#ifndef CK_AMD_BUFFER_ADDRESSING_HPP #define CK_AMD_BUFFER_ADDRESSING_HPP #include "float_type.hpp" namespace ck { // For 128 bit SGPRs to supply resource constant in buffer instructions // https://rocm-documentation.readthedocs.io/en/latest/GCN_ISA_Manuals/testdocbook.html#vector-memory-buffer-instructions template union BufferResourceConstant { int32x4_t data; T* address[2]; int32_t range[4]; int32_t config[4]; }; __device__ float __llvm_amdgcn_buffer_load_f32(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.f32"); __device__ float2_t __llvm_amdgcn_buffer_load_f32x2(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.v2f32"); __device__ float4_t __llvm_amdgcn_buffer_load_f32x4(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.v4f32"); __device__ half_t __llvm_amdgcn_buffer_load_f16(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.f16"); __device__ half2_t __llvm_amdgcn_buffer_load_f16x2(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.v2f16"); __device__ half4_t __llvm_amdgcn_buffer_load_f16x4(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.v4f16"); __device__ ushort __llvm_amdgcn_buffer_load_bf16(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.bf16"); __device__ ushort2_t __llvm_amdgcn_buffer_load_bf16x2(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.v2bf16"); __device__ ushort4_t __llvm_amdgcn_buffer_load_bf16x4(int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.load.v4bf16"); __device__ void __llvm_amdgcn_buffer_store_f32(float vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.f32"); __device__ void __llvm_amdgcn_buffer_store_f32x2(float2_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.v2f32"); __device__ void __llvm_amdgcn_buffer_store_f32x4(float4_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.v4f32"); __device__ void __llvm_amdgcn_buffer_store_f16(half_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.f16"); __device__ void __llvm_amdgcn_buffer_store_f16x2(half2_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.v2f16"); __device__ void __llvm_amdgcn_buffer_store_f16x4(half4_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.v4f16"); __device__ void __llvm_amdgcn_buffer_store_bf16(ushort vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.bf16"); __device__ void __llvm_amdgcn_buffer_store_bf16x2(ushort2_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.v2bf16"); __device__ void __llvm_amdgcn_buffer_store_bf16x4(ushort4_t vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool glc, bool slc) __asm("llvm.amdgcn.buffer.store.v4bf16"); __device__ void __llvm_amdgcn_buffer_atomic_add_f32(float vdata, int32x4_t srsrc, index_t vindex, index_t offset, bool slc) __asm("llvm.amdgcn.buffer.atomic.fadd.f32"); // buffer_load requires: // 1) p_src_thread must be in global memory space, p_dst_thread must be vgpr // 2) p_src_thread to be a wavewise pointer. // It is user's responsibility to make sure that is true. template __device__ typename vector_type::MemoryType amd_buffer_load(const T* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_elemenst_space); // buffer_store requires: // 1) p_src_thread must be in vgpr space, p_dst_thread must be global memory // 2) p_dst_thread to be a wavewise pointer. // It is user's responsibility to make sure that is true. template __device__ void amd_buffer_store(const T* p_src_thread, T* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range); // buffer_atomic requires: // 1) p_src_thread must be in vgpr space, p_dst_thread must be global memory // 2) p_dst_thread to be a wavewise pointer. // It is user's responsibility to make sure that is true. template __device__ void amd_buffer_atomic_add(const T* p_src_thread, T* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range); template <> __device__ float amd_buffer_load(const float* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(float); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(float); #if 1 // debug #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK return __llvm_amdgcn_buffer_load_f32(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; return __llvm_amdgcn_buffer_load_f32( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif #else return src_thread_data_valid ? __llvm_amdgcn_buffer_load_f32( src_wave_buffer_resource.data, 0, src_thread_addr_offset, false, false) : 0; #endif } template <> __device__ float2_t amd_buffer_load(const float* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(float); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK return __llvm_amdgcn_buffer_load_f32x2(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; return __llvm_amdgcn_buffer_load_f32x2( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif } template <> __device__ float4_t amd_buffer_load(const float* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(float); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK return __llvm_amdgcn_buffer_load_f32x4(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; return __llvm_amdgcn_buffer_load_f32x4( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif } template <> __device__ half_t amd_buffer_load(const half_t* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(half_t); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; #if !CK_WORKAROUND_SWDEV_231101 index_t src_thread_addr_offset = src_thread_data_offset * sizeof(half_t); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK return __llvm_amdgcn_buffer_load_f16(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; return __llvm_amdgcn_buffer_load_f16( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif #else return src_thread_data_valid ? p_src_wave[src_thread_data_offset] : 0; #endif } template <> __device__ half2_t amd_buffer_load(const half_t* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(half_t); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(half_t); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK float dst_out_tmp = __llvm_amdgcn_buffer_load_f32(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; float dst_out_tmp = __llvm_amdgcn_buffer_load_f32( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif return *reinterpret_cast(&dst_out_tmp); } template <> __device__ half4_t amd_buffer_load(const half_t* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(half_t); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(half_t); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK float2_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x2(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; float2_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x2( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif return *reinterpret_cast(&dst_out_tmp); } template <> __device__ half8_t amd_buffer_load(const half_t* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(half_t); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(half_t); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK float4_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x4(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; float4_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x4( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif return *reinterpret_cast(&dst_out_tmp); } template <> __device__ ushort amd_buffer_load(const ushort* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(ushort); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; #if !CK_WORKAROUND_SWDEV_231101 index_t src_thread_addr_offset = src_thread_data_offset * sizeof(ushort); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK return __llvm_amdgcn_buffer_load_bf16(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; return __llvm_amdgcn_buffer_load_bf16( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif #else return src_thread_data_valid ? p_src_wave[src_thread_data_offset] : 0; #endif } template <> __device__ ushort2_t amd_buffer_load(const ushort* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(ushort); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(ushort); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK float dst_out_tmp = __llvm_amdgcn_buffer_load_f32(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; float dst_out_tmp = __llvm_amdgcn_buffer_load_f32( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif return *reinterpret_cast(&dst_out_tmp); } template <> __device__ ushort4_t amd_buffer_load(const ushort* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(ushort); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(ushort); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK float2_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x2(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; float2_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x2( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif return *reinterpret_cast(&dst_out_tmp); } template <> __device__ ushort8_t amd_buffer_load(const ushort* p_src_wave, index_t src_thread_data_offset, bool src_thread_data_valid, index_t src_data_range) { BufferResourceConstant src_wave_buffer_resource; // wavewise base address (64 bit) src_wave_buffer_resource.address[0] = const_cast(p_src_wave); // wavewise range (32 bit) src_wave_buffer_resource.range[2] = src_data_range * sizeof(ushort); // wavewise setting (32 bit) src_wave_buffer_resource.config[3] = 0x00027000; index_t src_thread_addr_offset = src_thread_data_offset * sizeof(ushort); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK float4_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x4(src_wave_buffer_resource.data, 0, src_thread_data_valid ? src_thread_addr_offset : 0xffffffff, false, false); #else uint32_t src_addr_shift = src_thread_data_valid ? 0 : 0x7fffffff; float4_t dst_out_tmp = __llvm_amdgcn_buffer_load_f32x4( src_wave_buffer_resource.data, 0, src_addr_shift + src_thread_addr_offset, false, false); #endif return *reinterpret_cast(&dst_out_tmp); } template <> __device__ void amd_buffer_store(const float* p_src_thread, float* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(float); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(float); #if 1 // debug #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif #else if(dst_thread_data_valid) { __llvm_amdgcn_buffer_store_f32( *p_src_thread, dst_wave_buffer_resource.data, 0, dst_thread_addr_offset, false, false); } #endif } template <> __device__ void amd_buffer_store(const float* p_src_thread, float* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(float); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32x2(*reinterpret_cast(p_src_thread), dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32x2(*reinterpret_cast(p_src_thread), dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const float* p_src_thread, float* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(float); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32x4(*reinterpret_cast(p_src_thread), dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32x4(*reinterpret_cast(p_src_thread), dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const half_t* p_src_thread, half_t* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(half_t); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; #if !CK_WORKAROUND_SWDEV_231101 index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(half_t); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f16(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f16(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif #else if(dst_thread_data_valid) { p_dst_wave[dst_thread_data_offset] = *p_src_thread; } #endif } template <> __device__ void amd_buffer_store(const half_t* p_src_thread, half_t* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(half_t); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(half_t); const float* p_src_tmp = reinterpret_cast(p_src_thread); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const half_t* p_src_thread, half_t* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(half_t); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(half_t); const float2_t* p_src_tmp = reinterpret_cast(p_src_thread); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32x2(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32x2(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const half_t* p_src_thread, half_t* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(half_t); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(half_t); const float4_t* p_src_tmp = reinterpret_cast(p_src_thread); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32x4(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32x4(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const ushort* p_src_thread, ushort* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(ushort); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; #if !CK_WORKAROUND_SWDEV_231101 index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(ushort); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_bf16(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_bf16(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif #else if(dst_thread_data_valid) { p_dst_wave[dst_thread_data_offset] = *p_src_thread; } #endif } template <> __device__ void amd_buffer_store(const ushort* p_src_thread, ushort* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(ushort); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(ushort); const float* p_src_tmp = reinterpret_cast(p_src_thread); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const ushort* p_src_thread, ushort* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(ushort); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(ushort); const float2_t* p_src_tmp = reinterpret_cast(p_src_thread); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32x2(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32x2(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_store(const ushort* p_src_thread, ushort* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(ushort); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(ushort); const float4_t* p_src_tmp = reinterpret_cast(p_src_thread); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_store_f32x4(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_store_f32x4(*p_src_tmp, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false, false); #endif } template <> __device__ void amd_buffer_atomic_add(const float* p_src_thread, float* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(float); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK __llvm_amdgcn_buffer_atomic_add_f32(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? dst_thread_addr_offset : 0xffffffff, false); #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; __llvm_amdgcn_buffer_atomic_add_f32(*p_src_thread, dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset, false); #endif } template <> __device__ void amd_buffer_atomic_add(const float* p_src_thread, float* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range; // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK for(index_t i = 0; i < 2; ++i) { __llvm_amdgcn_buffer_atomic_add_f32( p_src_thread[i], dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? (dst_thread_addr_offset + i * sizeof(float)) : 0xffffffff, false); } #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; for(index_t i = 0; i < 2; ++i) { __llvm_amdgcn_buffer_atomic_add_f32(p_src_thread[i], dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset + i * sizeof(float), false); } #endif } template <> __device__ void amd_buffer_atomic_add(const float* p_src_thread, float* p_dst_wave, index_t dst_thread_data_offset, bool dst_thread_data_valid, index_t dst_data_range) { BufferResourceConstant dst_wave_buffer_resource; // wavewise base address (64 bit) dst_wave_buffer_resource.address[0] = p_dst_wave; // wavewise range (32 bit) dst_wave_buffer_resource.range[2] = dst_data_range * sizeof(float); // wavewise setting (32 bit) dst_wave_buffer_resource.config[3] = 0x00027000; index_t dst_thread_addr_offset = dst_thread_data_offset * sizeof(float); #if !CK_EXPERIMENTAL_AMD_BUFFER_ADDRESSING_USE_OFFSET_TRICK for(index_t i = 0; i < 4; ++i) { __llvm_amdgcn_buffer_atomic_add_f32( p_src_thread[i], dst_wave_buffer_resource.data, 0, dst_thread_data_valid ? (dst_thread_addr_offset + i * sizeof(float)) : 0xffffffff, false); } #else uint32_t dst_addr_shift = dst_thread_data_valid ? 0 : 0x7fffffff; for(index_t i = 0; i < 4; ++i) { __llvm_amdgcn_buffer_atomic_add_f32(p_src_thread[i], dst_wave_buffer_resource.data, 0, dst_addr_shift + dst_thread_addr_offset + i * sizeof(float), false); } #endif } } // namespace ck #endif