// SPDX-License-Identifier: MIT // Copyright (c) 2018-2022, Advanced Micro Devices, Inc. All rights reserved. #pragma once #ifndef CK_DONT_USE_HIP_RUNTIME_HEADERS #include "hip/hip_runtime.h" #include "hip/hip_fp16.h" #endif #define CK_TIME_KERNEL 1 // constant address space for kernel parameter // https://llvm.org/docs/AMDGPUUsage.html#address-spaces #define CK_CONSTANT_ADDRESS_SPACE __attribute__((address_space(4))) // launch bounds #define CK_USE_LAUNCH_BOUNDS 1 #ifdef CK_USE_LAUNCH_BOUNDS // for most kernels #define CK_MAX_THREAD_PER_BLOCK 256 #define CK_MIN_BLOCK_PER_CU 2 // for wavelet GEMM kernel #define CK_WAVELET_MAX_THREAD_PER_BLOCK 512 #define CK_WAVELET_MIN_BLOCK_PER_CU 2 #endif // buffer resource #ifndef __HIP_DEVICE_COMPILE__ // for host code #define CK_BUFFER_RESOURCE_3RD_DWORD -1 #elif defined(__gfx803__) || defined(__gfx900__) || defined(__gfx906__) || defined(__gfx908__) || \ defined(__gfx90a__) || defined(__gfx940__) // for GPU code #define CK_BUFFER_RESOURCE_3RD_DWORD 0x00020000 #elif defined(__gfx1030__) // for GPU code #define CK_BUFFER_RESOURCE_3RD_DWORD 0x31014000 #elif defined(__gfx1100__) || defined(__gfx1101__) || defined(__gfx1102__) // for GPU code #define CK_BUFFER_RESOURCE_3RD_DWORD 0x31004000 #endif // FMA instruction #ifndef __HIP_DEVICE_COMPILE__ // for host code, define nothing #elif defined(__gfx803__) || defined(__gfx900__) // for GPU code #define CK_USE_AMD_V_MAC_F32 #elif defined(__gfx906__) || defined(__gfx908__) || defined(__gfx90a__) || defined(__gfx1030__) || \ defined(__gfx940__) // for GPU code #define CK_USE_AMD_V_FMAC_F32 #define CK_USE_AMD_V_DOT2_F32_F16 #define CK_USE_AMD_V_DOT4_I32_I8 #endif // MFMA instruction #ifndef __HIP_DEVICE_COMPILE__ // for host code #define CK_USE_AMD_MFMA #elif defined(__gfx908__) || defined(__gfx90a__) || defined(__gfx940__) // for GPU code #define CK_USE_AMD_MFMA #endif #if(defined(__gfx90a__) || defined(__gfx940__)) #define CK_USE_AMD_MFMA_BF16_1K_OP #endif #if defined(__gfx940__) #define CK_USE_AMD_MFMA_GFX940 #endif // WMMA instruction #ifndef __HIP_DEVICE_COMPILE__ // for host code #define CK_USE_AMD_WMMA #elif defined(__gfx1100__) || defined(__gfx1101__) || defined(__gfx1102__) // for GPU code #define CK_USE_AMD_WMMA #endif // buffer load #define CK_USE_AMD_BUFFER_LOAD 1 // buffer store #define CK_USE_AMD_BUFFER_STORE 1 // buffer atomic add: integer #define CK_USE_AMD_BUFFER_ATOMIC_ADD_INTEGER 1 // buffer atomic add: floating point #ifndef __HIP_DEVICE_COMPILE__ // for host code #define CK_USE_AMD_BUFFER_ATOMIC_ADD_FLOAT 1 #elif defined(__gfx908__) || defined(__gfx90a__) || defined(__gfx940__) // for GPU code #define CK_USE_AMD_BUFFER_ATOMIC_ADD_FLOAT 1 #else // for GPU code #define CK_USE_AMD_BUFFER_ATOMIC_ADD_FLOAT 0 #endif #if(defined(__gfx90a__) || defined(__gfx940__)) // for GPU code #define CK_USE_AMD_BUFFER_ATOMIC_MAX_FLOAT64 1 #else #define CK_USE_AMD_BUFFER_ATOMIC_MAX_FLOAT64 0 #endif // inline asm #define CK_USE_AMD_INLINE_ASM 1 // inner product (DLOP) #define CK_USE_AMD_INNER_PRODUCT_INLINE_ASM 1 // block synchronization only s_wait lgkmcnt(0), not vmcnt(0) #define CK_EXPERIMENTAL_BLOCK_SYNC_LDS_WITHOUT_SYNC_VMEM 1 // experimental feature: multi index implemented as array #define CK_EXPERIMENTAL_USE_DYNAMICALLY_INDEXED_MULTI_INDEX 0 // experimental feature: static tensor descriptor #define CK_EXPERIMENTAL_STATIC_TENSOR_DESCRIPTOR 0 // experimental feature: buffer load/store/atomic-add/ OOB trick // This (ifndef) is a hack to use customized behavior for buffer load rather than using default // setting. Don't use this hack unless absolutely necessary! // FIXME: make the behavior of buffer load a configurable (template) parameter for each usage #ifndef CK_EXPERIMENTAL_USE_BUFFER_LOAD_OOB_CHECK_OFFSET_TRICK #define CK_EXPERIMENTAL_USE_BUFFER_LOAD_OOB_CHECK_OFFSET_TRICK 0 #endif #define CK_EXPERIMENTAL_USE_BUFFER_STORE_OOB_CHECK_OFFSET_TRICK 1 #define CK_EXPERIMENTAL_USE_BUFFER_ATOMIC_ADD_OOB_CHECK_OFFSET_TRICK 1 #define CK_EXPERIMENTAL_USE_BUFFER_ATOMIC_MAX_OOB_CHECK_OFFSET_TRICK 1 // experimental feature: in-regsiter sub-dword transpose #define CK_EXPERIMENTAL_USE_IN_REGISTER_SUB_DWORD_TRANSPOSE 1 // experimental feature: merge transformation use magic number division #define CK_EXPERIMENTAL_MERGE_USE_MAGIC_DIVISION 1 // experimental feature: use __builtin_memcpy instead of pointer cast to access a vector from // pointer of scalar #define CK_EXPERIMENTAL_USE_MEMCPY_FOR_VECTOR_ACCESS 0 // experimental feature: use __builtin_memcpy instead of union to do bit_cast #define CK_EXPERIMENTAL_USE_MEMCPY_FOR_BIT_CAST 1 // experimental feature: optimize for inter-wave scheduling policy #define CK_EXPERIMENTAL_INTER_WAVE_SCHEDULING 1 #define CK_EXPERIMENTAL_INTER_WAVE_SCHEDULING_MAC_CLUSTERS 1 // this will let make_default_loop_scheduler() return interwave scheduling flag by default #define CK_EXPERIMENTAL_DEFAULT_TO_INTER_WAVE_SCHEDULING 0 // experimental feature: add instances using interwave scheduling #define CK_EXPERIMENTAL_INTER_WAVE_INSTANCES 1 // experimental feature: add instances using pipeline v2 #define CK_EXPERIMENTAL_PIPELINE_V2_INSTANCES 1 // hack: have underlying assumption that need to be satsified, otherwise it's a bug // hack for forcing register to keep idx_diff_low_const in SGPR. idx_diff_low_const must be // thread-invariant, otherwise it's a bug // TODO: separate index calculation into "compile-time", "global", "block", "wave", "thread" #define CK_HACK_MERGE_CALCULATE_IDX_DIFF_LOW_CONST_USE_AMD_GCN_READ_FIRST_LANE 0 // workaround: compiler crash when compiling recursive lambda #define CK_WORKAROUND_SWDEV_275126 1 // workaround: compiler crash when using buffer load/store for i8 #define CK_WORKAROUND_SWDEV_XXXXXX_INT8_BUFFER_LOAD_STORE_ISSUE 1 // workaround: compiler gnerating inefficient ds_write instructions #define CK_WORKAROUND_SWDEV_XXXXXX_INT8_DS_WRITE_ISSUE 1 // workaround: verifaction failure, due to compiler regression, for conv bwd-data fp16 using some // tuning parameter #define CK_WORKAROUND_SWDEV_325164 0 // workaround: compiler not emiting reciprocal instruction frm __frcp_rn() #define CK_WORKAROUND_SWDEV_383542 1 // workaround: compiler issue on gfx908 #define CK_WORKAROUND_SWDEV_388832 1 // flag to enable (1) or disable (0) the debugging output in some kernels #define DEBUG_LOG 0 // denorm test fix, required to work around dissue #ifndef CK_WORKAROUND_DENORM_FIX #define CK_WORKAROUND_DENORM_FIX 0 #elif // enable only on MI200 #define CK_WORKAROUND_DENORM_FIX = CK_WORKAROUND_DENORM_FIX && defined(__gfx90a__) #endif // CK_WORKAROUND_DENORM_FIX namespace ck { enum struct InMemoryDataOperationEnum { Set, AtomicAdd, AtomicMax, Add }; // FIXME: use regular Sequence and remove this template struct InMemoryDataOperationEnumSequence { static constexpr int mSize = sizeof...(Is); __host__ __device__ static constexpr InMemoryDataOperationEnum At(int I) { // the last dummy element is to prevent compiler complain about empty array, when mSize = 0 const InMemoryDataOperationEnum mData[mSize + 1] = {Is..., InMemoryDataOperationEnum::Set}; return mData[I]; } }; // index type using index_t = int32_t; using long_index_t = int64_t; } // namespace ck