mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-11-14 06:49:54 +00:00
162 lines
5.2 KiB
Plaintext
162 lines
5.2 KiB
Plaintext
#include "common.cuh"
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struct mma_int_A_I16K4 {
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static constexpr int I = 16;
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static constexpr int K = 4;
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static constexpr int ne = 2;
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int x[ne] = {0};
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static __device__ __forceinline__ int get_i(const int l) {
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const int ret = (l%2) * (I/2) + threadIdx.x / K;
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < I);
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return ret;
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}
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static __device__ __forceinline__ int get_k(const int /* l */) {
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const int ret = threadIdx.x % K;
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < K);
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return ret;
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}
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};
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struct mma_int_A_I16K8 {
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static constexpr int I = 16;
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static constexpr int K = 8;
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static constexpr int ne = 4;
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int x[ne] = {0};
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static __device__ __forceinline__ int get_i(const int l) {
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const int ret = (l%2) * (I/2) + threadIdx.x / (K/2);
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < I);
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return ret;
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}
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static __device__ __forceinline__ int get_k(const int l) {
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const int ret = (l/2) * (K/2) + threadIdx.x % (K/2);
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < K);
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return ret;
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}
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};
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struct mma_int_B_J8K4 {
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static constexpr int J = 8;
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static constexpr int K = 4;
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static constexpr int ne = 1;
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int x[ne] = {0};
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static __device__ __forceinline__ int get_j(const int /* l */) {
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const int ret = threadIdx.x / K;
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < J);
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return ret;
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}
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static __device__ __forceinline__ int get_k(const int /* l */) {
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const int ret = threadIdx.x % K;
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < K);
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return ret;
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}
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};
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struct mma_int_B_J8K8 {
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static constexpr int J = 8;
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static constexpr int K = 8;
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static constexpr int ne = 2;
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int x[ne] = {0};
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static __device__ __forceinline__ int get_j(const int /* l */) {
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const int ret = threadIdx.x / (K/2);
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < J);
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return ret;
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}
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static __device__ __forceinline__ int get_k(const int l) {
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const int ret = l * (K/2) + threadIdx.x % (K/2);
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < K);
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return ret;
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}
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};
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struct mma_int_C_I16J8 {
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static constexpr int I = 16;
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static constexpr int J = 8;
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static constexpr int ne = 4;
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int x[ne] = {0};
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static __device__ __forceinline__ int get_i(const int l) {
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const int ret = (l/2) * (I/2) + threadIdx.x / (J/2);
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < I);
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return ret;
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}
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static __device__ __forceinline__ int get_j(const int l) {
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const int ret = 2 * (threadIdx.x % (J/2)) + l%2;
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GGML_CUDA_ASSUME(ret >= 0);
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GGML_CUDA_ASSUME(ret < J);
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return ret;
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}
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__device__ __forceinline__ void mma_K4(const mma_int_A_I16K4 & mma_A, const mma_int_B_J8K4 & mma_B) {
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#ifdef INT8_MMA_AVAILABLE
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#if __CUDA_ARCH__ >= CC_AMPERE
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asm("mma.sync.aligned.m16n8k16.row.col.s32.s8.s8.s32 {%0, %1, %2, %3}, {%4, %5}, {%6}, {%0, %1, %2, %3};"
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: "+r"(x[0]), "+r"(x[1]), "+r"(x[2]), "+r"(x[3])
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: "r"(mma_A.x[0]), "r"(mma_A.x[1]), "r"(mma_B.x[0]));
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#else
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// On Turing m16n8k16 mma is not available, use 2x m8n8k16 mma instead:
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asm("mma.sync.aligned.m8n8k16.row.col.s32.s8.s8.s32 {%0, %1}, {%2}, {%3}, {%0, %1};"
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: "+r"(x[0]), "+r"(x[1])
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: "r"(mma_A.x[0]), "r"(mma_B.x[0]));
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asm("mma.sync.aligned.m8n8k16.row.col.s32.s8.s8.s32 {%0, %1}, {%2}, {%3}, {%0, %1};"
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: "+r"(x[2]), "+r"(x[3])
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: "r"(mma_A.x[1]), "r"(mma_B.x[0]));
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#endif // __CUDA_ARCH__ >= CC_AMPERE
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#else
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GGML_UNUSED(mma_A);
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GGML_UNUSED(mma_B);
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NO_DEVICE_CODE;
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#endif // INT8_MMA_AVAILABLE
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}
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__device__ __forceinline__ void mma_K8(const mma_int_A_I16K8 & mma_A, const mma_int_B_J8K8 & mma_B) {
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#ifdef INT8_MMA_AVAILABLE
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#if __CUDA_ARCH__ >= CC_AMPERE
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asm("mma.sync.aligned.m16n8k32.row.col.s32.s8.s8.s32 {%0, %1, %2, %3}, {%4, %5, %6, %7}, {%8, %9}, {%0, %1, %2, %3};"
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: "+r"(x[0]), "+r"(x[1]), "+r"(x[2]), "+r"(x[3])
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: "r"(mma_A.x[0]), "r"(mma_A.x[1]), "r"(mma_A.x[2]), "r"(mma_A.x[3]), "r"(mma_B.x[0]), "r"(mma_B.x[1]));
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#else
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// On Turing m16n8k32 mma is not available, use 4x m8n8k16 mma instead:
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asm("mma.sync.aligned.m8n8k16.row.col.s32.s8.s8.s32 {%0, %1}, {%2}, {%3}, {%0, %1};"
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: "+r"(x[0]), "+r"(x[1])
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: "r"(mma_A.x[0]), "r"(mma_B.x[0]));
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asm("mma.sync.aligned.m8n8k16.row.col.s32.s8.s8.s32 {%0, %1}, {%2}, {%3}, {%0, %1};"
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: "+r"(x[2]), "+r"(x[3])
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: "r"(mma_A.x[1]), "r"(mma_B.x[0]));
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asm("mma.sync.aligned.m8n8k16.row.col.s32.s8.s8.s32 {%0, %1}, {%2}, {%3}, {%0, %1};"
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: "+r"(x[0]), "+r"(x[1])
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: "r"(mma_A.x[2]), "r"(mma_B.x[1]));
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asm("mma.sync.aligned.m8n8k16.row.col.s32.s8.s8.s32 {%0, %1}, {%2}, {%3}, {%0, %1};"
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: "+r"(x[2]), "+r"(x[3])
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: "r"(mma_A.x[3]), "r"(mma_B.x[1]));
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#endif // __CUDA_ARCH__ >= CC_AMPERE
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#else
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GGML_UNUSED(mma_A);
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GGML_UNUSED(mma_B);
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NO_DEVICE_CODE;
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#endif // INT8_MMA_AVAILABLE
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}
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};
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