
num_heads = self.num_heads
dims = self.dims
self.rope = RoPE(dims // num_heads, True)
self.query_proj = nn.Dense(dims, use_bias=False, param_dtype=self.dtype)
self.key_proj = nn.Dense(dims, use_bias=False, param_dtype=self.dtype)
self.value_proj = nn.Dense(dims, use_bias=False, param_dtype=self.dtype)
self.out_proj = nn.Dense(dims, use_bias=False, param_dtype=self.dtype)
def __call__(self, queries, keys, values, mask=None, cache=None):
queries = self.query_proj(queries)
keys = self.key_proj(keys)
values = self.value_proj(values)
num_heads = self.num_heads
B, L, D = queries.shape
queries = queries.reshape((B, L, num_heads, -1)).transpose((0, 2, 1, 3))
keys = keys.reshape((B, L, num_heads, -1)).transpose((0, 2, 1, 3))
values = values.reshape((B, L, num_heads, -1)).transpose((0, 2, 1, 3))
if cache is not None:
key_cache, value_cache = cache
queries = self.rope(queries, offset=key_cache.shape[2])
keys = self.rope(keys, offset=key_cache.shape[2])
keys = jnp.concatenate([key_cache, keys], axis=2)
values = jnp.concatenate([value_cache, values], axis=2)
else:
queries = self.rope(queries)
keys = self.rope(keys)
# Dimensions are [batch x num heads x sequence x hidden dim]
scale = math.sqrt(1 / queries.shape[-1])
scores = (queries * scale) @ keys.transpose((0, 1, 3, 2))
if mask is not None:
scores = scores + mask
scores = jax.nn.softmax(scores, axis=-1)
values_hat = (scores @ values).transpose((0, 2, 1, 3)).reshape((B, L, -1))
return self.out_proj(values_hat), (keys, values)
class LlamaEncoderLayer(nn.Module):
dims: int
mlp_dims: int
num_heads: int
dtype: jnp.dtype
def setup(self):
dims = self.dims
mlp_dims = self.mlp_dims
num_heads = self.num_heads
self.attention = LlamaAttention(dims, num_heads, dtype)
self.norm1 = nn.RMSNorm(param_dtype=self.dtype)
self.norm2 = nn.RMSNorm(param_dtype=self.dtype)
self.linear1 = nn.Dense(mlp_dims, use_bias=False, param_dtype=self.dtype)
self.linear2 = nn.Dense(mlp_dims, use_bias=False, param_dtype=self.dtype)
self.linear3 = nn.Dense(dims, use_bias=False, param_dtype=self.dtype)
def __call__(self, x, mask=None, cache=None):
y = self.norm1(x)
y, cache = self.attention(y, y, y, mask, cache)
x = x + y
y = self.norm2(x)
a = self.linear1(y)
b = self.linear2(y)
y = jax.nn.silu(a) * b
y = self.linear3(y)
x = x + y
return x, cache
def measure(model, x, cache):
for i in range(5):
y, c = model(x, mask=None, cache=cache)
jax.block_until_ready((y, c))
start = time.time()
for i in range(5):
y, c = model(x, mask=None, cache=cache)
jax.block_until_ready((y, c))
end = time.time()
return (end - start) * 1000 / 5
if __name__ == "__main__":
H = 32
D = 4096
F = 43 * 256
C = 1000
dtype = jnp.float16
k1, k2, k3, k4 = jax.random.split(jax.random.PRNGKey(0), 4)
x = jax.random.normal(k1, (1, 1, D), dtype)
cache = [
jax.random.normal(k2, [1, H, C, D // H], dtype),
jax.random.normal(k3, [1, H, C, D // H], dtype),
]
layer = LlamaEncoderLayer(D, F, H, dtype=dtype)
params = layer.init(k4, x, mask=None, cache=cache)["params"]
@jax.jit
def model_fn(x, mask, cache):
return layer.apply({"params": params}, x, mask=mask, cache=cache)
T = measure(model_fn, x, cache)
print("Time per layer per token:", T, "ms")
print("Lower bound total time per token:", T * 32, "ms")
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# Copyright © 2023 Apple Inc.
import math
import time
import mlx.core as mx
import mlx.nn as nn
import mlx.utils
class LlamaAttention(nn.Module):
def __init__(self, dims: int, num_heads: int):
super().__init__()
self.num_heads = num_heads
self.rope = nn.RoPE(dims // num_heads, True)
self.query_proj = nn.Linear(dims, dims, False)
self.key_proj = nn.Linear(dims, dims, False)
self.value_proj = nn.Linear(dims, dims, False)
self.out_proj = nn.Linear(dims, dims, False)
def __call__(self, queries, keys, values, mask=None, cache=None):
queries = self.query_proj(queries)
keys = self.key_proj(keys)
values = self.value_proj(values)
num_heads = self.num_heads
B, L, D = queries.shape
queries = mx.transpose(mx.reshape(queries, (B, L, num_heads, -1)), (0, 2, 1, 3))
keys = mx.transpose(mx.reshape(keys, (B, L, num_heads, -1)), (0, 2, 1, 3))
values = mx.transpose(mx.reshape(values, (B, L, num_heads, -1)), (0, 2, 1, 3))
if cache is not None:
key_cache, value_cache = cache
queries = self.rope(queries, offset=key_cache.shape[2])
keys = self.rope(keys, offset=key_cache.shape[2])
keys = mx.concatenate([key_cache, keys], axis=2)
values = mx.concatenate([value_cache, values], axis=2)
else:
queries = self.rope(queries)
keys = self.rope(keys)
# Dimensions are [batch x num heads x sequence x hidden dim]
scale = mx.array(math.sqrt(1 / queries.shape[-1]), dtype=queries.dtype)
scores = (queries * scale) @ mx.transpose(keys, (0, 1, 3, 2))
if mask is not None:
scores = scores + mask
scores = mx.softmax(scores, axis=-1)
values_hat = mx.reshape(mx.transpose(scores @ values, (0, 2, 1, 3)), (B, L, -1))
return self.out_proj(values_hat), (keys, values)
class LlamaEncoderLayer(nn.Module):
def __init__(self, dims: int, mlp_dims: int, num_heads: int):
super().__init__()
self.attention = LlamaAttention(dims, num_heads)
self.norm1 = nn.RMSNorm(dims)
self.norm2 = nn.RMSNorm(dims)
self.linear1 = nn.Linear(dims, mlp_dims, False)
self.linear2 = nn.Linear(dims, mlp_dims, False)
self.linear3 = nn.Linear(mlp_dims, dims, False)
def __call__(self, x, mask=None, cache=None):
y = self.norm1(x)
y, cache = self.attention(y, y, y, mask, cache)
x = x + y
y = self.norm2(x)
a = self.linear1(y)
b = self.linear2(y)
y = a * mx.sigmoid(a) * b
y = self.linear3(y)
x = x + y
return x, cache
def measure(model, x, cache):
for i in range(5):
y, c = model(x, mask=None, cache=cache)
mx.eval(y, c)
start = time.time()
rs = []
for i in range(5):
y, c = model(x, mask=None, cache=cache)
rs.append((y, c))
mx.eval(rs)
end = time.time()
return (end - start) * 1000 / 5
if __name__ == "__main__":
H = 32
D = 4096
F = 43 * 256
C = 1000
mx.set_default_device(mx.gpu)
dtype = mx.float16
layer = LlamaEncoderLayer(D, F, H)
layer.update(mlx.utils.tree_map(lambda x: x.astype(dtype), layer.parameters()))
k1, k2, k3 = mx.random.split(mx.random.key(0), 3)
x = mx.random.normal([1, 1, D], dtype=dtype)
cache = [
mx.random.normal([1, H, C, D // H], dtype=dtype),
mx.random.normal([1, H, C, D // H], dtype=dtype),
]
mx.eval(x, cache)
T = measure(layer, x, cache)
print("Time per layer per token:", T, "ms")
print("Lower bound total time per token:", T * 32, "ms")
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# Copyright © 2023 Apple Inc.
import math
import time
import torch
import torch.mps
import torch.nn as nn
def sync_if_needed(x):
if x.device != torch.device("cpu"):
torch.mps.synchronize()
class RoPE(nn.Module):
def __init__(self, dims: int, traditional: bool = False):
super().__init__()
self.dims = dims
self.traditional = traditional
def _compute_rope(self, costheta, sintheta, x):
x1 = x[..., : self.dims // 2]
x2 = x[..., self.dims // 2 : self.dims]
rx1 = x1 * costheta - x2 * sintheta
rx2 = x1 * sintheta + x2 * costheta
if self.dims < x.shape[-1]:
rx = torch.cat([rx1, rx2, x[..., self.dims :]], dim=-1)
else:
rx = torch.cat([rx1, rx2], dim=-1)
return rx
def _compute_traditional_rope(self, costheta, sintheta, x):
x1 = x[..., ::2]
x2 = x[..., 1::2]
rx1 = x1 * costheta - x2 * sintheta
rx2 = x1 * sintheta + x2 * costheta
if self.dims < x.shape[-1]:
raise NotImplementedError(
"RoPE doesn't implement partial traditional application"
)
rx = torch.cat([rx1[..., None], rx2[..., None]], dim=-1)
return rx
def forward(self, x, offset: int = 0):
shape = x.shape
x = x.view(-1, shape[-2], shape[-1])
N = x.shape[1] + offset
costheta, sintheta = RoPE.create_cos_sin_theta(
N, self.dims, offset=offset, device=x.device, dtype=x.dtype
)
rope = (
self._compute_traditional_rope if self.traditional else self._compute_rope
)
rx = rope(costheta, sintheta, x)
return rx.view(*shape)
@staticmethod
def create_cos_sin_theta(
N: int,
D: int,
offset: int = 0,
base: float = 10000,
device="cpu",
dtype=torch.float32,
):
D = D // 2
positions = torch.arange(offset, N, dtype=dtype, device=device)
freqs = torch.exp(
-torch.arange(0, D, dtype=dtype, device=device) * (math.log(base) / D)
)
theta = positions.view(-1, 1) * freqs.view(1, -1)
costheta = torch.cos(theta)
sintheta = torch.sin(theta)
return costheta, sintheta
class RMSNorm(nn.Module):
def __init__(self, dims: int, epsilon: float = 1e-6):
super().__init__()
self.gamma = nn.Parameter(torch.ones((dims,)))
self.epsilon = epsilon
def forward(self, x):
n = torch.rsqrt(x.square().mean(dim=-1, keepdims=True) + self.epsilon)
return self.gamma * x * n
class LlamaAttention(nn.Module):
def __init__(self, dims: int, num_heads: int):
super().__init__()
self.num_heads = num_heads
self.rope = RoPE(dims // num_heads, True)
self.query_proj = nn.Linear(dims, dims, bias=False)
self.key_proj = nn.Linear(dims, dims, bias=False)
self.value_proj = nn.Linear(dims, dims, bias=False)
self.out_proj = nn.Linear(dims, dims, bias=False)
def forward(self, queries, keys, values, mask=None, cache=None):
queries = self.query_proj(queries)
keys = self.key_proj(keys)
values = self.value_proj(values)
num_heads = self.num_heads
B, L, D = queries.shape
queries = queries.view(B, L, num_heads, -1).permute(0, 2, 1, 3)
keys = keys.view(B, L, num_heads, -1).permute(0, 2, 1, 3)
values = values.view(B, L, num_heads, -1).permute(0, 2, 1, 3)
if cache is not None:
key_cache, value_cache = cache
queries = self.rope(queries, offset=key_cache.shape[2])
keys = self.rope(keys, offset=key_cache.shape[2])
keys = torch.cat([key_cache, keys], dim=2)
values = torch.cat([value_cache, values], dim=2)
else:
queries = self.rope(queries)
keys = self.rope(keys)
# Dimensions are [batch x num heads x sequence x hidden dim]
scale = math.sqrt(1 / queries.shape[-1])
scores = (queries * scale) @ keys.permute(0, 1, 3, 2)
if mask is not None:
scores = scores + mask
scores = torch.softmax(scores, dim=-1)
values_hat = (scores @ values).permute(0, 2, 1, 3).reshape(B, L, -1)
return self.out_proj(values_hat), (keys, values)
class LlamaEncoderLayer(nn.Module):
def __init__(self, dims: int, mlp_dims: int, num_heads: int):
super().__init__()
self.attention = LlamaAttention(dims, num_heads)
self.norm1 = RMSNorm(dims)
self.norm2 = RMSNorm(dims)
self.linear1 = nn.Linear(dims, mlp_dims, bias=False)
self.linear2 = nn.Linear(dims, mlp_dims, bias=False)
self.linear3 = nn.Linear(mlp_dims, dims, bias=False)
def forward(self, x, mask=None, cache=None):
y = self.norm1(x)
y, cache = self.attention(y, y, y, mask, cache)
x = x + y
y = self.norm2(x)
a = self.linear1(y)
b = self.linear2(y)
y = torch.nn.functional.silu(a) * b
y = self.linear3(y)
x = x + y
return x, cache
@torch.no_grad()
def measure(model, x, cache):
for i in range(5):
y, c = model(x, mask=None, cache=cache)
sync_if_needed(x)
start = time.time()
for i in range(5):
y, c = model(x, mask=None, cache=cache)
sync_if_needed(x)
end = time.time()
return (end - start) * 1000 / 5
if __name__ == "__main__":
H = 32
D = 4096
F = 43 * 256
C = 1000
device = torch.device("mps")
dtype = torch.float16
layer = LlamaEncoderLayer(D, F, H).to(device).to(dtype)
x = torch.randn(1, 1, D).to(device).to(dtype)
cache = [
torch.randn(1, H, C, D // H).to(device).to(dtype),
torch.randn(1, H, C, D // H).to(device).to(dtype),
]
T = measure(layer, x, cache)
print("Time per layer per token:", T, "ms")
print("Lower bound total time per token:", T * 32, "ms")
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# Copyright © 2023-2024 Apple Inc.
import mlx.core as mx
import mlx.nn as nn
from time_utils import time_fn
def rms_norm(x, w, eps):
ot = x.dtype
x = x.astype(mx.float32)
n = mx.rsqrt(x.square().mean(-1, keepdims=True) + eps)
y = (x * n).astype(ot)
if w is not None:
y = y * w
return y
def time_rms_norm():
f1 = lambda x, w, y: (rms_norm(x, w, 1e-5) * y).sum()
f2 = lambda x, w, y: (mx.fast.rms_norm(x, w, 1e-5) * y).sum()
g1 = mx.grad(f1, argnums=(0, 1))
g2 = mx.grad(f2, argnums=(0, 1))
x = mx.random.uniform(shape=(8, 1024, 4096)).astype(mx.float16)
w = mx.random.uniform(shape=(4096,)).astype(mx.float16)
y = mx.random.uniform(shape=(8, 1024, 4096)).astype(mx.float16)
mx.eval(x, w, y)
def rms_norm_loop(g, x, w):
gx, gw = x, w
for _ in range(32):
gx, gw = g(gx, gw, y)
return gx, gw
time_fn(rms_norm_loop, g1, x, w)
time_fn(rms_norm_loop, g2, x, w)
time_fn(rms_norm_loop, mx.compile(g1), x, w)
time_fn(rms_norm_loop, mx.compile(g2), x, w)
f1 = lambda x, y: (rms_norm(x, None, 1e-5) * y).sum()
f2 = lambda x, y: (mx.fast.rms_norm(x, None, 1e-5) * y).sum()
g1 = mx.grad(f1, argnums=(0,))
g2 = mx.grad(f2, argnums=(0,))
x = mx.random.uniform(shape=(8, 1024, 4096)).astype(mx.float16)
w = mx.random.uniform(shape=(4096,)).astype(mx.float16)
y = mx.random.uniform(shape=(8, 1024, 4096)).astype(mx.float16)
mx.eval(x, w, y)
def rms_norm_loop(g, x):
gx = x
for _ in range(32):
gx = g(gx, y)
return gx
time_fn(rms_norm_loop, g1, x)
time_fn(rms_norm_loop, g2, x)
time_fn(rms_norm_loop, mx.compile(g1), x)
time_fn(rms_norm_loop, mx.compile(g2), x)
if __name__ == "__main__":
time_rms_norm()
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# Copyright © 2023-2024 Apple Inc.
import mlx.core as mx
import mlx.nn as nn
from time_utils import time_fn
def time_rope():
rope = nn.RoPE(64)
# vec
x = mx.random.uniform(shape=(1, 32, 1, 128)).astype(mx.float16)
mx.eval(x)
def rope_vec(x):
for _ in range(32):
x = rope(x, offset=100)
return x
time_fn(rope_vec, x)
# matrix
x = mx.random.uniform(shape=(1, 32, 1024, 128)).astype(mx.float16)
mx.eval(x)
def rope_mat(x):
for _ in range(32):
x = rope(x)
return x
time_fn(rope_mat, x)
if __name__ == "__main__":
time_rope()
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# Copyright © 2023-2024 Apple Inc.
import argparse
import mlx.core as mx
import torch
from time_utils import measure_runtime
def benchmark_scatter_mlx(dst_shape, x_shape, idx_shapes):
def scatter(dst, x, idx):
dst[tuple(idx)] = x
mx.eval(dst)
idx = []
for idx_shape in idx_shapes:
idx.append(mx.random.randint(0, dst_shape[0] - 1, idx_shape))
x = mx.random.normal(x_shape).astype(mx.float32)
dst = mx.random.normal(dst_shape).astype(mx.float32)
runtime = measure_runtime(scatter, dst=dst, x=x, idx=idx)
print(f"MLX: {runtime:.3f}ms")
def benchmark_scatter_torch(dst_shape, x_shape, idx_shapes, device):
def scatter(dst, x, idx, device):
dst[tuple(idx)] = x
if device == torch.device("mps"):
torch.mps.synchronize()
idx = []
for idx_shape in idx_shapes:
idx.append(torch.randint(0, dst_shape[0] - 1, idx_shape).to(device))
x = torch.randn(x_shape, dtype=torch.float32).to(device)
dst = torch.randn(dst_shape, dtype=torch.float32).to(device)
runtime = measure_runtime(scatter, dst=dst, x=x, idx=idx, device=device)
print(f"PyTorch: {runtime:.3f}ms")
if __name__ == "__main__":
parser = argparse.ArgumentParser("Gather benchmarks.")
parser.add_argument("--cpu", action="store_true", help="Use the CPU.")
args = parser.parse_args()
if args.cpu:
mx.set_default_device(mx.cpu)
device = torch.device("cpu")
else:
device = torch.device("mps")
dst_shapes = [
(10, 64),
(100_000, 64),
(1_000_000, 64),
(100_000,),
(200_000,),
(20_000_000,),
(10000, 64),
(100, 64),
(100, 10_000, 64),
(10, 100, 100, 21),
(1_000, 1_000, 10),
]
idx_shapes = [
[(1_000_000,)],
[(1_000_000,)],
[(100_000,)],
[(1_000_000,)],
[(20_000_000,)],
[(20_000_000,)],
[(1000000,)],
[(10000000,)],
[(1_000,)],
[(10_000,)],
[(1_000,), (1_000,)],
]
x_shapes = [
(1_000_000, 64),
(1_000_000, 64),
(100_000, 64),
(1_000_000,),
(20_000_000,),
(20_000_000,),
(1000000, 64),
(10000000, 64),
(1_000, 10_000, 64),
(10_000, 100, 100, 21),
(1_000, 10),
]
for dst_shape, x_shape, idx_shape in zip(dst_shapes, x_shapes, idx_shapes):
print("=" * 20)
print(f"Dst: {dst_shape}, X {x_shape}, Indices {idx_shape}")
benchmark_scatter_mlx(dst_shape, x_shape, idx_shape)
benchmark_scatter_torch(dst_shape, x_shape, idx_shape, device=device)
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# Copyright © 2024 Apple Inc.
import argparse
import math
import os
import subprocess
import time
import mlx.core as mx
import numpy as np
device_name = subprocess.check_output(["sysctl", "-n", "machdep.cpu.brand_string"])
device_name = device_name.decode("utf-8").strip("\n")
N_warmup = 5
N_iter_bench = 40
N_iter_func = 8
def bench(f, *args):
for i in range(N_warmup):
f(*args)
s = time.perf_counter_ns()
for i in range(N_iter_bench):
f(*args)
e = time.perf_counter_ns()
return (e - s) * 1e-9
def prepare_inputs(B, qL, kL, D, qH, kH, mask, transpose, dtype):
np_dtype = getattr(np, dtype)
shape_q = (B, qL, qH, D) if transpose else (B, qH, qL, D)
shape_kv = (B, kL, kH, D) if transpose else (B, kH, kL, D)
scale = 1.0 / math.sqrt(D)
q_np = np.random.normal(0.0, 1.0, shape_q).astype(np_dtype)
k_np = np.random.normal(0.0, scale, shape_kv).astype(np_dtype)
v_np = np.random.normal(0.0, scale, shape_kv).astype(np_dtype)
q_mx = mx.array(q_np)
k_mx = mx.array(k_np)
v_mx = mx.array(v_np)
if mask is not None:
if mask == "additive":
mask_np = np.random.normal(0.0, 1.0, (B, qH, qL, kL)).astype(np_dtype)
mask = mx.array(mask_np)
elif mask == "bool":
mask_np = np.random.uniform(0.0, 1.0, (B, qH, qL, kL)) < 0.5
mask = mx.array(mask_np)
return q_mx, k_mx, v_mx, scale, mask
def mlx_ref_attn(q, k, v, scale=1.0, mask=None):
q_dtype = q.dtype
q = q * mx.array(scale, q_dtype)
n_q_heads = q.shape[-3]
n_kv_heads = k.shape[-3]
n_repeats = n_q_heads // n_kv_heads
B = q.shape[0]
L = q.shape[2]
kL = k.shape[2]
if n_repeats > 1:
q = mx.reshape(q, [B, n_kv_heads, n_repeats, L, -1])
k = mx.expand_dims(k, 2)
v = mx.expand_dims(v, 2)
scores = q @ mx.swapaxes(k, -1, -2)
if mask is not None:
if mask == "causal":
q_offset = max(0, kL - L)
q_indices = mx.arange(q_offset, q_offset + L)
k_indices = mx.arange(kL)
mask = q_indices[:, None] >= k_indices[None]
if n_repeats > 1 and mask.ndim >= 3:
if mask.shape[-3] == 1:
mask = mx.expand_dims(mask, -3)
else:
mask = mx.unflatten(mask, -3, (n_kv_heads, n_repeats))
if mask.dtype == mx.bool_:
scores = mx.where(mask, scores, -np.float32(np.inf))
else:
scores += mask
scores = mx.softmax(scores, axis=-1, precise=True)
out = scores @ v
if n_repeats > 1:
out = mx.reshape(out, [B, n_q_heads, L, -1])
return out
def mlx_fused_attn(q, k, v, scale, mask):
return mx.fast.scaled_dot_product_attention(q, k, v, scale=scale, mask=mask)
def do_attention(f, q, k, v, scale, mask=None, transpose=False):
if transpose:
q_t = mx.transpose(q, (0, 2, 1, 3))
k_t = mx.transpose(k, (0, 2, 1, 3))
v_t = mx.transpose(v, (0, 2, 1, 3))
o_t = f(q_t, k_t, v_t, scale=scale, mask=mask)
return mx.transpose(o_t, (0, 2, 1, 3))
else:
return f(q, k, v, scale=scale, mask=mask)
def do_attention_bench(f, q, k, v, scale, mask=None, transpose=False):
q_out = q
for i in range(N_iter_func):
q_out = do_attention(f, q_out, k, v, scale, mask=mask, transpose=transpose)
mx.eval(q_out)
return q_out
def bench_shape(
B, qsl, ksl, head_dim, n_q_heads, n_kv_heads, dtype, transpose=True, mask_in=None
):
q_mx, k_mx, v_mx, scale, mask = prepare_inputs(
B, qsl, ksl, head_dim, n_q_heads, n_kv_heads, mask_in, transpose, dtype
)
time_mlx_unfused = bench(
do_attention_bench, mlx_ref_attn, q_mx, k_mx, v_mx, scale, mask, transpose
)
time_mlx_fused = bench(
do_attention_bench, mlx_fused_attn, q_mx, k_mx, v_mx, scale, mask, transpose
)
o_mlx_fused = do_attention(mlx_ref_attn, q_mx, k_mx, v_mx, scale, mask, transpose)
o_mlx_unfused = do_attention(
mlx_fused_attn, q_mx, k_mx, v_mx, scale, mask, transpose
)
atol = 1e-5 if dtype == "float32" else 2e-4
if not mx.allclose(o_mlx_fused, o_mlx_unfused, atol=atol, rtol=atol):
print(
f"Failed at (B: {B}, qsl: {qsl}, ksl: {ksl}, head_dim: {head_dim}, n_qh: {n_q_heads}, n_kvh: {n_kv_heads}, mask: {mask_in}) [tpose = {transpose}] with max(|a - b|) = {mx.max(mx.abs(o_mlx_unfused - o_mlx_fused)):3.2e}"
)
return time_mlx_fused, time_mlx_unfused
def get_gflop_count(B, M, N, K):
return float(2.0 * N_iter_bench * N_iter_func * B * M * N * K) / float(1024.0**3)
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="Run gemm benchmarks")
dtypes = ("float16", "float32")[:1]
transposes = (False,)
# fmt: off
shapes_64 = (
# ( B, qsl, ksl, head_dim, n_qh, n_kvh)
( 1, 32, 32, 64, 32, 32),
( 1, 64, 64, 64, 32, 32),
( 1, 128, 128, 64, 32, 32),
( 1, 256, 256, 64, 32, 32),
( 1, 512, 512, 64, 32, 32),
( 1, 1024, 1024, 64, 32, 8),
( 1, 2048, 2048, 64, 32, 8),
( 1, 4096, 4096, 64, 32, 8),
)
shapes_80 = (
# ( B, qsl, ksl, head_dim, n_qh, n_kvh)
( 1, 1024, 1024, 80, 32, 8),
( 1, 2048, 2048, 80, 32, 8),
( 1, 4096, 4096, 80, 32, 8),
)
shapes_128 = (
# ( B, qsl, ksl, head_dim, n_qh, n_kvh)
( 1, 1024, 1024, 128, 32, 8),
( 1, 2048, 2048, 128, 32, 8),
( 1, 4096, 4096, 128, 32, 8),
)
# fmt: on
shapes = shapes_64 + shapes_80 + shapes_128
masks = [None, "bool", "causal"]
print(
" B, qsl, ksl, hdim, n_qh, n_kvh, t, dtype, mask, t_unfs, t_fuse, diff%"
)
for dtype in dtypes:
for transpose in transposes:
for B, qsl, ksl, head_dim, n_q_heads, n_kv_heads in shapes:
for mask_in in masks:
time_mlx_fused, time_mlx_unfused = bench_shape(
B,
qsl,
ksl,
head_dim,
n_q_heads,
n_kv_heads,
dtype,
transpose,
mask_in,
)
diff = time_mlx_unfused / time_mlx_fused - 1.0
t_str = 1 if transpose else 0
print(
f"{B:3d}, {qsl:5d}, {ksl:5d}, {head_dim:4d}, {n_q_heads:4d}, {n_kv_heads:5d}, {t_str:1d}, {dtype}, {str(mask_in):>8}, {time_mlx_unfused: 2.3f}, {time_mlx_fused: 2.3f}, {100. * diff:+5.2f}%"
)
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import argparse
import math
import mlx.core as mx
from time_utils import time_fn
L = 16384
H = 32
H_k = H // 4
D = 128
V = 128
dtype = mx.float16
loops = 10
def upproject(x, w):
if w is None:
return x
else:
return x @ w.T
def attention(q, k, v, mask=None, w=None):
def _sdpa(q, k, v):
B, Hq, L, D = q.shape
_, Hk, S, _ = k.shape
_, _, _, V = v.shape
q = q.reshape(B, Hk, Hq // Hk, L, D)
k = k[:, :, None, :, :]
v = v[:, :, None, :, :]
s = q @ k.transpose(0, 1, 2, 4, 3)
if mask is not None:
m = mx.broadcast_to(mask, (B, Hq, L, S)).reshape(B, Hk, Hq // Hk, L, S)
s = mx.where(m, s, mx.finfo(s.dtype).min)
p = mx.softmax(s.astype(mx.float32), axis=-1).astype(s.dtype)
o = p @ v
return o.reshape(B, Hq, L, V)
for i in range(loops):
q = _sdpa(q, k, v)
q = upproject(q, w)
return q
def sdpa(q, k, v, mask=None, w=None):
for i in range(loops):
q = mx.fast.scaled_dot_product_attention(q, k, v, scale=1.0, mask=mask)
q = upproject(q, w)
return q
def time_self_attention_primitives():
mx.random.seed(3)
q = mx.random.uniform(shape=(1, H, 1, D)).astype(dtype)
k = mx.random.uniform(shape=(1, H_k, L, D)).astype(dtype)
v = mx.random.uniform(shape=(1, H_k, L, V)).astype(dtype)
w = mx.random.uniform(shape=(D, V)).astype(dtype) if V != D else None
mx.eval(q, k, v, w)
time_fn(attention, q, k, v, w=w)
def time_self_attention_sdpa():
mx.random.seed(3)
q = mx.random.uniform(shape=(1, H, 1, D)).astype(dtype)
k = mx.random.uniform(shape=(1, H_k, L, D)).astype(dtype)
v = mx.random.uniform(shape=(1, H_k, L, V)).astype(dtype)
w = mx.random.uniform(shape=(D, V)).astype(dtype) if V != D else None
mx.eval(q, k, v, w)
time_fn(sdpa, q, k, v, w=w)
def time_self_attention_sdpa_with_mask():
mx.random.seed(3)
q = mx.random.uniform(shape=(1, H, 1, D)).astype(dtype)
k = mx.random.uniform(shape=(1, H_k, L, D)).astype(dtype)
v = mx.random.uniform(shape=(1, H_k, L, V)).astype(dtype)
w = mx.random.uniform(shape=(D, V)).astype(dtype) if V != D else None
mask = mx.full((L,), True)
mask[L // 2 :] = False
mx.eval(q, k, v, mask, w)
def sdpa_mask(*args):
return sdpa(*args, mask=mask, w=w)
def attention_mask(*args):
return attention(*args, mask=mask, w=w)
time_fn(attention_mask, q, k, v)
time_fn(sdpa_mask, q, k, v)
if __name__ == "__main__":
time_self_attention_sdpa()
time_self_attention_primitives()
time_self_attention_sdpa_with_mask()
+24
View File
@@ -44,6 +44,27 @@ def time_matmul():
time_fn(mx.matmul, a, b)
def time_maximum():
a = mx.random.uniform(shape=(32, 1024, 1024))
b = mx.random.uniform(shape=(32, 1024, 1024))
mx.eval(a, b)
time_fn(mx.maximum, a, b)
def time_max():
a = mx.random.uniform(shape=(32, 1024, 1024))
a[1, 1] = mx.nan
mx.eval(a)
time_fn(mx.max, a, 0)
def time_min():
a = mx.random.uniform(shape=(32, 1024, 1024))
a[1, 1] = mx.nan
mx.eval(a)
time_fn(mx.min, a, 0)
def time_negative():
a = mx.random.uniform(shape=(10000, 1000))
mx.eval(a)
@@ -101,6 +122,9 @@ if __name__ == "__main__":
time_add()
time_matmul()
time_min()
time_max()
time_maximum()
time_exp()
time_negative()
time_logsumexp()
+55
View File
@@ -0,0 +1,55 @@
import time
import mlx.core as mx
rank = mx.distributed.init().rank()
def timeit(fn, a):
# warmup
for _ in range(5):
mx.eval(fn(a))
its = 10
tic = time.perf_counter()
for _ in range(its):
mx.eval(fn(a))
toc = time.perf_counter()
ms = 1000 * (toc - tic) / its
return ms
def all_reduce_benchmark():
a = mx.ones((5, 5), mx.int32)
its_per_eval = 100
def fn(x):
for _ in range(its_per_eval):
x = mx.distributed.all_sum(x)
x = x - 1
return x
ms = timeit(fn, a) / its_per_eval
if rank == 0:
print(f"All Reduce: time per iteration {ms:.6f} (ms)")
def all_gather_benchmark():
a = mx.ones((5, 5), mx.int32)
its_per_eval = 100
def fn(x):
for _ in range(its_per_eval):
x = mx.distributed.all_gather(x)[0]
return x
ms = timeit(fn, a) / its_per_eval
if rank == 0:
print(f"All gather: time per iteration {ms:.6f} (ms)")
if __name__ == "__main__":
all_reduce_benchmark()
all_gather_benchmark()
+18 -2
View File
@@ -1,4 +1,4 @@
# Copyright © 2023 Apple Inc.
# Copyright © 2023-2024 Apple Inc.
import time
@@ -6,7 +6,11 @@ import mlx.core as mx
def time_fn(fn, *args, **kwargs):
print(f"Timing {fn.__name__} ...", end=" ")
msg = kwargs.pop("msg", None)
if msg:
print(f"Timing {msg} ...", end=" ")
else:
print(f"Timing {fn.__name__} ...", end=" ")
# warmup
for _ in range(5):
@@ -20,3 +24,15 @@ def time_fn(fn, *args, **kwargs):
msec = 1e3 * (toc - tic) / num_iters
print(f"{msec:.5f} msec")
def measure_runtime(fn, **kwargs):
# Warmup
for _ in range(5):
fn(**kwargs)
tic = time.time()
iters = 100
for _ in range(iters):
fn(**kwargs)
return (time.time() - tic) * 1000 / iters
+54
View File
@@ -0,0 +1,54 @@
# FindNCCL.cmake This module finds the NVIDIA NCCL library and its include
# directories.
set(NCCL_ROOT_DIR
$ENV{NCCL_ROOT_DIR}
CACHE PATH "Folder contains NVIDIA NCCL")
find_path(
NCCL_INCLUDE_DIRS
NAMES nccl.h
HINTS ${NCCL_INCLUDE_DIR} ${NCCL_ROOT_DIR} ${NCCL_ROOT_DIR}/include
${CUDA_TOOLKIT_ROOT_DIR}/include)
if($ENV{USE_STATIC_NCCL})
message(
STATUS "USE_STATIC_NCCL detected. Linking against static NCCL library")
set(NCCL_LIBNAME "libnccl_static.a")
else()
set(NCCL_LIBNAME "nccl")
endif()
find_library(
NCCL_LIBRARIES
NAMES ${NCCL_LIBNAME}
HINTS ${NCCL_LIB_DIR}
${NCCL_ROOT_DIR}
${NCCL_ROOT_DIR}/lib
${NCCL_ROOT_DIR}/lib/x86_64-linux-gnu
${NCCL_ROOT_DIR}/lib64
${CUDA_TOOLKIT_ROOT_DIR}/lib
${CUDA_TOOLKIT_ROOT_DIR}/lib64)
include(FindPackageHandleStandardArgs)
find_package_handle_standard_args(NCCL DEFAULT_MSG NCCL_INCLUDE_DIRS
NCCL_LIBRARIES)
if(NCCL_FOUND)
set(NCCL_HEADER_FILE "${NCCL_INCLUDE_DIRS}/nccl.h")
message(
STATUS "Determining NCCL version from the header file: ${NCCL_HEADER_FILE}")
file(
STRINGS ${NCCL_HEADER_FILE} NCCL_MAJOR_VERSION_DEFINED
REGEX "^[ \t]*#define[ \t]+NCCL_MAJOR[ \t]+[0-9]+.*$"
LIMIT_COUNT 1)
if(NCCL_MAJOR_VERSION_DEFINED)
string(REGEX REPLACE "^[ \t]*#define[ \t]+NCCL_MAJOR[ \t]+" ""
NCCL_MAJOR_VERSION ${NCCL_MAJOR_VERSION_DEFINED})
message(STATUS "NCCL_MAJOR_VERSION: ${NCCL_MAJOR_VERSION}")
endif()
message(
STATUS
"Found NCCL (include: ${NCCL_INCLUDE_DIRS}, library: ${NCCL_LIBRARIES})")
mark_as_advanced(NCCL_ROOT_DIR NCCL_INCLUDE_DIRS NCCL_LIBRARIES)
endif()
+25 -31
View File
@@ -1,56 +1,50 @@
include(CMakeParseArguments)
###############################################################################
# clang format off
#
# ##############################################################################
# Build metal library
#
# Adds a custom target ${TARGET} to build ${OUTPUT_DIRECTORY}/{TITLE}.metallib
# from list ${SOURCES}, including list ${INCLUDE_DIRS}, depends on list ${DEPS}
#
# Args:
# TARGET: Custom target to be added for the metal library
# TITLE: Name of the .metallib
# OUTPUT_DIRECTORY: Where to place ${TITLE}.metallib
# SOURCES: List of source files
# INCLUDE_DIRS: List of include dirs
# DEPS: List of dependency files (like headers)
# Args: TARGET: Custom target to be added for the metal library TITLE: Name of
# the .metallib OUTPUT_DIRECTORY: Where to place ${TITLE}.metallib SOURCES: List
# of source files INCLUDE_DIRS: List of include dirs DEPS: List of dependency
# files (like headers) DEBUG: Boolean, if true, enables debug compile options
# for this specific library. If not provided, uses global MLX_METAL_DEBUG.
#
# clang format on
macro(mlx_build_metallib)
# Parse args
set(oneValueArgs TARGET TITLE OUTPUT_DIRECTORY)
set(oneValueArgs TARGET TITLE OUTPUT_DIRECTORY DEBUG)
set(multiValueArgs SOURCES INCLUDE_DIRS DEPS)
cmake_parse_arguments(
MTLLIB
""
"${oneValueArgs}"
"${multiValueArgs}"
${ARGN}
)
cmake_parse_arguments(MTLLIB "" "${oneValueArgs}" "${multiValueArgs}" ${ARGN})
# Set output
set(MTLLIB_BUILD_TARGET "${MTLLIB_OUTPUT_DIRECTORY}/${MTLLIB_TITLE}.metallib")
# Collect compile options
set(MTLLIB_COMPILE_OPTIONS -Wall -Wextra -fno-fast-math)
# Collect compile options
set(MTLLIB_COMPILE_OPTIONS -Wall -Wextra -fno-fast-math -Wno-c++17-extensions)
if(MLX_METAL_DEBUG OR MTLLIB_DEBUG)
set(MTLLIB_COMPILE_OPTIONS ${MTLLIB_COMPILE_OPTIONS} -gline-tables-only
-frecord-sources)
endif()
# Prepare metallib build command
add_custom_command(
OUTPUT ${MTLLIB_BUILD_TARGET}
COMMAND xcrun -sdk macosx metal
"$<LIST:TRANSFORM,${MTLLIB_INCLUDE_DIRS},PREPEND,-I>"
${MTLLIB_COMPILE_OPTIONS}
${MTLLIB_SOURCES}
-o ${MTLLIB_BUILD_TARGET}
COMMAND
xcrun -sdk macosx metal
"$<LIST:TRANSFORM,${MTLLIB_INCLUDE_DIRS},PREPEND,-I>"
${MTLLIB_COMPILE_OPTIONS} ${MTLLIB_SOURCES} -o ${MTLLIB_BUILD_TARGET}
DEPENDS ${MTLLIB_DEPS} ${MTLLIB_SOURCES}
COMMAND_EXPAND_LISTS
COMMENT "Building ${MTLLIB_TITLE}.metallib"
VERBATIM
)
VERBATIM)
# Add metallib custom target
add_custom_target(
${MTLLIB_TARGET}
DEPENDS
${MTLLIB_BUILD_TARGET}
)
add_custom_target(${MTLLIB_TARGET} DEPENDS ${MTLLIB_BUILD_TARGET})
endmacro(mlx_build_metallib)
endmacro(mlx_build_metallib)
+1
View File
@@ -1,2 +1,3 @@
src/python/_autosummary*/
src/python/nn/_autosummary*/
src/python/optimizers/_autosummary*/
+50
View File
@@ -0,0 +1,50 @@
################################################################################
# Primary project setup. #
################################################################################
PROJECT_NAME = "MLX"
OUTPUT_DIRECTORY = build
XML_OUTPUT = xml
HTML_OUTPUT = html
STRIP_FROM_PATH = ../
INPUT = ../mlx
FILE_PATTERNS = *.h
EXCLUDE_PATTERNS = */private/*
CREATE_SUBDIRS = NO
FULL_PATH_NAMES = YES
RECURSIVE = YES
GENERATE_HTML = NO
GENERATE_LATEX = NO
GENERATE_XML = YES
XML_PROGRAMLISTING = YES
################################################################################
# Doxygen preprocessor / parser control. #
################################################################################
ENABLE_PREPROCESSING = YES
MACRO_EXPANSION = YES
EXPAND_ONLY_PREDEF = NO
SKIP_FUNCTION_MACROS = NO
################################################################################
# Compound extraction control. #
################################################################################
EXTRACT_ALL = YES
EXTRACT_PACKAGE = YES
EXTRACT_STATIC = YES
CASE_SENSE_NAMES = NO
################################################################################
# Docstring control / customization. #
################################################################################
JAVADOC_AUTOBRIEF = YES
################################################################################
# Warning suppression. #
################################################################################
QUIET = YES
WARN_IF_UNDOCUMENTED = NO
+9 -5
View File
@@ -2,12 +2,16 @@
### Setup (do once)
Install [sphinx](https://www.sphinx-doc.org/en/master/usage/installation.html)
for example with `conda`:
Install Doxygen:
```
conda install sphinx
pip install sphinx-book-theme
brew install doxygen
```
Install Python packages:
```
pip install -r requirements.txt
```
### Build
@@ -15,7 +19,7 @@ pip install sphinx-book-theme
Build the docs from `mlx/docs/`
```
make html
doxygen && make html
```
View the docs by running a server in `mlx/docs/build/html/`:
+5
View File
@@ -0,0 +1,5 @@
sphinx
breathe
sphinx-book-theme
sphinx-copybutton
mlx
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+4 -3
View File
@@ -4,16 +4,17 @@
.. autoclass:: {{ objname }}
{#{% block methods %}
{% block methods %}
{% if methods %}
.. rubric:: {{ _('Methods') }}
.. autosummary::
{% for item in methods %}
{%- if item not in inherited_members and item != '__init__' %}
{%- if item not in inherited_members and item != "__init__" %}
~{{ name }}.{{ item }}
{%- endif %}
{%- endfor %}
{% endif %}
{% endblock %}#}
{% endblock %}
+48 -7
View File
@@ -10,34 +10,41 @@ import mlx.core as mx
# -- Project information -----------------------------------------------------
project = "MLX"
copyright = "2023, MLX Contributors"
copyright = "2023, Apple"
author = "MLX Contributors"
version = ".".join(mx.__version__.split()[:-1])
version = ".".join(mx.__version__.split(".")[:3])
release = version
# -- General configuration ---------------------------------------------------
extensions = [
"sphinx_copybutton",
"sphinx.ext.autodoc",
"sphinx.ext.autosummary",
"sphinx.ext.intersphinx",
"sphinx.ext.napoleon",
"breathe",
]
python_use_unqualified_type_names = True
autosummary_generate = True
autosummary_filename_map = {"mlx.core.Stream": "stream_class"}
intersphinx_mapping = {
"https://docs.python.org/3": None,
"https://numpy.org/doc/stable/": None,
"python": ("https://docs.python.org/3", None),
"numpy": ("https://numpy.org/doc/stable/", None),
}
breathe_projects = {"mlx": "../build/xml"}
breathe_default_project = "mlx"
templates_path = ["_templates"]
html_static_path = ["_static"]
source_suffix = ".rst"
master_doc = "index"
main_doc = "index"
highlight_language = "python"
pygments_style = "sphinx"
add_module_names = False
# -- Options for HTML output -------------------------------------------------
@@ -48,11 +55,45 @@ html_theme_options = {
"repository_url": "https://github.com/ml-explore/mlx",
"use_repository_button": True,
"navigation_with_keys": False,
"logo": {
"image_light": "_static/mlx_logo.png",
"image_dark": "_static/mlx_logo_dark.png",
},
}
html_logo = "_static/mlx_logo.png"
html_favicon = html_theme_options["logo"]["image_light"]
# -- Options for HTMLHelp output ---------------------------------------------
htmlhelp_basename = "mlx_doc"
def setup(app):
from sphinx.util import inspect
wrapped_isfunc = inspect.isfunction
def isfunc(obj):
type_name = str(type(obj))
if "nanobind.nb_method" in type_name or "nanobind.nb_func" in type_name:
return True
return wrapped_isfunc(obj)
inspect.isfunction = isfunc
# -- Options for LaTeX output ------------------------------------------------
latex_documents = [(main_doc, "MLX.tex", "MLX Documentation", author, "manual")]
latex_elements = {
"preamble": r"""
\usepackage{enumitem}
\setlistdepth{5}
\setlist[itemize,1]{label=$\bullet$}
\setlist[itemize,2]{label=$\bullet$}
\setlist[itemize,3]{label=$\bullet$}
\setlist[itemize,4]{label=$\bullet$}
\setlist[itemize,5]{label=$\bullet$}
\renewlist{itemize}{itemize}{5}
""",
}
+2 -1
View File
@@ -3,4 +3,5 @@
Operations
==========
.. doxygengroup:: ops
:content-only:
+445
View File
@@ -0,0 +1,445 @@
.. _custom_metal_kernels:
Custom Metal Kernels
====================
MLX supports writing custom Metal kernels through the Python and C++ APIs.
Simple Example
--------------
.. currentmodule:: mlx.core
Let's write a custom kernel that computes ``exp`` elementwise:
.. code-block:: python
source = """
uint elem = thread_position_in_grid.x;
T tmp = inp[elem];
out[elem] = metal::exp(tmp);
"""
kernel = mx.fast.metal_kernel(
name="myexp",
input_names=["inp"],
output_names=["out"],
source=source,
)
def exp_elementwise(a: mx.array):
outputs = kernel(
inputs=[a],
template=[("T", mx.float32)],
grid=(a.size, 1, 1),
threadgroup=(256, 1, 1),
output_shapes=[a.shape],
output_dtypes=[a.dtype],
)
return outputs[0]
a = mx.random.normal(shape=(4, 16)).astype(mx.float16)
b = exp_elementwise(a)
assert mx.allclose(b, mx.exp(a))
Every time you make a kernel, a new Metal library is created and possibly
JIT compiled. To reduce the overhead from that, build the kernel once with
:func:`fast.metal_kernel` and then use it many times.
.. note::
Only pass the body of the Metal kernel in ``source``. The function
signature is generated automatically.
The full function signature will be generated using:
* The shapes/dtypes of ``inputs``
In the above, ``a`` is an ``mx.array`` of type ``mx.float16`` and we pass it with the key ``inp``
so we will add ``const device float16_t* inp`` to the signature.
``inp_shape``, ``inp_strides`` and ``inp_ndim`` are also added for convenience if they are present
in ``source``.
* The list of ``output_dtypes``
In the above, ``out`` is an ``mx.array`` of type ``mx.float16``
so we add ``device float16_t* out``.
* Template parameters passed using ``template``
In the above, ``template=[("T", mx.float32)]`` adds a template of ``template <typename T>`` to the function
and instantiates the template with ``custom_kernel_myexp_float<float>``.
Template parameters can be ``mx.core.Dtype``, ``int`` or ``bool``.
* Metal attributes used in ``source`` such as ``[[thread_position_in_grid]]``
These will be added as function arguments.
All the attributes defined in Table 5.8 of the `Metal Shading Language Specification <https://developer.apple.com/metal/Metal-Shading-Language-Specification.pdf>`_ are supported.
Putting this all together, the generated function signature for ``myexp`` is as follows:
.. code-block:: cpp
template <typename T>
[[kernel]] void custom_kernel_myexp_float(
const device float16_t* inp [[buffer(0)]],
device float16_t* out [[buffer(1)]],
uint3 thread_position_in_grid [[thread_position_in_grid]]) {
uint elem = thread_position_in_grid.x;
T tmp = inp[elem];
out[elem] = metal::exp(tmp);
}
template [[host_name("custom_kernel_myexp_float")]] [[kernel]] decltype(custom_kernel_myexp_float<float>) custom_kernel_myexp_float<float>;
Note: ``grid`` and ``threadgroup`` are parameters to the Metal `dispatchThreads
<https://developer.apple.com/documentation/metal/mtlcomputecommandencoder/2866532-dispatchthreads>`_
function. This means we will launch ``mx.prod(grid)`` threads, subdivided into
``threadgroup`` size threadgroups. For optimal performance, each thread group
dimension should be less than or equal to the corresponding grid dimension.
Passing ``verbose=True`` to :func:`ast.metal_kernel.__call__` will print the
generated code for debugging purposes.
Using Shape/Strides
-------------------
:func:`fast.metal_kernel` supports an argument ``ensure_row_contiguous`` which
is ``True`` by default. This will copy the array inputs if needed
before the kernel is launched to ensure that the memory layout is row
contiguous. Generally this makes writing the kernel easier, since we don't
have to worry about gaps or the ordering of the dims when indexing.
If we want to avoid this copy, :func:`fast.metal_kernel` automatically passes
``a_shape``, ``a_strides`` and ``a_ndim`` for each input array ``a`` if any are
present in ``source``. We can then use MLX's built in indexing utils to fetch
the right elements for each thread.
Let's convert ``myexp`` above to support arbitrarily strided arrays without
relying on a copy from ``ensure_row_contiguous``:
.. code-block:: python
source = """
uint elem = thread_position_in_grid.x;
// Utils from `mlx/backend/metal/kernels/utils.h` are automatically included
uint loc = elem_to_loc(elem, inp_shape, inp_strides, inp_ndim);
T tmp = inp[loc];
// Output arrays are always row contiguous
out[elem] = metal::exp(tmp);
"""
kernel = mx.fast.metal_kernel(
name="myexp_strided",
input_names=["inp"],
output_names=["out"],
source=source,
ensure_row_contiguous=False,
)
def exp_elementwise(a: mx.array):
outputs = kernel(
inputs=[a],
template=[("T", mx.float32)],
grid=(a.size, 1, 1),
threadgroup=(256, 1, 1),
output_shapes=[a.shape],
output_dtypes=[a.dtype],
)
return outputs[0]
a = mx.random.normal(shape=(4, 16)).astype(mx.float16)
# make non-contiguous
a = a[::2]
b = exp_elementwise(a)
assert mx.allclose(b, mx.exp(a))
Complex Example
-----------------------------
Let's implement a more complex example: ``grid_sample`` in ``"bilinear"`` mode.
We'll start with the following MLX implementation using standard ops:
.. code-block:: python
def grid_sample_ref(x, grid):
N, H_in, W_in, _ = x.shape
ix = ((grid[..., 0] + 1) * W_in - 1) / 2
iy = ((grid[..., 1] + 1) * H_in - 1) / 2
ix_nw = mx.floor(ix).astype(mx.int32)
iy_nw = mx.floor(iy).astype(mx.int32)
ix_ne = ix_nw + 1
iy_ne = iy_nw
ix_sw = ix_nw
iy_sw = iy_nw + 1
ix_se = ix_nw + 1
iy_se = iy_nw + 1
nw = (ix_se - ix) * (iy_se - iy)
ne = (ix - ix_sw) * (iy_sw - iy)
sw = (ix_ne - ix) * (iy - iy_ne)
se = (ix - ix_nw) * (iy - iy_nw)
I_nw = x[mx.arange(N)[:, None, None], iy_nw, ix_nw, :]
I_ne = x[mx.arange(N)[:, None, None], iy_ne, ix_ne, :]
I_sw = x[mx.arange(N)[:, None, None], iy_sw, ix_sw, :]
I_se = x[mx.arange(N)[:, None, None], iy_se, ix_se, :]
mask_nw = (iy_nw >= 0) & (iy_nw <= H_in - 1) & (ix_nw >= 0) & (ix_nw <= W_in - 1)
mask_ne = (iy_ne >= 0) & (iy_ne <= H_in - 1) & (ix_ne >= 0) & (ix_ne <= W_in - 1)
mask_sw = (iy_sw >= 0) & (iy_sw <= H_in - 1) & (ix_sw >= 0) & (ix_sw <= W_in - 1)
mask_se = (iy_se >= 0) & (iy_se <= H_in - 1) & (ix_se >= 0) & (ix_se <= W_in - 1)
I_nw *= mask_nw[..., None]
I_ne *= mask_ne[..., None]
I_sw *= mask_sw[..., None]
I_se *= mask_se[..., None]
output = nw[..., None] * I_nw + ne[..., None] * I_ne + sw[..., None] * I_sw + se[..., None] * I_se
return output
Now let's use :func:`custom_function` together with :func:`fast.metal_kernel`
to write a fast GPU kernel for both the forward and backward passes.
First we'll implement the forward pass as a fused kernel:
.. code-block:: python
source = """
uint elem = thread_position_in_grid.x;
int H = x_shape[1];
int W = x_shape[2];
int C = x_shape[3];
int gH = grid_shape[1];
int gW = grid_shape[2];
int w_stride = C;
int h_stride = W * w_stride;
int b_stride = H * h_stride;
uint grid_idx = elem / C * 2;
float ix = ((grid[grid_idx] + 1) * W - 1) / 2;
float iy = ((grid[grid_idx + 1] + 1) * H - 1) / 2;
int ix_nw = floor(ix);
int iy_nw = floor(iy);
int ix_ne = ix_nw + 1;
int iy_ne = iy_nw;
int ix_sw = ix_nw;
int iy_sw = iy_nw + 1;
int ix_se = ix_nw + 1;
int iy_se = iy_nw + 1;
T nw = (ix_se - ix) * (iy_se - iy);
T ne = (ix - ix_sw) * (iy_sw - iy);
T sw = (ix_ne - ix) * (iy - iy_ne);
T se = (ix - ix_nw) * (iy - iy_nw);
int batch_idx = elem / C / gH / gW * b_stride;
int channel_idx = elem % C;
int base_idx = batch_idx + channel_idx;
T I_nw = x[base_idx + iy_nw * h_stride + ix_nw * w_stride];
T I_ne = x[base_idx + iy_ne * h_stride + ix_ne * w_stride];
T I_sw = x[base_idx + iy_sw * h_stride + ix_sw * w_stride];
T I_se = x[base_idx + iy_se * h_stride + ix_se * w_stride];
I_nw = iy_nw >= 0 && iy_nw <= H - 1 && ix_nw >= 0 && ix_nw <= W - 1 ? I_nw : 0;
I_ne = iy_ne >= 0 && iy_ne <= H - 1 && ix_ne >= 0 && ix_ne <= W - 1 ? I_ne : 0;
I_sw = iy_sw >= 0 && iy_sw <= H - 1 && ix_sw >= 0 && ix_sw <= W - 1 ? I_sw : 0;
I_se = iy_se >= 0 && iy_se <= H - 1 && ix_se >= 0 && ix_se <= W - 1 ? I_se : 0;
out[elem] = nw * I_nw + ne * I_ne + sw * I_sw + se * I_se;
"""
kernel = mx.fast.metal_kernel(
name="grid_sample",
input_names=["x", "grid"],
output_names=["out"],
source=source,
)
@mx.custom_function
def grid_sample(x, grid):
assert x.ndim == 4, "`x` must be 4D."
assert grid.ndim == 4, "`grid` must be 4D."
B, _, _, C = x.shape
_, gN, gM, D = grid.shape
out_shape = (B, gN, gM, C)
assert D == 2, "Last dim of `grid` must be size 2."
outputs = kernel(
inputs=[x, grid],
template=[("T", x.dtype)],
output_shapes=[out_shape],
output_dtypes=[x.dtype],
grid=(np.prod(out_shape), 1, 1),
threadgroup=(256, 1, 1),
)
return outputs[0]
For a reasonably sized input such as:
.. code-block:: python
x.shape = (8, 1024, 1024, 64)
grid.shape = (8, 256, 256, 2)
On an M1 Max, we see a big performance improvement:
``55.7ms -> 6.7ms => 8x speed up``
Grid Sample VJP
---------------
Since we decorated ``grid_sample`` with :func:`custom_function`, we can now
define its custom vjp transform so MLX can differentiate it.
The backwards pass requires atomically updating ``x_grad``/``grid_grad`` and so
requires a few extra :func:`fast.metal_kernel` features:
* ``init_value=0``
Initialize all of the kernel's outputs to this value before it runs. This allows us to update only part of the output arrays with the kernel.
* ``atomic_outputs=True``
Designate all of the kernel outputs as ``atomic`` in the function signature.
This means we can use Metal's ``atomic`` features to simultaneously update the ``x_grad`` and ``grid_grad`` arrays from multiple threadgroups.
See section 6.15 of the `Metal Shading Language Specification <https://developer.apple.com/metal/Metal-Shading-Language-Specification.pdf>`_ for more details.
We can then implement the backwards pass as follows:
.. code-block:: python
source = """
uint elem = thread_position_in_grid.x;
int H = x_shape[1];
int W = x_shape[2];
int C = x_shape[3];
// Pad C to the nearest larger simdgroup size multiple
int C_padded = ceildiv(C, threads_per_simdgroup) * threads_per_simdgroup;
int gH = grid_shape[1];
int gW = grid_shape[2];
int w_stride = C;
int h_stride = W * w_stride;
int b_stride = H * h_stride;
uint grid_idx = elem / C_padded * 2;
float ix = ((grid[grid_idx] + 1) * W - 1) / 2;
float iy = ((grid[grid_idx + 1] + 1) * H - 1) / 2;
int ix_nw = floor(ix);
int iy_nw = floor(iy);
int ix_ne = ix_nw + 1;
int iy_ne = iy_nw;
int ix_sw = ix_nw;
int iy_sw = iy_nw + 1;
int ix_se = ix_nw + 1;
int iy_se = iy_nw + 1;
T nw = (ix_se - ix) * (iy_se - iy);
T ne = (ix - ix_sw) * (iy_sw - iy);
T sw = (ix_ne - ix) * (iy - iy_ne);
T se = (ix - ix_nw) * (iy - iy_nw);
int batch_idx = elem / C_padded / gH / gW * b_stride;
int channel_idx = elem % C_padded;
int base_idx = batch_idx + channel_idx;
T gix = T(0);
T giy = T(0);
if (channel_idx < C) {
int cot_index = elem / C_padded * C + channel_idx;
T cot = cotangent[cot_index];
if (iy_nw >= 0 && iy_nw <= H - 1 && ix_nw >= 0 && ix_nw <= W - 1) {
int offset = base_idx + iy_nw * h_stride + ix_nw * w_stride;
atomic_fetch_add_explicit(&x_grad[offset], nw * cot, memory_order_relaxed);
T I_nw = x[offset];
gix -= I_nw * (iy_se - iy) * cot;
giy -= I_nw * (ix_se - ix) * cot;
}
if (iy_ne >= 0 && iy_ne <= H - 1 && ix_ne >= 0 && ix_ne <= W - 1) {
int offset = base_idx + iy_ne * h_stride + ix_ne * w_stride;
atomic_fetch_add_explicit(&x_grad[offset], ne * cot, memory_order_relaxed);
T I_ne = x[offset];
gix += I_ne * (iy_sw - iy) * cot;
giy -= I_ne * (ix - ix_sw) * cot;
}
if (iy_sw >= 0 && iy_sw <= H - 1 && ix_sw >= 0 && ix_sw <= W - 1) {
int offset = base_idx + iy_sw * h_stride + ix_sw * w_stride;
atomic_fetch_add_explicit(&x_grad[offset], sw * cot, memory_order_relaxed);
T I_sw = x[offset];
gix -= I_sw * (iy - iy_ne) * cot;
giy += I_sw * (ix_ne - ix) * cot;
}
if (iy_se >= 0 && iy_se <= H - 1 && ix_se >= 0 && ix_se <= W - 1) {
int offset = base_idx + iy_se * h_stride + ix_se * w_stride;
atomic_fetch_add_explicit(&x_grad[offset], se * cot, memory_order_relaxed);
T I_se = x[offset];
gix += I_se * (iy - iy_nw) * cot;
giy += I_se * (ix - ix_nw) * cot;
}
}
T gix_mult = W / 2;
T giy_mult = H / 2;
// Reduce across each simdgroup first.
// This is much faster than relying purely on atomics.
gix = simd_sum(gix);
giy = simd_sum(giy);
if (thread_index_in_simdgroup == 0) {
atomic_fetch_add_explicit(&grid_grad[grid_idx], gix * gix_mult, memory_order_relaxed);
atomic_fetch_add_explicit(&grid_grad[grid_idx + 1], giy * giy_mult, memory_order_relaxed);
}
"""
kernel = mx.fast.metal_kernel(
name="grid_sample_grad",
input_names=["x", "grid", "cotangent"],
output_names=["x_grad", "grid_grad"],
source=source,
atomic_outputs=True,
)
@grid_sample.vjp
def grid_sample_vjp(primals, cotangent, _):
x, grid = primals
B, _, _, C = x.shape
_, gN, gM, D = grid.shape
assert D == 2, "Last dim of `grid` must be size 2."
# pad the output channels to simd group size
# so that our `simd_sum`s don't overlap.
simdgroup_size = 32
C_padded = (C + simdgroup_size - 1) // simdgroup_size * simdgroup_size
grid_size = B * gN * gM * C_padded
outputs = kernel(
inputs=[x, grid, cotangent],
template=[("T", x.dtype)],
output_shapes=[x.shape, grid.shape],
output_dtypes=[x.dtype, x.dtype],
grid=(grid_size, 1, 1),
threadgroup=(256, 1, 1),
init_value=0,
)
return outputs[0], outputs[1]
There's an even larger speed up for the vjp:
``676.4ms -> 16.7ms => 40x speed up``
File diff suppressed because it is too large Load Diff
+68
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@@ -0,0 +1,68 @@
Metal Debugger
==============
.. currentmodule:: mlx.core
Profiling is a key step for performance optimization. You can build MLX with
the ``MLX_METAL_DEBUG`` option to improve the Metal debugging and
optimization workflow. The ``MLX_METAL_DEBUG`` debug option:
* Records source during Metal compilation, for later inspection while
debugging.
* Labels Metal objects such as command queues, improving capture readability.
To build with debugging enabled in Python prepend
``CMAKE_ARGS="-DMLX_METAL_DEBUG=ON"`` to the build call.
The :func:`metal.start_capture` function initiates a capture of all MLX GPU
work.
.. note::
To capture a GPU trace you must run the application with
``MTL_CAPTURE_ENABLED=1``.
.. code-block:: python
import mlx.core as mx
a = mx.random.uniform(shape=(512, 512))
b = mx.random.uniform(shape=(512, 512))
mx.eval(a, b)
trace_file = "mlx_trace.gputrace"
# Make sure to run with MTL_CAPTURE_ENABLED=1 and
# that the path trace_file does not already exist.
mx.metal.start_capture(trace_file)
for _ in range(10):
mx.eval(mx.add(a, b))
mx.metal.stop_capture()
You can open and replay the GPU trace in Xcode. The ``Dependencies`` view
has a great overview of all operations. Checkout the `Metal debugger
documentation`_ for more information.
.. image:: ../_static/metal_debugger/capture.png
:class: dark-light
Xcode Workflow
--------------
You can skip saving to a path by running within Xcode. First, generate an
Xcode project using CMake.
.. code-block::
mkdir build && cd build
cmake .. -DMLX_METAL_DEBUG=ON -G Xcode
open mlx.xcodeproj
Select the ``metal_capture`` example schema and run.
.. image:: ../_static/metal_debugger/schema.png
:class: dark-light
.. _`Metal debugger documentation`: https://developer.apple.com/documentation/xcode/metal-debugger
+121
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@@ -0,0 +1,121 @@
.. _mlx_in_cpp:
Using MLX in C++
================
You can use MLX in a C++ project with CMake.
.. note::
This guide is based one the following `example using MLX in C++
<https://github.com/ml-explore/mlx/tree/main/examples/cmake_project>`_
First install MLX:
.. code-block:: bash
pip install -U mlx
You can also install the MLX Python package from source or just the C++
library. For more information see the :ref:`documentation on installing MLX
<build_and_install>`.
Next make an example program in ``example.cpp``:
.. code-block:: C++
#include <iostream>
#include "mlx/mlx.h"
namespace mx = mlx::core;
int main() {
auto x = mx::array({1, 2, 3});
auto y = mx::array({1, 2, 3});
std::cout << x + y << std::endl;
return 0;
}
The next step is to setup a CMake file in ``CMakeLists.txt``:
.. code-block:: cmake
cmake_minimum_required(VERSION 3.27)
project(example LANGUAGES CXX)
set(CMAKE_CXX_STANDARD 17)
set(CMAKE_CXX_STANDARD_REQUIRED ON)
Depending on how you installed MLX, you may need to tell CMake where to
find it.
If you installed MLX with Python, then add the following to the CMake file:
.. code-block:: cmake
find_package(
Python 3.9
COMPONENTS Interpreter Development.Module
REQUIRED)
execute_process(
COMMAND "${Python_EXECUTABLE}" -m mlx --cmake-dir
OUTPUT_STRIP_TRAILING_WHITESPACE
OUTPUT_VARIABLE MLX_ROOT)
If you installed the MLX C++ package to a system path, then CMake should be
able to find it. If you installed it to a non-standard location or CMake can't
find MLX then set ``MLX_ROOT`` to the location where MLX is installed:
.. code-block:: cmake
set(MLX_ROOT "/path/to/mlx/")
Next, instruct CMake to find MLX:
.. code-block:: cmake
find_package(MLX CONFIG REQUIRED)
Finally, add the ``example.cpp`` program as an executable and link MLX.
.. code-block:: cmake
add_executable(example example.cpp)
target_link_libraries(example PRIVATE mlx)
You can build the example with:
.. code-block:: bash
cmake -B build -DCMAKE_BUILD_TYPE=Release
cmake --build build
And run it with:
.. code-block:: bash
./build/example
Note ``find_package(MLX CONFIG REQUIRED)`` sets the following variables:
.. list-table:: Package Variables
:widths: 20 20
:header-rows: 1
* - Variable
- Description
* - MLX_FOUND
- ``True`` if MLX is found
* - MLX_INCLUDE_DIRS
- Include directory
* - MLX_LIBRARIES
- Libraries to link against
* - MLX_CXX_FLAGS
- Additional compiler flags
* - MLX_BUILD_ACCELERATE
- ``True`` if MLX was built with Accelerate
* - MLX_BUILD_METAL
- ``True`` if MLX was built with Metal
+1 -1
View File
@@ -15,7 +15,7 @@ module to concisely define the model architecture.
Attention layer
^^^^^^^^^^^^^^^^
We will start with the llama attention layer which notably uses the RoPE
We will start with the Llama attention layer which notably uses the RoPE
positional encoding. [1]_ In addition, our attention layer will optionally use a
key/value cache that will be concatenated with the provided keys and values to
support efficient inference.
+1 -1
View File
@@ -64,7 +64,7 @@ set:
Next, setup the problem parameters and load the data. To load the data, you need our
`mnist data loader
<https://github.com/ml-explore/mlx-examples/blob/main/mnist/mnist.py>`_, which
we will import as `mnist`.
we will import as ``mnist``.
.. code-block:: python
+13
View File
@@ -41,8 +41,11 @@ are the CPU and GPU.
usage/indexing
usage/saving_and_loading
usage/function_transforms
usage/compile
usage/numpy
usage/distributed
usage/using_streams
usage/export
.. toctree::
:caption: Examples
@@ -57,14 +60,21 @@ are the CPU and GPU.
:maxdepth: 1
python/array
python/data_types
python/devices_and_streams
python/export
python/ops
python/random
python/transforms
python/fast
python/fft
python/linalg
python/metal
python/cuda
python/memory_management
python/nn
python/optimizers
python/distributed
python/tree_utils
.. toctree::
@@ -78,3 +88,6 @@ are the CPU and GPU.
:maxdepth: 1
dev/extensions
dev/metal_debugger
dev/custom_metal_kernels
dev/mlx_in_cpp
+143 -32
View File
@@ -1,3 +1,5 @@
.. _build_and_install:
Build and Install
=================
@@ -11,22 +13,49 @@ silicon computer is
pip install mlx
To install from PyPI you must meet the following requirements:
To install from PyPI your system must meet the following requirements:
- Using an M series chip (Apple silicon)
- Using a native Python >= 3.8
- macOS >= 13.3
- Using a native Python >= 3.10
- macOS >= 13.5
.. note::
MLX is only available on devices running macOS >= 13.3
MLX is only available on devices running macOS >= 13.5
It is highly recommended to use macOS 14 (Sonoma)
CUDA
^^^^
MLX is also available on conda-forge. To install MLX with conda do:
MLX has a CUDA backend which you can install with:
.. code-block:: shell
conda install conda-forge::mlx
pip install mlx[cuda]
To install the CUDA package from PyPi your system must meet the following
requirements:
- Nvidia architecture >= SM 7.0 (Volta)
- Nvidia driver >= 550.54.14
- CUDA toolkit >= 12.0
- Linux distribution with glibc >= 2.35
- Python >= 3.10
CPU-only (Linux)
^^^^^^^^^^^^^^^^
For a CPU-only version of MLX that runs on Linux use:
.. code-block:: shell
pip install mlx[cpu]
To install the CPU-only package from PyPi your system must meet the following
requirements:
- Linux distribution with glibc >= 2.35
- Python >= 3.10
Troubleshooting
@@ -53,8 +82,8 @@ Build Requirements
^^^^^^^^^^^^^^^^^^
- A C++ compiler with C++17 support (e.g. Clang >= 5.0)
- `cmake <https://cmake.org/>`_ -- version 3.24 or later, and ``make``
- Xcode >= 14.3 (Xcode >= 15.0 for macOS 14 and above)
- `cmake <https://cmake.org/>`_ -- version 3.25 or later, and ``make``
- Xcode >= 15.0 and macOS SDK >= 14.0
.. note::
Ensure your shell environment is native ``arm``, not ``x86`` via Rosetta. If
@@ -63,6 +92,8 @@ Build Requirements
Python API
^^^^^^^^^^
.. _python install:
To build and install the MLX python library from source, first, clone MLX from
`its GitHub repo <https://github.com/ml-explore/mlx>`_:
@@ -70,44 +101,43 @@ To build and install the MLX python library from source, first, clone MLX from
git clone git@github.com:ml-explore/mlx.git mlx && cd mlx
Make sure that you have `pybind11 <https://pybind11.readthedocs.io/en/stable/index.html>`_
installed. You can install ``pybind11`` with ``pip``, ``brew`` or ``conda`` as follows:
Then simply build and install MLX using pip:
.. code-block:: shell
pip install "pybind11[global]"
conda install pybind11
brew install pybind11
pip install .
Then simply build and install it using pip:
For developing, install the package with development dependencies, and use an
editable install:
.. code-block:: shell
env CMAKE_BUILD_PARALLEL_LEVEL="" pip install .
pip install -e ".[dev]"
For developing use an editable install:
Once the development dependencies are installed, you can build faster with:
.. code-block:: shell
env CMAKE_BUILD_PARALLEL_LEVEL="" pip install -e .
python setup.py build_ext --inplace
To make sure the install is working run the tests with:
Run the tests with:
.. code-block:: shell
pip install ".[testing]"
python -m unittest discover python/tests
Optional: Install stubs to enable auto completions and type checking from your IDE:
Optional: Install stubs to enable auto completions and type checking from your
IDE:
.. code-block:: shell
pip install ".[dev]"
python setup.py generate_stubs
C++ API
^^^^^^^
.. _cpp install:
Currently, MLX must be built and installed from source.
Similarly to the python library, to build and install the MLX C++ library start
@@ -123,7 +153,7 @@ Create a build directory and run CMake and make:
.. code-block:: shell
mkdir -p build && cd build
cmake .. && make -j
cmake .. && make -j
Run tests with:
@@ -142,7 +172,7 @@ directory as the executable statically linked to ``libmlx.a`` or the
preprocessor constant ``METAL_PATH`` should be defined at build time and it
should point to the path to the built metal library.
.. list-table:: Build Options
.. list-table:: Build Options
:widths: 25 8
:header-rows: 1
@@ -156,31 +186,112 @@ should point to the path to the built metal library.
- OFF
* - MLX_BUILD_METAL
- ON
* - MLX_BUILD_CPU
- ON
* - MLX_BUILD_PYTHON_BINDINGS
- OFF
* - MLX_METAL_DEBUG
- OFF
* - MLX_BUILD_SAFETENSORS
- ON
* - MLX_BUILD_GGUF
- ON
* - MLX_METAL_JIT
- OFF
.. note::
If you have multiple Xcode installations and wish to use
a specific one while building, you can do so by adding the
following environment variable before building
If you have multiple Xcode installations and wish to use
a specific one while building, you can do so by adding the
following environment variable before building
.. code-block:: shell
export DEVELOPER_DIR="/path/to/Xcode.app/Contents/Developer/"
Further, you can use the following command to find out which
Further, you can use the following command to find out which
macOS SDK will be used
.. code-block:: shell
xcrun -sdk macosx --show-sdk-version
Binary Size Minimization
~~~~~~~~~~~~~~~~~~~~~~~~
To produce a smaller binary use the CMake flags ``CMAKE_BUILD_TYPE=MinSizeRel``
and ``BUILD_SHARED_LIBS=ON``.
The MLX CMake build has several additional options to make smaller binaries.
For example, if you don't need the CPU backend or support for safetensors and
GGUF, you can do:
.. code-block:: shell
cmake .. \
-DCMAKE_BUILD_TYPE=MinSizeRel \
-DBUILD_SHARED_LIBS=ON \
-DMLX_BUILD_CPU=OFF \
-DMLX_BUILD_SAFETENSORS=OFF \
-DMLX_BUILD_GGUF=OFF \
-DMLX_METAL_JIT=ON
THE ``MLX_METAL_JIT`` flag minimizes the size of the MLX Metal library which
contains pre-built GPU kernels. This substantially reduces the size of the
Metal library by run-time compiling kernels the first time they are used in MLX
on a given machine. Note run-time compilation incurs a cold-start cost which can
be anwywhere from a few hundred millisecond to a few seconds depending on the
application. Once a kernel is compiled, it will be cached by the system. The
Metal kernel cache persists across reboots.
Linux
^^^^^
To build from source on Linux (CPU only), install the BLAS and LAPACK headers.
For example on Ubuntu, run the following:
.. code-block:: shell
apt-get update -y
apt-get install libblas-dev liblapack-dev liblapacke-dev -y
From here follow the instructions to install either the :ref:`Python <python
install>` or :ref:`C++ <cpp install>` APIs.
CUDA
^^^^
To build from source on Linux with CUDA, install the BLAS and LAPACK headers
and the CUDA toolkit. For example on Ubuntu, run the following:
.. code-block:: shell
wget https://developer.download.nvidia.com/compute/cuda/repos/ubuntu2204/x86_64/cuda-keyring_1.1-1_all.deb
dpkg -i cuda-keyring_1.1-1_all.deb
apt-get update -y
apt-get -y install cuda-toolkit-12-9
apt-get install libblas-dev liblapack-dev liblapacke-dev libcudnn9-dev-cuda-12 -y
When building either the Python or C++ APIs make sure to pass the cmake flag
``MLX_BUILD_CUDA=ON``. For example, to build the Python API run:
.. code-block:: shell
CMAKE_ARGS="-DMLX_BUILD_CUDA=ON" pip install -e ".[dev]"
To build the C++ package run:
.. code-block:: shell
mkdir -p build && cd build
cmake .. -DMLX_BUILD_CUDA=ON && make -j
Troubleshooting
^^^^^^^^^^^^^^^
Metal not found
~~~~~~~~~~~~~~~
@@ -202,12 +313,12 @@ Then set the active developer directory:
sudo xcode-select --switch /Applications/Xcode.app/Contents/Developer
x86 Shell
x86 Shell
~~~~~~~~~
.. _build shell:
If the ouptut of ``uname -p`` is ``x86`` then your shell is running as x86 via
If the output of ``uname -p`` is ``x86`` then your shell is running as x86 via
Rosetta instead of natively.
To fix this, find the application in Finder (``/Applications`` for iTerm,
@@ -231,4 +342,4 @@ Also check that cmake is using the correct architecture:
If you see ``"x86_64"``, try re-installing ``cmake``. If you see ``"arm64"``
but the build errors out with "Building for x86_64 on macOS is not supported."
wipe your build cahce with ``rm -rf build/`` and try again.
wipe your build cache with ``rm -rf build/`` and try again.
+21 -2
View File
@@ -10,27 +10,42 @@ Array
array
array.astype
array.at
array.item
array.tolist
array.dtype
array.itemsize
array.nbytes
array.ndim
array.shape
array.size
Dtype
array.real
array.imag
array.abs
array.all
array.any
array.argmax
array.argmin
array.conj
array.cos
array.dtype
array.cummax
array.cummin
array.cumprod
array.cumsum
array.diag
array.diagonal
array.exp
array.flatten
array.log
array.log10
array.log1p
array.log2
array.logcumsumexp
array.logsumexp
array.max
array.mean
array.min
array.moveaxis
array.prod
array.reciprocal
array.reshape
@@ -40,7 +55,11 @@ Array
array.split
array.sqrt
array.square
array.squeeze
array.std
array.sum
array.swapaxes
array.transpose
array.T
array.var
array.view
+9
View File
@@ -0,0 +1,9 @@
CUDA
=====
.. currentmodule:: mlx.core.cuda
.. autosummary::
:toctree: _autosummary
is_available
+29 -3
View File
@@ -1,7 +1,5 @@
.. _data_types:
:orphan:
Data Types
==========
@@ -44,9 +42,37 @@ The default floating point type is ``float32`` and the default integer type is
* - ``int64``
- 8
- 64-bit signed integer
* - ``bfloat16``
- 2
- 16-bit brain float (e8, m7)
* - ``float16``
- 2
- 16-bit float, only available with `ARM C language extensions <https://developer.arm.com/documentation/101028/0012/3--C-language-extensions?lang=en>`_
- 16-bit IEEE float (e5, m10)
* - ``float32``
- 4
- 32-bit float
* - ``float64``
- 4
- 64-bit double
* - ``complex64``
- 8
- 64-bit complex float
.. note::
Arrays with type ``float64`` only work with CPU operations. Using
``float64`` arrays on the GPU will result in an exception.
Data type are aranged in a hierarchy. See the :obj:`DtypeCategory` object
documentation for more information. Use :func:`issubdtype` to determine if one
``dtype`` (or category) is a subtype of another category.
.. autosummary::
:toctree: _autosummary
Dtype
DtypeCategory
issubdtype
finfo
+3 -1
View File
@@ -9,9 +9,11 @@ Devices and Streams
:toctree: _autosummary
Device
Stream
default_device
set_default_device
Stream
default_stream
new_stream
set_default_stream
stream
synchronize
+22
View File
@@ -0,0 +1,22 @@
.. _distributed:
.. currentmodule:: mlx.core.distributed
Distributed Communication
==========================
MLX provides a distributed communication package using MPI. The MPI library is
loaded at runtime; if MPI is available then distributed communication is also
made available.
.. autosummary::
:toctree: _autosummary
Group
is_available
init
all_sum
all_gather
send
recv
recv_like
+14
View File
@@ -0,0 +1,14 @@
.. _export:
Export Functions
================
.. currentmodule:: mlx.core
.. autosummary::
:toctree: _autosummary
export_function
import_function
exporter
export_to_dot
+16
View File
@@ -0,0 +1,16 @@
.. _fast:
Fast
====
.. currentmodule:: mlx.core.fast
.. autosummary::
:toctree: _autosummary
rms_norm
layer_norm
rope
scaled_dot_product_attention
metal_kernel
cuda_kernel
+2
View File
@@ -20,3 +20,5 @@ FFT
irfft2
rfftn
irfftn
fftshift
ifftshift
+18 -2
View File
@@ -5,7 +5,23 @@ Linear Algebra
.. currentmodule:: mlx.core.linalg
.. autosummary::
:toctree: _autosummary
.. autosummary::
:toctree: _autosummary
inv
tri_inv
norm
cholesky
cholesky_inv
cross
qr
svd
eigvals
eig
eigvalsh
eigh
lu
lu_factor
pinv
solve
solve_triangular
+16
View File
@@ -0,0 +1,16 @@
Memory Management
=================
.. currentmodule:: mlx.core
.. autosummary::
:toctree: _autosummary
get_active_memory
get_peak_memory
reset_peak_memory
get_cache_memory
set_memory_limit
set_cache_limit
set_wired_limit
clear_cache
+12
View File
@@ -0,0 +1,12 @@
Metal
=====
.. currentmodule:: mlx.core.metal
.. autosummary::
:toctree: _autosummary
is_available
device_info
start_capture
stop_capture
+3
View File
@@ -173,6 +173,8 @@ In detail:
:toctree: _autosummary
value_and_grad
quantize
average_gradients
.. toctree::
@@ -180,3 +182,4 @@ In detail:
nn/layers
nn/functions
nn/losses
nn/init
+17
View File
@@ -12,12 +12,29 @@ simple functions.
:toctree: _autosummary_functions
:template: nn-module-template.rst
elu
celu
gelu
gelu_approx
gelu_fast_approx
glu
hard_shrink
hard_tanh
hardswish
leaky_relu
log_sigmoid
log_softmax
mish
prelu
relu
relu2
relu6
selu
sigmoid
silu
softmax
softmin
softplus
softshrink
step
tanh
+45
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@@ -0,0 +1,45 @@
.. _init:
.. currentmodule:: mlx.nn.init
Initializers
------------
The ``mlx.nn.init`` package contains commonly used initializers for neural
network parameters. Initializers return a function which can be applied to any
input :obj:`mlx.core.array` to produce an initialized output.
For example:
.. code:: python
import mlx.core as mx
import mlx.nn as nn
init_fn = nn.init.uniform()
# Produces a [2, 2] uniform matrix
param = init_fn(mx.zeros((2, 2)))
To re-initialize all the parameter in an :obj:`mlx.nn.Module` from say a uniform
distribution, you can do:
.. code:: python
import mlx.nn as nn
model = nn.Sequential(nn.Linear(5, 10), nn.ReLU(), nn.Linear(10, 5))
init_fn = nn.init.uniform(low=-0.1, high=0.1)
model.apply(init_fn)
.. autosummary::
:toctree: _autosummary
constant
normal
uniform
identity
glorot_normal
glorot_uniform
he_normal
he_uniform
+33
View File
@@ -10,28 +10,61 @@ Layers
:template: nn-module-template.rst
ALiBi
AvgPool1d
AvgPool2d
AvgPool3d
BatchNorm
CELU
Conv1d
Conv2d
Conv3d
ConvTranspose1d
ConvTranspose2d
ConvTranspose3d
Dropout
Dropout2d
Dropout3d
Embedding
ELU
GELU
GLU
GroupNorm
GRU
HardShrink
HardTanh
Hardswish
InstanceNorm
LayerNorm
LeakyReLU
Linear
LogSigmoid
LogSoftmax
LSTM
MaxPool1d
MaxPool2d
MaxPool3d
Mish
MultiHeadAttention
PReLU
QuantizedEmbedding
QuantizedLinear
RMSNorm
ReLU
ReLU2
ReLU6
RNN
RoPE
SELU
Sequential
Sigmoid
SiLU
SinusoidalPositionalEncoding
Softmin
Softshrink
Softsign
Softmax
Softplus
Step
Tanh
Transformer
Upsample
+1
View File
@@ -18,6 +18,7 @@ Loss Functions
kl_div_loss
l1_loss
log_cosh_loss
margin_ranking_loss
mse_loss
nll_loss
smooth_l1_loss
+2
View File
@@ -11,6 +11,7 @@ Module
:toctree: _autosummary
Module.training
Module.state
.. rubric:: Methods
@@ -29,6 +30,7 @@ Module
Module.named_modules
Module.parameters
Module.save_weights
Module.set_dtype
Module.train
Module.trainable_parameters
Module.unfreeze
+64 -5
View File
@@ -5,13 +5,14 @@ Operations
.. currentmodule:: mlx.core
.. autosummary::
.. autosummary::
:toctree: _autosummary
abs
add
addmm
all
allclose
allclose
any
arange
arccos
@@ -19,42 +20,80 @@ Operations
arcsin
arcsinh
arctan
arctan2
arctanh
argmax
argmin
argpartition
argsort
array_equal
as_strided
atleast_1d
atleast_2d
atleast_3d
bitwise_and
bitwise_invert
bitwise_or
bitwise_xor
block_masked_mm
broadcast_arrays
broadcast_to
ceil
clip
concatenate
contiguous
conj
conjugate
convolve
conv1d
conv2d
conv3d
conv_transpose1d
conv_transpose2d
conv_transpose3d
conv_general
cos
cosh
cummax
cummin
cumprod
cumsum
degrees
dequantize
diag
diagonal
divide
divmod
einsum
einsum_path
equal
erf
erfinv
exp
expm1
expand_dims
eye
flatten
floor
floor_divide
full
gather_mm
gather_qmm
greater
greater_equal
hadamard_transform
identity
imag
inner
isnan
isposinf
isneginf
isfinite
isclose
isinf
isnan
isneginf
isposinf
issubdtype
kron
left_shift
less
less_equal
linspace
@@ -64,6 +103,7 @@ Operations
log10
log1p
logaddexp
logcumsumexp
logical_not
logical_and
logical_or
@@ -72,22 +112,33 @@ Operations
max
maximum
mean
median
meshgrid
min
minimum
moveaxis
multiply
nan_to_num
negative
not_equal
ones
ones_like
outer
partition
pad
power
prod
put_along_axis
quantize
quantized_matmul
radians
real
reciprocal
remainder
repeat
reshape
right_shift
roll
round
rsqrt
save
@@ -99,6 +150,8 @@ Operations
sign
sin
sinh
slice
slice_update
softmax
sort
split
@@ -106,6 +159,7 @@ Operations
square
squeeze
stack
std
stop_gradient
subtract
sum
@@ -115,11 +169,16 @@ Operations
tan
tanh
tensordot
tile
topk
trace
transpose
tri
tril
triu
unflatten
var
view
where
zeros
zeros_like
+43 -12
View File
@@ -1,5 +1,7 @@
.. _optimizers:
.. currentmodule:: mlx.optimizers
Optimizers
==========
@@ -29,19 +31,48 @@ model's parameters and the **optimizer state**.
# Compute the new parameters but also the optimizer state.
mx.eval(model.parameters(), optimizer.state)
.. currentmodule:: mlx.optimizers
Saving and Loading
------------------
To serialize an optimizer, save its state. To load an optimizer, load and set
the saved state. Here's a simple example:
.. code-block:: python
import mlx.core as mx
from mlx.utils import tree_flatten, tree_unflatten
import mlx.optimizers as optim
optimizer = optim.Adam(learning_rate=1e-2)
# Perform some updates with the optimizer
model = {"w" : mx.zeros((5, 5))}
grads = {"w" : mx.ones((5, 5))}
optimizer.update(model, grads)
# Save the state
state = tree_flatten(optimizer.state, destination={})
mx.save_safetensors("optimizer.safetensors", state)
# Later on, for example when loading from a checkpoint,
# recreate the optimizer and load the state
optimizer = optim.Adam(learning_rate=1e-2)
state = tree_unflatten(mx.load("optimizer.safetensors"))
optimizer.state = state
Note, not every optimizer configuation parameter is saved in the state. For
example, for Adam the learning rate is saved but the ``betas`` and ``eps``
parameters are not. A good rule of thumb is if the parameter can be scheduled
then it will be included in the optimizer state.
.. toctree::
optimizers/optimizer
optimizers/common_optimizers
optimizers/schedulers
.. autosummary::
:toctree: _autosummary
:template: optimizers-template.rst
OptimizerState
Optimizer
SGD
RMSprop
Adagrad
AdaDelta
Adam
AdamW
Adamax
Lion
clip_grad_norm
@@ -0,0 +1,22 @@
.. _common_optimizers:
Common Optimizers
=================
.. currentmodule:: mlx.optimizers
.. autosummary::
:toctree: _autosummary
:template: optimizers-template.rst
SGD
RMSprop
Adagrad
Adafactor
AdaDelta
Adam
AdamW
Adamax
Lion
MultiOptimizer
Muon
+23
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@@ -0,0 +1,23 @@
Optimizer
=========
.. currentmodule:: mlx.optimizers
.. autoclass:: Optimizer
.. rubric:: Attributes
.. autosummary::
:toctree: _autosummary
Optimizer.state
.. rubric:: Methods
.. autosummary::
:toctree: _autosummary
Optimizer.apply_gradients
Optimizer.init
Optimizer.update
+15
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@@ -0,0 +1,15 @@
.. _schedulers:
Schedulers
==========
.. currentmodule:: mlx.optimizers
.. autosummary::
:toctree: _autosummary
cosine_decay
exponential_decay
join_schedules
linear_schedule
step_decay
+3
View File
@@ -38,8 +38,11 @@ we use a splittable version of Threefry, which is a counter-based PRNG.
gumbel
key
normal
multivariate_normal
randint
seed
split
truncated_normal
uniform
laplace
permutation
+5 -1
View File
@@ -9,9 +9,13 @@ Transforms
:toctree: _autosummary
eval
async_eval
compile
custom_function
disable_compile
enable_compile
grad
value_and_grad
jvp
vjp
vmap
simplify
+2
View File
@@ -19,3 +19,5 @@ return python trees will be using the default python ``dict``, ``list`` and
tree_flatten
tree_unflatten
tree_map
tree_map_with_path
tree_reduce
+497
View File
@@ -0,0 +1,497 @@
.. _compile:
Compilation
===========
.. currentmodule:: mlx.core
MLX has a :func:`compile` function transformation which compiles computation
graphs. Function compilation results in smaller graphs by merging common work
and fusing certain operations. In many cases this can lead to big improvements
in run-time and memory use.
Getting started with :func:`compile` is simple, but there are some edge cases
that are good to be aware of for more complex graphs and advanced usage.
Basics of Compile
-----------------
Let's start with a simple example:
.. code-block:: python
def fun(x, y):
return mx.exp(-x) + y
x = mx.array(1.0)
y = mx.array(2.0)
# Regular call, no compilation
# Prints: array(2.36788, dtype=float32)
print(fun(x, y))
# Compile the function
compiled_fun = mx.compile(fun)
# Prints: array(2.36788, dtype=float32)
print(compiled_fun(x, y))
The output of both the regular function and the compiled function is the same
up to numerical precision.
The first time you call a compiled function, MLX will build the compute
graph, optimize it, and generate and compile code. This can be relatively
slow. However, MLX will cache compiled functions, so calling a compiled
function multiple times will not initiate a new compilation. This means you
should typically compile functions that you plan to use more than once.
.. code-block:: python
def fun(x, y):
return mx.exp(-x) + y
x = mx.array(1.0)
y = mx.array(2.0)
compiled_fun = mx.compile(fun)
# Compiled here
compiled_fun(x, y)
# Not compiled again
compiled_fun(x, y)
# Not compiled again
mx.compile(fun)(x, y)
There are some important cases to be aware of that can cause a function to
be recompiled:
* Changing the shape or number of dimensions
* Changing the type of any of the inputs
* Changing the number of inputs to the function
In certain cases only some of the compilation stack will be rerun (for
example when changing the shapes) and in other cases the full compilation
stack will be rerun (for example when changing the types). In general you
should avoid compiling functions too frequently.
Another idiom to watch out for is compiling functions which get created and
destroyed frequently. This can happen, for example, when compiling an anonymous
function in a loop:
.. code-block:: python
a = mx.array(1.0)
# Don't do this, compiles lambda at each iteration
for _ in range(5):
mx.compile(lambda x: mx.exp(mx.abs(x)))(a)
Example Speedup
---------------
The :func:`mlx.nn.gelu` is a nonlinear activation function commonly used with
Transformer-based models. The implementation involves several unary and binary
element-wise operations:
.. code-block:: python
def gelu(x):
return x * (1 + mx.erf(x / math.sqrt(2))) / 2
If you use this function with small arrays, it will be overhead bound. If you
use it with large arrays it will be memory bandwidth bound. However, all of
the operations in the ``gelu`` are fusible into a single kernel with
:func:`compile`. This can speedup both cases considerably.
Let's compare the runtime of the regular function versus the compiled
function. We'll use the following timing helper which does a warm up and
handles synchronization:
.. code-block:: python
import time
def timeit(fun, x):
# warm up
for _ in range(10):
mx.eval(fun(x))
tic = time.perf_counter()
for _ in range(100):
mx.eval(fun(x))
toc = time.perf_counter()
tpi = 1e3 * (toc - tic) / 100
print(f"Time per iteration {tpi:.3f} (ms)")
Now make an array, and benchmark both functions:
.. code-block:: python
x = mx.random.uniform(shape=(32, 1000, 4096))
timeit(gelu, x)
timeit(mx.compile(gelu), x)
On an M1 Max the times are 15.5 and 3.1 milliseconds. The compiled ``gelu`` is
five times faster.
Debugging
---------
When a compiled function is first called, it is traced with placeholder
inputs. This means you can't evaluate arrays (for example to print their
contents) inside compiled functions.
.. code-block:: python
@mx.compile
def fun(x):
z = -x
print(z) # Crash
return mx.exp(z)
fun(mx.array(5.0))
For debugging, inspecting arrays can be helpful. One way to do that is to
globally disable compilation using the :func:`disable_compile` function or
``MLX_DISABLE_COMPILE`` flag. For example the following is okay even though
``fun`` is compiled:
.. code-block:: python
@mx.compile
def fun(x):
z = -x
print(z) # Okay
return mx.exp(z)
mx.disable_compile()
fun(mx.array(5.0))
Pure Functions
--------------
Compiled functions are intended to be *pure*; that is they should not have side
effects. For example:
.. code-block:: python
state = []
@mx.compile
def fun(x, y):
z = x + y
state.append(z)
return mx.exp(z)
fun(mx.array(1.0), mx.array(2.0))
# Crash!
print(state)
After the first call of ``fun``, the ``state`` list will hold a placeholder
array. The placeholder does not have any data; it is only used to build the
computation graph. Printing such an array results in a crash.
You have two options to deal with this. The first option is to simply return
``state`` as an output:
.. code-block:: python
state = []
@mx.compile
def fun(x, y):
z = x + y
state.append(z)
return mx.exp(z), state
_, state = fun(mx.array(1.0), mx.array(2.0))
# Prints [array(3, dtype=float32)]
print(state)
In some cases returning updated state can be pretty inconvenient. Hence,
:func:`compile` has a parameter to capture implicit outputs:
.. code-block:: python
from functools import partial
state = []
# Tell compile to capture state as an output
@partial(mx.compile, outputs=state)
def fun(x, y):
z = x + y
state.append(z)
return mx.exp(z)
fun(mx.array(1.0), mx.array(2.0))
# Prints [array(3, dtype=float32)]
print(state)
This is particularly useful for compiling a function which includes an update
to a container of arrays, as is commonly done when training the parameters of a
:class:`mlx.nn.Module`.
Compiled functions will also treat any inputs not in the parameter list as
constants. For example:
.. code-block:: python
state = [mx.array(1.0)]
@mx.compile
def fun(x):
return x + state[0]
# Prints array(2, dtype=float32)
print(fun(mx.array(1.0)))
# Update state
state[0] = mx.array(5.0)
# Still prints array(2, dtype=float32)
print(fun(mx.array(1.0)))
In order to have the change of state reflected in the outputs of ``fun`` you
again have two options. The first option is to simply pass ``state`` as input
to the function. In some cases this can be pretty inconvenient. Hence,
:func:`compile` also has a parameter to capture implicit inputs:
.. code-block:: python
from functools import partial
state = [mx.array(1.0)]
# Tell compile to capture state as an input
@partial(mx.compile, inputs=state)
def fun(x):
return x + state[0]
# Prints array(2, dtype=float32)
print(fun(mx.array(1.0)))
# Update state
state[0] = mx.array(5.0)
# Prints array(6, dtype=float32)
print(fun(mx.array(1.0)))
Compiling Training Graphs
-------------------------
This section will step through how to use :func:`compile` with a simple example
of a common setup: training a model with :obj:`mlx.nn.Module` using an
:obj:`mlx.optimizers.Optimizer` with state. We will show how to compile the
full forward, backward, and update with :func:`compile`.
To start, here is the simple example without any compilation:
.. code-block:: python
import mlx.core as mx
import mlx.nn as nn
import mlx.optimizers as optim
# 4 examples with 10 features each
x = mx.random.uniform(shape=(4, 10))
# 0, 1 targets
y = mx.array([0, 1, 0, 1])
# Simple linear model
model = nn.Linear(10, 1)
# SGD with momentum
optimizer = optim.SGD(learning_rate=0.1, momentum=0.8)
def loss_fn(model, x, y):
logits = model(x).squeeze()
return nn.losses.binary_cross_entropy(logits, y)
loss_and_grad_fn = nn.value_and_grad(model, loss_fn)
# Perform 10 steps of gradient descent
for it in range(10):
loss, grads = loss_and_grad_fn(model, x, y)
optimizer.update(model, grads)
mx.eval(model.parameters(), optimizer.state)
To compile the update we can put it all in a function and compile it with the
appropriate input and output captures. Here's the same example but compiled:
.. code-block:: python
import mlx.core as mx
import mlx.nn as nn
import mlx.optimizers as optim
from functools import partial
# 4 examples with 10 features each
x = mx.random.uniform(shape=(4, 10))
# 0, 1 targets
y = mx.array([0, 1, 0, 1])
# Simple linear model
model = nn.Linear(10, 1)
# SGD with momentum
optimizer = optim.SGD(learning_rate=0.1, momentum=0.8)
def loss_fn(model, x, y):
logits = model(x).squeeze()
return nn.losses.binary_cross_entropy(logits, y)
# The state that will be captured as input and output
state = [model.state, optimizer.state]
@partial(mx.compile, inputs=state, outputs=state)
def step(x, y):
loss_and_grad_fn = nn.value_and_grad(model, loss_fn)
loss, grads = loss_and_grad_fn(model, x, y)
optimizer.update(model, grads)
return loss
# Perform 10 steps of gradient descent
for it in range(10):
loss = step(x, y)
# Evaluate the model and optimizer state
mx.eval(state)
print(loss)
.. note::
If you are using a module which performs random sampling such as
:func:`mlx.nn.Dropout`, make sure you also include ``mx.random.state`` in the
``state`` captured by :func:`compile`, i.e. ``state = [model.state,
optimizer.state, mx.random.state]``.
.. note::
For more examples of compiling full training graphs checkout the `MLX
Examples <https://github.com/ml-explore/mlx-examples>`_ GitHub repo.
Transformations with Compile
----------------------------
In MLX function transformations are composable. You can apply any function
transformation to the output of any other function transformation. For more on
this, see the documentation on :ref:`function transforms
<function_transforms>`.
Compiling transformed functions works just as expected:
.. code-block:: python
grad_fn = mx.grad(mx.exp)
compiled_grad_fn = mx.compile(grad_fn)
# Prints: array(2.71828, dtype=float32)
print(grad_fn(mx.array(1.0)))
# Also prints: array(2.71828, dtype=float32)
print(compiled_grad_fn(mx.array(1.0)))
.. note::
In order to compile as much as possible, a transformation of a compiled
function will not by default be compiled. To compile the transformed
function simply pass it through :func:`compile`.
You can also compile functions which themselves call compiled functions. A
good practice is to compile the outer most function to give :func:`compile`
the most opportunity to optimize the computation graph:
.. code-block:: python
@mx.compile
def inner(x):
return mx.exp(-mx.abs(x))
def outer(x):
inner(inner(x))
# Compiling the outer function is good to do as it will likely
# be faster even though the inner functions are compiled
fun = mx.compile(outer)
.. _shapeless_compile:
Shapeless Compilation
---------------------
When the shape of an input to a compiled function changes, the function is
recompiled. You can compile a function once and run it on inputs with
variable shapes by specifying ``shapeless=True`` to :func:`compile`. In this
case changes to the shapes of the inputs do not cause the function to be
recompiled.
.. code-block:: python
def fun(x, y):
return mx.abs(x + y)
compiled_fun = mx.compile(fun, shapeless=True)
x = mx.array(1.0)
y = mx.array(-2.0)
# Firt call compiles the function
print(compiled_fun(x, y))
# Second call with different shapes
# does not recompile the function
x = mx.array([1.0, -6.0])
y = mx.array([-2.0, 3.0])
print(compiled_fun(x, y))
Use shapeless compilations carefully. Since compilation is not triggered when
shapes change, any graphs which are conditional on the input shapes will not
work as expected. Shape-dependent computations are common and sometimes subtle
to detect. For example:
.. code-block:: python
def fun(x):
return x.reshape(x.shape[0] * x.shape[1], -1)
compiled_fun = mx.compile(fun, shapeless=True)
x = mx.random.uniform(shape=(2, 3, 4))
out = compiled_fun(x)
x = mx.random.uniform(shape=(5, 5, 3))
# Error, can't reshape (5, 5, 3) to (6, -1)
out = compiled_fun(x)
The second call to the ``compiled_fun`` fails because of the call to
:func:`reshape` which uses the static shape of ``x`` in the first call. We can
fix this by using :func:`flatten` to avoid hardcoding the shape of ``x``:
.. code-block:: python
def fun(x):
return x.flatten(0, 1)
compiled_fun = mx.compile(fun, shapeless=True)
x = mx.random.uniform(shape=(2, 3, 4))
out = compiled_fun(x)
x = mx.random.uniform(shape=(5, 5, 3))
# Ok
out = compiled_fun(x)
+344
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@@ -0,0 +1,344 @@
.. _usage_distributed:
Distributed Communication
=========================
.. currentmodule:: mlx.core.distributed
MLX supports distributed communication operations that allow the computational cost
of training or inference to be shared across many physical machines. At the
moment we support two different communication backends:
* `MPI <https://en.wikipedia.org/wiki/Message_Passing_Interface>`_ a
full-featured and mature distributed communications library
* A **ring** backend of our own that uses native TCP sockets and should be
faster for thunderbolt connections.
The list of all currently supported operations and their documentation can be
seen in the :ref:`API docs<distributed>`.
.. note::
Some operations may not be supported or not as fast as they should be.
We are adding more and tuning the ones we have as we are figuring out the
best way to do distributed computing on Macs using MLX.
Getting Started
---------------
A distributed program in MLX is as simple as:
.. code:: python
import mlx.core as mx
world = mx.distributed.init()
x = mx.distributed.all_sum(mx.ones(10))
print(world.rank(), x)
The program above sums the array ``mx.ones(10)`` across all
distributed processes. However, when this script is run with ``python`` only
one process is launched and no distributed communication takes place. Namely,
all operations in ``mx.distributed`` are noops when the distributed group has a
size of one. This property allows us to avoid code that checks if we are in a
distributed setting similar to the one below:
.. code:: python
import mlx.core as mx
x = ...
world = mx.distributed.init()
# No need for the check we can simply do x = mx.distributed.all_sum(x)
if world.size() > 1:
x = mx.distributed.all_sum(x)
Running Distributed Programs
^^^^^^^^^^^^^^^^^^^^^^^^^^^^
MLX provides ``mlx.launch`` a helper script to launch distributed programs.
Continuing with our initial example we can run it on localhost with 4 processes using
.. code:: shell
$ mlx.launch -n 4 my_script.py
3 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
2 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
1 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
0 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
We can also run it on some remote hosts by providing their IPs (provided that
the script exists on all hosts and they are reachable by ssh)
.. code:: shell
$ mlx.launch --hosts ip1,ip2,ip3,ip4 my_script.py
3 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
2 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
1 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
0 array([4, 4, 4, ..., 4, 4, 4], dtype=float32)
Consult the dedicated :doc:`usage guide<launching_distributed>` for more
information on using ``mlx.launch``.
Selecting Backend
^^^^^^^^^^^^^^^^^
You can select the backend you want to use when calling :func:`init` by passing
one of ``{'any', 'ring', 'mpi'}``. When passing ``any``, MLX will try to
initialize the ``ring`` backend and if it fails the ``mpi`` backend. If they
both fail then a singleton group is created.
.. note::
After a distributed backend is successfully initialized :func:`init` will
return **the same backend** if called without arguments or with backend set to
``any``.
The following examples aim to clarify the backend initialization logic in MLX:
.. code:: python
# Case 1: Initialize MPI regardless if it was possible to initialize the ring backend
world = mx.distributed.init(backend="mpi")
world2 = mx.distributed.init() # subsequent calls return the MPI backend!
# Case 2: Initialize any backend
world = mx.distributed.init(backend="any") # equivalent to no arguments
world2 = mx.distributed.init() # same as above
# Case 3: Initialize both backends at the same time
world_mpi = mx.distributed.init(backend="mpi")
world_ring = mx.distributed.init(backend="ring")
world_any = mx.distributed.init() # same as MPI because it was initialized first!
Training Example
----------------
In this section we will adapt an MLX training loop to support data parallel
distributed training. Namely, we will average the gradients across a set of
hosts before applying them to the model.
Our training loop looks like the following code snippet if we omit the model,
dataset and optimizer initialization.
.. code:: python
model = ...
optimizer = ...
dataset = ...
def step(model, x, y):
loss, grads = loss_grad_fn(model, x, y)
optimizer.update(model, grads)
return loss
for x, y in dataset:
loss = step(model, x, y)
mx.eval(loss, model.parameters())
All we have to do to average the gradients across machines is perform an
:func:`all_sum` and divide by the size of the :class:`Group`. Namely we
have to :func:`mlx.utils.tree_map` the gradients with following function.
.. code:: python
def all_avg(x):
return mx.distributed.all_sum(x) / mx.distributed.init().size()
Putting everything together our training loop step looks as follows with
everything else remaining the same.
.. code:: python
from mlx.utils import tree_map
def all_reduce_grads(grads):
N = mx.distributed.init().size()
if N == 1:
return grads
return tree_map(
lambda x: mx.distributed.all_sum(x) / N,
grads
)
def step(model, x, y):
loss, grads = loss_grad_fn(model, x, y)
grads = all_reduce_grads(grads) # <--- This line was added
optimizer.update(model, grads)
return loss
Utilizing ``nn.average_gradients``
^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Although the code example above works correctly; it performs one communication
per gradient. It is significantly more efficient to aggregate several gradients
together and perform fewer communication steps.
This is the purpose of :func:`mlx.nn.average_gradients`. The final code looks
almost identical to the example above:
.. code:: python
model = ...
optimizer = ...
dataset = ...
def step(model, x, y):
loss, grads = loss_grad_fn(model, x, y)
grads = mx.nn.average_gradients(grads) # <---- This line was added
optimizer.update(model, grads)
return loss
for x, y in dataset:
loss = step(model, x, y)
mx.eval(loss, model.parameters())
Getting Started with MPI
------------------------
MLX already comes with the ability to "talk" to MPI if it is installed on the
machine. Launching distributed MLX programs that use MPI can be done with
``mpirun`` as expected. However, in the following examples we will be using
``mlx.launch --backend mpi`` which takes care of some nuisances such as setting
absolute paths for the ``mpirun`` executable and the ``libmpi.dyld`` shared
library.
The simplest possible usage is the following which, assuming the minimal
example in the beginning of this page, should result in:
.. code:: shell
$ mlx.launch --backend mpi -n 2 test.py
1 array([2, 2, 2, ..., 2, 2, 2], dtype=float32)
0 array([2, 2, 2, ..., 2, 2, 2], dtype=float32)
The above launches two processes on the same (local) machine and we can see
both standard output streams. The processes send the array of 1s to each other
and compute the sum which is printed. Launching with ``mlx.launch -n 4 ...`` would
print 4 etc.
Installing MPI
^^^^^^^^^^^^^^
MPI can be installed with Homebrew, using the Anaconda package manager or
compiled from source. Most of our testing is done using ``openmpi`` installed
with the Anaconda package manager as follows:
.. code:: shell
$ conda install conda-forge::openmpi
Installing with Homebrew may require specifying the location of ``libmpi.dyld``
so that MLX can find it and load it at runtime. This can simply be achieved by
passing the ``DYLD_LIBRARY_PATH`` environment variable to ``mpirun`` and it is
done automatically by ``mlx.launch``.
.. code:: shell
$ mpirun -np 2 -x DYLD_LIBRARY_PATH=/opt/homebrew/lib/ python test.py
$ # or simply
$ mlx.launch -n 2 test.py
Setting up Remote Hosts
^^^^^^^^^^^^^^^^^^^^^^^
MPI can automatically connect to remote hosts and set up the communication over
the network if the remote hosts can be accessed via ssh. A good checklist to
debug connectivity issues is the following:
* ``ssh hostname`` works from all machines to all machines without asking for
password or host confirmation
* ``mpirun`` is accessible on all machines.
* Ensure that the ``hostname`` used by MPI is the one that you have configured
in the ``.ssh/config`` files on all machines.
Tuning MPI All Reduce
^^^^^^^^^^^^^^^^^^^^^
.. note::
For faster all reduce consider using the ring backend either with Thunderbolt
connections or over Ethernet.
Configure MPI to use N tcp connections between each host to improve bandwidth
by passing ``--mca btl_tcp_links N``.
Force MPI to use the most performant network interface by setting ``--mca
btl_tcp_if_include <iface>`` where ``<iface>`` should be the interface you want
to use.
Getting Started with Ring
-------------------------
The ring backend does not depend on any third party library so it is always
available. It uses TCP sockets so the nodes need to be reachable via a network.
As the name suggests the nodes are connected in a ring which means that rank 1
can only communicate with rank 0 and rank 2, rank 2 only with rank 1 and rank 3
and so on and so forth. As a result :func:`send` and :func:`recv` with
arbitrary sender and receiver is not supported in the ring backend.
Defining a Ring
^^^^^^^^^^^^^^^
The easiest way to define and use a ring is via a JSON hostfile and the
``mlx.launch`` :doc:`helper script <launching_distributed>`. For each node one
defines a hostname to ssh into to run commands on this node and one or more IPs
that this node will listen to for connections.
For example the hostfile below defines a 4 node ring. ``hostname1`` will be
rank 0, ``hostname2`` rank 1 etc.
.. code:: json
[
{"ssh": "hostname1", "ips": ["123.123.123.1"]},
{"ssh": "hostname2", "ips": ["123.123.123.2"]},
{"ssh": "hostname3", "ips": ["123.123.123.3"]},
{"ssh": "hostname4", "ips": ["123.123.123.4"]}
]
Running ``mlx.launch --hostfile ring-4.json my_script.py`` will ssh into each
node, run the script which will listen for connections in each of the provided
IPs. Specifically, ``hostname1`` will connect to ``123.123.123.2`` and accept a
connection from ``123.123.123.4`` and so on and so forth.
Thunderbolt Ring
^^^^^^^^^^^^^^^^
Although the ring backend can have benefits over MPI even for Ethernet, its
main purpose is to use Thunderbolt rings for higher bandwidth communication.
Setting up such thunderbolt rings can be done manually, but is a relatively
tedious process. To simplify this, we provide the utility ``mlx.distributed_config``.
To use ``mlx.distributed_config`` your computers need to be accessible by ssh via
Ethernet or Wi-Fi. Subsequently, connect them via thunderbolt cables and then call the
utility as follows:
.. code:: shell
mlx.distributed_config --verbose --hosts host1,host2,host3,host4
By default the script will attempt to discover the thunderbolt ring and provide
you with the commands to configure each node as well as the ``hostfile.json``
to use with ``mlx.launch``. If password-less ``sudo`` is available on the nodes
then ``--auto-setup`` can be used to configure them automatically.
To validate your connection without configuring anything
``mlx.distributed_config`` can also plot the ring using DOT format.
.. code:: shell
mlx.distributed_config --verbose --hosts host1,host2,host3,host4 --dot >ring.dot
dot -Tpng ring.dot >ring.png
open ring.png
If you want to go through the process manually, the steps are as follows:
* Disable the thunderbolt bridge interface
* For the cable connecting rank ``i`` to rank ``i + 1`` find the interfaces
corresponding to that cable in nodes ``i`` and ``i + 1``.
* Set up a unique subnetwork connecting the two nodes for the corresponding
interfaces. For instance if the cable corresponds to ``en2`` on node ``i``
and ``en2`` also on node ``i + 1`` then we may assign IPs ``192.168.0.1`` and
``192.168.0.2`` respectively to the two nodes. For more details you can see
the commands prepared by the utility script.
+288
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@@ -0,0 +1,288 @@
.. _export_usage:
Exporting Functions
===================
.. currentmodule:: mlx.core
MLX has an API to export and import functions to and from a file. This lets you
run computations written in one MLX front-end (e.g. Python) in another MLX
front-end (e.g. C++).
This guide walks through the basics of the MLX export API with some examples.
To see the full list of functions check-out the :ref:`API documentation
<export>`.
Basics of Exporting
-------------------
Let's start with a simple example:
.. code-block:: python
def fun(x, y):
return x + y
x = mx.array(1.0)
y = mx.array(1.0)
mx.export_function("add.mlxfn", fun, x, y)
To export a function, provide sample input arrays that the function
can be called with. The data doesn't matter, but the shapes and types of the
arrays do. In the above example we exported ``fun`` with two ``float32``
scalar arrays. We can then import the function and run it:
.. code-block:: python
add_fun = mx.import_function("add.mlxfn")
out, = add_fun(mx.array(1.0), mx.array(2.0))
# Prints: array(3, dtype=float32)
print(out)
out, = add_fun(mx.array(1.0), mx.array(3.0))
# Prints: array(4, dtype=float32)
print(out)
# Raises an exception
add_fun(mx.array(1), mx.array(3.0))
# Raises an exception
add_fun(mx.array([1.0, 2.0]), mx.array(3.0))
Notice the third and fourth calls to ``add_fun`` raise exceptions because the
shapes and types of the inputs are different than the shapes and types of the
example inputs we exported the function with.
Also notice that even though the original ``fun`` returns a single output
array, the imported function always returns a tuple of one or more arrays.
The inputs to :func:`export_function` and to an imported function can be
specified as variable positional arguments or as a tuple of arrays:
.. code-block:: python
def fun(x, y):
return x + y
x = mx.array(1.0)
y = mx.array(1.0)
# Both arguments to fun are positional
mx.export_function("add.mlxfn", fun, x, y)
# Same as above
mx.export_function("add.mlxfn", fun, (x, y))
imported_fun = mx.import_function("add.mlxfn")
# Ok
out, = imported_fun(x, y)
# Also ok
out, = imported_fun((x, y))
You can pass example inputs to functions as positional or keyword arguments. If
you use keyword arguments to export the function, then you have to use the same
keyword arguments when calling the imported function.
.. code-block:: python
def fun(x, y):
return x + y
# One argument to fun is positional, the other is a kwarg
mx.export_function("add.mlxfn", fun, x, y=y)
imported_fun = mx.import_function("add.mlxfn")
# Ok
out, = imported_fun(x, y=y)
# Also ok
out, = imported_fun((x,), {"y": y})
# Raises since the keyword argument is missing
out, = imported_fun(x, y)
# Raises since the keyword argument has the wrong key
out, = imported_fun(x, z=y)
Exporting Modules
-----------------
An :obj:`mlx.nn.Module` can be exported with or without the parameters included
in the exported function. Here's an example:
.. code-block:: python
model = nn.Linear(4, 4)
mx.eval(model.parameters())
def call(x):
return model(x)
mx.export_function("model.mlxfn", call, mx.zeros(4))
In the above example, the :obj:`mlx.nn.Linear` module is exported. Its
parameters are also saved to the ``model.mlxfn`` file.
.. note::
For enclosed arrays inside an exported function, be extra careful to ensure
they are evaluated. The computation graph that gets exported will include
the computation that produces enclosed inputs.
If the above example was missing ``mx.eval(model.parameters()``, the
exported function would include the random initialization of the
:obj:`mlx.nn.Module` parameters.
If you only want to export the ``Module.__call__`` function without the
parameters, pass them as inputs to the ``call`` wrapper:
.. code-block:: python
model = nn.Linear(4, 4)
mx.eval(model.parameters())
def call(x, **params):
# Set the model's parameters to the input parameters
model.update(tree_unflatten(list(params.items())))
return model(x)
params = tree_flatten(model.parameters(), destination={})
mx.export_function("model.mlxfn", call, (mx.zeros(4),), params)
Shapeless Exports
-----------------
Just like :func:`compile`, functions can also be exported for dynamically shaped
inputs. Pass ``shapeless=True`` to :func:`export_function` or :func:`exporter`
to export a function which can be used for inputs with variable shapes:
.. code-block:: python
mx.export_function("fun.mlxfn", mx.abs, mx.array([0.0]), shapeless=True)
imported_abs = mx.import_function("fun.mlxfn")
# Ok
out, = imported_abs(mx.array([-1.0]))
# Also ok
out, = imported_abs(mx.array([-1.0, -2.0]))
With ``shapeless=False`` (which is the default), the second call to
``imported_abs`` would raise an exception with a shape mismatch.
Shapeless exporting works the same as shapeless compilation and should be
used carefully. See the :ref:`documentation on shapeless compilation
<shapeless_compile>` for more information.
Exporting Multiple Traces
-------------------------
In some cases, functions build different computation graphs for different
input arguments. A simple way to manage this is to export to a new file with
each set of inputs. This is a fine option in many cases. But it can be
suboptimal if the exported functions have a large amount of duplicate constant
data (for example the parameters of a :obj:`mlx.nn.Module`).
The export API in MLX lets you export multiple traces of the same function to
a single file by creating an exporting context manager with :func:`exporter`:
.. code-block:: python
def fun(x, y=None):
constant = mx.array(3.0)
if y is not None:
x += y
return x + constant
with mx.exporter("fun.mlxfn", fun) as exporter:
exporter(mx.array(1.0))
exporter(mx.array(1.0), y=mx.array(0.0))
imported_function = mx.import_function("fun.mlxfn")
# Call the function with y=None
out, = imported_function(mx.array(1.0))
print(out)
# Call the function with y specified
out, = imported_function(mx.array(1.0), y=mx.array(1.0))
print(out)
In the above example the function constant data, (i.e. ``constant``), is only
saved once.
Transformations with Imported Functions
---------------------------------------
Function transformations like :func:`grad`, :func:`vmap`, and :func:`compile` work
on imported functions just like regular Python functions:
.. code-block:: python
def fun(x):
return mx.sin(x)
x = mx.array(0.0)
mx.export_function("sine.mlxfn", fun, x)
imported_fun = mx.import_function("sine.mlxfn")
# Take the derivative of the imported function
dfdx = mx.grad(lambda x: imported_fun(x)[0])
# Prints: array(1, dtype=float32)
print(dfdx(x))
# Compile the imported function
mx.compile(imported_fun)
# Prints: array(0, dtype=float32)
print(compiled_fun(x)[0])
Importing Functions in C++
--------------------------
Importing and running functions in C++ is basically the same as importing and
running them in Python. First, follow the :ref:`instructions <mlx_in_cpp>` to
setup a simple C++ project that uses MLX as a library.
Next, export a simple function from Python:
.. code-block:: python
def fun(x, y):
return mx.exp(x + y)
x = mx.array(1.0)
y = mx.array(1.0)
mx.export_function("fun.mlxfn", fun, x, y)
Import and run the function in C++ with only a few lines of code:
.. code-block:: c++
auto fun = mx::import_function("fun.mlxfn");
auto inputs = {mx::array(1.0), mx::array(1.0)};
auto outputs = fun(inputs);
// Prints: array(2, dtype=float32)
std::cout << outputs[0] << std::endl;
Imported functions can be transformed in C++ just like in Python. Use
``std::vector<mx::array>`` for positional arguments and ``std::map<std::string,
mx::array>`` for keyword arguments when calling imported functions in C++.
More Examples
-------------
Here are a few more complete examples exporting more complex functions from
Python and importing and running them in C++:
* `Inference and training a multi-layer perceptron <https://github.com/ml-explore/mlx/tree/main/examples/export>`_
+20 -17
View File
@@ -5,9 +5,12 @@ Function Transforms
.. currentmodule:: mlx.core
MLX uses composable function transformations for automatic differentiation and
vectorization. The key idea behind composable function transformations is that
every transformation returns a function which can be further transformed.
MLX uses composable function transformations for automatic differentiation,
vectorization, and compute graph optimizations. To see the complete list of
function transformations check-out the :ref:`API documentation <transforms>`.
The key idea behind composable function transformations is that every
transformation returns a function which can be further transformed.
Here is a simple example:
@@ -22,7 +25,7 @@ Here is a simple example:
The output of :func:`grad` on :func:`sin` is simply another function. In this
case it is the gradient of the sine function which is exactly the cosine
function. To get the second derivative you can do:
function. To get the second derivative you can do:
.. code-block:: shell
@@ -36,10 +39,10 @@ Using :func:`grad` on the output of :func:`grad` is always ok. You keep
getting higher order derivatives.
Any of the MLX function transformations can be composed in any order to any
depth. To see the complete list of function transformations check-out the
:ref:`API documentation <transforms>`. See the following sections for more
information on :ref:`automatic differentiaion <auto diff>` and
:ref:`automatic vectorization <vmap>`.
depth. See the following sections for more information on :ref:`automatic
differentiation <auto diff>` and :ref:`automatic vectorization <vmap>`.
For more information on :func:`compile` see the :ref:`compile documentation <compile>`.
Automatic Differentiation
-------------------------
@@ -47,7 +50,7 @@ Automatic Differentiation
.. _auto diff:
Automatic differentiation in MLX works on functions rather than on implicit
graphs.
graphs.
.. note::
@@ -111,7 +114,7 @@ way to do that is the following:
def loss_fn(params, x, y):
w, b = params["weight"], params["bias"]
h = w * x + b
h = w * x + b
return mx.mean(mx.square(h - y))
params = {"weight": mx.array(1.0), "bias": mx.array(0.0)}
@@ -129,7 +132,7 @@ way to do that is the following:
Notice the tree structure of the parameters is preserved in the gradients.
In some cases you may want to stop gradients from propagating through a
In some cases you may want to stop gradients from propagating through a
part of the function. You can use the :func:`stop_gradient` for that.
@@ -158,19 +161,19 @@ A naive way to add the elements from two sets of vectors is with a loop:
ys = mx.random.uniform(shape=(100, 4096))
def naive_add(xs, ys):
return [xs[i] + ys[:, i] for i in range(xs.shape[1])]
return [xs[i] + ys[:, i] for i in range(xs.shape[0])]
Instead you can use :func:`vmap` to automatically vectorize the addition:
.. code-block:: python
# Vectorize over the second dimension of x and the
# first dimension of y
vmap_add = mx.vmap(lambda x, y: x + y, in_axes=(1, 0))
vmap_add = mx.vmap(lambda x, y: x + y, in_axes=(0, 1))
The ``in_axes`` parameter can be used to specify which dimensions of the
corresponding input to vectorize over. Similarly, use ``out_axes`` to specify
where the vectorized axes should be in the outputs.
where the vectorized axes should be in the outputs.
Let's time these two different versions:
@@ -181,8 +184,8 @@ Let's time these two different versions:
print(timeit.timeit(lambda: mx.eval(naive_add(xs, ys)), number=100))
print(timeit.timeit(lambda: mx.eval(vmap_add(xs, ys)), number=100))
On an M1 Max the naive version takes in total ``0.390`` seconds whereas the
vectorized version takes only ``0.025`` seconds, more than ten times faster.
On an M1 Max the naive version takes in total ``5.639`` seconds whereas the
vectorized version takes only ``0.024`` seconds, more than 200 times faster.
Of course, this operation is quite contrived. A better approach is to simply do
``xs + ys.T``, but for more complex functions :func:`vmap` can be quite handy.

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