Run a calculation on a Cloud TPU VM using PyTorch
This quickstart shows you how to create a Cloud TPU, install PyTorch and run a simple calculation on a Cloud TPU. For a more in depth tutorial showing you how to train a model on a Cloud TPU see one of the Cloud TPU PyTorch Tutorials.
Before you begin
Before you follow this quickstart, you must create a Google Cloud Platform
account, install the Google Cloud CLI. and configure the gcloud
command.
For more information, see
Set up an account and a Cloud TPU project.
Create a Cloud TPU with gcloud
To create a TPU VM in the default user project, network, and zone run:
$ gcloud compute tpus tpu-vm create tpu-name \ --zone=us-central1-a \ --accelerator-type=v3-8 \ --version=tpu-ubuntu2204-base
Command flag descriptions
zone
- The zone where you plan to create your Cloud TPU.
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.
version
- The Cloud TPU software version.
While creating your TPU, you can pass the additional --network
and
--subnetwork
flags if
you want to specify the default network and subnetwork.
If you do not want to use the default network, you must pass the
--network
flag. The --subnetwork
flag is optional and can be used to
specify a default subnetwork for whatever network you are using (default or
user-specified). See the gcloud
API reference page for details on these flags.
Connect to your Cloud TPU VM
$ gcloud compute tpus tpu-vm ssh tpu-name --zone=us-central1-a
Install PyTorch/XLA on your TPU VM
(vm)$ pip install torch~=2.5.0 torch_xla[tpu]~=2.5.0 torchvision -f https://storage.googleapis.com/libtpu-releases/index.html
Set TPU runtime configuration
Ensure that the PyTorch/XLA runtime uses the TPU.
(vm) $ export PJRT_DEVICE=TPU
Verify PyTorch can access TPUs
Create a file named
tpu-count.py
in the current directory and copy and paste the following script into it.import torch import torch_xla import torch_xla.core.xla_model as xm print(f'PyTorch can access {len(torch_xla.devices())} TPU cores')
Run the script:
(vm)$ python3 tpu-count.py
Output from the script shows the result of the computation:
PyTorch can access 8 TPU cores
Perform a basic calculation
Create a file named
tpu-test.py
in the current directory and copy and paste the following script into it.import torch import torch_xla.core.xla_model as xm dev = xm.xla_device() t1 = torch.randn(3,3,device=dev) t2 = torch.randn(3,3,device=dev) print(t1 + t2)
Run the script:
(vm)$ python3 tpu-test.py
Output from the script shows the result of the computation:
tensor([[-0.2121, 1.5589, -0.6951], [-0.7886, -0.2022, 0.9242], [ 0.8555, -1.8698, 1.4333]], device='xla:1')
Clean up
To avoid incurring charges to your Google Cloud account for the resources used on this page, follow these steps.
Disconnect from the Compute Engine instance, if you have not already done so:
(vm)$ exit
Your prompt should now be
username@projectname
, showing you are in the Cloud Shell.Delete your Cloud TPU.
$ gcloud compute tpus tpu-vm delete tpu-name \ --zone=us-central1-a
The output of this command should confirm that your TPU has been deleted.
What's next
Read more about Cloud TPU VMs: