Run PyTorch code on TPU slices (original) (raw)

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Before running the commands in this document, make sure you have followed the instructions in Set up an account and Cloud TPU project.

After you have your PyTorch code running on a single TPU VM, you can scale up your code by running it on a TPU slice. TPU slices are multiple TPU boards connected to each other over dedicated high-speed network connections. This document is an introduction to running PyTorch code on TPU slices.

Create a Cloud TPU slice

1. Define some environment variables to make the commands easier to use.
   export PROJECT_ID=your-project
   export ACCELERATOR_TYPE=v5p-32
   export ZONE=europe-west4-b
   export RUNTIME_VERSION=v2-alpha-tpuv5
   export TPU_NAME=your-tpu-name

Environment variable descriptions

PROJECT_ID
Your Google Cloud project ID.
ACCELERATOR_TYPE
The accelerator type specifies the version and size of the Cloud TPU you want to create. For more information about supported accelerator types for each TPU version, see TPU versions.
ZONE
The zone where you plan to create your Cloud TPU.
RUNTIME_VERSION
The Cloud TPU software version.
TPU_NAME
The user-assigned name for your Cloud TPU. 2. Create your TPU VM by running the following command:
$ gcloud compute tpus tpu-vm create ${TPU_NAME} \
--zone=${ZONE} \
--project=${PROJECT_ID} \
--accelerator-type=${ACCELERATOR_TYPE} \
--version=${RUNTIME_VERSION}

Install PyTorch/XLA on your slice

After creating the TPU slice, you must install PyTorch on all hosts in the TPU slice. You can do this using the gcloud compute tpus tpu-vm ssh command using the --worker=all and --commamnd parameters.

If the following commands fail due to an SSH connection error, it might be because the TPU VMs don't have external IP addresses. To access a TPU VM without an external IP address, follow the instructions in Connect to a TPU VM without a public IP address.

1. Install PyTorch/XLA on all TPU VM workers:
   gcloud compute tpus tpu-vm ssh ${TPU_NAME} \
   --zone=${ZONE} \
   --project=${PROJECT_ID} \
   --worker=all \
   --command="pip install torch=2.5.0 torch_xla[tpu]=2.5.0 torchvision -f https://storage.googleapis.com/libtpu-releases/index.html"
2. Clone XLA on all TPU VM workers:
   gcloud compute tpus tpu-vm ssh ${TPU_NAME} \
   --zone=${ZONE} \
   --project=${PROJECT_ID} \
   --worker=all \
   --command="git clone https://github.com/pytorch/xla.git"

Run a training script on your TPU slice

Run the training script on all workers. The training script uses a Single Program Multiple Data (SPMD) sharding strategy. For more information on SPMD, seePyTorch/XLA SPMD User Guide.

gcloud compute tpus tpu-vm ssh ${TPU_NAME}
--zone=${ZONE}
--project=${PROJECT_ID}
--worker=all
--command="PJRT_DEVICE=TPU python3 ~/xla/test/spmd/test_train_spmd_imagenet.py
--fake_data
--model=resnet50
--num_epochs=1 2>&1 | tee ~/logs.txt"

The training takes about 15 minutes. When it completes, you should see a message similar to the following:

Epoch 1 test end 23:49:15, Accuracy=100.00 10.164.0.11 [0] Max Accuracy: 100.00%

Clean up

When you are done with your TPU VM, follow these steps to clean up your resources.

1. Disconnect from the Cloud TPU instance, if you have not already done so:
   (vm)$ exit
   Your prompt should now be username@projectname, showing you are in the Cloud Shell.
2. Delete your Cloud TPU resources.
   $ gcloud compute tpus tpu-vm delete \
   --zone=${ZONE}
3. Verify the resources have been deleted by running gcloud compute tpus tpu-vm list. The deletion might take several minutes. The output from the following command shouldn't include any of the resources created in this tutorial:
   $ gcloud compute tpus tpu-vm list --zone=${ZONE}