Changes by apply order:
1. Replace all `".."` and `os.pardir` usage with `os.path.dirname(...)`.
2. Replace nested `os.path.dirname(os.path.dirname(...))` call with `str(Path(...).parent.parent)`.
3. Reorder `.absolute()` ~/ `.resolve()`~ and `.parent`: always resolve the path first.
`.parent{...}.absolute()` -> `.absolute().parent{...}`
4. Replace chained `.parent x N` with `.parents[${N - 1}]`: the code is easier to read (see 5.)
`.parent.parent.parent.parent` -> `.parents[3]`
5. ~Replace `.parents[${N - 1}]` with `.parents[${N} - 1]`: the code is easier to read and does not introduce any runtime overhead.~
~`.parents[3]` -> `.parents[4 - 1]`~
6. ~Replace `.parents[2 - 1]` with `.parent.parent`: because the code is shorter and easier to read.~
Pull Request resolved: https://github.com/pytorch/pytorch/pull/129374
Approved by: https://github.com/justinchuby, https://github.com/malfet
Consolidate
- get/set_default_load_endianness
- get/set_default_mmap_options
- get/set_crc32_options
into one global dynamo-style config + allow global setting of mmap. The existing APIs are not removed and will get/set from the config (as they can't be removed for BC)
In #143459 I add the local (argument style) config
Pull Request resolved: https://github.com/pytorch/pytorch/pull/143324
Approved by: https://github.com/albanD
Description:
1. Quantize Linear Layer Weights to 4-bits:
Quantize the weights of the Linear layer to 4 bits, using symmetric quantization.
Pack two 4-bit weights into one uint8 container.
Choose a quantization scheme (channel-wise or group-wise), with the group size being a multiple of 32.
2. Prepare Quantized Weights, Scales, and Optional Bias:
After quantizing, obtain the quantized_weights, scales, and groupsize.
If the original Linear layer has a bias, prepare it as well.
3. Pack the Weights Efficiently:
Use torch.ops.aten._dyn_quant_pack_4bit_weight to optimally pack the weights, scales, and optional bias.
```python
packed_weights = torch.ops.aten._dyn_quant_pack_4bit_weight(weight, scales_and_zeros, bias, groupsize, in_features, out_features)
```
Input parameters should include:
in_features and out_features (the same as the Linear layer’s corresponding parameters).
4. Perform Dynamic Quantized Matrix Multiplication:
Use torch.ops.aten._dyn_quant_matmul_4bit to perform matrix multiplication with quantized weights.
```python
output = torch.ops.aten._dyn_quant_matmul_4bit(input, packed_weights, groupsize, in_features, out_features)
```
Inputs required include:
The input tensor, packed_weights , groupsize, and the in_features and out_features.
API Usage: https://github.com/pytorch/pytorch/issues/143289
Model Perf :
7B Transformer model:
Prefill : 340 t/s
Decode : 40 t/s
2B Transformer model
Prefill : 747 t/s
Decode : 80 t/s
Tests:
python test/test_linalg.py -k test__dyn_quant_pack_4bit_weight
Ran 1 test in 0.016s
OK
python test/test_linalg.py -k test__dyn_quant_matmul_4bit
Ran 8 tests in 0.077s
OK
python test/test_linalg.py -k test_compile_dyn_quant_matmul_4bit
Ran 8 tests in 11.454s
Change-Id: Ia1672bad5e6ec94e64d8bb1971395d60f4b3a452
Fixes #ISSUE_NUMBER
Pull Request resolved: https://github.com/pytorch/pytorch/pull/134124
Approved by: https://github.com/digantdesai, https://github.com/malfet
Description:
1. Quantize Linear Layer Weights to 4-bits:
Quantize the weights of the Linear layer to 4 bits, using symmetric quantization.
Pack two 4-bit weights into one uint8 container.
Choose a quantization scheme (channel-wise or group-wise), with the group size being a multiple of 32.
2. Prepare Quantized Weights, Scales, and Optional Bias:
After quantizing, obtain the quantized_weights, scales, and groupsize.
If the original Linear layer has a bias, prepare it as well.
3. Pack the Weights Efficiently:
Use torch.ops.aten._dyn_quant_pack_4bit_weight to optimally pack the weights, scales, and optional bias.
```python
packed_weights = torch.ops.aten._dyn_quant_pack_4bit_weight(weight, scales_and_zeros, bias, groupsize, in_features, out_features)
```
Input parameters should include:
in_features and out_features (the same as the Linear layer’s corresponding parameters).
4. Perform Dynamic Quantized Matrix Multiplication:
Use torch.ops.aten._dyn_quant_matmul_4bit to perform matrix multiplication with quantized weights.
```python
output = torch.ops.aten._dyn_quant_matmul_4bit(input, packed_weights, groupsize, in_features, out_features)
```
Inputs required include:
The input tensor, packed_weights , groupsize, and the in_features and out_features.
API Usage: https://github.com/pytorch/pytorch/issues/143289
Model Perf :
7B Transformer model:
Prefill : 340 t/s
Decode : 40 t/s
2B Transformer model
Prefill : 747 t/s
Decode : 80 t/s
Tests:
python test/test_linalg.py -k test__dyn_quant_pack_4bit_weight
Ran 1 test in 0.016s
OK
python test/test_linalg.py -k test__dyn_quant_matmul_4bit
Ran 8 tests in 0.077s
OK
python test/test_linalg.py -k test_compile_dyn_quant_matmul_4bit
Ran 8 tests in 11.454s
Change-Id: Ia1672bad5e6ec94e64d8bb1971395d60f4b3a452
Fixes #ISSUE_NUMBER
Pull Request resolved: https://github.com/pytorch/pytorch/pull/134124
Approved by: https://github.com/digantdesai, https://github.com/malfet
Description:
1. Quantize Linear Layer Weights to 4-bits:
Quantize the weights of the Linear layer to 4 bits, using symmetric quantization.
Pack two 4-bit weights into one uint8 container.
Choose a quantization scheme (channel-wise or group-wise), with the group size being a multiple of 32.
2. Prepare Quantized Weights, Scales, and Optional Bias:
After quantizing, obtain the quantized_weights, scales, and groupsize.
If the original Linear layer has a bias, prepare it as well.
3. Pack the Weights Efficiently:
Use torch.ops.aten._dyn_quant_pack_4bit_weight to optimally pack the weights, scales, and optional bias.
```python
packed_weights = torch.ops.aten._dyn_quant_pack_4bit_weight(weight, scales_and_zeros, bias, groupsize, in_features, out_features)
```
Input parameters should include:
in_features and out_features (the same as the Linear layer’s corresponding parameters).
4. Perform Dynamic Quantized Matrix Multiplication:
Use torch.ops.aten._dyn_quant_matmul_4bit to perform matrix multiplication with quantized weights.
```python
output = torch.ops.aten._dyn_quant_matmul_4bit(input, packed_weights, groupsize, in_features, out_features)
```
Inputs required include:
The input tensor, packed_weights , groupsize, and the in_features and out_features.
API Usage: https://github.com/pytorch/pytorch/issues/143289
Model Perf :
7B Transformer model:
Prefill : 340 t/s
Decode : 40 t/s
2B Transformer model
Prefill : 747 t/s
Decode : 80 t/s
Tests:
python test/test_linalg.py -k test__dyn_quant_pack_4bit_weight
Ran 1 test in 0.016s
OK
python test/test_linalg.py -k test__dyn_quant_matmul_4bit
Ran 8 tests in 0.077s
OK
python test/test_linalg.py -k test_compile_dyn_quant_matmul_4bit
Ran 8 tests in 11.454s
Change-Id: Ia1672bad5e6ec94e64d8bb1971395d60f4b3a452
Fixes #ISSUE_NUMBER
Pull Request resolved: https://github.com/pytorch/pytorch/pull/134124
Approved by: https://github.com/digantdesai, https://github.com/malfet
We added an is_export flag under torch.compiler.is_exporting. This comes handy when we try to do some special logic in user-level and system-level (e.g. in upper of the stack).
In increasing-scope:
- `_is_fx_tracing` is set to True when we use under symbolic_trace or make_fx.
- `is_exporting` is set to True when we're doing strict or non-strict export, which internally has a step that calls make_fx and set _is_fx_tracing to be True.
- `is_compiling` is set to True when we're either doing strict, non-strict export or torch.compile.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/142425
Approved by: https://github.com/avikchaudhuri
Replaces https://github.com/ROCm/pytorch/pull/1592
This PR contains the initial implementation of SDPA with composable_kernel backend. The CK path can be forced by simply calling `torch.backends.cuda.preferred_rocm_fa_library("ck")`. Similarly, you can force the incumbent aotriton implementation by passing in "aotriton" or "default". As you'd expect, not setting this option will result in aotriton to be used as the backend. In the case of CK, if pytorch deems flash attention usable, then it will use the CK path in all the same places aotriton would have been used. This PR makes no changes to the heuristics which select which attention scheme to use (i.e. flash attention vs memory efficient attention vs math etc etc). It only gets called when flash attention is both enabled (via `USE_FLASH_ATTENTION`) and is selected at runtime by the existing heuristics.
Files located in pytorch/aten/src/ATen/native/transformers/hip/flash_attn/ck/mha* have been pulled from https://github.com/Dao-AILab/flash-attention courtesy of @tridao's hard work who is the co-author
NOTE: In order to use this backend, the user MUST set USE_CK_FLASH_ATTENTION=1 in their environment when they build PyTorch.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/138947
Approved by: https://github.com/pruthvistony, https://github.com/xw285cornell, https://github.com/leitian
Co-authored-by: Xiaodong Wang <xw285@cornell.edu>
TunableOp's rotating buffer feature cannot be properly tested because the environment variable that controls this feature is sticky. A Python API is introduced to modify this value.
Additional items in this PR:
* UT for rotating buffer API
* Clean up UTs that were setting the rotating buffer via the environment variable
* Align behavior of environment variable and Python API when a negative value (< 0) is set.
* Update documentation.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/143172
Approved by: https://github.com/jeffdaily
Summary:
As title
This is a BC-breaking change because graph produced by "capture_pre_autograd_graph" cannot be input to quantization anymore. But this is ok, since this API is deprecated for a while and is going to be deleted. We have removed all call sites of it.
We remove the deprecated API references in code, docs, and tests.
We also removed two tests that specific to capture_pre_autograd_graph API.
Test Plan: CI
Differential Revision: D65351887
Pull Request resolved: https://github.com/pytorch/pytorch/pull/139505
Approved by: https://github.com/tugsbayasgalan, https://github.com/andrewor14, https://github.com/jerryzh168
### Motivation:
As design illustrated in Intel distributed support RFC https://github.com/pytorch/pytorch/issues/141741, two sections are needed to enable intel distributed backend (`XCCL`) support in PyTorch.
1. Intel GPU distributed Backend integration in PyTorch `torch-xpu-ops`.
2. **Intel distributed Backend register in PyTorch distributed package**. This PR is to contribute section 2 change.
### Example:
Here is a simple example of using spawn to launch XCCL backend and perform allreduce on XPU tensors.
```
import os
import torch
import torch.distributed as dist
import torch.multiprocessing as mp
def setup(rank, world_size):
os.environ['MASTER_ADDR'] = 'localhost'
os.environ['MASTER_PORT'] = '29500'
dist.init_process_group(rank=rank, world_size=world_size)
def cleanup():
dist.destroy_process_group()
def run_allreduce(rank, world_size):
setup(rank, world_size)
device = torch.device('xpu:{}'.format(rank))
x = torch.randn([2, 2], device=device)
dist.all_reduce(x)
cleanup()
if __name__ == '__main__':
world_size = 2
mp.spawn(run_allreduce, args=(world_size,), nprocs=world_size, join=True)
```
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141856
Approved by: https://github.com/kwen2501, https://github.com/gujinghui, https://github.com/albanD
Summary:
This diff refactors the code for the "torch.mtia.memory_stats" API to maintain the same file hierarchy as its CUDA counterpart:
- All device memory APIs are now located under ".../mtia/memory.py".
- Device memory APIs can be accessed using either "torch.mtia.XYZ" or "torch.mtia.memory.XYZ".
Test Plan:
Passed a local unit test: `buck run //mtia/host_runtime/torch_mtia/tests:test_torch_mtia_api`
```
Ran 14 tests in 16.657s
OK
I1127 11:06:06.505201 2133030 afg_bindings.cpp:943] afg-aten::mul.out-dtype_Float-bBtLGD6Y executable has been unloaded
I1127 11:06:06.506654 2133030 afg_bindings.cpp:943] afg-add-dtype_Float-fa37JncC executable has been unloaded
W1127 11:06:08.731138 2133030 HazptrDomain.h:148] Tagged objects remain. This may indicate a higher-level leak of object(s) that use hazptr_obj_cohort.
```
Differential Revision: D66549179
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141723
Approved by: https://github.com/nautsimon
**Overview**
This PR moves `torch/distributed/_composable/fsdp` to `torch/distributed/fsdp/_fully_shard` and makes public APIs available from `torch.distributed.fsdp`, e.g.:
```
from torch.distributed.fsdp import fully_shard
```
This is targeting 2.6 release. I rewrote some of the documentation with (hopefully) improved phrasing.
**Changes for Reland**
- Preserved the public objects from `torch/distributed/_composable/fsdp/fully_shard.py` so that the import path still works internally
- Added a unit test that we can do `from torch.distributed._composable.fsdp.fully_shard import FSDPModule`
Differential Revision: [D66890387](https://our.internmc.facebook.com/intern/diff/D66890387)
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141868
Approved by: https://github.com/kwen2501, https://github.com/wconstab, https://github.com/weifengpy, https://github.com/fegin, https://github.com/XilunWu
Co-authored-by: Svetlana Karslioglu <svekars@meta.com>
Flatten the inputs to minifier so AOTI Minifier can handle unflattened inputs and kwargs.
- flatten the inputs in minifier
- changed the "load_and_run" part of the minifier verification to run on the flattened inputs.
- refactored code to keep `torch._inductor.__init__.py` clean
- update doc
`python test/inductor/test_minifier.py`
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141156
Approved by: https://github.com/desertfire
**Overview**
This PR moves `torch/distributed/_composable/fsdp` to `torch/distributed/fsdp/_fully_shard` and makes public APIs available from `torch.distributed.fsdp`, e.g.:
```
from torch.distributed.fsdp import fully_shard
```
This is targeting 2.6 release. I rewrote some of the documentation with (hopefully) improved phrasing.
**Follow-Ups**
- [x] Add some explanation in the docs about FSDP1 vs. FSDP2
- [ ] Move unit tests from `test/distributed/_composable/fsdp` to `test/distributed/fsdp/fully_shard/`
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141868
Approved by: https://github.com/kwen2501, https://github.com/wconstab, https://github.com/weifengpy
Co-authored-by: Svetlana Karslioglu <svekars@meta.com>
We've been using it privately for half a year and everything's been
good. This PR:
1. Makes torch.library.triton_op public
2. Renames capture_triton -> wrap_triton. We got feedback that no one
knew what "capture triton" does.
3. Makes torch.library.wrap_triton public.
triton_op is used to construct a Python custom operator that may call 1+
triton kernels. Each of those triton kernels must be annotated with
wrap_triton.
Test Plan:
- existing tests
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141880
Approved by: https://github.com/albanD
ghstack dependencies: #141894
Certain `cpp_wrapper`-enabled tests were OOM-ing in the CI pipeline, with error messages suggesting that sufficient memory was accessible. This ultimately resulted from an internal memory limitation that was not queryable in the API. This PR adds querying for that limit.
Additionally, the failing tests had incorrect memory availability checks, and are updated with measured memory requirements.
Pull Request resolved: https://github.com/pytorch/pytorch/pull/140620
Approved by: https://github.com/malfet, https://github.com/eqy
ghstack dependencies: #141367
So I found this utility by accident, trying to find how many html files we have in the repo so I could convert them to markdown
Turns out we package some html and js files in pytorch to visualize torchscript models. This seems kinda strange, probably shouldn't be in core, I removed the tests I could find. Maybe some internal tests will break but considering torchscript is being superseded might make sense to do this
Last time there was a meaningful update to the test for this file was about 2 years ago by @digantdesai since then it's a bunch of routine upgrades
It seems like this package is unused https://github.com/search?type=code&auto_enroll=true&q=torch.utils.model_dump&p=1 I skimmed through 5 pages of these and the only time this shows up in code search is when someone is either cloning pytorch or checking in their venv into github
Pull Request resolved: https://github.com/pytorch/pytorch/pull/141540
Approved by: https://github.com/malfet
