I wanted a way with minimal amount of code such that everything in my script runs automatically in GPU (or the standard way pytorch did it). Something like:

torch.everything_to_gpu()

and then it "just works". I don't care about manually putting things in GPU etc. I just want it to do its stuff automatically (sort of the way tensorflow does it?). I did see a related question in the pytorch forum but it doesn't seem that they address my issue directly.

Right now it seems to me (from the examples I've been through) that one can do something like what I want by specifying a simple type to every torch Variable/tensor as follows:

dtype = torch.FloatTensor
# dtype = torch.cuda.FloatTensor # Uncomment this to run on GPU

so as long as every variable/tensor is takes dtype somehow e.g.

Variable(torch.FloatTensor(x).type(dtype), requires_grad=False)

then we can use that single variable to control what is in GPU and not. The issue that I am encountering that makes things ambiguous to me if such a single command exists is when using torch.nn.Module package. For example when using

l = torch.nn.Linear(D_in,D_out)

or costume NN classes (that inherit from it). Such cases seems that the best way to deal with it is to use the:

torch.nn.Module.cuda(device_id=device_id) # device_id = None is the default

function/method. However this seems to suggest to me that there might be other hidden functions that I might not be aware of to make sure that everything does indeed run in GPU.

Thus: Is there a centralized way to make sure everything runs in some (ideally automatically) assigned GPU?


In reflection I think one thing that is confusing me is that I don't understand the model of how pytorch carriers on computations on GPU. For example, I am fairly certain tht the way MATLAB works is that if at least one thing is on GPU then all further computations will be on GPU. So I guess, I am wondering, is this how pytorch works? If possible, how does it compare to TensorFlow?

I think that there is no such thing.

From what I've seen people usually create classes that:
i) inherit from nn.Module.
ii) have an attribute describing model parameters (e.g. self.opt);
iii) set each variable/parameters as attributes (e.g. self.my_var)
iv) then call .cuda() on it if a kind of -use_gpu parameter is set.

I also use a maybe_cuda(variable) function inside my classes in order to create variable easier (pass a Variable, return variable.cuda() if opt.cuda is True.

In fact, I did something like this (may not be perfect, but found it practical):

class MyModule(nn.Module):
    def __init__(self, opt):
        super(MyModule, self).__init__()
        self.opt = opt

    def maybe_cuda(self, variable):
        if self.opt.cuda:
            return variable.cuda()
        return variable

class Model(MyModule):
    def __init__(self, opt, other_arg):
        super(Model, self).__init__(opt)

        self.linear = nn.Linear(opt.size1, opt.size2)
        self.W_out = nn.Parameter(_____)

    def forward(self, ____):
        # create a variable, put it on GPU if possible
        my_var = self.maybe_cuda(Variable(torch.zeros(___)))
  • do u do the dtype = torch.cuda.FloatTensor trick? – Charlie Parker Aug 8 '17 at 22:17
  • I don't. I does not really solve the problem. what makes maybe_cuda usefull is that you can pass it any kind of tensor (FloatTensor, LongTensor, ByteTensor etc) or Variable. Both implements .cuda(). In the other hand, using dtype as you said requires to i) have a global dtype variable or pass it everywhere, ii) does not solve the problem in general i.e. for other types – pltrdy Aug 10 '17 at 8:59
  • what I guess Im confused is that if at least one tensor has been specified as living in GPU does it mean that every other future tensor will also live GPU automatically? This is how MATLAB I believe works but I don't understand what the model for GPU computation is in pytorch (or how it compares to other popular frameworks like TensorFlow). – Charlie Parker Aug 10 '17 at 18:46

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