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main_amp.py
is based on https://github.com/pytorch/examples/tree/master/dcgan.
It implements Automatic Mixed Precision (Amp) training of the DCGAN example for different datasets. Command-line flags forwarded to amp.initialize
are used to easily manipulate and switch between various pure and mixed precision "optimization levels" or opt_level
s. For a detailed explanation of opt_level
s, see the updated API guide.
We introduce these changes to the PyTorch DCGAN example as described in the Multiple models/optimizers/losses section of the documentation::
# Added after models and optimizers construction
[netD, netG], [optimizerD, optimizerG] = amp.initialize(
[netD, netG], [optimizerD, optimizerG], opt_level=opt.opt_level, num_losses=3)
...
# loss.backward() changed to:
with amp.scale_loss(errD_real, optimizerD, loss_id=0) as errD_real_scaled:
errD_real_scaled.backward()
...
with amp.scale_loss(errD_fake, optimizerD, loss_id=1) as errD_fake_scaled:
errD_fake_scaled.backward()
...
with amp.scale_loss(errG, optimizerG, loss_id=2) as errG_scaled:
errG_scaled.backward()
Note that we use different loss_scalers
for each computed loss.
Using a separate loss scaler per loss is optional, not required.
To improve the numerical stability, we swapped nn.Sigmoid() + nn.BCELoss()
to nn.BCEWithLogitsLoss()
.
With the new Amp API you never need to explicitly convert your model, or the input data, to half().
"Pure FP32" training:
$ python main_amp.py --opt_level O0
Recommended mixed precision training:
$ python main_amp.py --opt_level O1
Have a look at the original DCGAN example for more information about the used arguments.
To enable mixed precision training, we introduce the --opt_level
argument.