320 lines
8.0 KiB
C++
320 lines
8.0 KiB
C++
#pragma once
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#include <ATen/native/CPUBlas.h>
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#include "common.h"
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// amx-bf16
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#define TILE_M 16
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#define TILE_N 16
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#define TILE_K 32
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// block size for AMX gemm
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constexpr int block_size_m() {
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return 2 * TILE_M;
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}
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constexpr int block_size_n() {
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return 2 * TILE_N;
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}
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// define threshold using brgemm (intel AMX)
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template <typename T>
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inline bool can_use_brgemm(int M);
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template <>
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inline bool can_use_brgemm<at::BFloat16>(int M) {
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return M > 4;
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}
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template <>
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inline bool can_use_brgemm<at::Half>(int M) {
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return true;
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}
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// this requires PyTorch 2.7 or above
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template <>
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inline bool can_use_brgemm<int8_t>(int M) {
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return M > 4;
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}
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template <>
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inline bool can_use_brgemm<uint8_t>(int M) {
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return M > 4;
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}
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template <>
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inline bool can_use_brgemm<at::Float8_e4m3fn>(int M) {
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return M > 4;
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}
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// work around compiler internal error
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#define BLOCK_K 128 // 4 * TILE_K
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// adjust leading dimension size for K
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template <typename T>
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inline int64_t get_row_size(int64_t K) {
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return K;
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}
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template <>
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inline int64_t get_row_size<int8_t>(int64_t K) {
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return K + sizeof(int32_t);
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}
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// uint8: mxfp4 or int4
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template <>
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inline int64_t get_row_size<uint8_t>(int64_t K) {
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return K >> 1;
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}
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inline int64_t get_row_size(int64_t K, bool use_int8_w8a8) {
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return use_int8_w8a8 ? K + sizeof(int32_t) : K;
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}
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enum class CPUQuantMethod : int64_t { BF16 = 0, INT8_W8A8 = 1, FP8_W8A16 = 2, INT4_W4A8 = 3 };
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constexpr bool operator==(CPUQuantMethod a, int64_t b) {
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return static_cast<int64_t>(a) == b;
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}
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constexpr bool operator==(int64_t a, CPUQuantMethod b) {
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return a == static_cast<int64_t>(b);
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}
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inline int64_t get_4bit_block_k_size(int64_t group_size) {
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return group_size > 128 ? 128 : group_size;
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}
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// pack weight to vnni format
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at::Tensor convert_weight_packed(at::Tensor& weight);
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// pack weight to vnni format for int4
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std::tuple<at::Tensor, at::Tensor, at::Tensor>
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convert_weight_packed_scale_zp(at::Tensor qweight, at::Tensor qzeros, at::Tensor scales);
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// moe implementations for int8 w8a8
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template <typename scalar_t>
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void fused_experts_int8_kernel_impl(
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scalar_t* __restrict__ output,
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scalar_t* __restrict__ ic1,
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scalar_t* __restrict__ ic2,
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uint8_t* __restrict__ A_tmp,
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float* __restrict__ C_tmp,
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uint8_t* __restrict__ Aq_tmp,
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float* __restrict__ As_tmp,
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const scalar_t* __restrict__ input,
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const int8_t* __restrict__ packed_w1,
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const int8_t* __restrict__ packed_w2,
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const float* __restrict__ w1s,
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const float* __restrict__ w2s,
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const float* __restrict__ topk_weights,
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const int32_t* __restrict__ sorted_ids,
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const int32_t* __restrict__ expert_ids,
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const int32_t* __restrict__ offsets,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t E,
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int64_t topk,
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int64_t num_tokens_post_pad);
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// moe implementations for fp8 w8a16
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template <typename scalar_t>
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void fused_experts_fp8_kernel_impl(
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scalar_t* __restrict__ output,
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scalar_t* __restrict__ ic0,
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scalar_t* __restrict__ ic1,
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scalar_t* __restrict__ ic2,
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scalar_t* __restrict__ A_tmp,
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scalar_t* __restrict__ B_tmp,
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float* __restrict__ C_tmp,
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const scalar_t* __restrict__ input,
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const at::Float8_e4m3fn* __restrict__ packed_w1,
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const at::Float8_e4m3fn* __restrict__ packed_w2,
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const float* __restrict__ w1s,
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const float* __restrict__ w2s,
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int64_t block_size_N,
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int64_t block_size_K,
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const float* __restrict__ topk_weights,
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const int32_t* __restrict__ sorted_ids,
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const int32_t* __restrict__ expert_ids,
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const int32_t* __restrict__ offsets,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t E,
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int64_t topk,
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int64_t num_tokens_post_pad);
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// shared expert implementation for int8 w8a8
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template <typename scalar_t>
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void shared_expert_int8_kernel_impl(
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scalar_t* __restrict__ output,
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scalar_t* __restrict__ ic1,
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float* __restrict__ C_tmp,
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uint8_t* __restrict__ Aq_tmp,
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float* __restrict__ As_tmp,
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const scalar_t* __restrict__ input,
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const int8_t* __restrict__ packed_w1,
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const int8_t* __restrict__ packed_w2,
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const float* __restrict__ w1s,
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const float* __restrict__ w2s,
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const scalar_t* __restrict__ fused_experts_out,
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float routed_scaling_factor,
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int64_t M,
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int64_t N,
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int64_t K);
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template <typename scalar_t>
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void fused_experts_int4_w4a8_kernel_impl(
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scalar_t* __restrict__ output,
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scalar_t* __restrict__ ic0,
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scalar_t* __restrict__ ic1,
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scalar_t* __restrict__ ic2,
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uint8_t* __restrict__ A_tmp,
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uint8_t* __restrict__ Aq_tmp,
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float* __restrict__ As_tmp,
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int32_t* __restrict__ Azp_tmp,
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float* __restrict__ C_tmp,
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int8_t* __restrict__ dqB_tmp,
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const scalar_t* __restrict__ input,
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const uint8_t* __restrict__ packed_w1,
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const uint8_t* __restrict__ packed_w2,
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const int8_t* __restrict__ w1z,
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const int8_t* __restrict__ w2z,
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const float* __restrict__ w1s,
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const float* __restrict__ w2s,
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int group_size,
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const float* __restrict__ topk_weights,
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const int32_t* __restrict__ sorted_ids,
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const int32_t* __restrict__ expert_ids,
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const int32_t* __restrict__ offsets,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t E,
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int64_t topk,
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int64_t num_tokens_post_pad);
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template <typename scalar_t>
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void shared_expert_fp8_kernel_impl(
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scalar_t* __restrict__ output,
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scalar_t* __restrict__ ic0,
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scalar_t* __restrict__ ic1,
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scalar_t* __restrict__ B_tmp,
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float* __restrict__ C_tmp,
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const scalar_t* __restrict__ input,
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const at::Float8_e4m3fn* __restrict__ packed_w1,
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const at::Float8_e4m3fn* __restrict__ packed_w2,
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const float* __restrict__ w1s,
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const float* __restrict__ w2s,
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int64_t block_size_N,
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int64_t block_size_K,
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const scalar_t* __restrict__ fused_experts_out,
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float routed_scaling_factor,
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int64_t M,
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int64_t N,
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int64_t K);
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// tinygemm interface
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template <typename scalar_t>
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void tinygemm_kernel(
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const scalar_t* __restrict__ A,
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const scalar_t* __restrict__ B,
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scalar_t* __restrict__ C,
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float* __restrict__ Ctmp,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t lda,
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int64_t ldb,
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int64_t ldc,
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bool brg);
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template <typename scalar_t>
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void tinygemm_kernel(
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const uint8_t* __restrict__ A,
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const int8_t* __restrict__ B,
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scalar_t* __restrict__ C,
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int32_t* __restrict__ Ctmp,
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const float* __restrict__ As,
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const float* __restrict__ Bs,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t lda,
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int64_t ldb,
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int64_t ldc,
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bool brg);
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// block quantization
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template <typename scalar_t>
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void tinygemm_kernel(
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const scalar_t* __restrict__ A,
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const at::Float8_e4m3fn* __restrict__ B,
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scalar_t* __restrict__ C,
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scalar_t* __restrict__ Btmp,
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float* __restrict__ Ctmp,
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const float* __restrict__ scale,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t lda,
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int64_t ldb,
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int64_t ldc,
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bool brg,
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int64_t block_size_K,
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bool do_unpack = true);
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// per tensor quantization
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template <typename scalar_t>
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void tinygemm_kernel(
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const scalar_t* __restrict__ A,
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const at::Float8_e4m3fn* __restrict__ B,
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scalar_t* __restrict__ C,
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scalar_t* __restrict__ Btmp,
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float* __restrict__ Ctmp,
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float scale,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t lda,
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int64_t ldb,
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int64_t ldc,
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bool brg);
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template <typename scalar_t>
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void tinygemm_kernel(
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scalar_t* C,
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float* C_temp,
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const uint8_t* A,
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const float* scales_a,
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const int32_t* qzeros_a,
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const uint8_t* B,
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const float* scales_b,
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const int8_t* qzeros_b,
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const int32_t* compensation,
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int8_t* dqB_tmp,
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int64_t M,
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int64_t K,
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int64_t lda,
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int64_t ldc_f,
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int64_t ldc_s,
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bool store_out,
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bool use_brgemm);
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// mxfp4
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template <typename scalar_t>
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void tinygemm_kernel(
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const scalar_t* __restrict__ A,
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const uint8_t* __restrict__ B,
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scalar_t* __restrict__ C,
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scalar_t* __restrict__ Btmp,
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float* __restrict__ Ctmp,
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const uint8_t* __restrict__ scale,
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int64_t M,
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int64_t N,
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int64_t K,
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int64_t lda,
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int64_t ldb,
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int64_t ldc,
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bool brg,
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int64_t block_size_K,
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bool do_unpack = true);
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