63 lines
2.2 KiB
Python
63 lines
2.2 KiB
Python
import torch
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import torch.nn.functional as F
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from torch_xla.experimental.custom_kernel import _histogram
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def fused_moe(
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hidden_states: torch.Tensor,
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w1: torch.Tensor,
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w2: torch.Tensor,
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gating_output: torch.Tensor,
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topk: int,
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renormalize: bool,
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) -> torch.Tensor:
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"""
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Args:
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hidden_states: [*, hidden_size]
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w1: [num_experts, intermediate_size * 2, hidden_size]
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w2: [num_experts, hidden_size, intermediate_size]
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gating_output: [*, num_experts]
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"""
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orig_shape = hidden_states.shape
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hidden_size = hidden_states.shape[-1]
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num_tokens = hidden_states.shape[:-1].numel()
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num_experts = w1.shape[0]
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intermediate_size = w2.shape[-1]
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device = hidden_states.device
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dtype = hidden_states.dtype
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assert (num_tokens * topk) % 16 == 0, (
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"The Pallas GMM kernel requires num_tokens * topk to be a multiple of "
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f"16 but got {num_tokens * topk}")
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hidden_states = hidden_states.view(num_tokens, hidden_size)
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gating_output = gating_output.view(num_tokens, num_experts)
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topk_weights = gating_output.softmax(dim=-1, dtype=torch.float)
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topk_weights, topk_indices = topk_weights.topk(topk, dim=-1)
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if renormalize:
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topk_weights = topk_weights / topk_weights.sum(dim=-1, keepdim=True)
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topk_weights = topk_weights.to(dtype)
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topk_indices = topk_indices.flatten()
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topk_argsort_indices = topk_indices.argsort()
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topk_argsort_revert_indices = topk_argsort_indices.argsort()
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token_indices = torch.arange(num_tokens,
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device=device).repeat_interleave(topk)
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token_indices = token_indices[topk_argsort_indices]
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group_sizes = _histogram(topk_indices.to(torch.int32), 0, num_experts - 1)
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# NOTE(woosuk): The GMM Pallas kernel requires a different weight layout
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# from HF Transformers.
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w1 = w1.transpose(1, 2)
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w2 = w2.transpose(1, 2)
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x = hidden_states[token_indices]
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x = torch.ops.xla.gmm(x, w1, group_sizes)
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x = F.silu(x[..., :intermediate_size]) * x[..., intermediate_size:]
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x = torch.ops.xla.gmm(x, w2, group_sizes)
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x = x[topk_argsort_revert_indices].reshape(-1, topk, hidden_size)
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x = x * topk_weights.unsqueeze_(dim=-1)
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x = x.sum(dim=-2)
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x = x.reshape(orig_shape)
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return x
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