GPU Support¶

GPUs are critical for many machine learning applications. Ray enables remote functions and actors to specify their GPU requirements in the ray.remote decorator.

Starting Ray with GPUs¶

Ray will automatically detect the number of GPUs available on a machine. If you need to, you can override this by specifying ray.init(num_gpus=N) or ray start --num-gpus=N.

Note: There is nothing preventing you from passing in a larger value of num_gpus than the true number of GPUs on the machine. In this case, Ray will act as if the machine has the number of GPUs you specified for the purposes of scheduling tasks that require GPUs. Trouble will only occur if those tasks attempt to actually use GPUs that don’t exist.

Using Remote Functions with GPUs¶

If a remote function requires GPUs, indicate the number of required GPUs in the remote decorator.

import os

def use_gpu():
    print("ray.get_gpu_ids(): {}".format(ray.get_gpu_ids()))
    print("CUDA_VISIBLE_DEVICES: {}".format(os.environ["CUDA_VISIBLE_DEVICES"]))

Inside of the remote function, a call to ray.get_gpu_ids() will return a list of strings indicating which GPUs the remote function is allowed to use. Typically, it is not necessary to call ray.get_gpu_ids() because Ray will automatically set the CUDA_VISIBLE_DEVICES environment variable.

Note: The function use_gpu defined above doesn’t actually use any GPUs. Ray will schedule it on a machine which has at least one GPU, and will reserve one GPU for it while it is being executed, however it is up to the function to actually make use of the GPU. This is typically done through an external library like TensorFlow. Here is an example that actually uses GPUs. Note that for this example to work, you will need to install the GPU version of TensorFlow.

import tensorflow as tf

def use_gpu():
    # Create a TensorFlow session. TensorFlow will restrict itself to use the
    # GPUs specified by the CUDA_VISIBLE_DEVICES environment variable.

Note: It is certainly possible for the person implementing use_gpu to ignore ray.get_gpu_ids and to use all of the GPUs on the machine. Ray does not prevent this from happening, and this can lead to too many workers using the same GPU at the same time. However, Ray does automatically set the CUDA_VISIBLE_DEVICES environment variable, which will restrict the GPUs used by most deep learning frameworks.

Fractional GPUs¶

If you want two tasks to share the same GPU, then the tasks can each request half (or some other fraction) of a GPU.

import ray
import time

ray.init(num_cpus=4, num_gpus=1)

def f():

# The four tasks created here can execute concurrently.
ray.get([f.remote() for _ in range(4)])

It is the developer’s responsibility to make sure that the individual tasks don’t use more than their share of the GPU memory. TensorFlow can be configured to limit its memory usage.

Workers not Releasing GPU Resources¶

Note: Currently, when a worker executes a task that uses a GPU (e.g., through TensorFlow), the task may allocate memory on the GPU and may not release it when the task finishes executing. This can lead to problems the next time a task tries to use the same GPU. You can address this by setting max_calls=1 in the remote decorator so that the worker automatically exits after executing the task (thereby releasing the GPU resources).

import tensorflow as tf

@ray.remote(num_gpus=1, max_calls=1)
def leak_gpus():
    # This task will allocate memory on the GPU and then never release it, so
    # we include the max_calls argument to kill the worker and release the
    # resources.
    sess = tf.Session()