[CK_TILE] Add Various Fusion Functions to RMSNorm (#1802)

* Add shortcut to RMSNorm

* Modify test for adding shortcut for RMSNorm

* Add fused parameter into tests

* 1. Add YDataType. 2. rmsnorm2d_fwd_traits_ from rmsnorm2d_fwd.hpp to rmsnorm2d_fwd_api.cpp and rmsnorm2d_fwd_instance_common.hpp

* 1. Supports various stride and percisions.

* Add support of Epilogue

* Add fuse and epilogue support to rmsnorm ref

* Modify rmsnorm example

* Refactor tests/examples

* Bug fix for newly added tests/examples

* Bug fix for new tests 2

* Modify smoke test scripts

remove dbg code

* Supports non-smooth dyanmic quant

* Update Rmsnorm2dFwd::GetName()

* rename xscale and prec_sx to smoothscale and prec_sm

Bug fix after rename

Remove files

* change example_rmsnorm2d_fwd.cpp

* update performance calculator

* Fix issue in two-pass when fuse add is enabled

* Remove comment of beta

---------

Co-authored-by: rocking <ChunYu.Lai@amd.com>

[ROCm/composable_kernel commit: 04dd314883]

include/ck_tile/host/reference/reference_rmsnorm2d_fwd.hpp

@@ -8,16 +8,40 @@
 
 namespace ck_tile {
 
+// Note: for simplicity, each functor only care about single M
+struct reference_rmsnorm2d_default_epilogue
+{
+    template <typename OutDataType, typename AccDataType>
+    void operator()(int m, HostTensor<OutDataType>& o, const HostTensor<AccDataType>& acc)
+    {
+        const int N = acc.mDesc.get_lengths()[1];
+        for(int n = 0; n < N; ++n)
+        {
+            o(m, n) = ck_tile::type_convert<OutDataType>(acc(m, n));
+        }
+    }
+
+    template <typename OutDataType, typename AccDataType>
+    auto operator()(int m, const HostTensor<AccDataType>& acc)
+    {
+        HostTensor<OutDataType> o(acc.get_lengths(), acc.get_strides());
+        operator()(m, o, acc);
+        return o;
+    }
+};
+
 template <typename XDataType,
           typename GammaDataType,
           typename ComputeDataType,
           typename YDataType,
-          typename InvRmsDataType>
+          typename InvRmsDataType,
+          typename Epilogue = reference_rmsnorm2d_default_epilogue>
 void reference_rmsnorm2d_fwd(const HostTensor<XDataType>& x_m_n,
                              const HostTensor<GammaDataType>& gamma_n,
                              HostTensor<YDataType>& y_m_n,
                              HostTensor<InvRmsDataType>& invRms_m,
-                             ComputeDataType epsilon)
+                             ComputeDataType epsilon,
+                             Epilogue epilogue_functor = {})
 {
     auto rmsnorm2d_fwd_func = [&](auto m) {
         const int N = x_m_n.mDesc.get_lengths()[1];
@@ -37,13 +61,15 @@ void reference_rmsnorm2d_fwd(const HostTensor<XDataType>& x_m_n,
         if constexpr(!std::is_same_v<InvRmsDataType, ck_tile::null_type>)
             invRms_m(m) = ck_tile::type_convert<InvRmsDataType>(divisor);
 
+        HostTensor<ComputeDataType> acc(x_m_n.get_lengths(), x_m_n.get_strides());
         for(int n = 0; n < N; ++n)
         {
             ComputeDataType x     = ck_tile::type_convert<ComputeDataType>(x_m_n(m, n));
             ComputeDataType gamma = ck_tile::type_convert<ComputeDataType>(gamma_n(n));
-            auto y                = x * divisor * gamma;
-            y_m_n(m, n)           = ck_tile::type_convert<YDataType>(y);
+            acc(m, n)             = x * divisor * gamma;
         }
+
+        epilogue_functor(m, y_m_n, acc);
     };
 
     make_ParallelTensorFunctor(rmsnorm2d_fwd_func, invRms_m.mDesc.get_lengths()[0])(

include/ck_tile/ops/epilogue/dynamic_quant_epilogue.hpp

@@ -1,5 +1,5 @@
 // SPDX-License-Identifier: MIT
-// Copyright (c) 2018-2023, Advanced Micro Devices, Inc. All rights reserved.
+// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
 
 #pragma once
 
@@ -24,19 +24,19 @@ struct DynamicQuantEpilogueTraits
 
 // this epilogue just store out a M*N matrix, row major
 template <typename AccDataType_,
-          typename XScaleDataType_,
+          typename SmoothScaleDataType_,
           typename YScaleDataType_,
           typename ODataType_,
           typename BlockShape_,
           typename Traits_>
 struct DynamicQuantEpilogueProblem
 {
-    using AccDataType    = remove_cvref_t<AccDataType_>;
-    using XScaleDataType = remove_cvref_t<XScaleDataType_>;
-    using YScaleDataType = remove_cvref_t<YScaleDataType_>;
-    using ODataType      = remove_cvref_t<ODataType_>;
-    using BlockShape     = remove_cvref_t<BlockShape_>; // can consum generic 2d shape
-    using Traits         = remove_cvref_t<Traits_>;
+    using AccDataType         = remove_cvref_t<AccDataType_>;
+    using SmoothScaleDataType = remove_cvref_t<SmoothScaleDataType_>;
+    using YScaleDataType      = remove_cvref_t<YScaleDataType_>;
+    using ODataType           = remove_cvref_t<ODataType_>;
+    using BlockShape          = remove_cvref_t<BlockShape_>; // can consum generic 2d shape
+    using Traits              = remove_cvref_t<Traits_>;
 };
 
 // TODO: we should put descriptor creation function into policy
@@ -45,7 +45,7 @@ struct DynamicQuantEpilogue
 {
     using Problem                     = remove_cvref_t<Problem_>;
     using AccDataType                 = remove_cvref_t<typename Problem::AccDataType>;
-    using XScaleDataType              = remove_cvref_t<typename Problem::XScaleDataType>;
+    using SmoothScaleDataType         = remove_cvref_t<typename Problem::SmoothScaleDataType>;
     using YScaleDataType              = remove_cvref_t<typename Problem::YScaleDataType>;
     using ODataType                   = remove_cvref_t<typename Problem::ODataType>;
     using BlockShape                  = remove_cvref_t<typename Problem::BlockShape>;
@@ -78,7 +78,7 @@ struct DynamicQuantEpilogue
 #if 0
         // don't remove this
         // Note that if we set encoding purposely like this, you will result in compile fail
-        // TODO: x_scale create local-scratch to accept arbitrary acc input (with same length)
+        // TODO: sm_scale create local-scratch to accept arbitrary acc input (with same length)
         return make_static_tile_distribution(
             tile_distribution_encoding<
                 sequence<S::Repeat_M, S::WarpPerBlock_M, S::ThreadPerWarp_M>,
@@ -105,34 +105,18 @@ struct DynamicQuantEpilogue
         return reduce_crosswarp_sync.GetSmemSize();
     }
 
-    // TODO: this function assume store out vector size is the same as OAccTile last dimension size
-    //       how do we fix this ?
-    template <typename ODramWindowTmp,
-              typename XScaleWindow,
-              typename YScaleWindow,
-              typename OAccTile>
-    CK_TILE_DEVICE auto operator()(ODramWindowTmp& o_dram_window_tmp,
-                                   const XScaleWindow& x_scale_window_,
-                                   YScaleWindow& y_scale_window,
-                                   const OAccTile& o_acc_tile,
-                                   void* smem)
+    template <typename ODramWindowTmp, typename YScaleWindow, typename OAccTile>
+    CK_TILE_DEVICE auto Impl(ODramWindowTmp& o_dram_window_tmp,
+                             YScaleWindow& y_scale_window,
+                             const OAccTile& o_acc_tile,
+                             void* smem)
     {
         auto reduce                = GetBlockReduce2d();
         auto reduce_sync           = GetBlockReduce2dSync();
         auto reduce_crosswarp_sync = GetBlockReduce2dCrossWarpSync();
-        const auto x_scale_window =
-            make_tile_window(x_scale_window_, MakeSmoothInputScaleTileDistribution());
-
-        auto x_scale = load_tile(x_scale_window);
 
         auto o_acc_tmp = o_acc_tile;
 
-        sweep_tile(o_acc_tmp, [&](auto idx) {
-            constexpr auto j_idx = make_tuple(idx[number<1>{}]);
-            const auto xs_       = type_convert<AccDataType>(x_scale[j_idx]);
-            o_acc_tmp(idx)       = o_acc_tmp(idx) * xs_;
-        });
-
         const auto f_absmax = [](auto acc_, auto v_0_) { return max(acc_, abs(v_0_)); };
 
         auto row_absmax = [&]() {
@@ -184,5 +168,45 @@ struct DynamicQuantEpilogue
             store_tile(o_dram_window_tmp, cast_tile<ODataType>(o_acc_tmp));
         }
     }
+
+    // TODO: this function assume store out vector size is the same as OAccTile last dimension size
+    //       how do we fix this ?
+
+    // Smooth Dynamic Quant
+    template <typename ODramWindowTmp,
+              typename SmoothScaleWindow,
+              typename YScaleWindow,
+              typename OAccTile>
+    CK_TILE_DEVICE auto operator()(ODramWindowTmp& o_dram_window_tmp,
+                                   const SmoothScaleWindow& sm_scale_window_,
+                                   YScaleWindow& y_scale_window,
+                                   const OAccTile& o_acc_tile,
+                                   void* smem)
+    {
+        const auto sm_scale_window =
+            make_tile_window(sm_scale_window_, MakeSmoothInputScaleTileDistribution());
+
+        auto sm_scale = load_tile(sm_scale_window);
+
+        auto o_acc_tmp = o_acc_tile;
+
+        sweep_tile(o_acc_tmp, [&](auto idx) {
+            constexpr auto j_idx = make_tuple(idx[number<1>{}]);
+            const auto xs_       = type_convert<AccDataType>(sm_scale[j_idx]);
+            o_acc_tmp(idx)       = o_acc_tmp(idx) * xs_;
+        });
+
+        Impl(o_dram_window_tmp, y_scale_window, o_acc_tmp, smem);
+    }
+
+    // Dynamic Quant
+    template <typename ODramWindowTmp, typename YScaleWindow, typename OAccTile>
+    CK_TILE_DEVICE auto operator()(ODramWindowTmp& o_dram_window_tmp,
+                                   YScaleWindow& y_scale_window,
+                                   const OAccTile& o_acc_tile,
+                                   void* smem)
+    {
+        Impl(o_dram_window_tmp, y_scale_window, o_acc_tile, smem);
+    }
 };
 } // namespace ck_tile

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

@@ -1,5 +1,5 @@
 // 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 +14,7 @@ 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
@@ -43,16 +43,16 @@ struct Layernorm2dFwd
     using Epilogue = remove_cvref_t<Epilogue_>;
     using Problem  = typename Pipeline::Problem;
 
-    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 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;
@@ -84,7 +84,7 @@ 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
@@ -111,7 +111,7 @@ 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,
@@ -171,7 +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) {
@@ -356,18 +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});
             }
@@ -405,7 +405,7 @@ struct Layernorm2dFwd
                    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,

include/ck_tile/ops/layernorm2d/pipeline/layernorm2d_fwd_pipeline_one_pass.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -64,7 +64,7 @@ struct Layernorm2dFwdPipelineOnePass
               typename YResidualWindow,
               typename MeanWindow,
               typename InvStdWindow,
-              typename XScaleWindow,
+              typename SmoothScaleWindow,
               typename YScaleWindow,
               typename Epilogue>
     CK_TILE_DEVICE auto operator()(const XWindow& x_window_,
@@ -76,7 +76,7 @@ struct Layernorm2dFwdPipelineOnePass
                                    const YResidualWindow& y_residual_window_,
                                    MeanWindow& mean_window,
                                    InvStdWindow& inv_std_window,
-                                   const XScaleWindow& x_scale_window_,
+                                   const SmoothScaleWindow& sm_scale_window_,
                                    YScaleWindow& y_scale_window,
                                    ComputeDataType epsilon,
                                    ck_tile::index_t row_size,
@@ -190,7 +190,7 @@ struct Layernorm2dFwdPipelineOnePass
         if constexpr(kFusedQuant == Layernorm2dFusedQuantEnum::DYNAMIC_QUANT ||
                      kFusedQuant == Layernorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT)
         {
-            Epilogue{}(y_window_, x_scale_window_, y_scale_window, ln, smem);
+            Epilogue{}(y_window_, sm_scale_window_, y_scale_window, ln, smem);
         }
         else
             Epilogue{}(y_window_, ln);

include/ck_tile/ops/layernorm2d/pipeline/layernorm2d_fwd_pipeline_problem.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -15,23 +15,23 @@ template <typename XDataType_,
           typename YDataType_,
           typename MeanDataType_,
           typename InvStdDataType_,
-          typename XScaleDataType_,
+          typename SmoothScaleDataType_,
           typename YScaleDataType_,
           typename BlockShape_,
           typename Traits_>
 struct Layernorm2dFwdPipelineProblem
 {
-    using XDataType       = remove_cvref_t<XDataType_>;
-    using XBiasDataType   = remove_cvref_t<XBiasDataType_>;
-    using GammaDataType   = remove_cvref_t<GammaDataType_>;
-    using BetaDataType    = remove_cvref_t<BetaDataType_>;
-    using ComputeDataType = remove_cvref_t<ComputeDataType_>;
-    using YDataType       = remove_cvref_t<YDataType_>;
-    using MeanDataType    = remove_cvref_t<MeanDataType_>;
-    using InvStdDataType  = remove_cvref_t<InvStdDataType_>;
-    using XScaleDataType  = remove_cvref_t<XScaleDataType_>;
-    using YScaleDataType  = remove_cvref_t<YScaleDataType_>;
-    using BlockShape      = remove_cvref_t<BlockShape_>;
+    using XDataType           = remove_cvref_t<XDataType_>;
+    using XBiasDataType       = remove_cvref_t<XBiasDataType_>;
+    using GammaDataType       = remove_cvref_t<GammaDataType_>;
+    using BetaDataType        = remove_cvref_t<BetaDataType_>;
+    using ComputeDataType     = remove_cvref_t<ComputeDataType_>;
+    using YDataType           = remove_cvref_t<YDataType_>;
+    using MeanDataType        = remove_cvref_t<MeanDataType_>;
+    using InvStdDataType      = remove_cvref_t<InvStdDataType_>;
+    using SmoothScaleDataType = remove_cvref_t<SmoothScaleDataType_>;
+    using YScaleDataType      = remove_cvref_t<YScaleDataType_>;
+    using BlockShape          = remove_cvref_t<BlockShape_>;
 
     static constexpr bool kNeedCrossLaneSync = BlockShape::ThreadPerWarp_N > 1;
     static constexpr bool kNeedCrossWarpSync = BlockShape::WarpPerBlock_N > 1;

include/ck_tile/ops/layernorm2d/pipeline/layernorm2d_fwd_pipeline_two_pass.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -63,7 +63,7 @@ struct Layernorm2dFwdPipelineTwoPass
               typename YResidualWindow,
               typename MeanWindow,
               typename InvStdWindow,
-              typename XScaleWindow,
+              typename SmoothScaleWindow,
               typename YScaleWindow,
               typename Epilogue>
     CK_TILE_DEVICE auto operator()(const XWindow& x_window_,
@@ -75,7 +75,7 @@ struct Layernorm2dFwdPipelineTwoPass
                                    const YResidualWindow& y_residual_window_,
                                    MeanWindow& mean_window,
                                    InvStdWindow& inv_std_window,
-                                   const XScaleWindow& /*x_scale_window*/,
+                                   const SmoothScaleWindow& /*sm_scale_window*/,
                                    YScaleWindow& /*y_scale_window*/,
                                    ComputeDataType epsilon,
                                    ck_tile::index_t row_size,

include/ck_tile/ops/rmsnorm2d.hpp

@@ -8,5 +8,6 @@
 #include "ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_one_pass.hpp"
 #include "ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_problem.hpp"
 #include "ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_two_pass.hpp"
+#include "ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_traits.hpp"
 #include "ck_tile/ops/common/generic_2d_block_shape.hpp"
 #include "ck_tile/ops/common/tensor_layout.hpp"

include/ck_tile/ops/rmsnorm2d/kernel/rmsnorm2d_fwd_kernel.hpp

@@ -1,50 +1,67 @@
 // 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/core.hpp"
 #include "ck_tile/ops/common.hpp"
+#include "ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_traits.hpp"
 
 namespace ck_tile {
 
 // host side args
 struct Rmsnorm2dFwdHostArgs
 {
-    const void* p_x;     // [m ,n], input, fp16/bf16
-    const void* p_gamma; // [1, n], gamma, prec same as input
+    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_sm_scale;   // [1 ,n], smooth scale input, fp32, nullptr if not used
+    const void* p_gamma;      // [1, n], gamma, prec same as input
 
-    void* p_y;      // [m, n], output, fp16/bf16
-    void* p_invRms; // [m, 1], output inv-rms, prec same as input, nullptr if not used
+    void* p_y;          // [m, n], output, fp16/bf16
+    void* p_y_residual; // [m, n], shortcut output, prec same as input, nullptr if not used
+    void* p_y_scale;    // [m, 1], output a dynamic quant per row, nullptr if not used
+    void* p_invRms;     // [m, 1], output inv-rms, prec same as input, nullptr if not used
 
     float epsilon;
 
     index_t m;
     index_t n;
-    index_t stride; // row_stride
+    index_t x_stride;  // x row_stride
+    index_t xr_stride; // x residule row stride
+    index_t y_stride;  // y row stride
+    index_t yr_stride; // y residule row stride
 };
 
 // TODO: Extract some type to wrapper class
-template <typename Pipeline_>
+template <typename Pipeline_, typename Epilogue_>
 struct Rmsnorm2dFwd
 {
     using Pipeline = remove_cvref_t<Pipeline_>;
+    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 ComputeDataType = remove_cvref_t<typename Problem::ComputeDataType>;
-    using YDataType       = remove_cvref_t<typename Problem::YDataType>;
-    using InvRmsDataType  = remove_cvref_t<typename Problem::InvRmsDataType>;
+    using XDataType           = remove_cvref_t<typename Problem::XDataType>;
+    using GammaDataType       = remove_cvref_t<typename Problem::GammaDataType>;
+    using ComputeDataType     = remove_cvref_t<typename Problem::ComputeDataType>;
+    using YDataType           = remove_cvref_t<typename Problem::YDataType>;
+    using InvRmsDataType      = remove_cvref_t<typename Problem::InvRmsDataType>;
+    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;
+    using YResidualDataType = XDataType;
 
     static constexpr bool kHasGamma   = !std::is_same_v<GammaDataType, null_type>;
-    static constexpr bool kSaveInvRms = Problem::kSaveInvRms;
+    static constexpr bool kSaveInvRms = Problem::Traits::kSaveInvRms;
 
-    static constexpr index_t Block_M = Problem::BlockShape::Block_M;
-    static constexpr index_t Block_N = Problem::BlockShape::Block_N;
-    static constexpr bool kPadM      = false; // always no need to pad along M
-    static constexpr bool kPadN      = Problem::kPadN;
-    static constexpr bool kTwoPass   = Problem::kTwoPass;
+    static constexpr index_t Block_M  = Problem::BlockShape::Block_M;
+    static constexpr index_t Block_N  = Problem::BlockShape::Block_N;
+    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 kFusedAdd   = Problem::Traits::kFusedAdd;
+    static constexpr auto kFusedQuant = Problem::Traits::kFusedQuant;
 
     static constexpr index_t ThreadPerWarp_N = Problem::BlockShape::ThreadPerWarp_N;
     static constexpr index_t Vector_N        = Problem::BlockShape::Vector_N;
@@ -56,29 +73,43 @@ struct Rmsnorm2dFwd
     struct Kargs
     {
         const void* p_x;
+        const void* p_x_residual;
+        const void* p_sm_scale;
         const void* p_gamma;
 
         void* p_y;
+        void* p_y_residual;
+        void* p_y_scale;
         void* p_invRms;
 
         float epsilon;
 
         index_t m;
         index_t n;
-        index_t stride; // row_stride
+        index_t x_stride;  // x row_stride
+        index_t xr_stride; // x residule row stride
+        index_t y_stride;  // y row stride
+        index_t yr_stride; // y residule row stride
     };
     using Hargs = Rmsnorm2dFwdHostArgs;
 
     CK_TILE_HOST static constexpr Kargs MakeKargs(const Hargs& hargs)
     {
         return Kargs{hargs.p_x,
+                     hargs.p_x_residual,
+                     hargs.p_sm_scale,
                      hargs.p_gamma,
                      hargs.p_y,
+                     hargs.p_y_residual,
+                     hargs.p_y_scale,
                      hargs.p_invRms,
                      hargs.epsilon,
                      hargs.m,
                      hargs.n,
-                     hargs.stride};
+                     hargs.x_stride,
+                     hargs.xr_stride,
+                     hargs.y_stride,
+                     hargs.yr_stride};
     }
 
     CK_TILE_HOST static constexpr auto GridSize(const Hargs& hargs)
@@ -95,6 +126,7 @@ struct Rmsnorm2dFwd
     template <> struct t2s<ck_tile::bf16_t> { static constexpr const char * name = "bf16"; };
     template <> struct t2s<ck_tile::fp8_t> { static constexpr const char * name = "fp8"; };
     template <> struct t2s<ck_tile::bf8_t> { static constexpr const char * name = "bf8"; };
+    template <> struct t2s<ck_tile::int8_t> { static constexpr const char * name = "int8"; };
     // clang-format on
 
     // in byte
@@ -102,24 +134,41 @@ struct Rmsnorm2dFwd
 
     CK_TILE_HOST static std::string GetName()
     {
+#define _SS_ std::string
+#define _TS_ std::to_string
         // clang-format off
         using S_ = typename Problem::BlockShape;
         auto surfix = [&] () {
             std::string n;
+            if (kFusedAdd != Rmsnorm2dFusedAddEnum::NO_ADD) n += _SS_("_") + Rmsnorm2dFusedAddEnumName<kFusedAdd>::name;
+            if (kFusedQuant != Rmsnorm2dFusedQuantEnum::NO_SWEEP) n += _SS_("_") + Rmsnorm2dFusedQuantEnumName<kFusedQuant>::name;
             if (kPadN) n += "_pn";
             if (kSaveInvRms) n += "_rms";
             if (kTwoPass) n += "_2p";
             return n; }();
 
-        #define _SS_  std::string
-        #define _TS_  std::to_string
-        return _SS_("rmsnorm2d_fwd_") + _SS_(t2s<XDataType>::name) + "_" +
+        auto prec_str = [&] () {
+            std::string base_str = _SS_(t2s<XDataType>::name);
+            if (!std::is_same_v<XDataType, YDataType>) {
+                base_str += _SS_("_") + _SS_(t2s<YDataType>::name);
+            }
+            if (kFusedQuant == Rmsnorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT) {
+                base_str += _SS_("_sx") + _SS_(t2s<SmoothScaleDataType>::name);
+                base_str += _SS_("_sy") + _SS_(t2s<YScaleDataType>::name);
+            }
+            if (kFusedQuant == Rmsnorm2dFusedQuantEnum::DYNAMIC_QUANT) {
+                base_str += _SS_("_sy") + _SS_(t2s<YScaleDataType>::name);
+            }
+            return base_str;
+        }();
+
+        return _SS_("rmsnorm2d_fwd_") + _SS_(prec_str) + "_" +
              _TS_(S_::Block_M) + "x" + _TS_(S_::Block_N) + "_" + _TS_(S_::WarpPerBlock_M) + "x" + _TS_(S_::WarpPerBlock_N) + "_" +
              _TS_(S_::Warp_M) + "x" + _TS_(S_::Warp_N) + "_" + _TS_(S_::Vector_M) + "x" + _TS_(S_::Vector_N) + "_" +
              _SS_(Pipeline::name) + surfix;
-        #undef _SS_
-        #undef _TS_
         // clang-format on
+#undef _SS_
+#undef _TS_
     }
 
     CK_TILE_DEVICE void operator()(Kargs kargs) const
@@ -130,7 +179,7 @@ struct Rmsnorm2dFwd
             const auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
                 static_cast<const XDataType*>(kargs.p_x),
                 make_tuple(kargs.m, kargs.n),
-                make_tuple(kargs.stride, 1),
+                make_tuple(kargs.x_stride, 1),
                 number<Vector_N>{},
                 number<1>{});
 
@@ -140,6 +189,29 @@ struct Rmsnorm2dFwd
                 tmp2_, make_tuple(number<Block_M>{}, number<Block_N>{}), {iM, 0});
         }();
 
+        const auto x_residual_window = [&]() {
+            if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD ||
+                         kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE)
+            {
+                const auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
+                    static_cast<const XResidualDataType*>(kargs.p_x_residual),
+                    make_tuple(kargs.m, kargs.n),
+                    make_tuple(kargs.xr_stride, 1),
+                    number<Vector_N>{},
+                    number<1>{});
+
+                const auto tmp2_ = pad_tensor_view(tmp_,
+                                                   make_tuple(number<Block_M>{}, number<Block_N>{}),
+                                                   sequence<kPadM, kPadN>{});
+                return make_tile_window(
+                    tmp2_, make_tuple(number<Block_M>{}, number<Block_N>{}), {iM, 0});
+            }
+            else
+            {
+                return make_null_tile_window(make_tuple(number<Block_M>{}, 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),
@@ -158,7 +230,7 @@ struct Rmsnorm2dFwd
             auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
                 static_cast<YDataType*>(kargs.p_y),
                 make_tuple(kargs.m, kargs.n),
-                make_tuple(kargs.stride, 1),
+                make_tuple(kargs.y_stride, 1),
                 number<Vector_N>{},
                 number<1>{});
 
@@ -168,6 +240,28 @@ struct Rmsnorm2dFwd
                 tmp2_, make_tuple(number<Block_M>{}, number<Block_N>{}), {iM, 0});
         }();
 
+        auto y_residual_window = [&]() {
+            if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE)
+            {
+                auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
+                    static_cast<YResidualDataType*>(kargs.p_y_residual),
+                    make_tuple(kargs.m, kargs.n),
+                    make_tuple(kargs.yr_stride, 1),
+                    number<Vector_N>{},
+                    number<1>{});
+
+                auto tmp2_ = pad_tensor_view(tmp_,
+                                             make_tuple(number<Block_M>{}, number<Block_N>{}),
+                                             sequence<kPadM, kPadN>{});
+                return make_tile_window(
+                    tmp2_, make_tuple(number<Block_M>{}, number<Block_N>{}), {iM, 0});
+            }
+            else
+            {
+                return make_null_tile_window(make_tuple(number<Block_M>{}, number<Block_N>{}));
+            }
+        }();
+
         auto inv_rms_window = [&]() {
             if constexpr(kSaveInvRms)
             {
@@ -187,15 +281,62 @@ struct Rmsnorm2dFwd
                 return make_null_tile_window(make_tuple(number<Block_M>{}));
         }();
 
+        auto sm_scale_window = [&]() {
+            if constexpr(kFusedQuant == Rmsnorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT)
+            {
+                const auto win_ = [&]() {
+                    const auto tmp_0_ = make_naive_tensor_view_packed<address_space_enum::global>(
+                        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>{}); // sm_scale no need pad
+                }();
+                return make_tile_window(win_, make_tuple(number<Block_N>{}), {0});
+            }
+            else
+            {
+                return make_null_tile_window(make_tuple(number<Block_N>{}));
+            }
+        }();
+
+        auto y_scale_window = [&]() {
+            if constexpr(kFusedQuant == Rmsnorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT ||
+                         kFusedQuant == Rmsnorm2dFusedQuantEnum::DYNAMIC_QUANT)
+            {
+                const auto win_ = [&]() {
+                    const auto tmp_0_ = make_naive_tensor_view_packed<address_space_enum::global>(
+                        static_cast<YScaleDataType*>(kargs.p_y_scale),
+                        make_tuple(kargs.m),
+                        number<1>{});
+
+                    return pad_tensor_view(
+                        tmp_0_, make_tuple(number<Block_M>{}), sequence<kPadM>{});
+                }();
+                return make_tile_window(win_, make_tuple(number<Block_M>{}), {iM});
+            }
+            else
+            {
+                return make_null_tile_window(make_tuple(number<Block_M>{}));
+            }
+        }();
+
         __shared__ char smem[GetSmemSize()];
 
         Pipeline{}(x_window,
+                   x_residual_window,
                    gamma_window,
                    y_window,
+                   y_residual_window,
                    inv_rms_window,
+                   sm_scale_window,
+                   y_scale_window,
                    static_cast<const ComputeDataType>(kargs.epsilon),
                    kargs.n,
-                   smem);
+                   smem,
+                   Epilogue{});
     }
 };
 

include/ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_default_policy.hpp

@@ -45,7 +45,7 @@ struct Rmsnorm2dFwdPipelineDefaultPolicy
     template <typename Problem>
     CK_TILE_HOST_DEVICE static constexpr auto GetBlockReduce2d()
     {
-        using P_ = BlockReduce2dProblem<typename Problem::XDataType,
+        using P_ = BlockReduce2dProblem<typename Problem::ComputeDataType,
                                         typename Problem::ComputeDataType,
                                         typename Problem::BlockShape>;
         return BlockReduce2d<P_>{};
@@ -54,7 +54,7 @@ struct Rmsnorm2dFwdPipelineDefaultPolicy
     template <typename Problem>
     CK_TILE_HOST_DEVICE static constexpr auto GetBlockReduce2dSync()
     {
-        using P_ = BlockReduce2dProblem<typename Problem::XDataType,
+        using P_ = BlockReduce2dProblem<typename Problem::ComputeDataType,
                                         typename Problem::ComputeDataType,
                                         typename Problem::BlockShape>;
         return BlockReduce2dSync<P_>{};
@@ -63,7 +63,7 @@ struct Rmsnorm2dFwdPipelineDefaultPolicy
     template <typename Problem>
     CK_TILE_HOST_DEVICE static constexpr auto GetBlockReduce2dCrossWarpSync()
     {
-        using P_ = BlockReduce2dProblem<typename Problem::XDataType,
+        using P_ = BlockReduce2dProblem<typename Problem::ComputeDataType,
                                         typename Problem::ComputeDataType,
                                         typename Problem::BlockShape>;
         return BlockReduce2dCrossWarpSync<P_>{};
@@ -74,13 +74,13 @@ struct Rmsnorm2dFwdPipelineDefaultPolicy
     {
         if constexpr(Problem::kNeedCrossWarpSync)
         {
-            using P_ = BlockReduce2dProblem<typename Problem::XDataType,
+            using P_ = BlockReduce2dProblem<typename Problem::ComputeDataType,
                                             typename Problem::ComputeDataType,
                                             typename Problem::BlockShape>;
 
             using block_reduce2d = BlockReduce2d<P_>;
             using x_block_tile =
-                decltype(make_static_distributed_tensor<typename Problem::XDataType>(
+                decltype(make_static_distributed_tensor<typename Problem::ComputeDataType>(
                     MakeXBlockTileDistribution<Problem>()));
             using y_block_tile = decltype(block_reduce2d::template MakeYBlockTile<x_block_tile>());
 

include/ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_one_pass.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -22,12 +22,17 @@ struct Rmsnorm2dFwdPipelineOnePass
     using YDataType       = ck_tile::remove_cvref_t<typename Problem::YDataType>;
     using InvRmsDataType  = ck_tile::remove_cvref_t<typename Problem::InvRmsDataType>;
 
+    using XResidualDataType = XDataType;
+    using YResidualDataType = XDataType;
+
     static constexpr bool kHasGamma   = !std::is_same_v<GammaDataType, ck_tile::null_type>;
-    static constexpr bool kSaveInvRms = Problem::kSaveInvRms;
+    static constexpr bool kSaveInvRms = Problem::Traits::kSaveInvRms;
 
     static constexpr bool kNeedCrossWarpSync = Problem::kNeedCrossWarpSync;
     static constexpr bool kPadM              = false; // TODO - BlockRmsnorm2dFwdProblem::kPadM
-    static constexpr bool kPadN              = Problem::kPadN;
+    static constexpr bool kPadN              = Problem::Traits::kPadN;
+    static constexpr auto kFusedAdd          = Problem::Traits::kFusedAdd;
+    static constexpr auto kFusedQuant        = Problem::Traits::kFusedQuant;
 
     static constexpr const char* name = []() {
         if constexpr(kNeedCrossWarpSync)
@@ -41,19 +46,36 @@ struct Rmsnorm2dFwdPipelineOnePass
         return Policy::template GetSmemSize<Problem>();
     }
 
-    template <typename XWindow, typename GammaWindow, typename YWindow, typename InvRmsWindow>
+    template <typename XWindow,
+              typename XResidualWindow,
+              typename GammaWindow,
+              typename YWindow,
+              typename YResidualWindow,
+              typename InvRmsWindow,
+              typename SmoothScaleWindow,
+              typename YScaleWindow,
+              typename Epilogue>
     CK_TILE_DEVICE auto operator()(const XWindow& x_window_,
+                                   const XResidualWindow& x_residual_window_,
                                    const GammaWindow& gamma_window_,
-                                   YWindow& y_window,
+                                   YWindow& y_window_,
+                                   const YResidualWindow& y_residual_window_,
                                    InvRmsWindow& inv_rms_window,
+                                   const SmoothScaleWindow& sm_scale_window_,
+                                   YScaleWindow& y_scale_window_,
                                    ComputeDataType epsilon,
                                    ck_tile::index_t row_size,
-                                   void* smem) const
+                                   void* smem,
+                                   Epilogue) const
     {
         const auto x_window =
             make_tile_window(x_window_, Policy::template MakeXBlockTileDistribution<Problem>());
         const auto gamma_window = make_tile_window(
             gamma_window_, Policy::template MakeGammaBlockTileDistribution<Problem>());
+        const auto x_residual_window = make_tile_window(
+            x_residual_window_, Policy::template MakeXBlockTileDistribution<Problem>());
+        auto y_residual_window = make_tile_window(
+            y_residual_window_, Policy::template MakeXBlockTileDistribution<Problem>());
 
         auto reduce_square_sum_func = ReduceOp::SquareAdd{};
         auto reduce_sum_func        = ReduceOp::Add{};
@@ -62,13 +84,31 @@ struct Rmsnorm2dFwdPipelineOnePass
         auto block_reduce2d_cross_warp_sync =
             Policy::template GetBlockReduce2dCrossWarpSync<Problem>();
 
-        const auto x = load_tile(x_window);
+        auto x      = load_tile(x_window);
+        auto x_resi = load_tile(x_residual_window);
+
         // load gamma (TODO: support no gamma?)
         const auto gamma = load_tile(gamma_window);
 
+        auto acc = cast_tile<ComputeDataType>(x);
+
+        if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD ||
+                     kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE)
+        {
+            sweep_tile(x_resi, [&](auto idx) {
+                // compute x = x_resi + x
+                acc(idx) = type_convert<ComputeDataType>(x_resi(idx)) + acc(idx);
+            });
+            if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE)
+            {
+                store_tile(y_residual_window, cast_tile<YResidualDataType>(acc));
+            }
+        }
+
         // compute mean square each-thread->cross-lane->cross-warp
-        auto square_sum = block_reduce2d(
-            x, reduce_square_sum_func.GetIdentityValue<ComputeDataType>(), reduce_square_sum_func);
+        auto square_sum = block_reduce2d(acc,
+                                         reduce_square_sum_func.GetIdentityValue<ComputeDataType>(),
+                                         reduce_square_sum_func);
         block_reduce2d_sync(square_sum, reduce_sum_func);
         block_reduce2d_cross_warp_sync(square_sum, smem, reduce_sum_func);
 
@@ -83,19 +123,30 @@ struct Rmsnorm2dFwdPipelineOnePass
             store_tile(inv_rms_window, cast_tile<InvRmsDataType>(inv_rms));
 
         // rmsnorm computation
-        auto y = make_static_distributed_tensor<YDataType>(x.get_tile_distribution());
-        sweep_tile(y, [&, inv_rms_ = inv_rms](auto idx) {
+        auto rmsn = make_static_distributed_tensor<ComputeDataType>(x.get_tile_distribution());
+        sweep_tile(rmsn, [&, inv_rms_ = inv_rms](auto idx) {
             constexpr auto i_idx = make_tuple(idx[number<0>{}]);
             constexpr auto j_idx = make_tuple(idx[number<1>{}]);
 
             const auto gamma_ = type_convert<ComputeDataType>(gamma[j_idx]);
 
-            const auto x_ = type_convert<ComputeDataType>(x[idx]);
-            auto y_       = x_ * inv_rms_[i_idx] * gamma_;
+            auto rmsn_ = acc[idx] * inv_rms_[i_idx] * gamma_;
 
-            y(idx) = type_convert<YDataType>(y_);
+            rmsn(idx) = rmsn_;
         });
-        store_tile(y_window, y);
+
+        if constexpr(kFusedQuant == Rmsnorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT)
+        {
+            Epilogue{}(y_window_, sm_scale_window_, y_scale_window_, rmsn, smem);
+        }
+        else if constexpr(kFusedQuant == Rmsnorm2dFusedQuantEnum::DYNAMIC_QUANT)
+        {
+            Epilogue{}(y_window_, y_scale_window_, rmsn, smem);
+        }
+        else
+        {
+            Epilogue{}(y_window_, rmsn);
+        }
     }
 };
 } // namespace ck_tile

include/ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_problem.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -12,25 +12,25 @@ template <typename XDataType_,
           typename ComputeDataType_,
           typename YDataType_,
           typename InvRmsDataType_,
+          typename SmoothScaleDataType_,
+          typename YScaleDataType_,
           typename BlockShape_,
-          bool kPadN_,
-          bool kSaveInvRms_,
-          bool kTwoPass_>
+          typename Traits_>
 struct Rmsnorm2dFwdPipelineProblem
 {
-    using XDataType       = remove_cvref_t<XDataType_>;
-    using GammaDataType   = remove_cvref_t<GammaDataType_>;
-    using ComputeDataType = remove_cvref_t<ComputeDataType_>;
-    using YDataType       = remove_cvref_t<YDataType_>;
-    using InvRmsDataType  = remove_cvref_t<InvRmsDataType_>;
-    using BlockShape      = remove_cvref_t<BlockShape_>;
+    using XDataType           = remove_cvref_t<XDataType_>;
+    using GammaDataType       = remove_cvref_t<GammaDataType_>;
+    using ComputeDataType     = remove_cvref_t<ComputeDataType_>;
+    using YDataType           = remove_cvref_t<YDataType_>;
+    using InvRmsDataType      = remove_cvref_t<InvRmsDataType_>;
+    using SmoothScaleDataType = remove_cvref_t<SmoothScaleDataType_>;
+    using YScaleDataType      = remove_cvref_t<YScaleDataType_>;
+    using BlockShape          = remove_cvref_t<BlockShape_>;
 
     static constexpr bool kNeedCrossLaneSync = BlockShape::ThreadPerWarp_N > 1;
     static constexpr bool kNeedCrossWarpSync = BlockShape::WarpPerBlock_N > 1;
 
-    static constexpr bool kPadN       = kPadN_;
-    static constexpr bool kSaveInvRms = kSaveInvRms_;
-    static constexpr bool kTwoPass    = kTwoPass_;
+    using Traits = remove_cvref_t<Traits_>;
 };
 
 } // namespace ck_tile

include/ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_pipeline_two_pass.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -22,12 +22,17 @@ struct Rmsnorm2dFwdPipelineTwoPass
     using YDataType       = ck_tile::remove_cvref_t<typename Problem::YDataType>;
     using InvRmsDataType  = ck_tile::remove_cvref_t<typename Problem::InvRmsDataType>;
 
+    using XResidualDataType = XDataType;
+    using YResidualDataType = XDataType;
+
     static constexpr bool kHasGamma   = !std::is_same_v<GammaDataType, ck_tile::null_type>;
-    static constexpr bool kSaveInvRms = Problem::kSaveInvRms;
+    static constexpr bool kSaveInvRms = Problem::Traits::kSaveInvRms;
 
     static constexpr bool kNeedCrossWarpSync = Problem::kNeedCrossWarpSync;
     static constexpr bool kPadM              = false; // TODO - BlockRmsnorm2dFwdProblem::kPadM
-    static constexpr bool kPadN              = Problem::kPadN;
+    static constexpr bool kPadN              = Problem::Traits::kPadN;
+    static constexpr auto kFusedAdd          = Problem::Traits::kFusedAdd;
+    static constexpr auto kFusedQuant        = Problem::Traits::kFusedQuant;
 
     static constexpr const char* name = []() {
         if constexpr(kNeedCrossWarpSync)
@@ -41,19 +46,36 @@ struct Rmsnorm2dFwdPipelineTwoPass
         return Policy::template GetSmemSize<Problem>();
     }
 
-    template <typename XWindow, typename GammaWindow, typename YWindow, typename InvRmsWindow>
+    template <typename XWindow,
+              typename XResidualWindow,
+              typename GammaWindow,
+              typename YWindow,
+              typename YResidualWindow,
+              typename InvRmsWindow,
+              typename SmoothScaleWindow,
+              typename YScaleWindow,
+              typename Epilogue>
     CK_TILE_DEVICE auto operator()(const XWindow& x_window_,
+                                   const XResidualWindow& x_residual_window_,
                                    const GammaWindow& gamma_window_,
                                    YWindow& y_window,
+                                   const YResidualWindow& y_residual_window_,
                                    InvRmsWindow& inv_rms_window,
+                                   const SmoothScaleWindow& /*sm_scale_window_*/,
+                                   YScaleWindow& /*y_scale_window*/,
                                    ComputeDataType epsilon,
                                    ck_tile::index_t row_size,
-                                   void* smem) const
+                                   void* smem,
+                                   Epilogue) const
     {
         auto x_window =
             make_tile_window(x_window_, Policy::template MakeXBlockTileDistribution<Problem>());
         auto gamma_window = make_tile_window(
             gamma_window_, Policy::template MakeGammaBlockTileDistribution<Problem>());
+        auto x_residual_window = make_tile_window(
+            x_residual_window_, Policy::template MakeXBlockTileDistribution<Problem>());
+        auto y_residual_window = make_tile_window(
+            y_residual_window_, Policy::template MakeXBlockTileDistribution<Problem>());
 
         // Problem::BlockShape
         static constexpr index_t Block_N = Problem::BlockShape::Block_N;
@@ -67,15 +89,34 @@ struct Rmsnorm2dFwdPipelineTwoPass
         auto block_reduce2d_cross_warp_sync =
             Policy::template GetBlockReduce2dCrossWarpSync<Problem>();
 
-        using XTensorType = decltype(load_tile(x_window));
-        auto square_sum   = block_reduce2d.template MakeYBlockTile<XTensorType>();
+        using ComputeTensorType = decltype(cast_tile<ComputeDataType>(load_tile(x_window)));
+        auto square_sum         = block_reduce2d.template MakeYBlockTile<ComputeTensorType>();
         set_tile(square_sum, reduce_square_sum_func.GetIdentityValue<ComputeDataType>());
 
         for(int iN = __builtin_amdgcn_readfirstlane(0); iN < num_n_tile_iteration; ++iN)
         {
-            const auto x = load_tile(x_window);
-            block_reduce2d(x, square_sum, reduce_square_sum_func);
+            auto x      = load_tile(x_window);
+            auto x_resi = load_tile(x_residual_window);
+
             move_tile_window(x_window, {0, Block_N});
+            move_tile_window(x_residual_window, {0, Block_N});
+
+            auto acc = cast_tile<ComputeDataType>(x);
+            if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD ||
+                         kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE)
+            {
+                sweep_tile(x_resi, [&](auto idx) {
+                    // compute x = x_resi + x
+                    acc(idx) = type_convert<ComputeDataType>(x_resi(idx)) + acc(idx);
+                });
+                if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE)
+                {
+                    store_tile(y_residual_window, cast_tile<YResidualDataType>(acc));
+                    move_tile_window(y_residual_window, {0, Block_N});
+                }
+            }
+
+            block_reduce2d(acc, square_sum, reduce_square_sum_func);
         }
 
         block_reduce2d_sync(square_sum, reduce_sum_func);
@@ -96,33 +137,47 @@ struct Rmsnorm2dFwdPipelineTwoPass
             row_size % Block_N == 0 ? row_size - Block_N : row_size - row_size % Block_N;
 
         move_tile_window(x_window, {0, -Block_N});
+        move_tile_window(x_residual_window, {0, -Block_N});
         move_tile_window(gamma_window, {stride_to_right_most_window});
         move_tile_window(y_window, {0, stride_to_right_most_window});
 
         // rmsnorm computation
         for(int iN = __builtin_amdgcn_readfirstlane(0); iN < num_n_tile_iteration; ++iN)
         {
-            const auto x = load_tile(x_window);
-            // load gamma/beta (TODO: support no gamma/beta?)
+            auto x      = load_tile(x_window);
+            auto x_resi = load_tile(x_residual_window);
+            auto acc    = cast_tile<ComputeDataType>(x);
+
+            if constexpr(kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD_STORE ||
+                         kFusedAdd == Rmsnorm2dFusedAddEnum::PRE_ADD)
+            {
+                sweep_tile(x_resi, [&](auto idx) {
+                    // compute x = x_resi + x
+                    acc(idx) = type_convert<ComputeDataType>(x_resi(idx)) + acc(idx);
+                });
+            }
+
+            // load gamma (TODO: support no gamma?)
             const auto gamma = load_tile(gamma_window);
 
-            auto y = make_static_distributed_tensor<YDataType>(x.get_tile_distribution());
-
-            sweep_tile(y, [&, inv_rms_ = inv_rms](auto idx) {
+            // rmsnorm computation
+            auto rmsn = make_static_distributed_tensor<ComputeDataType>(x.get_tile_distribution());
+            sweep_tile(rmsn, [&, inv_rms_ = inv_rms](auto idx) {
                 constexpr auto i_idx = make_tuple(idx[number<0>{}]);
                 constexpr auto j_idx = make_tuple(idx[number<1>{}]);
 
                 const auto gamma_ = type_convert<ComputeDataType>(gamma[j_idx]);
 
-                const auto x_ = type_convert<ComputeDataType>(x[idx]);
-                auto y_       = x_ * inv_rms_[i_idx] * gamma_;
+                auto rmsn_ = acc(idx) * inv_rms_[i_idx] * gamma_;
 
-                y(idx) = type_convert<YDataType>(y_);
+                rmsn(idx) = rmsn_;
             });
 
-            store_tile(y_window, y);
+            static_assert(kFusedQuant == Rmsnorm2dFusedQuantEnum::NO_SWEEP);
+            Epilogue{}(y_window, rmsn);
 
             move_tile_window(x_window, {0, -Block_N});
+            move_tile_window(x_residual_window, {0, -Block_N});
             move_tile_window(gamma_window, {-Block_N});
             move_tile_window(y_window, {0, -Block_N});
         }

include/ck_tile/ops/rmsnorm2d/pipeline/rmsnorm2d_fwd_traits.hpp

@@ -0,0 +1,54 @@
+// SPDX-License-Identifier: MIT
+// Copyright (c) 2018-2025, Advanced Micro Devices, Inc. All rights reserved.
+
+#pragma once
+
+#include "ck_tile/core/utility/type_traits.hpp"
+
+namespace ck_tile {
+
+enum class Rmsnorm2dFusedAddEnum
+{
+    NO_ADD = 0,
+    // fused add before RMSNorm and store result to global
+    PRE_ADD_STORE = 1,
+    // fused add before RMSNorm, but not store result
+    PRE_ADD = 2,
+};
+
+// clang-format off
+template<Rmsnorm2dFusedAddEnum> struct Rmsnorm2dFusedAddEnumName;
+template<> struct Rmsnorm2dFusedAddEnumName<Rmsnorm2dFusedAddEnum::NO_ADD> { static constexpr const char * name = "no"; };
+template<> struct Rmsnorm2dFusedAddEnumName<Rmsnorm2dFusedAddEnum::PRE_ADD_STORE> { static constexpr const char * name = "pras"; };
+template<> struct Rmsnorm2dFusedAddEnumName<Rmsnorm2dFusedAddEnum::PRE_ADD> { static constexpr const char * name = "pra"; };
+// clang-format on
+
+enum class Rmsnorm2dFusedQuantEnum
+{
+    NO_SWEEP             = 0,
+    SMOOTH_DYNAMIC_QUANT = 1, // smooth oulier + rowwise quant, need input x-scale and store y_scale
+    DYNAMIC_QUANT        = 2, // rowwise quant, store out a y-scale
+};
+
+// clang-format off
+template<Rmsnorm2dFusedQuantEnum> struct Rmsnorm2dFusedQuantEnumName;
+template<> struct Rmsnorm2dFusedQuantEnumName<Rmsnorm2dFusedQuantEnum::NO_SWEEP> { static constexpr const char * name = "no"; };
+template<> struct Rmsnorm2dFusedQuantEnumName<Rmsnorm2dFusedQuantEnum::DYNAMIC_QUANT> { static constexpr const char * name = "dqt"; };
+template<> struct Rmsnorm2dFusedQuantEnumName<Rmsnorm2dFusedQuantEnum::SMOOTH_DYNAMIC_QUANT> { static constexpr const char * name = "smdqt"; };
+// clang-format on
+
+template <bool kPadN_,
+          bool kSaveInvRms_,
+          bool kTwoPass_,
+          Rmsnorm2dFusedAddEnum kFusedAdd_,
+          Rmsnorm2dFusedQuantEnum kFusedQuant_>
+struct Rmsnorm2dFwdTraits
+{
+    static constexpr bool kPadN                          = kPadN_;
+    static constexpr bool kSaveInvRms                    = kSaveInvRms_;
+    static constexpr bool kTwoPass                       = kTwoPass_;
+    static constexpr Rmsnorm2dFusedAddEnum kFusedAdd     = kFusedAdd_;
+    static constexpr Rmsnorm2dFusedQuantEnum kFusedQuant = kFusedQuant_;
+};
+
+} // namespace ck_tile

include/ck_tile/ops/smoothquant/kernel/moe_smoothquant_kernel.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -12,7 +12,7 @@ namespace ck_tile {
 struct MoeSmoothquantHostArgs
 {
     const void* p_x;        // [tokens ,hidden_size], input, fp16/bf16
-    const void* p_xscale;   // [experts, hidden_size], input, columnwise scale, fp32
+    const void* p_smscale;  // [experts, hidden_size], input, columnwise scale, fp32
     const void* p_topk_ids; // [tokens, topk]
 
     void* p_yscale; // [topk * tokens,  1], output, rowwise quant scale
@@ -33,11 +33,11 @@ struct MoeSmoothquant
     using Pipeline = remove_cvref_t<Pipeline_>;
     using Problem  = typename Pipeline::Problem;
 
-    using XDataType       = remove_cvref_t<typename Problem::XDataType>;
-    using XScaleDataType  = remove_cvref_t<typename Problem::XScaleDataType>;
-    using ComputeDataType = remove_cvref_t<typename Problem::ComputeDataType>;
-    using YScaleDataType  = remove_cvref_t<typename Problem::YScaleDataType>;
-    using QYDataType      = remove_cvref_t<typename Problem::QYDataType>;
+    using XDataType           = remove_cvref_t<typename Problem::XDataType>;
+    using SmoothScaleDataType = remove_cvref_t<typename Problem::SmoothScaleDataType>;
+    using ComputeDataType     = remove_cvref_t<typename Problem::ComputeDataType>;
+    using YScaleDataType      = remove_cvref_t<typename Problem::YScaleDataType>;
+    using QYDataType          = remove_cvref_t<typename Problem::QYDataType>;
 
     static constexpr index_t Block_M = Problem::BlockShape::Block_M;
     static constexpr index_t Block_N = Problem::BlockShape::Block_N;
@@ -57,7 +57,7 @@ struct MoeSmoothquant
     struct Kargs
     {
         const void* p_x;        // [tokens ,hidden_size], input, fp16/bf16
-        const void* p_xscale;   // [experts, hidden_size], input, columnwise scale, fp32
+        const void* p_smscale;  // [experts, hidden_size], input, columnwise scale, fp32
         const void* p_topk_ids; // [tokens, topk]
 
         void* p_yscale; // [topk, tokens, 1], output, rowwise quant scale
@@ -75,7 +75,7 @@ struct MoeSmoothquant
     CK_TILE_HOST static constexpr Kargs MakeKargs(const Hargs& hargs)
     {
         return Kargs{hargs.p_x,
-                     hargs.p_xscale,
+                     hargs.p_smscale,
                      hargs.p_topk_ids,
                      hargs.p_yscale,
                      hargs.p_qy,
@@ -153,9 +153,10 @@ struct MoeSmoothquant
         }();
 
         // [experts, hidden_size],
-        const auto xscale_window = [&]() {
+        const auto smscale_window = [&]() {
             const auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
-                static_cast<const XScaleDataType*>(kargs.p_xscale) + i_expert * kargs.hidden_size,
+                static_cast<const SmoothScaleDataType*>(kargs.p_smscale) +
+                    i_expert * kargs.hidden_size,
                 make_tuple(kargs.hidden_size),
                 make_tuple(1),
                 number<Vector_N>{},
@@ -198,7 +199,7 @@ struct MoeSmoothquant
 
         __shared__ char smem[GetSmemSize()];
 
-        Pipeline{}(x_window, xscale_window, yscale_window, qy_window, kargs.hidden_size, smem);
+        Pipeline{}(x_window, smscale_window, yscale_window, qy_window, kargs.hidden_size, smem);
     }
 };
 

include/ck_tile/ops/smoothquant/kernel/smoothquant_kernel.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -11,11 +11,11 @@ namespace ck_tile {
 // host side args
 struct SmoothquantHostArgs
 {
-    const void* p_x;      // [m ,n], input, fp16/bf16
-    const void* p_xscale; // [1, n], input, columnwise scale, fp32
+    const void* p_x;       // [m ,n], input, fp16/bf16
+    const void* p_smscale; // [1, n], input, columnwise scale, fp32
 
-    void* p_yscale; // [m, 1], output, rowwise quant scale (amax / 127) of (p_x * p_xscale)
-    void* p_qy;     // [m, n], output, p_x * p_xscale / p_yscale
+    void* p_yscale; // [m, 1], output, rowwise quant scale (amax / 127) of (p_x * p_smscale)
+    void* p_qy;     // [m, n], output, p_x * p_smscale / p_yscale
 
     index_t m;
     index_t n;
@@ -30,11 +30,11 @@ struct Smoothquant
     using Pipeline = remove_cvref_t<Pipeline_>;
     using Problem  = typename Pipeline::Problem;
 
-    using XDataType       = remove_cvref_t<typename Problem::XDataType>;
-    using XScaleDataType  = remove_cvref_t<typename Problem::XScaleDataType>;
-    using ComputeDataType = remove_cvref_t<typename Problem::ComputeDataType>;
-    using YScaleDataType  = remove_cvref_t<typename Problem::YScaleDataType>;
-    using QYDataType      = remove_cvref_t<typename Problem::QYDataType>;
+    using XDataType           = remove_cvref_t<typename Problem::XDataType>;
+    using SmoothScaleDataType = remove_cvref_t<typename Problem::SmoothScaleDataType>;
+    using ComputeDataType     = remove_cvref_t<typename Problem::ComputeDataType>;
+    using YScaleDataType      = remove_cvref_t<typename Problem::YScaleDataType>;
+    using QYDataType          = remove_cvref_t<typename Problem::QYDataType>;
 
     static constexpr index_t Block_M = Problem::BlockShape::Block_M;
     static constexpr index_t Block_N = Problem::BlockShape::Block_N;
@@ -52,7 +52,7 @@ struct Smoothquant
     struct Kargs
     {
         const void* p_x;
-        const void* p_xscale;
+        const void* p_smscale;
 
         void* p_yscale;
         void* p_qy;
@@ -67,7 +67,7 @@ struct Smoothquant
     CK_TILE_HOST static constexpr Kargs MakeKargs(const Hargs& hargs)
     {
         return Kargs{hargs.p_x,
-                     hargs.p_xscale,
+                     hargs.p_smscale,
                      hargs.p_yscale,
                      hargs.p_qy,
                      hargs.m,
@@ -134,9 +134,9 @@ struct Smoothquant
                 tmp2_, make_tuple(number<Block_M>{}, number<Block_N>{}), {iM, 0});
         }();
 
-        const auto xscale_window = [&]() {
+        const auto smscale_window = [&]() {
             const auto tmp_ = make_naive_tensor_view<address_space_enum::global>(
-                static_cast<const XScaleDataType*>(kargs.p_xscale),
+                static_cast<const SmoothScaleDataType*>(kargs.p_smscale),
                 make_tuple(kargs.n),
                 make_tuple(1),
                 number<Vector_N>{},
@@ -177,7 +177,7 @@ struct Smoothquant
 
         __shared__ char smem[GetSmemSize()];
 
-        Pipeline{}(x_window, xscale_window, yscale_window, qy_window, kargs.n, smem);
+        Pipeline{}(x_window, smscale_window, yscale_window, qy_window, kargs.n, smem);
     }
 };
 

include/ck_tile/ops/smoothquant/pipeline/smoothquant_pipeline_default_policy.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -28,7 +28,7 @@ struct SmoothquantPipelineDefaultPolicy
     }
 
     template <typename Problem>
-    CK_TILE_DEVICE static constexpr auto MakeXScaleBlockTileDistribution()
+    CK_TILE_DEVICE static constexpr auto MakeSmoothScaleBlockTileDistribution()
     {
         using S = typename Problem::BlockShape;
 

include/ck_tile/ops/smoothquant/pipeline/smoothquant_pipeline_one_pass.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -16,11 +16,11 @@ struct SmoothquantPipelineOnePass
     using Problem = ck_tile::remove_cvref_t<Problem_>;
     using Policy  = ck_tile::remove_cvref_t<Policy_>;
 
-    using XDataType       = ck_tile::remove_cvref_t<typename Problem::XDataType>;
-    using XScaleDataType  = ck_tile::remove_cvref_t<typename Problem::XScaleDataType>;
-    using ComputeDataType = ck_tile::remove_cvref_t<typename Problem::ComputeDataType>;
-    using QYDataType      = ck_tile::remove_cvref_t<typename Problem::QYDataType>;
-    using YScaleDataType  = ck_tile::remove_cvref_t<typename Problem::YScaleDataType>;
+    using XDataType           = ck_tile::remove_cvref_t<typename Problem::XDataType>;
+    using SmoothScaleDataType = ck_tile::remove_cvref_t<typename Problem::SmoothScaleDataType>;
+    using ComputeDataType     = ck_tile::remove_cvref_t<typename Problem::ComputeDataType>;
+    using QYDataType          = ck_tile::remove_cvref_t<typename Problem::QYDataType>;
+    using YScaleDataType      = ck_tile::remove_cvref_t<typename Problem::YScaleDataType>;
 
     static constexpr bool kNeedCrossWarpSync = Problem::kNeedCrossWarpSync;
     static constexpr bool kPadM              = false; // TODO - BlockSmoothquantProblem::kPadM
@@ -39,9 +39,12 @@ struct SmoothquantPipelineOnePass
         return Policy::template GetSmemSize<Problem>();
     }
 
-    template <typename XWindow, typename XScaleWindow, typename QYWindow, typename YScaleWindow>
+    template <typename XWindow,
+              typename SmoothScaleWindow,
+              typename QYWindow,
+              typename YScaleWindow>
     CK_TILE_DEVICE auto operator()(const XWindow& x_window_,
-                                   const XScaleWindow& xscale_window_,
+                                   const SmoothScaleWindow& smscale_window_,
                                    YScaleWindow& yscale_window,
                                    QYWindow& qy_window,
                                    ck_tile::index_t,
@@ -49,8 +52,8 @@ struct SmoothquantPipelineOnePass
     {
         auto x_window =
             make_tile_window(x_window_, Policy::template MakeXBlockTileDistribution<Problem>());
-        auto xscale_window = make_tile_window(
-            xscale_window_, Policy::template MakeXScaleBlockTileDistribution<Problem>());
+        auto smscale_window = make_tile_window(
+            smscale_window_, Policy::template MakeSmoothScaleBlockTileDistribution<Problem>());
 
         auto reduce_absmax_func  = ReduceOp::AbsMax{};
         auto reduce_absmax3_func = [](auto acc_, auto v_0_, auto v_1_) {
@@ -67,14 +70,14 @@ struct SmoothquantPipelineOnePass
         auto block_reduce2d_cross_warp_sync =
             Policy::template GetBlockReduce2dCrossWarpSync<Problem>();
 
-        const auto x      = load_tile(x_window);
-        const auto xscale = load_tile(xscale_window);
-        auto y            = tile_elementwise_in(
+        const auto x       = load_tile(x_window);
+        const auto smscale = load_tile(smscale_window);
+        auto y             = tile_elementwise_in(
             [&](const auto& a, const auto& b) {
                 return type_convert<ComputeDataType>(a) * type_convert<ComputeDataType>(b);
             },
             x,
-            xscale);
+            smscale);
 
         // compute absmax, cross-lane->cross-warp
         auto absmax = [&]() {

include/ck_tile/ops/smoothquant/pipeline/smoothquant_pipeline_problem.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -7,9 +7,9 @@
 
 namespace ck_tile {
 
-// Y = X * XScale, QY = RowwiseDynamicQuant(Y) = SaturateCast(Y / YScale)
+// Y = X * SmoothScale, QY = RowwiseDynamicQuant(Y) = SaturateCast(Y / YScale)
 template <typename XDataType_,
-          typename XScaleDataType_,
+          typename SmoothScaleDataType_,
           typename ComputeDataType_,
           typename YScaleDataType_,
           typename QYDataType_,
@@ -18,12 +18,12 @@ template <typename XDataType_,
           bool kTwoPass_>
 struct SmoothquantPipelineProblem
 {
-    using XDataType       = remove_cvref_t<XDataType_>;
-    using XScaleDataType  = remove_cvref_t<XScaleDataType_>;
-    using ComputeDataType = remove_cvref_t<ComputeDataType_>;
-    using YScaleDataType  = remove_cvref_t<YScaleDataType_>;
-    using QYDataType      = remove_cvref_t<QYDataType_>;
-    using BlockShape      = remove_cvref_t<BlockShape_>;
+    using XDataType           = remove_cvref_t<XDataType_>;
+    using SmoothScaleDataType = remove_cvref_t<SmoothScaleDataType_>;
+    using ComputeDataType     = remove_cvref_t<ComputeDataType_>;
+    using YScaleDataType      = remove_cvref_t<YScaleDataType_>;
+    using QYDataType          = remove_cvref_t<QYDataType_>;
+    using BlockShape          = remove_cvref_t<BlockShape_>;
 
     static constexpr bool kNeedCrossLaneSync = BlockShape::ThreadPerWarp_N > 1;
     static constexpr bool kNeedCrossWarpSync = BlockShape::WarpPerBlock_N > 1;

include/ck_tile/ops/smoothquant/pipeline/smoothquant_pipeline_two_pass.hpp

@@ -1,5 +1,5 @@
 // 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
 
@@ -16,11 +16,11 @@ struct SmoothquantPipelineTwoPass
     using Problem = ck_tile::remove_cvref_t<Problem_>;
     using Policy  = ck_tile::remove_cvref_t<Policy_>;
 
-    using XDataType       = ck_tile::remove_cvref_t<typename Problem::XDataType>;
-    using XScaleDataType  = ck_tile::remove_cvref_t<typename Problem::XScaleDataType>;
-    using ComputeDataType = ck_tile::remove_cvref_t<typename Problem::ComputeDataType>;
-    using QYDataType      = ck_tile::remove_cvref_t<typename Problem::QYDataType>;
-    using YScaleDataType  = ck_tile::remove_cvref_t<typename Problem::YScaleDataType>;
+    using XDataType           = ck_tile::remove_cvref_t<typename Problem::XDataType>;
+    using SmoothScaleDataType = ck_tile::remove_cvref_t<typename Problem::SmoothScaleDataType>;
+    using ComputeDataType     = ck_tile::remove_cvref_t<typename Problem::ComputeDataType>;
+    using QYDataType          = ck_tile::remove_cvref_t<typename Problem::QYDataType>;
+    using YScaleDataType      = ck_tile::remove_cvref_t<typename Problem::YScaleDataType>;
 
     static constexpr bool kNeedCrossWarpSync = Problem::kNeedCrossWarpSync;
     static constexpr bool kPadM              = false; // TODO - BlockSmoothquantProblem::kPadM
@@ -39,9 +39,12 @@ struct SmoothquantPipelineTwoPass
         return Policy::template GetSmemSize<Problem>();
     }
 
-    template <typename XWindow, typename XScaleWindow, typename QYWindow, typename YScaleWindow>
+    template <typename XWindow,
+              typename SmoothScaleWindow,
+              typename QYWindow,
+              typename YScaleWindow>
     CK_TILE_DEVICE auto operator()(const XWindow& x_window_,
-                                   const XScaleWindow& xscale_window_,
+                                   const SmoothScaleWindow& smscale_window_,
                                    YScaleWindow& yscale_window,
                                    QYWindow& qy_window,
                                    ck_tile::index_t row_size,
@@ -49,8 +52,8 @@ struct SmoothquantPipelineTwoPass
     {
         auto x_window =
             make_tile_window(x_window_, Policy::template MakeXBlockTileDistribution<Problem>());
-        auto xscale_window = make_tile_window(
-            xscale_window_, Policy::template MakeXScaleBlockTileDistribution<Problem>());
+        auto smscale_window = make_tile_window(
+            smscale_window_, Policy::template MakeSmoothScaleBlockTileDistribution<Problem>());
 
         static constexpr index_t Block_N = Problem::BlockShape::Block_N;
         index_t num_n_tile_iteration =
@@ -76,14 +79,14 @@ struct SmoothquantPipelineTwoPass
 
         for(int iN = __builtin_amdgcn_readfirstlane(0); iN < num_n_tile_iteration; ++iN)
         {
-            const auto x      = load_tile(x_window);
-            const auto xscale = load_tile(xscale_window);
-            const auto y      = tile_elementwise_in(
+            const auto x       = load_tile(x_window);
+            const auto smscale = load_tile(smscale_window);
+            const auto y       = tile_elementwise_in(
                 [&](const auto& a, const auto& b) {
                     return type_convert<ComputeDataType>(a) * type_convert<ComputeDataType>(b);
                 },
                 x,
-                xscale);
+                smscale);
 
             constexpr auto x_size_per_row =
                 x.get_tile_distribution().get_ys_to_d_descriptor().get_lengths().at(number<1>{});
@@ -94,7 +97,7 @@ struct SmoothquantPipelineTwoPass
                 block_reduce2d(y, absmax, reduce_absmax_func);
 
             move_tile_window(x_window, {0, Block_N});
-            move_tile_window(xscale_window, {Block_N});
+            move_tile_window(smscale_window, {Block_N});
         }
 
         // compute absmax, cross-lane->cross-warp
@@ -114,20 +117,20 @@ struct SmoothquantPipelineTwoPass
             row_size % Block_N == 0 ? row_size - Block_N : row_size - row_size % Block_N;
 
         move_tile_window(x_window, {0, -Block_N});
-        move_tile_window(xscale_window, {-Block_N});
+        move_tile_window(smscale_window, {-Block_N});
         move_tile_window(qy_window, {0, stride_to_right_most_window});
 
         // recompute y and quantize y to qy
         for(int iN = __builtin_amdgcn_readfirstlane(0); iN < num_n_tile_iteration; ++iN)
         {
-            const auto x      = load_tile(x_window);
-            const auto xscale = load_tile(xscale_window);
-            const auto y      = tile_elementwise_in(
+            const auto x       = load_tile(x_window);
+            const auto smscale = load_tile(smscale_window);
+            const auto y       = tile_elementwise_in(
                 [&](const auto& a, const auto& b) {
                     return type_convert<ComputeDataType>(a) * type_convert<ComputeDataType>(b);
                 },
                 x,
-                xscale);
+                smscale);
 
             auto qy = make_static_distributed_tensor<QYDataType>(y.get_tile_distribution());
             sweep_tile(qy, [&](auto idx) {
@@ -138,7 +141,7 @@ struct SmoothquantPipelineTwoPass
             store_tile(qy_window, qy);
 
             move_tile_window(x_window, {0, -Block_N});
-            move_tile_window(xscale_window, {0, -Block_N});
+            move_tile_window(smscale_window, {0, -Block_N});
             move_tile_window(qy_window, {0, -Block_N});
         }
     }