| from typing import List, Optional, Tuple |
|
|
| import torch |
| import torch.distributed as dist |
|
|
|
|
| def _preprocess_impl( |
| expert_mask: torch.Tensor, |
| num_experts: int, |
| ep_group: dist.ProcessGroup, |
| ) -> Tuple[List[int], List[int], torch.Tensor, torch.Tensor]: |
| ep_size = ep_group.size() |
| num_local_experts = num_experts // ep_size |
| rank = dist.get_rank(ep_group) |
| num_local_tokens_per_expert = expert_mask.sum(dim=(1, 2)) |
|
|
| input_splits = num_local_tokens_per_expert.reshape(ep_size, num_local_experts).sum(dim=1).tolist() |
|
|
| num_global_tokens_per_expert = torch.empty( |
| ep_size, |
| num_local_tokens_per_expert.size(0), |
| dtype=num_local_tokens_per_expert.dtype, |
| device=num_local_tokens_per_expert.device, |
| ) |
| dist.all_gather_into_tensor(num_global_tokens_per_expert, num_local_tokens_per_expert, group=ep_group) |
|
|
| start_idx, end_idx = rank * num_local_experts, (rank + 1) * num_local_experts |
| num_global_tokens_per_local_expert = num_global_tokens_per_expert[:, start_idx:end_idx].contiguous() |
|
|
| output_splits = num_global_tokens_per_local_expert.sum(dim=1).tolist() |
|
|
| num_global_sum_tokens_per_local_expert = num_global_tokens_per_local_expert.sum(dim=0).to( |
| torch.device("cpu"), non_blocking=True |
| ) |
| num_global_tokens_per_local_expert = num_global_tokens_per_local_expert.view(-1, num_local_experts).to( |
| torch.device("cpu"), non_blocking=True |
| ) |
|
|
| return input_splits, output_splits, num_global_tokens_per_local_expert, num_global_sum_tokens_per_local_expert |
|
|
|
|
| def solution( |
| expert_mask: torch.Tensor, |
| num_experts: int, |
| group: Optional[dist.ProcessGroup] = None, |
| ) -> Tuple[List[int], List[int], torch.Tensor, torch.Tensor]: |
| group = group or dist.group.WORLD |
| return _preprocess_impl(expert_mask=expert_mask, num_experts=num_experts, ep_group=group) |
|
|
