moe.py

import torch


def moe_align_block_size(
    topk_ids,
    num_experts,
    block_size,
    sorted_token_ids,
    experts_ids,
    num_tokens_post_pad,
    token_cnts_buffer,
    cumsum_buffer,
):
    torch.ops.sgl_kernel.moe_align_block_size.default(
        topk_ids,
        num_experts,
        block_size,
        sorted_token_ids,
        experts_ids,
        num_tokens_post_pad,
        token_cnts_buffer,
        cumsum_buffer,
    )


def topk_softmax(
    topk_weights: torch.Tensor,
    topk_ids: torch.Tensor,
    token_expert_indices: torch.Tensor,
    gating_output: float,
) -> None:
    torch.ops.sgl_kernel.topk_softmax.default(
        topk_weights, topk_ids, token_expert_indices, gating_output
    )


def moe_fused_gate(
    input_tensor,
    bias,
    num_expert_group,
    topk_group,
    topk,
    n_share_experts_fusion=0,
    routed_scaling_factor=0,
):
    # This fused kernel function is used to select topk expert in a hierarchical 2-layer fashion
    # it split group of expert into num_expert_group, and use top2 expert weight sum in each group
    # as the group weight to select exerpt groups and then select topk experts within the selected groups
    # the #experts is decided by the input tensor shape and we currently only support power of 2 #experts
    # and #experts should be divisible by num_expert_group. #expert/num_expert_group <= 32 is limitted for now.
    # for non-supported case, we suggestion to use the biased_grouped_topk func in sglang.srt.layers.moe.topk
    # n_share_experts_fusion: if > 0, the last expert will be replaced with a round-robin shared expert
    # routed_scaling_factor: if > 0, the last expert will be scaled by this factor
    return torch.ops.sgl_kernel.moe_fused_gate.default(
        input_tensor,
        bias,
        num_expert_group,
        topk_group,
        topk,
        n_share_experts_fusion,
        routed_scaling_factor,
    )


def fp8_blockwise_scaled_grouped_mm(
    output,
    a,
    b,
    scales_a,
    scales_b,
    stride_a,
    stride_b,
    stride_c,
    layout_sfa,
    layout_sfb,
    problem_sizes,
    expert_offsets,
):
    torch.ops.sgl_kernel.fp8_blockwise_scaled_grouped_mm.default(
        output,
        a,
        b,
        scales_a,
        scales_b,
        stride_a,
        stride_b,
        stride_c,
        layout_sfa,
        layout_sfb,
        problem_sizes,
        expert_offsets,
    )