| from __future__ import annotations |
|
|
| import torch |
| import torch.distributed as dist |
| import torch.nn.functional as F |
| from torch import Tensor |
|
|
|
|
| def _make_tp_fsdp_groups(n_tp: int, n_fsdp: int, rank: int): |
| tp_group = None |
| fsdp_group = None |
| for j in range(n_fsdp): |
| ranks = [j * n_tp + ii for ii in range(n_tp)] |
| g = dist.new_group(ranks) |
| if rank in ranks: |
| tp_group = g |
| for i in range(n_tp): |
| ranks = [jj * n_tp + i for jj in range(n_fsdp)] |
| g = dist.new_group(ranks) |
| if rank in ranks: |
| fsdp_group = g |
| assert tp_group is not None and fsdp_group is not None |
| return tp_group, fsdp_group |
|
|
|
|
| def _gather_fsdp_concat_dim0(shard: Tensor, fsdp_group, parts: int) -> Tensor: |
| lst = [torch.empty_like(shard) for _ in range(parts)] |
| dist.all_gather(lst, shard.contiguous(), group=fsdp_group) |
| return torch.cat(lst, dim=0) |
|
|
|
|
| def _gather_fsdp_concat_dim1(shard: Tensor, fsdp_group, parts: int) -> Tensor: |
| lst = [torch.empty_like(shard) for _ in range(parts)] |
| dist.all_gather(lst, shard.contiguous(), group=fsdp_group) |
| return torch.cat(lst, dim=1) |
|
|
|
|
| @torch.no_grad() |
| def solution( |
| x_local: Tensor, |
| W1_shard: Tensor, |
| W2_shard: Tensor, |
| W3_shard: Tensor, |
| n_tp: int, |
| n_fsdp: int, |
| ) -> Tensor: |
| world_size = dist.get_world_size() |
| rank = dist.get_rank() |
| assert world_size == n_tp * n_fsdp, ( |
| f"world_size ({world_size}) must equal n_tp * n_fsdp ({n_tp} * {n_fsdp})" |
| ) |
|
|
| tp_group, fsdp_group = _make_tp_fsdp_groups(n_tp, n_fsdp, rank) |
|
|
| W1 = _gather_fsdp_concat_dim0(W1_shard, fsdp_group, n_fsdp) |
| W2 = _gather_fsdp_concat_dim0(W2_shard, fsdp_group, n_fsdp) |
| W3 = _gather_fsdp_concat_dim1(W3_shard, fsdp_group, n_fsdp) |
|
|
| x1 = x_local @ W1 |
| x2 = x_local @ W2 |
| z = F.silu(x1) * x2 |
| y_partial = z @ W3 |
|
|
| y = y_partial.clone() |
| dist.all_reduce(y, op=dist.ReduceOp.SUM, group=tp_group) |
| return y |
|
|
