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# Copyright (c) Facebook, Inc. and its affiliates.
#
# This source code is licensed under the MIT license found in the
# LICENSE file in the root directory of this source tree.
import argparse
from multiprocessing import Manager
import random
import unittest
import torch
import torch.nn as nn
from fairseq import distributed_utils, optim
class Model(nn.Module):
def __init__(self, input_size, output_size):
super(Model, self).__init__()
self.fc = nn.Linear(input_size, output_size)
def forward(self, input):
output = self.fc(input)
return output
def setup_model_loss_criterion(args, rank, is_cuda):
"""
setup model, criterion and optimizer based on input args
"""
args.distributed_rank = rank
distributed_utils.distributed_init(args)
torch.manual_seed(1)
model = Model(args.input_size, args.nb_classes)
loss_fn = nn.CrossEntropyLoss()
if is_cuda:
model = model.cuda()
loss_fn = loss_fn.cuda()
optimizer = optim.sgd.SGD(args, model.parameters())
optimizer = optim.FairseqBMUF(args, optimizer)
return model, loss_fn, optimizer
def train_step(input, target, model, loss_fn, optimizer):
"""Do forward, backward and parameter update."""
model.train()
output = model(input)
loss = loss_fn(output, target)
optimizer.backward(loss)
optimizer.step()
def single_gpu_training(args, rank, iterations, shared_results):
is_cuda = torch.cuda.is_available()
if is_cuda:
torch.cuda.set_device(rank)
model, loss_fn, optimizer = setup_model_loss_criterion(args, rank, is_cuda)
for _ in range(iterations):
input = torch.randn(1, args.input_size)
target = torch.empty(args.batch_size, dtype=torch.long).random_(args.nb_classes)
if is_cuda:
input = input.cuda()
target = target.cuda()
train_step(input, target, model, loss_fn, optimizer)
results = []
for param in model.parameters():
if len(results) == 0:
results = param.flatten().cpu().data
else:
results = torch.cat((results, param.flatten().cpu().data), 0)
shared_results[rank] = results
def setup_args():
args = argparse.Namespace()
args.global_sync_iter = 20
args.block_momentum = 0.875
args.block_lr = 0.5
args.input_size = 5
args.nb_classes = 2
args.batch_size = 1
args.lr = [1e-3]
args.momentum = 0
args.weight_decay = 0
args.warmup_iterations = 0
args.use_nbm = True
args.average_sync = True
args.global_sync_iter = 1
args.distributed_backend = "gloo"
args.distributed_world_size = 2
port = random.randint(10000, 20000)
args.distributed_init_method = "tcp://localhost:{port}".format(port=port)
args.distributed_init_host = "localhost"
args.distributed_port = port + 1
args.local_world_size = args.distributed_world_size
return args
class TestBMUF(unittest.TestCase):
def bmuf_process(self, args, iterations):
processes = []
results = Manager().dict()
ctx = torch.multiprocessing.get_context("spawn")
for rank in range(args.distributed_world_size):
p = ctx.Process(
target=single_gpu_training, args=(args, rank, iterations, results)
)
p.start()
processes.append(p)
for p in processes:
p.join()
# Make sure params in both machines are same
assert len(results) == 2
self.assertAlmostEqual(results[0], results[1])
def test_bmuf_sync(self):
# Train model for 1 iteration and do bmuf sync without doing warmup
args = setup_args()
iterations = 1
self.bmuf_process(args, iterations)
def test_warmup_sync(self):
# Train model for 20 iteration and do warmup sync without doing bmuf sync
args = setup_args()
args.warmup_iterations = 20
iterations = 20
self.bmuf_process(args, iterations)
def test_warmup_sync_bmuf_sync(self):
# Train model for 25 iteration and do warmup sync after 20 iteration
# and bmuf sync after 25 iteration
args = setup_args()
args.warmup_iterations = 20
args.global_sync_iter = 5
iterations = 25
self.bmuf_process(args, iterations)
def assertAlmostEqual(self, t1, t2):
self.assertEqual(t1.size(), t2.size(), "size mismatch")
self.assertLess((t1 - t2).abs().max(), 1e-4)
if __name__ == '__main__':
unittest.main()
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