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import os
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import warnings
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import pytest
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import torch
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import torch.distributed as dist
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import colossalai
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from colossalai.moe import SparseMLP
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from colossalai.moe.manager import MOE_MANAGER
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from colossalai.moe.utils import sync_moe_model_param
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from colossalai.tensor.moe_tensor.api import get_ep_group, get_ep_rank, get_ep_size, is_moe_tensor
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from colossalai.testing import assert_equal_in_group, rerun_if_address_is_in_use, spawn
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from colossalai.utils import get_current_device
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from tests.test_moe.moe_utils import MoeGradientHandler
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def sync_tp_from_local(tp_model: SparseMLP, local_model: SparseMLP, assert_grad_flag: bool = False) -> None:
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"""Sync the parameters of tp model from local model
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Args:
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tp_model (MoeModule)
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local_model (MoeModule)
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"""
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for (tp_name, tp_param), (local_name, local_param) in \
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zip(tp_model.named_parameters(), local_model.named_parameters()):
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assert tp_name == local_name
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if not is_moe_tensor(tp_param):
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if assert_grad_flag:
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assert torch.allclose(tp_param, local_param)
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assert torch.allclose(tp_param.grad, local_param.grad)
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else:
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tp_param.data.copy_(local_param.data)
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continue
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tp_rank = get_ep_rank(tp_param)
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tp_dim = [i for i, (d1, d2) in enumerate(zip(tp_param.shape, local_param.shape)) if d1 != d2][0]
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tp_slice = [slice(None)] * tp_dim + [
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slice(tp_param.shape[tp_dim] * tp_rank, tp_param.shape[tp_dim] * (tp_rank + 1))
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]
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if assert_grad_flag:
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assert torch.allclose(tp_param, local_param[tuple(tp_slice)])
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assert torch.allclose(tp_param.grad, local_param.grad[tuple(tp_slice)])
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else:
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tp_param.data.copy_(local_param[tuple(tp_slice)].data)
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def sync_tp_from_ep(tp_model: SparseMLP, ep_model: SparseMLP, assert_grad_flag: bool = False) -> None:
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"""Sync the parameters of tp model from ep model
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Args:
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tp_model (MoeModule)
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ep_model (MoeModule)
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"""
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for (tp_name, tp_param), (ep_name, ep_param) in \
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zip(tp_model.named_parameters(), ep_model.named_parameters()):
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assert tp_name == ep_name
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if not is_moe_tensor(tp_param):
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if assert_grad_flag:
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assert torch.allclose(tp_param, ep_param)
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assert torch.allclose(tp_param.grad, ep_param.grad)
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else:
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tp_param.data.copy_(ep_param.data)
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continue
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# gather param from ep model
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param_list = [torch.zeros_like(ep_param) for _ in range(get_ep_size(ep_param))]
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dist.all_gather(param_list, ep_param, group=get_ep_group(ep_param))
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all_param = torch.cat(param_list, dim=0)
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if assert_grad_flag:
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grad_list = [torch.zeros_like(ep_param) for _ in range(get_ep_size(ep_param))]
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dist.all_gather(grad_list, ep_param.grad, group=get_ep_group(ep_param))
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all_grad = torch.cat(grad_list, dim=0)
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# get tp param
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tp_dim = [i for i, (d1, d2) in enumerate(zip(tp_param.shape[1:], all_param.shape[1:])) if d1 != d2][0] + 1
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tp_rank = get_ep_rank(tp_param)
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tp_slice = [slice(None)] * tp_dim + [
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slice(tp_param.shape[tp_dim] * tp_rank, tp_param.shape[tp_dim] * (tp_rank + 1))
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]
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new_tp_param = all_param[tuple(tp_slice)]
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if assert_grad_flag:
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new_grad = all_grad[tuple(tp_slice)]
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if assert_grad_flag:
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assert torch.allclose(tp_param, new_tp_param)
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assert torch.allclose(tp_param.grad, new_grad)
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else:
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tp_param.data.copy_(new_tp_param.data)
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def sync_local_from_ep(local_model: SparseMLP, ep_model: SparseMLP, assert_grad_flag: bool = False) -> None:
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"""Sync the parameters of tp model from ep model
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Args:
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local_model (MoeModule)
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ep_model (MoeModule)
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"""
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for (local_name, local_param), (ep_name, ep_param) in \
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zip(local_model.named_parameters(), ep_model.named_parameters()):
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assert local_name == ep_name
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if "experts" not in local_name:
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if assert_grad_flag:
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assert torch.allclose(local_param, ep_param)
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assert torch.allclose(local_param.grad, ep_param.grad)
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else:
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local_param.data.copy_(ep_param.data)
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continue
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# gather param from ep model
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param_list = [torch.zeros_like(ep_param) for _ in range(get_ep_size(ep_param))]
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dist.all_gather(param_list, ep_param, group=get_ep_group(ep_param))
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all_param = torch.cat(param_list, dim=0)
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if assert_grad_flag:
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grad_list = [torch.zeros_like(ep_param) for _ in range(get_ep_size(ep_param))]
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dist.all_gather(grad_list, ep_param.grad, group=get_ep_group(ep_param))
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all_grad = torch.cat(grad_list, dim=0)
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if assert_grad_flag:
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assert torch.allclose(local_param, all_param)
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assert torch.allclose(local_param.grad, all_grad)
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else:
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local_param.data.copy_(all_param.data)
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def run_test(rank: int, world_size: int, port: int, num_experts: int, batch_size: int, dim: int, seed: int):
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assert batch_size % world_size == 0
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colossalai.launch(config=dict(), rank=rank, world_size=world_size, host="localhost", port=port, backend="nccl")
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MOE_MANAGER.__init__()
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MOE_MANAGER.setup(parallel=None)
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local_model = SparseMLP(num_experts=num_experts, hidden_size=dim, intermediate_size=dim * 2)
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MOE_MANAGER.__init__()
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MOE_MANAGER.setup(parallel="EP")
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os.environ["LOCAL_WORLD_SIZE"] = str(world_size)
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enable_hierarchical_comm = torch.__version__ >= "1.13.1"
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ep_model = SparseMLP(
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num_experts=num_experts,
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hidden_size=dim,
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intermediate_size=dim * 2,
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enable_hierarchical_comm=enable_hierarchical_comm
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)
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MOE_MANAGER.__init__()
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MOE_MANAGER.setup(parallel="TP")
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tp_model = SparseMLP(num_experts=num_experts, hidden_size=dim, intermediate_size=dim * 2)
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ep_model = ep_model.to(get_current_device())
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tp_model = tp_model.to(get_current_device())
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local_model = local_model.to(get_current_device())
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# sync ep param
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sync_moe_model_param(ep_model)
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dist_dict = MOE_MANAGER.parallel_info_dict
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assert_equal_in_group(ep_model.experts.wi.data, dist_dict[world_size].dp_group)
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assert_equal_in_group(ep_model.experts.wo.data, dist_dict[world_size].dp_group)
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ep_grad_handler = MoeGradientHandler(ep_model)
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# sync local param
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sync_local_from_ep(local_model, ep_model)
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# sync tp param
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sync_tp_from_ep(tp_model, ep_model)
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tp_grad_handler = MoeGradientHandler(tp_model)
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rank = dist.get_rank()
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torch.cuda.manual_seed(seed)
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input_data = torch.randn(batch_size, dim, device=get_current_device())
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micro_batch_size = batch_size // world_size
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index = rank * micro_batch_size
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# NOTE: ep & tp takes in sharded data for each process
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shard_data = input_data.detach()[index:index + micro_batch_size]
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out_local = local_model(input_data)
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MOE_MANAGER.reset_loss()
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out_tp = tp_model(shard_data)
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MOE_MANAGER.reset_loss()
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out_ep = ep_model(shard_data)
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MOE_MANAGER.reset_loss()
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assert torch.allclose(out_tp, out_ep, atol=1e-6), \
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f"Rank {rank} failed, max diff: {torch.max(torch.abs(out_tp - out_ep))}"
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try:
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out_local_slice = out_local[index:index + micro_batch_size]
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assert torch.allclose(out_ep, out_local_slice, atol=1e-6), \
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f"Rank {rank} failed, max diff: {torch.max(torch.abs(out_ep - out_local_slice))}"
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except AssertionError as e:
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"""
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e.g., in local model, tokens = 4, capacity = 2, experts = 2, topk = 1
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router yields [01] --> [0], [23] --> [1], this is valid as capacity is 2
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However, in ep mode, there are 2 separate routers dealing with sharded data.
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Assume router 0 handles token [01] and router 1 handles token [23].
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Note that for each router the capacity is only 1 !!!
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Thus, router 0 may yields [0] --> [0] or [1] --> [0], but not both.
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The same thing happens on router 1. And finally some tokens are dropped due to the sharded nature.
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"""
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warnings.warn(
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"EP & TP may result in different behavior from local model. "
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"Please check the comments for details."
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)
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out_local.mean().backward()
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out_tp.mean().backward()
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tp_grad_handler.handle_gradient()
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out_ep.mean().backward()
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ep_grad_handler.handle_gradient()
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assert_equal_in_group(ep_model.experts.wi.grad, dist_dict[world_size].dp_group)
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assert_equal_in_group(ep_model.experts.wo.grad, dist_dict[world_size].dp_group)
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sync_tp_from_ep(tp_model, ep_model, assert_grad_flag=True)
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try:
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sync_local_from_ep(local_model, ep_model, assert_grad_flag=True)
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except AssertionError as e:
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warnings.warn(
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"EP & TP may result in different behavior from local model. "
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"Please check the comments for details."
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)
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@pytest.mark.dist
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@pytest.mark.parametrize("num_experts", [4, 64])
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@pytest.mark.parametrize("batch_size", [16])
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@pytest.mark.parametrize("dim", [64])
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@pytest.mark.parametrize("seed", [42, 127])
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@rerun_if_address_is_in_use()
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def test_moe_ep_tp(num_experts: int, batch_size: int, dim: int, seed: int):
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spawn(run_test, 2, num_experts=num_experts, batch_size=batch_size, dim=dim, seed=seed)
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if __name__ == '__main__':
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test_moe_ep_tp(num_experts=8, batch_size=32, dim=32, seed=42)
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