import unittest import apex import torch class TestFusedAdagrad(unittest.TestCase): def setUp(self, max_abs_diff=1e-6, max_rel_diff=1, iters=7): self.max_abs_diff = max_abs_diff self.max_rel_diff = max_rel_diff self.iters = iters torch.cuda.manual_seed(9876) def tearDown(self): pass def gen_param_optim(self, tensors, adagrad_option): ref_param = [] tst_param = [] for tensor in tensors: ref_param.append(torch.nn.Parameter(tensor.clone())) tst_param.append(torch.nn.Parameter(tensor.clone())) ref_optim = torch.optim.Adagrad(ref_param, **adagrad_option) tst_optim = apex.optimizers.FusedAdagrad(tst_param, **adagrad_option) return (ref_param, tst_param, ref_optim, tst_optim) def gen_grad(self, ref_param, tst_param): for p_ref, p_tst in zip(ref_param, tst_param): p_ref.grad = torch.rand_like(p_ref) p_tst.grad = p_ref.grad def gen_mixed_grad(self, ref_param, tst_param, scale=1.0): half_grads = [] for p_ref, _ in zip(ref_param, tst_param): half_grads.append(torch.rand_like(p_ref).half()) p_ref.grad = half_grads[-1].float() / scale return half_grads def get_max_diff(self, ref_param, tst_param): max_abs_diff = max_rel_diff = 0 for p_ref, p_tst in zip(ref_param, tst_param): max_abs_diff_p = (p_ref - p_tst).abs().max().item() max_rel_diff_p = ((p_ref - p_tst) / p_ref).abs().max().item() if max_abs_diff_p > max_abs_diff: max_abs_diff = max_abs_diff_p if max_rel_diff_p > max_rel_diff: max_rel_diff = max_rel_diff_p return max_abs_diff, max_rel_diff def gen_single_type_test(self, param_type=torch.float): nelem = 278011 adagrad_option = {"lr": 5e-4, "eps": 1e-08, "weight_decay": 1.0e-5} tensor = torch.rand(nelem, dtype=param_type, device="cuda") ref_param, tst_param, ref_optim, tst_optim = self.gen_param_optim( [tensor], adagrad_option ) for _ in range(self.iters): self.gen_grad(ref_param, tst_param) ref_optim.step() tst_optim.step() max_abs_diff, max_rel_diff = self.get_max_diff(ref_param, tst_param) self.assertLessEqual(max_abs_diff, self.max_abs_diff) self.assertLessEqual(max_rel_diff, self.max_rel_diff) def test_float(self): self.gen_single_type_test(param_type=torch.float) @unittest.skip("PyTorch optimizer is not numerically correct for fp16") def test_half(self): self.gen_single_type_test(param_type=torch.float16) def test_multi_params(self): sizes = [[4096, 1024], [4096], [4096, 2048], [32320, 1024], [1]] adagrad_option = {"lr": 5e-4, "eps": 1e-08, "weight_decay": 0} tensors = [] for size in sizes: tensors.append(torch.rand(size, dtype=torch.float, device="cuda")) ref_param, tst_param, ref_optim, tst_optim = self.gen_param_optim( tensors, adagrad_option ) for _ in range(self.iters): self.gen_grad(ref_param, tst_param) ref_optim.step() tst_optim.step() max_abs_diff, max_rel_diff = self.get_max_diff(ref_param, tst_param) self.assertLessEqual(max_abs_diff, self.max_abs_diff) self.assertLessEqual(max_rel_diff, self.max_rel_diff) def test_adagrad_option(self): nelem = 1 adagrad_option = {"lr": 0.01, "eps": 3e-06, "weight_decay": 0} tensor = torch.rand(nelem, dtype=torch.float, device="cuda") ref_param, tst_param, ref_optim, tst_optim = self.gen_param_optim( [tensor], adagrad_option ) for _ in range(self.iters): self.gen_grad(ref_param, tst_param) ref_optim.step() tst_optim.step() max_abs_diff, max_rel_diff = self.get_max_diff(ref_param, tst_param) self.assertLessEqual(max_abs_diff, self.max_abs_diff) self.assertLessEqual(max_rel_diff, self.max_rel_diff)