Merge remote-tracking branch 'origin/gfx950' into andriy/lwpck-2682

include/ck_tile/ops/fused_moe/pipeline/moe_sorting_problem.hpp

@@ -9,15 +9,20 @@
 
 namespace ck_tile {
 
-template <typename IndexType_, typename WeightType_, index_t InternalLoadUnroll_>
+template <typename IndexType_,
+          typename WeightType_,
+          index_t InternalLoadUnroll_,
+          index_t ExpertTile_ = 0>
 struct MoeSortingProblem
 {
     // TODO: this kernel only support warp per row
     using WeightType = remove_cvref_t<WeightType_>;
     using IndexType  = remove_cvref_t<IndexType_>;
 
-    static constexpr index_t WarpSize           = get_warp_size();
-    static constexpr index_t WarpsPerBlock      = 1;
-    static constexpr index_t InternalLoadUnroll = InternalLoadUnroll_;
+    static constexpr index_t WarpSize      = get_warp_size();
+    static constexpr index_t WarpsPerBlock = 1;
+    static constexpr index_t InternalLoadUnroll =
+        InternalLoadUnroll_;                           // TODO: need better design(like tile size)
+    static constexpr index_t ExpertTile = ExpertTile_; // TODO: only used in store out
 };
 } // namespace ck_tile

include/ck_tile/ops/gemm.hpp

 // SPDX-License-Identifier: MIT
-// Copyright (c) 2018-2024, Advanced Micro Devices, Inc. All rights reserved.
+// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
 
 #pragma once
 

include/ck_tile/ops/gemm/block/block_gemm_areg_breg_creg_v1.hpp

@@ -21,35 +21,20 @@ struct BlockGemmARegBRegCRegV1
     using CDataType      = remove_cvref_t<typename Problem::CDataType>;
     using BlockGemmShape = remove_cvref_t<typename Problem::BlockGemmShape>;
 
-    static constexpr index_t kBlockSize = Problem::kBlockSize;
-
-    // C += A * B
-    template <typename CBlockTensor, typename ABlockTensor, typename BBlockTensor>
-    CK_TILE_DEVICE void operator()(CBlockTensor& c_block_tensor,
-                                   const ABlockTensor& a_block_tensor,
-                                   const BBlockTensor& b_block_tensor) const
+    static constexpr index_t kBlockSize   = Problem::kBlockSize;
+    static constexpr index_t MPerBlock    = BlockGemmShape::kM;
+    static constexpr index_t NPerBlock    = BlockGemmShape::kN;
+    static constexpr index_t KPerBlock    = BlockGemmShape::kK;
+    static constexpr auto config          = Policy::template GetWarpGemmMWarpNWarp<Problem>();
+    using WG                              = remove_cvref_t<decltype(config.template at<0>())>;
+    static constexpr index_t MWarp        = config.template at<1>();
+    static constexpr index_t NWarp        = config.template at<2>();
+    static constexpr index_t MIterPerWarp = MPerBlock / (MWarp * WG::kM);
+    static constexpr index_t NIterPerWarp = NPerBlock / (NWarp * WG::kN);
+    static constexpr index_t KIterPerWarp = KPerBlock / WG::kK;
+
+    CK_TILE_DEVICE static constexpr auto MakeABlockDistributionEncode()
     {
-        static_assert(std::is_same_v<ADataType, remove_cv_t<typename ABlockTensor::DataType>> &&
-                          std::is_same_v<BDataType, remove_cv_t<typename BBlockTensor::DataType>> &&
-                          std::is_same_v<CDataType, remove_cv_t<typename CBlockTensor::DataType>>,
-                      "wrong!");
-
-        constexpr index_t MPerBlock = BlockGemmShape::kM;
-        constexpr index_t NPerBlock = BlockGemmShape::kN;
-        constexpr index_t KPerBlock = BlockGemmShape::kK;
-
-        constexpr auto config = Policy::template GetWarpGemmMWarpNWarp<Problem>();
-
-        using WG = remove_cvref_t<decltype(config.template at<0>())>;
-
-        constexpr index_t MWarp = config.template at<1>();
-        constexpr index_t NWarp = config.template at<2>();
-
-        constexpr index_t MIterPerWarp = MPerBlock / (MWarp * WG::kM);
-        constexpr index_t NIterPerWarp = NPerBlock / (NWarp * WG::kN);
-        constexpr index_t KIterPerWarp = KPerBlock / WG::kK;
-
-        // M->N Warp
         constexpr auto a_block_outer_dstr_encoding =
             tile_distribution_encoding<sequence<NWarp>,
                                        tuple<sequence<MIterPerWarp, MWarp>, sequence<KIterPerWarp>>,
@@ -57,7 +42,14 @@ struct BlockGemmARegBRegCRegV1
                                        tuple<sequence<1, 0>>,
                                        sequence<1, 2>,
                                        sequence<0, 0>>{};
+        constexpr auto a_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
+            a_block_outer_dstr_encoding, typename WG::AWarpDstrEncoding{});
+
+        return a_block_dstr_encode;
+    }
 
+    CK_TILE_DEVICE static constexpr auto MakeBBlockDistributionEncode()
+    {
         constexpr auto b_block_outer_dstr_encoding =
             tile_distribution_encoding<sequence<MWarp>,
                                        tuple<sequence<NIterPerWarp, NWarp>, sequence<KIterPerWarp>>,
@@ -65,7 +57,14 @@ struct BlockGemmARegBRegCRegV1
                                        tuple<sequence<0, 1>>,
                                        sequence<1, 2>,
                                        sequence<0, 0>>{};
+        constexpr auto b_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
+            b_block_outer_dstr_encoding, typename WG::BWarpDstrEncoding{});
 
+        return b_block_dstr_encode;
+    }
+
+    CK_TILE_DEVICE static constexpr auto MakeCBlockDistributionEncode()
+    {
         constexpr auto c_block_outer_dstr_encoding = tile_distribution_encoding<
             sequence<>,
             tuple<sequence<MIterPerWarp, MWarp>, sequence<NIterPerWarp, NWarp>>,
@@ -73,15 +72,28 @@ struct BlockGemmARegBRegCRegV1
             tuple<sequence<1, 1>>,
             sequence<1, 2>,
             sequence<0, 0>>{};
+        constexpr auto c_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
+            c_block_outer_dstr_encoding, typename WG::CWarpDstrEncoding{});
 
-        constexpr auto a_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
-            a_block_outer_dstr_encoding, typename WG::AWarpDstrEncoding{});
+        return c_block_dstr_encode;
+    }
 
-        constexpr auto b_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
-            b_block_outer_dstr_encoding, typename WG::BWarpDstrEncoding{});
+    // C += A * B
+    template <typename CBlockTensor, typename ABlockTensor, typename BBlockTensor>
+    CK_TILE_DEVICE void operator()(CBlockTensor& c_block_tensor,
+                                   const ABlockTensor& a_block_tensor,
+                                   const BBlockTensor& b_block_tensor) const
+    {
+        static_assert(std::is_same_v<ADataType, remove_cv_t<typename ABlockTensor::DataType>> &&
+                          std::is_same_v<BDataType, remove_cv_t<typename BBlockTensor::DataType>> &&
+                          std::is_same_v<CDataType, remove_cv_t<typename CBlockTensor::DataType>>,
+                      "wrong!");
 
-        constexpr auto c_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
-            c_block_outer_dstr_encoding, typename WG::CWarpDstrEncoding{});
+        constexpr auto a_block_dstr_encode = MakeABlockDistributionEncode();
+
+        constexpr auto b_block_dstr_encode = MakeBBlockDistributionEncode();
+
+        constexpr auto c_block_dstr_encode = MakeCBlockDistributionEncode();
 
         // check ABC-block-distribution
         static_assert(
@@ -159,20 +171,6 @@ struct BlockGemmARegBRegCRegV1
 
     CK_TILE_DEVICE static constexpr auto MakeCBlockTile()
     {
-        constexpr index_t MPerBlock = BlockGemmShape::kM;
-        constexpr index_t NPerBlock = BlockGemmShape::kN;
-
-        constexpr auto config = Policy::template GetWarpGemmMWarpNWarp<Problem>();
-
-        using WG = remove_cvref_t<decltype(config.template at<0>())>;
-
-        constexpr index_t MWarp = config.template at<1>();
-        constexpr index_t NWarp = config.template at<2>();
-
-        constexpr index_t MIterPerWarp = MPerBlock / (MWarp * WG::kM);
-        constexpr index_t NIterPerWarp = NPerBlock / (NWarp * WG::kN);
-        // constexpr index_t KIterPerWarp = KPerBlock / WG::kK;
-
         constexpr auto c_block_outer_dstr_encoding = tile_distribution_encoding<
             sequence<>,
             tuple<sequence<MIterPerWarp, MWarp>, sequence<NIterPerWarp, NWarp>>,

include/ck_tile/ops/gemm/block/block_gemm_areg_bsmem_creg_one_warp_v1.hpp

@@ -65,14 +65,6 @@ struct BlockGemmARegBSmemCRegOneWarpV1
 
         const index_t iNWarp = 0;
 
-        constexpr auto a_block_outer_dstr_encoding =
-            tile_distribution_encoding<sequence<NWarp>,
-                                       tuple<sequence<MIterPerWarp, MWarp>, sequence<KIterPerWarp>>,
-                                       tuple<sequence<1, 0>>,
-                                       tuple<sequence<1, 0>>,
-                                       sequence<1, 2>,
-                                       sequence<0, 0>>{};
-
         constexpr auto c_block_outer_dstr_encoding =
             tile_distribution_encoding<sequence<>,
                                        tuple<sequence<MIterPerWarp>, sequence<NIterPerWarp>>,
@@ -81,19 +73,14 @@ struct BlockGemmARegBSmemCRegOneWarpV1
                                        sequence<1, 2>,
                                        sequence<0, 0>>{};
 
-        constexpr auto a_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
-            a_block_outer_dstr_encoding, typename WG::AWarpDstrEncoding{});
-
         constexpr auto c_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
             c_block_outer_dstr_encoding, typename WG::CWarpDstrEncoding{});
 
-        constexpr auto a_block_dstr = make_static_tile_distribution(a_block_dstr_encode);
-
         // constrcut from A-block-tensor from A-Block-tensor-tmp
         // FIXME: need method to check a_block_tensor and a_block_tensor_tmp have equivalent
         // distribution
-        auto a_block_tensor =
-            make_static_distributed_tensor<typename ABlockTensorTmp::DataType>(a_block_dstr);
+        auto a_block_tensor = make_static_distributed_tensor<typename ABlockTensorTmp::DataType>(
+            MakeABlockTileDistribution());
 
         a_block_tensor.get_thread_buffer() = a_block_tensor_tmp.get_thread_buffer();
 
@@ -187,6 +174,33 @@ struct BlockGemmARegBSmemCRegOneWarpV1
         });
     }
 
+    template <index_t MPerBlock = BlockGemmShape::kM, index_t KPerBlock = BlockGemmShape::kK>
+    CK_TILE_DEVICE static constexpr auto MakeABlockTileDistribution()
+    {
+        constexpr auto config = Policy::template GetWarpGemmMWarpNWarp<Problem>();
+
+        using WG = remove_cvref_t<decltype(config.template at<0>())>;
+
+        constexpr index_t MWarp = config.template at<1>();
+        constexpr index_t NWarp = config.template at<2>();
+
+        constexpr index_t MIterPerWarp = MPerBlock / (MWarp * WG::kM);
+        constexpr index_t KIterPerWarp = KPerBlock / WG::kK;
+
+        constexpr auto a_block_outer_dstr_encoding =
+            tile_distribution_encoding<sequence<NWarp>,
+                                       tuple<sequence<MIterPerWarp, MWarp>, sequence<KIterPerWarp>>,
+                                       tuple<sequence<1, 0>>,
+                                       tuple<sequence<1, 0>>,
+                                       sequence<1, 2>,
+                                       sequence<0, 0>>{};
+
+        constexpr auto a_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
+            a_block_outer_dstr_encoding, typename WG::AWarpDstrEncoding{});
+
+        return make_static_tile_distribution(a_block_dstr_encode);
+    }
+
     CK_TILE_DEVICE static constexpr auto MakeCBlockTile()
     {
         constexpr index_t MPerBlock = BlockGemmShape::kM;

include/ck_tile/ops/gemm/block/block_gemm_areg_bsmem_creg_v2.hpp

@@ -59,14 +59,6 @@ struct BlockGemmARegBSmemCRegV2
 
         const index_t iNWarp = get_warp_id() % NWarp;
 
-        constexpr auto a_block_outer_dstr_encoding =
-            tile_distribution_encoding<sequence<NWarp>,
-                                       tuple<sequence<MIterPerWarp, MWarp>, sequence<KIterPerWarp>>,
-                                       tuple<sequence<1, 0>>,
-                                       tuple<sequence<1, 0>>,
-                                       sequence<1, 2>,
-                                       sequence<0, 0>>{};
-
         constexpr auto c_block_outer_dstr_encoding = tile_distribution_encoding<
             sequence<>,
             tuple<sequence<MIterPerWarp, MWarp>, sequence<NIterPerWarp, NWarp>>,
@@ -75,19 +67,14 @@ struct BlockGemmARegBSmemCRegV2
             sequence<1, 2>,
             sequence<0, 0>>{};
 
-        constexpr auto a_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
-            a_block_outer_dstr_encoding, typename WG::AWarpDstrEncoding{});
-
         constexpr auto c_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
             c_block_outer_dstr_encoding, typename WG::CWarpDstrEncoding{});
 
-        constexpr auto a_block_dstr = make_static_tile_distribution(a_block_dstr_encode);
-
         // constrcut from A-block-tensor from A-Block-tensor-tmp
         // FIXME: need method to check a_block_tensor and a_block_tensor_tmp have equivalent
         // distribution
-        auto a_block_tensor =
-            make_static_distributed_tensor<typename ABlockTensorTmp::DataType>(a_block_dstr);
+        auto a_block_tensor = make_static_distributed_tensor<typename ABlockTensorTmp::DataType>(
+            MakeABlockTileDistribution());
 
         a_block_tensor.get_thread_buffer() = a_block_tensor_tmp.get_thread_buffer();
 
@@ -182,6 +169,33 @@ struct BlockGemmARegBSmemCRegV2
         });
     }
 
+    template <index_t MPerBlock = BlockGemmShape::kM, index_t KPerBlock = BlockGemmShape::kK>
+    CK_TILE_DEVICE static constexpr auto MakeABlockTileDistribution()
+    {
+        constexpr auto config = Policy::template GetWarpGemmMWarpNWarp<Problem>();
+
+        using WG = remove_cvref_t<decltype(config.template at<0>())>;
+
+        constexpr index_t MWarp = config.template at<1>();
+        constexpr index_t NWarp = config.template at<2>();
+
+        constexpr index_t MIterPerWarp = MPerBlock / (MWarp * WG::kM);
+        constexpr index_t KIterPerWarp = KPerBlock / WG::kK;
+
+        constexpr auto a_block_outer_dstr_encoding =
+            tile_distribution_encoding<sequence<NWarp>,
+                                       tuple<sequence<MIterPerWarp, MWarp>, sequence<KIterPerWarp>>,
+                                       tuple<sequence<1, 0>>,
+                                       tuple<sequence<1, 0>>,
+                                       sequence<1, 2>,
+                                       sequence<0, 0>>{};
+
+        constexpr auto a_block_dstr_encode = detail::make_embed_tile_distribution_encoding(
+            a_block_outer_dstr_encoding, typename WG::AWarpDstrEncoding{});
+
+        return make_static_tile_distribution(a_block_dstr_encode);
+    }
+
     CK_TILE_DEVICE static constexpr auto MakeCBlockTile()
     {
         constexpr index_t MPerBlock = BlockGemmShape::kM;

include/ck_tile/ops/gemm/kernel/batched_gemm_kernel.hpp

@@ -3,90 +3,95 @@
 
 #pragma once
 
-#include <iostream>
-#include <string>
-
-#include "ck_tile/core.hpp"
-#include "ck_tile/ops/common.hpp"
+#include "ck_tile/ops/gemm/kernel/gemm_kernel.hpp"
 
 namespace ck_tile {
 
-struct BatchedGemmHostArgs
+struct BatchedGemmHostArgs : public ck_tile::GemmHostArgs
 {
-    const void* a_ptr;
-    const void* b_ptr;
-    void* c_ptr;
-    index_t M;
-    index_t N;
-    index_t K;
-    index_t stride_A;
-    index_t stride_B;
-    index_t stride_C;
-    index_t batch_stride_A;
-    index_t batch_stride_B;
-    index_t batch_stride_C;
-    index_t batch_count;
+    CK_TILE_HOST BatchedGemmHostArgs() = default;
+    CK_TILE_HOST BatchedGemmHostArgs(const void* a_ptr_,
+                                     const void* b_ptr_,
+                                     void* c_ptr_,
+                                     ck_tile::index_t k_batch_,
+                                     ck_tile::index_t M_,
+                                     ck_tile::index_t N_,
+                                     ck_tile::index_t K_,
+                                     ck_tile::index_t stride_A_,
+                                     ck_tile::index_t stride_B_,
+                                     ck_tile::index_t stride_C_,
+                                     ck_tile::index_t batch_stride_A_,
+                                     ck_tile::index_t batch_stride_B_,
+                                     ck_tile::index_t batch_stride_C_,
+                                     ck_tile::index_t batch_count_)
+        : GemmHostArgs(
+              a_ptr_, b_ptr_, c_ptr_, k_batch_, M_, N_, K_, stride_A_, stride_B_, stride_C_),
+          batch_stride_A(batch_stride_A_),
+          batch_stride_B(batch_stride_B_),
+          batch_stride_C(batch_stride_C_),
+          batch_count(batch_count_)
+    {
+    }
+
+    ck_tile::index_t batch_stride_A;
+    ck_tile::index_t batch_stride_B;
+    ck_tile::index_t batch_stride_C;
+    ck_tile::index_t batch_count;
 };
 
 template <typename TilePartitioner_, typename GemmPipeline_, typename EpiloguePipeline_>
-struct BatchedGemmKernel
+struct BatchedGemmKernel : public GemmKernel<TilePartitioner_, GemmPipeline_, EpiloguePipeline_>
 {
-    using TilePartitioner                    = remove_cvref_t<TilePartitioner_>;
-    using GemmPipeline                       = remove_cvref_t<GemmPipeline_>;
-    using EpiloguePipeline                   = remove_cvref_t<EpiloguePipeline_>;
-    using ALayout                            = remove_cvref_t<typename GemmPipeline::ALayout>;
-    using BLayout                            = remove_cvref_t<typename GemmPipeline::BLayout>;
-    using CLayout                            = remove_cvref_t<typename GemmPipeline::CLayout>;
-    static constexpr index_t KernelBlockSize = GemmPipeline::BlockSize;
+    using Base = GemmKernel<TilePartitioner_, GemmPipeline_, EpiloguePipeline_>;
+
+    using GemmKernelArgs = typename Base::GemmKernelArgs;
 
-    using ADataType = remove_cvref_t<typename GemmPipeline::ADataType>;
-    using BDataType = remove_cvref_t<typename GemmPipeline::BDataType>;
-    using CDataType = remove_cvref_t<typename EpiloguePipeline::ODataType>;
+    using ADataType = typename Base::ADataType;
+    using BDataType = typename Base::BDataType;
+    using CDataType = typename Base::CDataType;
 
-    struct BatchedGemmKargs
+    using TilePartitioner  = typename Base::TilePartitioner;
+    using GemmPipeline     = typename Base::GemmPipeline;
+    using EpiloguePipeline = typename Base::EpiloguePipeline;
+    using ALayout          = typename Base::ALayout;
+    using BLayout          = typename Base::BLayout;
+    using CLayout          = typename Base::CLayout;
+
+    struct BatchedGemmKernelArgs : GemmKernelArgs
     {
-        const void* a_ptr;
-        const void* b_ptr;
-        void* c_ptr;
-        index_t M;
-        index_t N;
-        index_t K;
-        index_t stride_A;
-        index_t stride_B;
-        index_t stride_C;
         index_t batch_stride_A;
         index_t batch_stride_B;
         index_t batch_stride_C;
         index_t batch_count;
     };
 
-    using Kargs = BatchedGemmKargs;
-    using Hargs = BatchedGemmHostArgs;
+    using KernelArgs = BatchedGemmKernelArgs;
 
-    __host__ static constexpr auto GridSize(const Hargs& h)
+    __host__ static constexpr auto
+    GridSize(index_t M, index_t N, index_t KBatch, index_t batch_count)
     {
-        return TilePartitioner::GridSize(h.M, h.N, h.batch_count);
+        return TilePartitioner::GridSize(M, N, KBatch * batch_count);
     }
 
-    __host__ static constexpr auto BlockSize() { return dim3(KernelBlockSize); }
+    __host__ static constexpr auto BlockSize() { return dim3(Base::KernelBlockSize); }
 
-    CK_TILE_HOST static constexpr BatchedGemmKargs MakeKargs(const Hargs& h)
+    CK_TILE_HOST static constexpr BatchedGemmKernelArgs
+    MakeKernelArgs(const BatchedGemmHostArgs& hostArgs)
     {
-        Kargs k;
-        k.a_ptr          = h.a_ptr;
-        k.b_ptr          = h.b_ptr;
-        k.c_ptr          = h.c_ptr;
-        k.M              = h.M;
-        k.N              = h.N;
-        k.K              = h.K;
-        k.stride_A       = h.stride_A;
-        k.stride_B       = h.stride_B;
-        k.stride_C       = h.stride_C;
-        k.batch_stride_A = h.batch_stride_A;
-        k.batch_stride_B = h.batch_stride_B;
-        k.batch_stride_C = h.batch_stride_C;
-        k.batch_count    = h.batch_count;
-        return k;
+        return BatchedGemmKernelArgs{{hostArgs.a_ptr,
+                                      hostArgs.b_ptr,
+                                      hostArgs.c_ptr,
+                                      hostArgs.M,
+                                      hostArgs.N,
+                                      hostArgs.K,
+                                      hostArgs.stride_A,
+                                      hostArgs.stride_B,
+                                      hostArgs.stride_C,
+                                      hostArgs.k_batch},
+                                     hostArgs.batch_stride_A,
+                                     hostArgs.batch_stride_B,
+                                     hostArgs.batch_stride_C,
+                                     hostArgs.batch_count};
     }
 
     CK_TILE_HOST_DEVICE static constexpr index_t GetSmemSize()
@@ -94,164 +99,41 @@ struct BatchedGemmKernel
         return max(GemmPipeline::GetSmemSize(), EpiloguePipeline::GetSmemSize());
     }
 
-    CK_TILE_DEVICE void operator()(Kargs kargs) const
+    CK_TILE_DEVICE void operator()(BatchedGemmKernelArgs kargs) const
     {
         const auto [i_m, i_n] = TilePartitioner{}();
-        const auto i_batch    = __builtin_amdgcn_readfirstlane(blockIdx.z);
+        const auto i_batch    = __builtin_amdgcn_readfirstlane(blockIdx.z / kargs.KBatch);
+        const auto i_k        = __builtin_amdgcn_readfirstlane(blockIdx.z - i_batch * kargs.KBatch);
+
+        const typename Base::SplitKBatchOffset splitk_batch_offset(kargs, i_k);
 
         //  options
         const auto batch_stride_A = __builtin_amdgcn_readfirstlane(kargs.batch_stride_A);
         const auto batch_offset_A = __builtin_amdgcn_readfirstlane(i_batch * batch_stride_A);
-        const ADataType* a_start  = static_cast<const ADataType*>(kargs.a_ptr);
+        const ADataType* a_ptr    = static_cast<const ADataType*>(kargs.a_ptr) + batch_offset_A +
+                                 splitk_batch_offset.a_k_split_offset;
 
         const auto batch_stride_B = __builtin_amdgcn_readfirstlane(kargs.batch_stride_B);
         const auto batch_offset_B = __builtin_amdgcn_readfirstlane(i_batch * batch_stride_B);
-        const BDataType* b_start  = static_cast<const BDataType*>(kargs.b_ptr);
-
-        // Convert pointers to tensor views
-        auto a_tensor_view = [&]() {
-            if constexpr(std::is_same_v<ALayout, tensor_layout::gemm::RowMajor>)
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    a_start + batch_offset_A,
-                    make_tuple(kargs.M, kargs.K),
-                    make_tuple(kargs.stride_A, 1),
-                    number<GemmPipeline::VectorSizeA>{},
-                    number<1>{});
-            }
-            else
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    a_start + batch_offset_A,
-                    make_tuple(kargs.M, kargs.K),
-                    make_tuple(1, kargs.stride_A),
-                    number<1>{},
-                    number<1>{});
-            }
-        }();
-
-        auto b_tensor_view = [&]() {
-            if constexpr(std::is_same_v<BLayout, tensor_layout::gemm::RowMajor>)
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    b_start + batch_offset_B,
-                    make_tuple(kargs.N, kargs.K),
-                    make_tuple(1, kargs.stride_B),
-                    number<1>{},
-                    number<1>{});
-            }
-            else
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    b_start + batch_offset_B,
-                    make_tuple(kargs.N, kargs.K),
-                    make_tuple(kargs.stride_B, 1),
-                    number<GemmPipeline::VectorSizeB>{},
-                    number<1>{});
-            }
-        }();
-
-        auto a_pad_view = [&]() {
-            if constexpr(std::is_same_v<ALayout, tensor_layout::gemm::RowMajor>)
-            {
-                return pad_tensor_view(
-                    a_tensor_view,
-                    make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kK>{}),
-                    sequence<false, GemmPipeline::kPadK>{});
-            }
-            else
-            {
-                return pad_tensor_view(
-                    a_tensor_view,
-                    make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kK>{}),
-                    sequence<GemmPipeline::kPadM, false>{});
-            }
-        }();
-        // clang-format on
-
-        auto a_block_window = make_tile_window(
-            a_pad_view,
-            make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kK>{}),
-            {i_m, 0});
-
-        auto b_pad_view = [&]() {
-            if constexpr(std::is_same_v<BLayout, tensor_layout::gemm::ColumnMajor>)
-            {
-                return pad_tensor_view(
-                    b_tensor_view,
-                    make_tuple(number<TilePartitioner::kN>{}, number<TilePartitioner::kK>{}),
-                    sequence<false, GemmPipeline::kPadK>{});
-            }
-            else
-            {
-                return pad_tensor_view(
-                    b_tensor_view,
-                    make_tuple(number<TilePartitioner::kN>{}, number<TilePartitioner::kK>{}),
-                    sequence<GemmPipeline::kPadN, false>{});
-            }
-        }();
-        // clang-format on
-
-        auto b_block_window = make_tile_window(
-            b_pad_view,
-            make_tuple(number<TilePartitioner::kN>{}, number<TilePartitioner::kK>{}),
-            {i_n, 0});
-
-        // allocate LDS
-        __shared__ char smem_ptr[GetSmemSize()];
-
-        const index_t num_loop = TilePartitioner::GetLoopNum(kargs.K);
-
-        // Run GEMM cooperatively by whole wokrgroup.
-        auto c_block_tile =
-            GemmPipeline{}.template operator()(a_block_window, b_block_window, num_loop, smem_ptr);
+        const BDataType* b_ptr    = static_cast<const BDataType*>(kargs.b_ptr) + batch_offset_B +
+                                 splitk_batch_offset.b_k_split_offset;
 
         const auto batch_stride_C = __builtin_amdgcn_readfirstlane(kargs.batch_stride_C);
         const auto batch_offset_C = __builtin_amdgcn_readfirstlane(i_batch * batch_stride_C);
-        CDataType* c_start        = static_cast<CDataType*>(kargs.c_ptr);
-        auto c_tensor_view        = [&]() {
-            if constexpr(std::is_same_v<CLayout, tensor_layout::gemm::RowMajor>)
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    c_start + batch_offset_C,
-                    make_tuple(kargs.M, kargs.N),
-                    make_tuple(kargs.stride_C, 1),
-                    number<GemmPipeline::VectorSizeC>{},
-                    number<1>{});
-            }
-            else
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    c_start + batch_offset_C,
-                    make_tuple(kargs.M, kargs.N),
-                    make_tuple(1, kargs.stride_C),
-                    number<1>{},
-                    number<1>{});
-            }
-        }();
+        CDataType* c_ptr          = static_cast<CDataType*>(kargs.c_ptr) + batch_offset_C;
 
-        auto c_pad_view = [&]() {
-            if constexpr(std::is_same_v<CLayout, tensor_layout::gemm::RowMajor>)
-            {
-                return pad_tensor_view(
-                    c_tensor_view,
-                    make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kN>{}),
-                    sequence<false, GemmPipeline::kPadN>{});
-            }
-            else
-            {
-                return pad_tensor_view(
-                    c_tensor_view,
-                    make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kN>{}),
-                    sequence<GemmPipeline::kPadM, false>{});
-            }
-        }();
-        auto c_block_window = make_tile_window(
-            c_pad_view,
-            make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kN>{}),
-            {i_m, i_n});
+        // allocate LDS
+        __shared__ char smem_ptr[GetSmemSize()];
 
-        EpiloguePipeline{}(c_block_window, c_block_tile);
+        if(kargs.KBatch == 1)
+        {
+            this->RunGemm(a_ptr, b_ptr, c_ptr, smem_ptr, kargs, splitk_batch_offset, i_m, i_n);
+        }
+        else
+        {
+            this->template RunGemm<memory_operation_enum::atomic_add>(
+                a_ptr, b_ptr, c_ptr, smem_ptr, kargs, splitk_batch_offset, i_m, i_n);
+        }
     }
 };
 

include/ck_tile/ops/gemm/kernel/gemm_kernel.hpp

@@ -12,6 +12,50 @@
 
 namespace ck_tile {
 
+struct GemmProblem
+{
+    CK_TILE_HOST GemmProblem() = default;
+    CK_TILE_HOST GemmProblem(
+        index_t M_, index_t N_, index_t K_, index_t stride_A_, index_t stride_B_, index_t stride_C_)
+        : M(M_), N(N_), K(K_), stride_A(stride_A_), stride_B(stride_B_), stride_C(stride_C_)
+    {
+    }
+
+    index_t M;
+    index_t N;
+    index_t K;
+    index_t stride_A;
+    index_t stride_B;
+    index_t stride_C;
+};
+
+struct GemmHostArgs : public GemmProblem
+{
+    CK_TILE_HOST GemmHostArgs() = default;
+    CK_TILE_HOST GemmHostArgs(const void* a_ptr_,
+                              const void* b_ptr_,
+                              void* c_ptr_,
+                              index_t k_batch_,
+                              index_t M_,
+                              index_t N_,
+                              index_t K_,
+                              index_t stride_A_,
+                              index_t stride_B_,
+                              index_t stride_C_)
+        : GemmProblem(M_, N_, K_, stride_A_, stride_B_, stride_C_),
+          a_ptr(a_ptr_),
+          b_ptr(b_ptr_),
+          c_ptr(c_ptr_),
+          k_batch(k_batch_)
+    {
+    }
+
+    const void* a_ptr;
+    const void* b_ptr;
+    void* c_ptr;
+    index_t k_batch;
+};
+
 template <typename TilePartitioner_, typename GemmPipeline_, typename EpiloguePipeline_>
 struct GemmKernel
 {
@@ -25,9 +69,12 @@ struct GemmKernel
 
     using ADataType = remove_cvref_t<typename GemmPipeline::ADataType>;
     using BDataType = remove_cvref_t<typename GemmPipeline::BDataType>;
-    // using CAccDataType = remove_cvref_t<typename GemmPipeline::CDataType>;
     using CDataType = remove_cvref_t<typename EpiloguePipeline::ODataType>;
 
+    static constexpr auto I0 = number<0>();
+    static constexpr auto I1 = number<1>();
+    static constexpr auto I2 = number<2>();
+
     __host__ static constexpr auto GridSize(index_t M, index_t N, index_t KBatch)
     {
         return TilePartitioner::GridSize(M, N, KBatch);
@@ -35,7 +82,7 @@ struct GemmKernel
 
     __host__ static constexpr auto BlockSize() { return dim3(KernelBlockSize); }
 
-    struct GemmCommonKargs
+    struct GemmKernelArgs
     {
         const void* a_ptr;
         const void* b_ptr;
@@ -46,19 +93,21 @@ struct GemmKernel
         index_t stride_A;
         index_t stride_B;
         index_t stride_C;
+        index_t KBatch;
     };
 
-    CK_TILE_HOST static constexpr GemmCommonKargs MakeKargs(const void* a_ptr,
-                                                            const void* b_ptr,
-                                                            void* c_ptr,
-                                                            index_t M,
-                                                            index_t N,
-                                                            index_t K,
-                                                            index_t stride_A,
-                                                            index_t stride_B,
-                                                            index_t stride_C)
+    CK_TILE_HOST static constexpr GemmKernelArgs MakeKernelArgs(const GemmHostArgs& hostArgs)
     {
-        return GemmCommonKargs{a_ptr, b_ptr, c_ptr, M, N, K, stride_A, stride_B, stride_C};
+        return GemmKernelArgs{hostArgs.a_ptr,
+                              hostArgs.b_ptr,
+                              hostArgs.c_ptr,
+                              hostArgs.M,
+                              hostArgs.N,
+                              hostArgs.K,
+                              hostArgs.stride_A,
+                              hostArgs.stride_B,
+                              hostArgs.stride_C,
+                              hostArgs.k_batch};
     }
 
     CK_TILE_HOST_DEVICE static constexpr index_t GetSmemSize()
@@ -66,8 +115,63 @@ struct GemmKernel
         return max(GemmPipeline::GetSmemSize(), EpiloguePipeline::GetSmemSize());
     }
 
-    CK_TILE_HOST static bool IsSupportedArgument(const GemmCommonKargs& kargs)
+    struct SplitKBatchOffset
     {
+        __device__ SplitKBatchOffset(const GemmKernelArgs& kargs,
+                                     const std::size_t k_id = blockIdx.z)
+        {
+            constexpr auto K1   = TilePartitioner::BlockGemmShape::WarpTile::at(number<2>{});
+            const index_t K_t   = kargs.KBatch * K1;
+            const index_t KRead = (kargs.K + K_t - 1) / K_t * K1;
+
+            if constexpr(std::is_same_v<tensor_layout::gemm::RowMajor, ALayout>)
+            {
+                a_k_split_offset = k_id * KRead;
+            }
+            else if constexpr(std::is_same_v<tensor_layout::gemm::ColumnMajor, ALayout>)
+            {
+                a_k_split_offset = k_id * KRead * kargs.stride_A;
+            }
+
+            if constexpr(std::is_same_v<tensor_layout::gemm::RowMajor, BLayout>)
+            {
+                b_k_split_offset = k_id * KRead * kargs.stride_B;
+            }
+            else if constexpr(std::is_same_v<tensor_layout::gemm::ColumnMajor, BLayout>)
+            {
+                b_k_split_offset = k_id * KRead;
+            }
+
+            if(k_id < static_cast<uint32_t>(kargs.KBatch - 1))
+            {
+                splitted_k = KRead;
+            }
+            else
+            {
+                splitted_k = kargs.K - KRead * (kargs.KBatch - 1);
+            }
+        }
+
+        index_t a_k_split_offset;
+        index_t b_k_split_offset;
+        index_t splitted_k;
+    };
+
+    CK_TILE_HOST static bool IsSupportedArgument(const GemmKernelArgs& kargs)
+    {
+        constexpr bool is_output_c_reg_transposed =
+            EpiloguePipeline::IsOutputTransposed() != GemmPipeline::IsTransposeC();
+        if constexpr(!((GemmPipeline::VectorSizeC % 2 == 0 &&
+                        std::is_same_v<CLayout, tensor_layout::gemm::RowMajor> &&
+                        is_output_c_reg_transposed) ||
+                       !(std::is_same_v<CDataType, fp16_t> || std::is_same_v<CDataType, bf16_t>)))
+        {
+            if(kargs.KBatch != 1)
+            {
+                return false;
+            }
+        }
+
         if constexpr(std::is_same_v<ALayout, tensor_layout::gemm::RowMajor>)
         {
             if(kargs.K % TilePartitioner::kK != 0 && GemmPipeline::kPadK == false)
@@ -139,19 +243,19 @@ struct GemmKernel
         return true;
     }
 
-    CK_TILE_DEVICE void operator()(GemmCommonKargs kargs) const
+    template <memory_operation_enum DstInMemOp = memory_operation_enum::set>
+    CK_TILE_DEVICE static auto MakeGemmTensorViews(const ADataType* a_ptr,
+                                                   const BDataType* b_ptr,
+                                                   CDataType* c_ptr,
+                                                   const GemmKernelArgs& kargs,
+                                                   const SplitKBatchOffset& splitk_batch_offset)
     {
-        const auto [i_m, i_n] = TilePartitioner{}();
-        // options
-        const ADataType* a_start = static_cast<const ADataType*>(kargs.a_ptr);
-        const BDataType* b_start = static_cast<const BDataType*>(kargs.b_ptr);
-        // Convert pointers to tensor views
-        auto a_tensor_view = [&]() {
+        const auto& a_tensor_view = [&]() {
             if constexpr(std::is_same_v<ALayout, tensor_layout::gemm::RowMajor>)
             {
                 return make_naive_tensor_view<address_space_enum::global>(
-                    a_start,
-                    make_tuple(kargs.M, kargs.K),
+                    a_ptr,
+                    make_tuple(kargs.M, splitk_batch_offset.splitted_k),
                     make_tuple(kargs.stride_A, 1),
                     number<GemmPipeline::VectorSizeA>{},
                     number<1>{});
@@ -159,20 +263,20 @@ struct GemmKernel
             else
             {
                 return make_naive_tensor_view<address_space_enum::global>(
-                    a_start,
-                    make_tuple(kargs.M, kargs.K),
+                    a_ptr,
+                    make_tuple(kargs.M, splitk_batch_offset.splitted_k),
                     make_tuple(1, kargs.stride_A),
                     number<1>{},
                     number<1>{});
             }
         }();
 
-        auto b_tensor_view = [&]() {
+        const auto& b_tensor_view = [&]() {
             if constexpr(std::is_same_v<BLayout, tensor_layout::gemm::RowMajor>)
             {
                 return make_naive_tensor_view<address_space_enum::global>(
-                    b_start,
-                    make_tuple(kargs.N, kargs.K),
+                    b_ptr,
+                    make_tuple(kargs.N, splitk_batch_offset.splitted_k),
                     make_tuple(1, kargs.stride_B),
                     number<1>{},
                     number<1>{});
@@ -180,15 +284,43 @@ struct GemmKernel
             else
             {
                 return make_naive_tensor_view<address_space_enum::global>(
-                    b_start,
-                    make_tuple(kargs.N, kargs.K),
+                    b_ptr,
+                    make_tuple(kargs.N, splitk_batch_offset.splitted_k),
                     make_tuple(kargs.stride_B, 1),
                     number<GemmPipeline::VectorSizeB>{},
                     number<1>{});
             }
         }();
 
-        auto a_pad_view = [&]() {
+        const auto& c_tensor_view = [&]() {
+            if constexpr(std::is_same_v<CLayout, tensor_layout::gemm::RowMajor>)
+            {
+                return make_naive_tensor_view<address_space_enum::global, DstInMemOp>(
+                    c_ptr,
+                    make_tuple(kargs.M, kargs.N),
+                    make_tuple(kargs.stride_C, 1),
+                    number<GemmPipeline::VectorSizeC>{},
+                    number<1>{});
+            }
+            else
+            {
+                return make_naive_tensor_view<address_space_enum::global, DstInMemOp>(
+                    c_ptr,
+                    make_tuple(kargs.M, kargs.N),
+                    make_tuple(1, kargs.stride_C),
+                    number<1>{},
+                    number<1>{});
+            }
+        }();
+
+        return make_tuple(a_tensor_view, b_tensor_view, c_tensor_view);
+    }
+
+    template <typename TensorView>
+    CK_TILE_DEVICE static auto MakeGemmPadViews(const TensorView& views)
+    {
+        const auto& a_pad_view = [&]() {
+            const auto& a_tensor_view = views.at(I0);
             if constexpr(std::is_same_v<ALayout, tensor_layout::gemm::RowMajor>)
             {
                 return pad_tensor_view(
@@ -204,14 +336,9 @@ struct GemmKernel
                     sequence<GemmPipeline::kPadM, false>{});
             }
         }();
-        // clang-format on
-
-        auto a_block_window = make_tile_window(
-            a_pad_view,
-            make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kK>{}),
-            {i_m, 0});
 
-        auto b_pad_view = [&]() {
+        const auto& b_pad_view = [&]() {
+            const auto& b_tensor_view = views.at(I1);
             if constexpr(std::is_same_v<BLayout, tensor_layout::gemm::ColumnMajor>)
             {
                 return pad_tensor_view(
@@ -228,43 +355,8 @@ struct GemmKernel
             }
         }();
 
-        auto b_block_window = make_tile_window(
-            b_pad_view,
-            make_tuple(number<TilePartitioner::kN>{}, number<TilePartitioner::kK>{}),
-            {i_n, 0});
-
-        // allocate LDS
-        __shared__ char smem_ptr[GetSmemSize()];
-
-        const index_t num_loop = TilePartitioner::GetLoopNum(kargs.K);
-
-        // Run GEMM cooperatively by whole wokrgroup.
-        auto c_block_tile =
-            GemmPipeline{}.template operator()(a_block_window, b_block_window, num_loop, smem_ptr);
-
-        CDataType* c_start = static_cast<CDataType*>(kargs.c_ptr);
-        auto c_tensor_view = [&]() {
-            if constexpr(std::is_same_v<CLayout, tensor_layout::gemm::RowMajor>)
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    c_start,
-                    make_tuple(kargs.M, kargs.N),
-                    make_tuple(kargs.stride_C, 1),
-                    number<GemmPipeline::VectorSizeC>{},
-                    number<1>{});
-            }
-            else
-            {
-                return make_naive_tensor_view<address_space_enum::global>(
-                    c_start,
-                    make_tuple(kargs.M, kargs.N),
-                    make_tuple(1, kargs.stride_C),
-                    number<1>{},
-                    number<1>{});
-            }
-        }();
-
-        auto c_pad_view = [&]() {
+        const auto& c_pad_view = [&]() {
+            const auto& c_tensor_view = views.at(I2);
             if constexpr(std::is_same_v<CLayout, tensor_layout::gemm::RowMajor>)
             {
                 return pad_tensor_view(
@@ -280,12 +372,111 @@ struct GemmKernel
                     sequence<GemmPipeline::kPadM, false>{});
             }
         }();
-        auto CBlockWindow_pad = make_tile_window(
+
+        return make_tuple(a_pad_view, b_pad_view, c_pad_view);
+    }
+
+    template <typename PadView>
+    CK_TILE_DEVICE static auto
+    MakeGemmTileWindows(const PadView& views, const index_t i_m, const index_t i_n)
+    {
+        const auto& a_pad_view     = views.at(I0);
+        const auto& a_block_window = make_tile_window(
+            a_pad_view,
+            make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kK>{}),
+            {i_m, 0});
+
+        const auto& b_pad_view     = views.at(I1);
+        const auto& b_block_window = make_tile_window(
+            b_pad_view,
+            make_tuple(number<TilePartitioner::kN>{}, number<TilePartitioner::kK>{}),
+            {i_n, 0});
+
+        const auto& c_pad_view = views.at(I2);
+        auto c_block_window    = make_tile_window(
             c_pad_view,
             make_tuple(number<TilePartitioner::kM>{}, number<TilePartitioner::kN>{}),
             {i_m, i_n});
 
-        EpiloguePipeline{}(CBlockWindow_pad, c_block_tile);
+        return make_tuple(a_block_window, b_block_window, c_block_window);
+    }
+
+    /**
+     * @brief Runs single GEMM problem cooperatively by whole workgroup.
+     *
+     * @param a_ptr input A pointer
+     * @param b_ptr input B pointer
+     * @param c_ptr output C pointer
+     * @param kargs GEMM kernel arguments
+     * @param block_idx_m The GEMM's output M dimension tile index processed by this workgroup.
+     * @param block_idx_n The GEMM's output N dimension tile index processed by this workgroup.
+     *
+     * @tparam DstInMemOp Destination memory operation (default: set).
+     */
+    template <memory_operation_enum DstInMemOp = memory_operation_enum::set>
+    CK_TILE_DEVICE static void RunGemm(const ADataType* a_ptr,
+                                       const BDataType* b_ptr,
+                                       CDataType* c_ptr,
+                                       void* smem_ptr,
+                                       const GemmKernelArgs& kargs,
+                                       const SplitKBatchOffset& splitk_batch_offset,
+                                       const index_t block_idx_m,
+                                       const index_t block_idx_n)
+    {
+        // Create Gemm tensor views, pad views and tile windows
+        const auto& gemm_tensor_views_tuple =
+            MakeGemmTensorViews<DstInMemOp>(a_ptr, b_ptr, c_ptr, kargs, splitk_batch_offset);
+        ;
+        const auto& gemm_pad_views = MakeGemmPadViews(gemm_tensor_views_tuple);
+        auto gemm_tile_windows     = MakeGemmTileWindows(gemm_pad_views, block_idx_m, block_idx_n);
+
+        const index_t num_loop = TilePartitioner::GetLoopNum(splitk_batch_offset.splitted_k);
+
+        // Run GEMM cooperatively by whole workgroup.
+        const auto& a_block_window = gemm_tile_windows.at(I0);
+        const auto& b_block_window = gemm_tile_windows.at(I1);
+        const auto& c_block_tile =
+            GemmPipeline{}.template operator()(a_block_window, b_block_window, num_loop, smem_ptr);
+
+        // Run Epilogue Pipeline
+        auto& c_block_window = gemm_tile_windows.at(I2);
+
+        constexpr bool is_output_c_reg_transposed =
+            EpiloguePipeline::IsOutputTransposed() != GemmPipeline::IsTransposeC();
+        if constexpr((DstInMemOp == memory_operation_enum::set) || (sizeof(CDataType) > 2) ||
+                     (GemmPipeline::VectorSizeC % 2 == 0 &&
+                      std::is_same_v<CLayout, tensor_layout::gemm::RowMajor> &&
+                      is_output_c_reg_transposed))
+        {
+            EpiloguePipeline{}
+                .template operator()<decltype(c_block_window), decltype(c_block_tile), DstInMemOp>(
+                    c_block_window, c_block_tile);
+        }
+    }
+
+    CK_TILE_DEVICE void operator()(GemmKernelArgs kargs) const
+    {
+        const auto [i_m, i_n] = TilePartitioner{}();
+        const SplitKBatchOffset splitk_batch_offset(kargs);
+        // options
+        const ADataType* a_ptr =
+            static_cast<const ADataType*>(kargs.a_ptr) + splitk_batch_offset.a_k_split_offset;
+        const BDataType* b_ptr =
+            static_cast<const BDataType*>(kargs.b_ptr) + splitk_batch_offset.b_k_split_offset;
+        CDataType* c_ptr = static_cast<CDataType*>(kargs.c_ptr);
+
+        // allocate LDS
+        __shared__ char smem_ptr[GetSmemSize()];
+
+        if(kargs.KBatch == 1)
+        {
+            RunGemm(a_ptr, b_ptr, c_ptr, smem_ptr, kargs, splitk_batch_offset, i_m, i_n);
+        }
+        else
+        {
+            RunGemm<memory_operation_enum::atomic_add>(
+                a_ptr, b_ptr, c_ptr, smem_ptr, kargs, splitk_batch_offset, i_m, i_n);
+        }
     }
 };
 

include/ck_tile/ops/gemm/pipeline/gemm_pipeline_ag_bg_cr_comp_v3.hpp

@@ -82,6 +82,8 @@ struct GemmPipelineAgBgCrCompV3 : public BaseGemmPipelineAgBgCrCompV3<Problem>
         return Policy::template GetSmemSize<Problem>();
     }
 
+    CK_TILE_HOST_DEVICE static constexpr auto IsTransposeC() { return Policy::IsTransposeC(); }
+
     template <GemmPipelineScheduler Scheduler>
     struct PipelineImpl : public PipelineImplBase
     {

include/ck_tile/ops/gemm/pipeline/gemm_pipeline_ag_bg_cr_mem.hpp

@@ -104,9 +104,10 @@ struct GemmPipelineAgBgCrMem : public BaseGemmPipelineAgBgCrMem<Problem>
     using CLayout = remove_cvref_t<typename Problem::CLayout>;
 
     using BlockGemm = remove_cvref_t<decltype(Policy::template GetBlockGemm<Problem>())>;
-    using I0        = number<0>;
-    using I1        = number<1>;
-    using I2        = number<2>;
+
+    using I0 = number<0>;
+    using I1 = number<1>;
+    using I2 = number<2>;
 
     static constexpr index_t MPerBlock = BlockGemmShape::kM;
     static constexpr index_t NPerBlock = BlockGemmShape::kN;
@@ -132,6 +133,8 @@ struct GemmPipelineAgBgCrMem : public BaseGemmPipelineAgBgCrMem<Problem>
         return Policy::template GetSmemSize<Problem>();
     }
 
+    CK_TILE_HOST_DEVICE static constexpr auto IsTransposeC() { return Policy::IsTransposeC(); }
+
     template <GemmPipelineScheduler Scheduler>
     struct PipelineImpl : public PipelineImplBase
     {

include/ck_tile/ops/gemm/pipeline/gemm_pipeline_agmem_bgmem_creg_v1.hpp

@@ -23,6 +23,8 @@ struct GemmPipelineAGmemBGmemCRegV1
     using BLayout = remove_cvref_t<typename Problem::BLayout>;
     using CLayout = remove_cvref_t<typename Problem::CLayout>;
 
+    using BlockGemm = remove_cvref_t<decltype(Policy::template GetBlockGemm<Problem>())>;
+
     static constexpr index_t BlockSize = Problem::kBlockSize;
 
     static constexpr index_t kMPerBlock = BlockGemmShape::kM;
@@ -53,6 +55,8 @@ struct GemmPipelineAGmemBGmemCRegV1
         return Policy::template GetSmemSize<Problem>();
     }
 
+    CK_TILE_HOST_DEVICE static constexpr auto IsTransposeC() { return Policy::IsTransposeC(); }
+
     template <typename ADramBlockWindowTmp,
               typename BDramBlockWindowTmp,
               typename AElementFunction,
@@ -124,7 +128,7 @@ struct GemmPipelineAGmemBGmemCRegV1
             b_lds_block, make_tuple(number<kNPerBlock>{}, number<kKPerBlock>{}), {0, 0});
 
         // Block GEMM
-        auto block_gemm = Policy::template GetBlockGemm<Problem>();
+        auto block_gemm = BlockGemm();
 
         // Acc register tile
         auto c_block_tile = decltype(block_gemm(a_lds_gemm_window, b_lds_gemm_window)){};

include/ck_tile/ops/gemm/pipeline/gemm_pipeline_agmem_bgmem_creg_v1_default_policy.hpp

@@ -12,6 +12,11 @@ namespace ck_tile {
 // Default policy class should not be templated, put template on member functions instead
 struct GemmPipelineAGmemBGmemCRegV1DefaultPolicy
 {
+    static constexpr auto I0 = number<0>{};
+    static constexpr auto I1 = number<1>{};
+    static constexpr auto I2 = number<2>{};
+
+    static constexpr bool TransposeC = true;
 
 #if 0
     // 2d
@@ -114,8 +119,7 @@ struct GemmPipelineAGmemBGmemCRegV1DefaultPolicy
     {
         constexpr index_t smem_size_a = GetSmemSizeA<Problem>();
         constexpr index_t smem_size_b = GetSmemSizeB<Problem>();
-        index_t smem_size             = 0;
-        smem_size += smem_size_a + smem_size_b;
+        constexpr index_t smem_size   = smem_size_a + smem_size_b;
 
         return smem_size;
     }
@@ -485,14 +489,11 @@ struct GemmPipelineAGmemBGmemCRegV1DefaultPolicy
         }
     }
 
+    CK_TILE_HOST_DEVICE static constexpr auto IsTransposeC() { return TransposeC; }
+
     template <typename Problem>
     CK_TILE_HOST_DEVICE static constexpr auto GetBlockGemm()
     {
-        constexpr bool TransposeC = false;
-        constexpr auto I0         = number<0>{};
-        constexpr auto I1         = number<1>{};
-        constexpr auto I2         = number<2>{};
-
         using AccDataType     = float;
         using BlockWarps      = typename Problem::BlockGemmShape::BlockWarps;
         using WarpTile        = typename Problem::BlockGemmShape::WarpTile;

include/ck_tile/ops/gemm/pipeline/gemm_pipeline_agmem_bgmem_creg_v2.hpp

@@ -36,6 +36,8 @@ struct GemmPipelineAGmemBGmemCRegV2
                    Policy::template MakeBLdsBlockDescriptor<Problem>().get_element_space_size();
     }
 
+    CK_TILE_HOST_DEVICE static constexpr auto IsTransposeC() { return Policy::IsTransposeC(); }
+
     template <typename ADramBlockWindowTmp,
               typename BDramBlockWindowTmp,
               typename AElementFunction,

include/ck_tile/ops/gemm/pipeline/gemm_universal_pipeline_ag_bg_cr_policy.hpp

@@ -11,7 +11,6 @@ namespace ck_tile {
 // UniversalGemm Policy
 struct UniversalGemmPipelineAgBgCrPolicy
 {
-
     static constexpr auto I0 = number<0>{};
     static constexpr auto I1 = number<1>{};
     static constexpr auto I2 = number<2>{};
@@ -444,6 +443,8 @@ struct UniversalGemmPipelineAgBgCrPolicy
         }
     }
 
+    CK_TILE_HOST_DEVICE static constexpr auto IsTransposeC() { return TransposeC; }
+
     template <typename Problem>
     CK_TILE_HOST_DEVICE static constexpr auto GetBlockGemm()
     {

include/ck_tile/ops/gemm/warp/warp_gemm.hpp

@@ -56,6 +56,14 @@ using WarpGemmMfmaF16F16F32M32N32K16SwizzleBTransposedCDistribution =
         WarpGemmAttributeMfmaImplF16F16F32M32N32K8<WGAttrCtlEnum::Default_>,
         2>>;
 
+using WarpGemmMfmaF16F16F32M4N64K16 = WarpGemmImpl<WarpGemmAtrributeMfmaIterateK<
+    WarpGemmAttributeMfmaImplF16F16F32M4N64K4<WGAttrCtlEnum::Default_>,
+    4>>;
+
+using WarpGemmMfmaF16F16F32M64N4K16 = WarpGemmImpl<WarpGemmAtrributeMfmaIterateK<
+    WarpGemmAttributeMfmaImplF16F16F32M64N4K4<WGAttrCtlEnum::Default_>,
+    4>>;
+
 // bf16
 
 using WarpGemmMfmaBf16Bf16F32M32N32K8 = WarpGemmImpl<
@@ -104,6 +112,14 @@ using WarpGemmMfmaBf16Bf16F32M32N32K16SwizzleBTransposedCDistribution =
         WarpGemmAttributeMfmaImplBf16Bf16F32M32N32K8<WGAttrCtlEnum::Default_>,
         2>>;
 
+using WarpGemmMfmaBf16Bf16F32M4N64K16 = WarpGemmImpl<WarpGemmAtrributeMfmaIterateK<
+    WarpGemmAttributeMfmaImplBf16Bf16F32M4N64K4<WGAttrCtlEnum::Default_>,
+    4>>;
+
+using WarpGemmMfmaBf16Bf16F32M64N4K16 = WarpGemmImpl<WarpGemmAtrributeMfmaIterateK<
+    WarpGemmAttributeMfmaImplBf16Bf16F32M64N4K4<WGAttrCtlEnum::Default_>,
+    4>>;
+
 // fp8
 
 using WarpGemmMfma_f32_32x32x16_fp8_fp8 = WarpGemmImpl<

include/ck_tile/ops/gemm/warp/warp_gemm_attribute_mfma.hpp

@@ -28,6 +28,9 @@ struct WarpGemmAtrributeMfma
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return 1; }
 
+    static_assert(Impl::kAMBlock == 1 && Impl::kBNBlock == 1,
+                  "Multi-block WarpGemmAttributeMfmaImpl is not supported");
+
     using AWarpDstrEncoding = tile_distribution_encoding<
         sequence<>,
         tuple<sequence<Impl::kAMLane>, sequence<Impl::kABKLane, Impl::kABKPerLane>>,
@@ -94,30 +97,130 @@ struct WarpGemmAtrributeMfmaIterateK
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return kKIter; }
 
-    using AWarpDstrEncoding = tile_distribution_encoding<
-        sequence<>,
-        tuple<sequence<Impl::kAMLane>, sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
-        tuple<sequence<2, 1>>,
-        tuple<sequence<0, 0>>,
-        sequence<2>,
-        sequence<1>>;
+    static_assert(Impl::kAMBlock == 1 || Impl::kBNBlock == 1,
+                  "Multi-block on both M & N directions is not supported");
 
-    using BWarpDstrEncoding = tile_distribution_encoding<
-        sequence<>,
-        tuple<sequence<Impl::kBNLane>, sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
-        tuple<sequence<2, 1>>,
-        tuple<sequence<0, 0>>,
-        sequence<2>,
-        sequence<1>>;
+    CK_TILE_DEVICE static constexpr auto get_awarp_dstr_encoding()
+    {
+        if constexpr(Impl::kAMBlock == 1 && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kAMLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(Impl::kAMBlock == 1 && 1 < Impl::kBNBlock)
+        {
+            // each M blocks share the same data
+            return tile_distribution_encoding<
+                sequence<Impl::kBNBlock>,
+                tuple<sequence<Impl::kAMLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<0, 2, 1>>,
+                tuple<sequence<0, 0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(1 < Impl::kAMBlock && Impl::kBNBlock == 1)
+        {
+            // single block to multi-block thread mapping
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kAMBlock, Impl::kAMLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<1, 2, 1>>,
+                tuple<sequence<0, 0, 1>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+    }
 
-    using CWarpDstrEncoding = tile_distribution_encoding<
-        sequence<>,
-        tuple<sequence<Impl::kCM0PerLane, Impl::kCMLane, Impl::kCM1PerLane>,
-              sequence<Impl::kCNLane>>,
-        tuple<sequence<1, 2>>,
-        tuple<sequence<1, 0>>,
-        sequence<1, 1>,
-        sequence<0, 2>>;
+    CK_TILE_DEVICE static constexpr auto get_bwarp_dstr_encoding()
+    {
+        if constexpr(Impl::kAMBlock == 1 && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kBNLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(Impl::kAMBlock == 1 && 1 < Impl::kBNBlock)
+        {
+            // single block to multi-block thread mapping
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kBNBlock, Impl::kBNLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<1, 2, 1>>,
+                tuple<sequence<0, 0, 1>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(1 < Impl::kAMBlock && Impl::kBNBlock == 1)
+        {
+            // each N blocks share the same data
+            return tile_distribution_encoding<
+                sequence<Impl::kAMBlock>,
+                tuple<sequence<Impl::kBNLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<0, 2, 1>>,
+                tuple<sequence<0, 0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+    }
+
+    CK_TILE_DEVICE static constexpr auto get_cwarp_dstr_encoding()
+    {
+        if constexpr(Impl::kAMBlock == 1 && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kCM0PerLane, Impl::kCMLane, Impl::kCM1PerLane>,
+                      sequence<Impl::kCNLane>>,
+                tuple<sequence<1, 2>>,
+                tuple<sequence<1, 0>>,
+                sequence<1, 1>,
+                sequence<0, 2>>{};
+        }
+        else if constexpr(Impl::kAMBlock == 1 && 1 < Impl::kBNBlock)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kCM0PerLane, Impl::kCMLane, Impl::kCM1PerLane>,
+                      sequence<Impl::kBNBlock * Impl::kCNLane>>,
+                tuple<sequence<1, 2>>,
+                tuple<sequence<1, 0>>,
+                sequence<1, 1>,
+                sequence<0, 2>>{};
+        }
+        else if constexpr(1 < Impl::kAMBlock && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<
+                    sequence<Impl::kCM0PerLane, Impl::kAMBlock * Impl::kCMLane, Impl::kCM1PerLane>,
+                    sequence<Impl::kCNLane>>,
+                tuple<sequence<1, 2>>,
+                tuple<sequence<1, 0>>,
+                sequence<1, 1>,
+                sequence<0, 2>>{};
+        }
+    }
+
+    using AWarpDstrEncoding = decltype(get_awarp_dstr_encoding());
+
+    using BWarpDstrEncoding = decltype(get_bwarp_dstr_encoding());
+
+    using CWarpDstrEncoding = decltype(get_cwarp_dstr_encoding());
 
     // c_vec += a_vec * b_vec
     template <bool post_nop_ = false>
@@ -206,6 +309,9 @@ struct WarpGemmAtrributeMfmaTransposedCDistribution
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return 1; }
 
+    static_assert(Impl::kAMBlock == 1 && Impl::kBNBlock == 1,
+                  "Multi-block WarpGemmAttributeMfmaImpl is not supported");
+
     using AWarpDstrEncoding = tile_distribution_encoding<
         sequence<>,
         tuple<sequence<Impl::kBNLane>, sequence<Impl::kABKLane, Impl::kABKPerLane>>,
@@ -270,6 +376,9 @@ struct WarpGemmAtrributeMfmaTransposedCDistribution_SwizzleB
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return 1; }
 
+    static_assert(Impl::kAMBlock == 1 && Impl::kBNBlock == 1,
+                  "Multi-block WarpGemmAttributeMfmaImpl is not supported");
+
     using AWarpDstrEncoding = tile_distribution_encoding<
         sequence<>,
         tuple<sequence<Impl::kBNLane>, sequence<Impl::kABKLane, Impl::kABKPerLane>>,
@@ -341,30 +450,130 @@ struct WarpGemmAtrributeMfmaIterateKAndTransposedCDistribution
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return kKIter; }
 
-    using AWarpDstrEncoding = tile_distribution_encoding<
-        sequence<>,
-        tuple<sequence<Impl::kBNLane>, sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
-        tuple<sequence<2, 1>>,
-        tuple<sequence<0, 0>>,
-        sequence<2>,
-        sequence<1>>;
+    static_assert(Impl::kAMBlock == 1 || Impl::kBNBlock == 1,
+                  "Multi-block on both M & N directions is not supported");
 
-    using BWarpDstrEncoding = tile_distribution_encoding<
-        sequence<>,
-        tuple<sequence<Impl::kAMLane>, sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
-        tuple<sequence<2, 1>>,
-        tuple<sequence<0, 0>>,
-        sequence<2>,
-        sequence<1>>;
+    CK_TILE_DEVICE static constexpr auto get_awarp_dstr_encoding()
+    {
+        if constexpr(Impl::kAMBlock == 1 && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kBNLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(Impl::kAMBlock == 1 && 1 < Impl::kBNBlock)
+        {
+            // single block to multi-block thread mapping
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kBNBlock, Impl::kBNLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<1, 2, 1>>,
+                tuple<sequence<0, 0, 1>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(1 < Impl::kAMBlock && Impl::kBNBlock == 1)
+        {
+            // each N blocks share the same data
+            return tile_distribution_encoding<
+                sequence<Impl::kAMBlock>,
+                tuple<sequence<Impl::kBNLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<0, 2, 1>>,
+                tuple<sequence<0, 0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+    }
 
-    using CWarpDstrEncoding = tile_distribution_encoding<
-        sequence<>,
-        tuple<sequence<Impl::kCNLane>,
-              sequence<Impl::kCM0PerLane, Impl::kCMLane, Impl::kCM1PerLane>>,
-        tuple<sequence<2, 1>>,
-        tuple<sequence<1, 0>>,
-        sequence<2, 2>,
-        sequence<0, 2>>;
+    CK_TILE_DEVICE static constexpr auto get_bwarp_dstr_encoding()
+    {
+        if constexpr(Impl::kAMBlock == 1 && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kAMLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(Impl::kAMBlock == 1 && 1 < Impl::kBNBlock)
+        {
+            // each M blocks share the same data
+            return tile_distribution_encoding<
+                sequence<Impl::kBNBlock>,
+                tuple<sequence<Impl::kAMLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<0, 2, 1>>,
+                tuple<sequence<0, 0, 0>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+        else if constexpr(1 < Impl::kAMBlock && Impl::kBNBlock == 1)
+        {
+            // single block to multi-block thread mapping
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kAMBlock, Impl::kAMLane>,
+                      sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
+                tuple<sequence<1, 2, 1>>,
+                tuple<sequence<0, 0, 1>>,
+                sequence<2>,
+                sequence<1>>{};
+        }
+    }
+
+    CK_TILE_DEVICE static constexpr auto get_cwarp_dstr_encoding()
+    {
+        if constexpr(Impl::kAMBlock == 1 && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kCNLane>,
+                      sequence<Impl::kCM0PerLane, Impl::kCMLane, Impl::kCM1PerLane>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<1, 0>>,
+                sequence<2, 2>,
+                sequence<0, 2>>{};
+        }
+        else if constexpr(Impl::kAMBlock == 1 && 1 < Impl::kBNBlock)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<sequence<Impl::kBNBlock * Impl::kCNLane>,
+                      sequence<Impl::kCM0PerLane, Impl::kCMLane, Impl::kCM1PerLane>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<1, 0>>,
+                sequence<2, 2>,
+                sequence<0, 2>>{};
+        }
+        else if constexpr(1 < Impl::kAMBlock && Impl::kBNBlock == 1)
+        {
+            return tile_distribution_encoding<
+                sequence<>,
+                tuple<
+                    sequence<Impl::kCNLane>,
+                    sequence<Impl::kCM0PerLane, Impl::kAMBlock * Impl::kCMLane, Impl::kCM1PerLane>>,
+                tuple<sequence<2, 1>>,
+                tuple<sequence<1, 0>>,
+                sequence<2, 2>,
+                sequence<0, 2>>{};
+        }
+    }
+
+    using AWarpDstrEncoding = decltype(get_awarp_dstr_encoding());
+
+    using BWarpDstrEncoding = decltype(get_bwarp_dstr_encoding());
+
+    using CWarpDstrEncoding = decltype(get_cwarp_dstr_encoding());
 
     template <bool post_nop_ = false>
     // c_vec += a_vec * b_vec
@@ -457,6 +666,9 @@ struct WarpGemmAtrributeMfmaIterateKAndTransposedCDistribution_SwizzleB
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return kKIter; }
 
+    static_assert(Impl::kAMBlock == 1 && Impl::kBNBlock == 1,
+                  "Multi-block WarpGemmAttributeMfmaImpl is not supported");
+
     using AWarpDstrEncoding = tile_distribution_encoding<
         sequence<>,
         tuple<sequence<Impl::kBNLane>, sequence<Impl::kABKLane, Impl::kABKPerLane * kKIter>>,
@@ -597,6 +809,9 @@ struct WarpGemmAtrributeMfmaIterateK_SwizzleA
 
     CK_TILE_HOST_DEVICE static constexpr auto get_num_of_access() { return kKIter; }
 
+    static_assert(Impl::kAMBlock == 1 && Impl::kBNBlock == 1,
+                  "Multi-block WarpGemmAttributeMfmaImpl is not supported");
+
     using AWarpDstrEncoding = tile_distribution_encoding<
         sequence<>,
         tuple<sequence<Impl::kAMLane / (Impl::kCMLane * SFactor * Impl::kCM1PerLane),

include/ck_tile/ops/gemm/warp/warp_gemm_attribute_mfma_impl.hpp

@@ -78,6 +78,9 @@ struct WarpGemmAttributeMfmaImplF16F16F32M32N32K8
     static constexpr index_t kN = 32;
     static constexpr index_t kK = 8;
 
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 1;
+
     static constexpr index_t kAMLane     = 32;
     static constexpr index_t kBNLane     = 32;
     static constexpr index_t kABKLane    = 2;
@@ -138,6 +141,9 @@ struct WarpGemmAttributeMfmaImplF16F16F32M16N16K16
     static constexpr index_t kN = 16;
     static constexpr index_t kK = 16;
 
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 1;
+
     static constexpr index_t kAMLane     = 16;
     static constexpr index_t kBNLane     = 16;
     static constexpr index_t kABKLane    = 4;
@@ -182,6 +188,134 @@ struct WarpGemmAttributeMfmaImplF16F16F32M16N16K16
     }
 };
 
+template <WGAttrCtlEnum Ctrl_ = WGAttrCtlEnum::Default_>
+struct WarpGemmAttributeMfmaImplF16F16F32M4N64K4
+{
+    static constexpr WGAttrCtlEnum Ctrl = Ctrl_;
+    using ADataType                     = fp16_t;
+    using BDataType                     = fp16_t;
+    using CDataType                     = float;
+
+    using AVecType = ext_vector_t<fp16_t, 4>;
+    using BVecType = ext_vector_t<fp16_t, 4>;
+    using CVecType = ext_vector_t<float, 4>;
+
+    static constexpr index_t kM = 4;
+    static constexpr index_t kN = 64;
+    static constexpr index_t kK = 4;
+
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 16;
+
+    // we only write down single block (4 threads) thread mapping here
+    static constexpr index_t kAMLane     = 4;
+    static constexpr index_t kBNLane     = 4;
+    static constexpr index_t kABKLane    = 1;
+    static constexpr index_t kABKPerLane = 4;
+
+    static constexpr index_t kCMLane     = 1;
+    static constexpr index_t kCNLane     = 4;
+    static constexpr index_t kCM0PerLane = 1;
+    static constexpr index_t kCM1PerLane = 4;
+
+    // c_vec += a_vec * b_vec
+    template <bool post_nop_ = false>
+    CK_TILE_DEVICE void operator()(CVecType& c_vec,
+                                   const AVecType& a_vec,
+                                   const BVecType& b_vec,
+                                   bool_constant<post_nop_> = {}) const
+    {
+        DISPATCH_MFMA_CTRL_("v_mfma_f32_4x4x4f16", Ctrl)
+        else
+        {
+#if defined(__gfx9__)
+            c_vec = __builtin_amdgcn_mfma_f32_4x4x4f16(a_vec, b_vec, c_vec, 0, 0, 0);
+#else
+            ignore = c_vec;
+            ignore = a_vec;
+            ignore = b_vec;
+#endif
+        }
+    }
+
+    // c_vec = a_vec * b_vec
+    CK_TILE_DEVICE CVecType operator()(const AVecType& a_vec, const BVecType& b_vec) const
+    {
+#if defined(__gfx9__)
+        return bit_cast<CVecType>(
+            __builtin_amdgcn_mfma_f32_4x4x4f16(a_vec, b_vec, fp32x4_t{0.f}, 0, 0, 0));
+#else
+        ignore = a_vec;
+        ignore = b_vec;
+        return CVecType{0.f};
+#endif
+    }
+};
+
+template <WGAttrCtlEnum Ctrl_ = WGAttrCtlEnum::Default_>
+struct WarpGemmAttributeMfmaImplF16F16F32M64N4K4
+{
+    static constexpr WGAttrCtlEnum Ctrl = Ctrl_;
+    using ADataType                     = fp16_t;
+    using BDataType                     = fp16_t;
+    using CDataType                     = float;
+
+    using AVecType = ext_vector_t<fp16_t, 4>;
+    using BVecType = ext_vector_t<fp16_t, 4>;
+    using CVecType = ext_vector_t<float, 4>;
+
+    static constexpr index_t kM = 64;
+    static constexpr index_t kN = 4;
+    static constexpr index_t kK = 4;
+
+    static constexpr index_t kAMBlock = 16;
+    static constexpr index_t kBNBlock = 1;
+
+    // we only write down single block (4 threads) thread mapping here
+    static constexpr index_t kAMLane     = 4;
+    static constexpr index_t kBNLane     = 4;
+    static constexpr index_t kABKLane    = 1;
+    static constexpr index_t kABKPerLane = 4;
+
+    static constexpr index_t kCMLane     = 1;
+    static constexpr index_t kCNLane     = 4;
+    static constexpr index_t kCM0PerLane = 1;
+    static constexpr index_t kCM1PerLane = 4;
+
+    // c_vec += a_vec * b_vec
+    template <bool post_nop_ = false>
+    CK_TILE_DEVICE void operator()(CVecType& c_vec,
+                                   const AVecType& a_vec,
+                                   const BVecType& b_vec,
+                                   bool_constant<post_nop_> = {}) const
+    {
+        DISPATCH_MFMA_CTRL_("v_mfma_f32_4x4x4f16", Ctrl)
+        else
+        {
+#if defined(__gfx9__)
+            c_vec = __builtin_amdgcn_mfma_f32_4x4x4f16(a_vec, b_vec, c_vec, 0, 0, 0);
+#else
+            ignore = c_vec;
+            ignore = a_vec;
+            ignore = b_vec;
+#endif
+        }
+    }
+
+    // c_vec = a_vec * b_vec
+    CK_TILE_DEVICE CVecType operator()(const AVecType& a_vec, const BVecType& b_vec) const
+    {
+#if defined(__gfx9__)
+        return bit_cast<CVecType>(
+            __builtin_amdgcn_mfma_f32_4x4x4f16(a_vec, b_vec, fp32x4_t{0.f}, 0, 0, 0));
+#else
+        ignore = a_vec;
+        ignore = b_vec;
+        return CVecType{0.f};
+#endif
+    }
+};
+
 // Bf16
 template <WGAttrCtlEnum Ctrl_ = WGAttrCtlEnum::Default_>
 struct WarpGemmAttributeMfmaImplBf16Bf16F32M32N32K8
@@ -199,6 +333,9 @@ struct WarpGemmAttributeMfmaImplBf16Bf16F32M32N32K8
     static constexpr index_t kN = 32;
     static constexpr index_t kK = 8;
 
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 1;
+
     static constexpr index_t kAMLane     = 32;
     static constexpr index_t kBNLane     = 32;
     static constexpr index_t kABKLane    = 2;
@@ -285,6 +422,9 @@ struct WarpGemmAttributeMfmaImplBf16Bf16F32M16N16K16
     static constexpr index_t kN = 16;
     static constexpr index_t kK = 16;
 
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 1;
+
     static constexpr index_t kAMLane     = 16;
     static constexpr index_t kBNLane     = 16;
     static constexpr index_t kABKLane    = 4;
@@ -354,6 +494,134 @@ struct WarpGemmAttributeMfmaImplBf16Bf16F32M16N16K16
     }
 };
 
+template <WGAttrCtlEnum Ctrl_ = WGAttrCtlEnum::Default_>
+struct WarpGemmAttributeMfmaImplBf16Bf16F32M4N64K4
+{
+    static constexpr WGAttrCtlEnum Ctrl = Ctrl_;
+    using ADataType                     = bf16_t;
+    using BDataType                     = bf16_t;
+    using CDataType                     = float;
+
+    using AVecType = ext_vector_t<bf16_t, 4>;
+    using BVecType = ext_vector_t<bf16_t, 4>;
+    using CVecType = ext_vector_t<float, 4>;
+
+    static constexpr index_t kM = 4;
+    static constexpr index_t kN = 64;
+    static constexpr index_t kK = 4;
+
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 16;
+
+    // we only write down single block (4 threads) thread mapping here
+    static constexpr index_t kAMLane     = 4;
+    static constexpr index_t kBNLane     = 4;
+    static constexpr index_t kABKLane    = 1;
+    static constexpr index_t kABKPerLane = 4;
+
+    static constexpr index_t kCMLane     = 1;
+    static constexpr index_t kCNLane     = 4;
+    static constexpr index_t kCM0PerLane = 1;
+    static constexpr index_t kCM1PerLane = 4;
+
+    // c_vec += a_vec * b_vec
+    template <bool post_nop_ = false>
+    CK_TILE_DEVICE void operator()(CVecType& c_vec,
+                                   const AVecType& a_vec,
+                                   const BVecType& b_vec,
+                                   bool_constant<post_nop_> = {}) const
+    {
+        DISPATCH_MFMA_CTRL_("v_mfma_f32_4x4x4bf16_1k", Ctrl)
+        else
+        {
+#if defined(__gfx9__)
+            c_vec = __builtin_amdgcn_mfma_f32_4x4x4bf16_1k(a_vec, b_vec, c_vec, 0, 0, 0);
+#else
+            ignore = c_vec;
+            ignore = a_vec;
+            ignore = b_vec;
+#endif
+        }
+    }
+
+    // c_vec = a_vec * b_vec
+    CK_TILE_DEVICE CVecType operator()(const AVecType& a_vec, const BVecType& b_vec) const
+    {
+#if defined(__gfx9__)
+        return bit_cast<CVecType>(
+            __builtin_amdgcn_mfma_f32_4x4x4bf16_1k(a_vec, b_vec, fp32x4_t{0.f}, 0, 0, 0));
+#else
+        ignore = a_vec;
+        ignore = b_vec;
+        return CVecType{0.f};
+#endif
+    }
+};
+
+template <WGAttrCtlEnum Ctrl_ = WGAttrCtlEnum::Default_>
+struct WarpGemmAttributeMfmaImplBf16Bf16F32M64N4K4
+{
+    static constexpr WGAttrCtlEnum Ctrl = Ctrl_;
+    using ADataType                     = bf16_t;
+    using BDataType                     = bf16_t;
+    using CDataType                     = float;
+
+    using AVecType = ext_vector_t<bf16_t, 4>;
+    using BVecType = ext_vector_t<bf16_t, 4>;
+    using CVecType = ext_vector_t<float, 4>;
+
+    static constexpr index_t kM = 64;
+    static constexpr index_t kN = 4;
+    static constexpr index_t kK = 4;
+
+    static constexpr index_t kAMBlock = 16;
+    static constexpr index_t kBNBlock = 1;
+
+    // we only write down single block (4 threads) thread mapping here
+    static constexpr index_t kAMLane     = 4;
+    static constexpr index_t kBNLane     = 4;
+    static constexpr index_t kABKLane    = 1;
+    static constexpr index_t kABKPerLane = 4;
+
+    static constexpr index_t kCMLane     = 1;
+    static constexpr index_t kCNLane     = 4;
+    static constexpr index_t kCM0PerLane = 1;
+    static constexpr index_t kCM1PerLane = 4;
+
+    // c_vec += a_vec * b_vec
+    template <bool post_nop_ = false>
+    CK_TILE_DEVICE void operator()(CVecType& c_vec,
+                                   const AVecType& a_vec,
+                                   const BVecType& b_vec,
+                                   bool_constant<post_nop_> = {}) const
+    {
+        DISPATCH_MFMA_CTRL_("v_mfma_f32_4x4x4bf16_1k", Ctrl)
+        else
+        {
+#if defined(__gfx9__)
+            c_vec = __builtin_amdgcn_mfma_f32_4x4x4bf16_1k(a_vec, b_vec, c_vec, 0, 0, 0);
+#else
+            ignore = c_vec;
+            ignore = a_vec;
+            ignore = b_vec;
+#endif
+        }
+    }
+
+    // c_vec = a_vec * b_vec
+    CK_TILE_DEVICE CVecType operator()(const AVecType& a_vec, const BVecType& b_vec) const
+    {
+#if defined(__gfx9__)
+        return bit_cast<CVecType>(
+            __builtin_amdgcn_mfma_f32_4x4x4bf16_1k(a_vec, b_vec, fp32x4_t{0.f}, 0, 0, 0));
+#else
+        ignore = a_vec;
+        ignore = b_vec;
+        return CVecType{0.f};
+#endif
+    }
+};
+
 // FP8
 template <typename AType_, typename BType_, WGAttrCtlEnum Ctrl_ = WGAttrCtlEnum::Default_>
 struct WarpGemmAttributeMfmaImpl_f32_32x32x16_f8_base
@@ -371,6 +639,9 @@ struct WarpGemmAttributeMfmaImpl_f32_32x32x16_f8_base
     static constexpr index_t kN = 32;
     static constexpr index_t kK = 16;
 
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 1;
+
     static constexpr index_t kAMLane     = 32;
     static constexpr index_t kBNLane     = 32;
     static constexpr index_t kABKLane    = 2;
@@ -568,6 +839,9 @@ struct WarpGemmAttributeMfmaImpl_i32_32x32x16_i8
     static constexpr index_t kN = 32;
     static constexpr index_t kK = 16;
 
+    static constexpr index_t kAMBlock = 1;
+    static constexpr index_t kBNBlock = 1;
+
     static constexpr index_t kAMLane     = 32;
     static constexpr index_t kBNLane     = 32;
     static constexpr index_t kABKLane    = 2;

include/ck_tile/ops/gemm/warp/warp_gemm_dispatcher.hpp

@@ -29,6 +29,8 @@ template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float
 template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 16, 16, 16, true> { using Type = WarpGemmMfmaF16F16F32M16N16K16TransposedCDistribution; };
 template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 16, 16, 32, false> { using Type = WarpGemmMfmaF16F16F32M16N16K32; };
 template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 16, 16, 32, true> { using Type = WarpGemmMfmaF16F16F32M16N16K32TransposedCDistribution; };
+template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 4, 64, 16, false> { using Type = WarpGemmMfmaF16F16F32M4N64K16; };
+template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 64, 4, 16, false> { using Type = WarpGemmMfmaF16F16F32M64N4K16; };
 
 template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 32, 32,  8, false, true> { using Type = WarpGemmMfmaF16F16F32M32N32K8SwizzleA; };
 template<> struct WarpGemmMfmaDispatcher<ck_tile::half_t, ck_tile::half_t, float, 32, 32, 16, false, true> { using Type = WarpGemmMfmaF16F16F32M32N32K16SwizzleA; };
@@ -42,6 +44,8 @@ template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float
 template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 16, 16, 16, true> { using Type = WarpGemmMfmaBf16Bf16F32M16N16K16TransposedCDistribution; };
 template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 16, 16, 32, false> { using Type = WarpGemmMfmaBf16Bf16F32M16N16K32; };
 template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 16, 16, 32, true> { using Type = WarpGemmMfmaBf16Bf16F32M16N16K32TransposedCDistribution; };
+template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 4, 64, 16, false> { using Type = WarpGemmMfmaBf16Bf16F32M4N64K16; };
+template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 64, 4, 16, false> { using Type = WarpGemmMfmaBf16Bf16F32M64N4K16; };
 
 template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 32, 32,  8, false, true> { using Type = WarpGemmMfmaBf16Bf16F32M32N32K8SwizzleA; };
 template<> struct WarpGemmMfmaDispatcher<ck_tile::bf16_t, ck_tile::bf16_t, float, 32, 32, 16, false, true> { using Type = WarpGemmMfmaBf16Bf16F32M32N32K16SwizzleA; };

include/ck_tile/ops/image_to_column.hpp

 // SPDX-License-Identifier: MIT
-// Copyright (c) 2018-2024, Advanced Micro Devices, Inc. All rights reserved.
+// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
 
 #pragma once
 

include/ck_tile/ops/layernorm2d.hpp

 // SPDX-License-Identifier: MIT
-// Copyright (c) 2018-2024, Advanced Micro Devices, Inc. All rights reserved.
+// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
 
 #pragma once
 

include/ck_tile/ops/layernorm2d/kernel/layernorm2d_fwd_kernel.hpp

 // SPDX-License-Identifier: MIT
-// Copyright (c) 2018-2024, Advanced Micro Devices, Inc. All rights reserved.
+// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
 
 #pragma once
 
@@ -14,7 +14,8 @@ struct Layernorm2dFwdHostArgs
 {
     const void* p_x;          // [m ,n], input, fp16/bf16
     const void* p_x_residual; // [m ,n], shortcut input, prec same as input, nullptr if not used
-    const void* p_x_scale;    // [1 ,n], smooth scale input, fp32, nullptr if not used
+    const void* p_sm_scale;   // [1 ,n], smooth scale input, fp32, nullptr if not used
+    const void* p_x_bias;     // [1, n], bias, prec same as input
     const void* p_gamma;      // [1, n], gamma, prec same as input
     const void* p_beta;       // [1, n], beta, prec same as input
 
@@ -42,15 +43,16 @@ struct Layernorm2dFwd
     using Epilogue = remove_cvref_t<Epilogue_>;
     using Problem  = typename Pipeline::Problem;
 
-    using XDataType       = remove_cvref_t<typename Problem::XDataType>;
-    using GammaDataType   = remove_cvref_t<typename Problem::GammaDataType>;
-    using BetaDataType    = remove_cvref_t<typename Problem::BetaDataType>;
-    using ComputeDataType = remove_cvref_t<typename Problem::ComputeDataType>;
-    using YDataType       = remove_cvref_t<typename Problem::YDataType>;
-    using MeanDataType    = remove_cvref_t<typename Problem::MeanDataType>;
-    using InvStdDataType  = remove_cvref_t<typename Problem::InvStdDataType>;
-    using XScaleDataType  = remove_cvref_t<typename Problem::XScaleDataType>;
-    using YScaleDataType  = remove_cvref_t<typename Problem::YScaleDataType>;
+    using XDataType           = remove_cvref_t<typename Problem::XDataType>;
+    using XBiasDataType       = remove_cvref_t<typename Problem::XBiasDataType>;
+    using GammaDataType       = remove_cvref_t<typename Problem::GammaDataType>;
+    using BetaDataType        = remove_cvref_t<typename Problem::BetaDataType>;
+    using ComputeDataType     = remove_cvref_t<typename Problem::ComputeDataType>;
+    using YDataType           = remove_cvref_t<typename Problem::YDataType>;
+    using MeanDataType        = remove_cvref_t<typename Problem::MeanDataType>;
+    using InvStdDataType      = remove_cvref_t<typename Problem::InvStdDataType>;
+    using SmoothScaleDataType = remove_cvref_t<typename Problem::SmoothScaleDataType>;
+    using YScaleDataType      = remove_cvref_t<typename Problem::YScaleDataType>;
 
     // for simplicity, shortcut input/output type is same as X
     using XResidualDataType = XDataType;
@@ -67,6 +69,7 @@ struct Layernorm2dFwd
     static constexpr bool kPadM       = false; // always no need to pad along M
     static constexpr bool kPadN       = Problem::Traits::kPadN;
     static constexpr bool kTwoPass    = Problem::Traits::kTwoPass;
+    static constexpr auto kXbias      = Problem::Traits::kXbias;
     static constexpr auto kFusedAdd   = Problem::Traits::kFusedAdd;
     static constexpr auto kFusedQuant = Problem::Traits::kFusedQuant;
 
@@ -81,7 +84,8 @@ struct Layernorm2dFwd
     {
         const void* p_x;          // [m ,n], input, fp16/bf16
         const void* p_x_residual; // [m ,n], shortcut input, prec same as input, nullptr if not used
-        const void* p_x_scale;    // [1 ,n], smooth scale input, fp32, nullptr if not used
+        const void* p_sm_scale;   // [1 ,n], smooth scale input, fp32, nullptr if not used
+        const void* p_x_bias;     // [1, n], bias, prec same as input
         const void* p_gamma;      // [1, n], gamma, prec same as input
         const void* p_beta;       // [1, n], beta, prec same as input
 
@@ -107,7 +111,8 @@ struct Layernorm2dFwd
     {
         return Kargs{hargs.p_x,
                      hargs.p_x_residual,
-                     hargs.p_x_scale,
+                     hargs.p_sm_scale,
+                     hargs.p_x_bias,
                      hargs.p_gamma,
                      hargs.p_beta,
                      hargs.p_y,
@@ -152,6 +157,7 @@ struct Layernorm2dFwd
         using S_ = typename Problem::BlockShape;
         auto surfix = [&] () {
             std::string n;
+            if (kXbias != Layernorm2dXBiasEnum::NO_BIAS) n += _SS_("_") + Layernorm2dXBiasEnumName<kXbias>::name;
             if (kFusedAdd != Layernorm2dFusedAddEnum::NO_ADD) n += _SS_("_") + Layernorm2dFusedAddEnumName<kFusedAdd>::name;
             if (kFusedQuant != Layernorm2dFusedQuantEnum::NO_SWEEP) n += _SS_("_") + Layernorm2dFusedQuantEnumName<kFusedQuant>::name;
             if (kPadN) n += "_pn";
@@ -165,7 +171,7 @@ struct Layernorm2dFwd
                 base_str += _SS_("_") + _SS_(t2s<YDataType>::name);
             }
             if (kFusedQuant == Layernorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT) {
-                base_str += _SS_("_sx") + _SS_(t2s<XScaleDataType>::name);
+                base_str += _SS_("_sx") + _SS_(t2s<SmoothScaleDataType>::name);
                 base_str += _SS_("_sy") + _SS_(t2s<YScaleDataType>::name);
             }
             if (kFusedQuant == Layernorm2dFusedQuantEnum::DYNAMIC_QUANT) {
@@ -228,6 +234,27 @@ struct Layernorm2dFwd
             }
         }();
 
+        const auto x_bias_window = [&]() {
+            if constexpr(kXbias == Layernorm2dXBiasEnum::ADD_BIAS)
+            {
+                const auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
+                    static_cast<const XBiasDataType*>(kargs.p_x_bias),
+                    make_tuple(kargs.n),
+                    make_tuple(1),
+                    number<Vector_N>{},
+                    number<1>{});
+
+                const auto tmp2_ =
+                    pad_tensor_view(tmp_, make_tuple(number<Block_N>{}), sequence<false>{});
+
+                return make_tile_window(tmp2_, make_tuple(number<Block_N>{}), {0});
+            }
+            else
+            {
+                return make_null_tile_window(make_tuple(number<Block_N>{}));
+            }
+        }();
+
         const auto gamma_window = [&]() {
             const auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
                 static_cast<const GammaDataType*>(kargs.p_gamma),
@@ -329,18 +356,18 @@ struct Layernorm2dFwd
                 return make_null_tile_window(make_tuple(number<Block_M>{}));
         }();
 
-        auto x_scale_window = [&]() {
+        auto sm_scale_window = [&]() {
             if constexpr(kFusedQuant == Layernorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT)
             {
                 const auto win_ = [&]() {
                     const auto tmp_0_ = make_naive_tensor_view_packed<address_space_enum::global>(
-                        static_cast<const XScaleDataType*>(kargs.p_x_scale),
+                        static_cast<const SmoothScaleDataType*>(kargs.p_sm_scale),
                         make_tuple(kargs.n),
                         number<Vector_N>{});
 
                     return pad_tensor_view(tmp_0_,
                                            make_tuple(number<Block_N>{}),
-                                           sequence<false>{}); // x_scale no need pad
+                                           sequence<false>{}); // sm_scale no need pad
                 }();
                 return make_tile_window(win_, make_tuple(number<Block_N>{}), {0});
             }
@@ -371,13 +398,14 @@ struct Layernorm2dFwd
 
         Pipeline{}(x_window,
                    x_residual_window,
+                   x_bias_window,
                    gamma_window,
                    beta_window,
                    y_window,
                    y_residual_window,
                    mean_window,
                    inv_std_window,
-                   x_scale_window,
+                   sm_scale_window,
                    y_scale_window,
                    static_cast<const ComputeDataType>(kargs.epsilon),
                    kargs.n,