[docs] MPS (#28016)

* mps docs

* toctree
This commit is contained in:
Steven Liu
2023-12-15 13:17:29 -08:00
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parent 0d63d17765
commit ebfdb9ca62
3 changed files with 44 additions and 66 deletions

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@@ -369,67 +369,6 @@ Pass `--fsdp "full shard"` along with following changes to be made in `--fsdp_co
- For size based auto wrap policy, please add `min_num_params` in the config file.
It specifies FSDP's minimum number of parameters for auto wrapping.
### Using Trainer for accelerated PyTorch Training on Mac
With PyTorch v1.12 release, developers and researchers can take advantage of Apple silicon GPUs for significantly faster model training.
This unlocks the ability to perform machine learning workflows like prototyping and fine-tuning locally, right on Mac.
Apple's Metal Performance Shaders (MPS) as a backend for PyTorch enables this and can be used via the new `"mps"` device.
This will map computational graphs and primitives on the MPS Graph framework and tuned kernels provided by MPS.
For more information please refer official documents [Introducing Accelerated PyTorch Training on Mac](https://pytorch.org/blog/introducing-accelerated-pytorch-training-on-mac/)
and [MPS BACKEND](https://pytorch.org/docs/stable/notes/mps.html).
<Tip warning={false}>
We strongly recommend to install PyTorch >= 1.13 (nightly version at the time of writing) on your MacOS machine.
It has major fixes related to model correctness and performance improvements for transformer based models.
Please refer to https://github.com/pytorch/pytorch/issues/82707 for more details.
</Tip>
**Benefits of Training and Inference using Apple Silicon Chips**
1. Enables users to train larger networks or batch sizes locally
2. Reduces data retrieval latency and provides the GPU with direct access to the full memory store due to unified memory architecture.
Therefore, improving end-to-end performance.
3. Reduces costs associated with cloud-based development or the need for additional local GPUs.
**Pre-requisites**: To install torch with mps support,
please follow this nice medium article [GPU-Acceleration Comes to PyTorch on M1 Macs](https://medium.com/towards-data-science/gpu-acceleration-comes-to-pytorch-on-m1-macs-195c399efcc1).
**Usage**:
`mps` device will be used by default if available similar to the way `cuda` device is used.
Therefore, no action from user is required.
For example, you can run the official Glue text classififcation task (from the root folder) using Apple Silicon GPU with below command:
```bash
export TASK_NAME=mrpc
python examples/pytorch/text-classification/run_glue.py \
--model_name_or_path bert-base-cased \
--task_name $TASK_NAME \
--do_train \
--do_eval \
--max_seq_length 128 \
--per_device_train_batch_size 32 \
--learning_rate 2e-5 \
--num_train_epochs 3 \
--output_dir /tmp/$TASK_NAME/ \
--overwrite_output_dir
```
**A few caveats to be aware of**
1. Some PyTorch operations have not been implemented in mps and will throw an error.
One way to get around that is to set the environment variable `PYTORCH_ENABLE_MPS_FALLBACK=1`,
which will fallback to CPU for these operations. It still throws a UserWarning however.
2. Distributed setups `gloo` and `nccl` are not working with `mps` device.
This means that currently only single GPU of `mps` device type can be used.
Finally, please, remember that, 🤗 `Trainer` only integrates MPS backend, therefore if you
have any problems or questions with regards to MPS backend usage, please,
file an issue with [PyTorch GitHub](https://github.com/pytorch/pytorch/issues).
Sections that were moved:
[ <a href="./deepspeed#deepspeed-trainer-integration">DeepSpeed</a><a id="deepspeed"></a>