diff --git a/ggml/src/ggml-cpu/ggml-cpu.c b/ggml/src/ggml-cpu/ggml-cpu.c index 18d194479..b7fefb9dd 100644 --- a/ggml/src/ggml-cpu/ggml-cpu.c +++ b/ggml/src/ggml-cpu/ggml-cpu.c @@ -7419,14 +7419,14 @@ static void ggml_compute_forward_mul_mat( if (src1_cont) { for (int64_t i13 = 0; i13 < ne13; i13++) for (int64_t i12 = 0; i12 < ne12; i12++) - if (!llamafile_sgemm(ne01, ne11, ne00/ggml_blck_size(src0->type), + if (!llamafile_sgemm(params, + ne01, ne11, ne00/ggml_blck_size(src0->type), (const char *)src0->data + i12/r2*nb02 + i13/r3*nb03, nb01/ggml_type_size(src0->type), (const char *)src1->data + i12*nb12 + i13*nb13, nb11/ggml_type_size(src1->type), (char *)dst->data + i12*nb2 + i13*nb3, nb1/ggml_type_size(dst->type), - ith, nth, src0->type, src1->type, dst->type)) @@ -7471,14 +7471,14 @@ UseGgmlGemm1:; for (int64_t i13 = 0; i13 < ne13; i13++) for (int64_t i12 = 0; i12 < ne12; i12++) - if (!llamafile_sgemm(ne01, ne11, ne00/ggml_blck_size(src0->type), + if (!llamafile_sgemm(params, + ne01, ne11, ne00/ggml_blck_size(src0->type), (const char *)src0->data + i12/r2*nb02 + i13/r3*nb03, nb01/ggml_type_size(src0->type), (const char *)wdata + (i12*ne11 + i13*ne12*ne11)*row_size, row_size/ggml_type_size(vec_dot_type), (char *)dst->data + i12*nb2 + i13*nb3, nb1/ggml_type_size(dst->type), - ith, nth, src0->type, vec_dot_type, dst->type)) diff --git a/ggml/src/ggml-cpu/llamafile/sgemm.cpp b/ggml/src/ggml-cpu/llamafile/sgemm.cpp index f80a72781..00f7f1170 100644 --- a/ggml/src/ggml-cpu/llamafile/sgemm.cpp +++ b/ggml/src/ggml-cpu/llamafile/sgemm.cpp @@ -53,6 +53,8 @@ #include "ggml-cpu-impl.h" #include "ggml-quants.h" +#include + #ifdef _MSC_VER #define NOINLINE __declspec(noinline) #else @@ -134,6 +136,16 @@ inline __m512 madd(__m512 a, __m512 b, __m512 c) { return _mm512_fmadd_ps(a, b, c); } #endif +#if defined(__AVX512BF16__) +template <> +inline __m512 madd(__m512bh a, __m512bh b, __m512 c) { + return _mm512_dpbf16_ps(c, a, b); +} +template <> +inline __m256 madd(__m256bh a, __m256bh b, __m256 c) { + return _mm256_dpbf16_ps(c, a, b); +} +#endif #endif #if defined(__ARM_FEATURE_FMA) @@ -226,6 +238,13 @@ template <> inline __m256 load(const float *p) { } #endif // __AVX__ +#if defined(__AVX2__) || defined(__AVX512F__) +template <> inline __m256 load(const ggml_bf16_t *p) { + return _mm256_castsi256_ps( + _mm256_slli_epi32(_mm256_cvtepu16_epi32(_mm_loadu_si128((const __m128i *)p)), 16)); +} +#endif // __AVX2__ + #if defined(__F16C__) template <> inline __m256 load(const ggml_fp16_t *p) { return _mm256_cvtph_ps(_mm_loadu_si128((const __m128i *)p)); @@ -239,8 +258,27 @@ template <> inline __m512 load(const float *p) { template <> inline __m512 load(const ggml_fp16_t *p) { return _mm512_cvtph_ps(_mm256_loadu_si256((const __m256i *)p)); } +template <> inline __m512 load(const ggml_bf16_t *p) { + return _mm512_castsi512_ps( + _mm512_slli_epi32(_mm512_cvtepu16_epi32(_mm256_loadu_si256((const __m256i *)p)), 16)); +} #endif // __AVX512F__ +#if defined(__AVX512BF16__) +template <> inline __m512bh load(const ggml_bf16_t *p) { + return (__m512bh)_mm512_loadu_ps((const float *)p); +} +template <> inline __m256bh load(const ggml_bf16_t *p) { + return (__m256bh)_mm256_loadu_ps((const float *)p); +} +template <> inline __m512bh load(const float *p) { + return _mm512_cvtne2ps_pbh(_mm512_loadu_ps(p + 16), _mm512_loadu_ps(p)); +} +template <> inline __m256bh load(const float *p) { + return _mm512_cvtneps_pbh(_mm512_loadu_ps(p)); +} +#endif + //////////////////////////////////////////////////////////////////////////////////////////////////// // CONSTANTS @@ -252,199 +290,170 @@ static const __m128i iq4nlt = _mm_loadu_si128((const __m128i *) kvalues_iq4nl); //////////////////////////////////////////////////////////////////////////////////////////////////// // FLOATING POINT MATRIX MULTIPLICATION +template +static inline int64_t BLOCK_SIZE(size_t m) { + const int64_t NB_BLOC_M = (m + M - 1) / M; + return (m % NB_BLOC_M == 0) ? m / NB_BLOC_M : (m / NB_BLOC_M) + 1; +} + +static constexpr inline int64_t BLOC_POS(int64_t ib, int64_t ibN, int64_t bloc_size) { + return ib < ibN ? ib * bloc_size : ibN * bloc_size + (ib - ibN) * (bloc_size - 1); +} + template class tinyBLAS { public: - tinyBLAS(int64_t k, + tinyBLAS(const ggml_compute_params * params, int64_t k, const TA *A, int64_t lda, const TB *B, int64_t ldb, - TC *C, int64_t ldc, - int ith, int nth) - : A(A), B(B), C(C), k(k), lda(lda), ldb(ldb), ldc(ldc), ith(ith), nth(nth) { + TC *C, int64_t ldc) + : params(params), A(A), B(B), C(C), k(k), lda(lda), ldb(ldb), ldc(ldc) { } - void matmul(int64_t m, int64_t n) { - mnpack(0, m, 0, n); + bool matmul(int64_t m, int64_t n) { + if (k % KN != 0) + return false; + // compute RM for only need tile with size RM&RM-1 +#if VECTOR_REGISTERS == 32 + if (m % 16 == 0 && (m/16 >= params->nth)) { + const int64_t SIZE_N = BLOCK_SIZE<6>(n); + mnpack<4, 6, 4>(m, n, SIZE_N, 12); + return true; + } + if (m % 8 == 0 ) { + const int64_t SIZE_N = BLOCK_SIZE<6>(n); + mnpack<4, 6, 2>(m, n, SIZE_N, 12); + return true; + } + if (m % 4 == 0) { + const int64_t SIZE_N = BLOCK_SIZE<6>(n); + mnpack<4, 6, 1>(m, n, SIZE_N, 12); + return true; + } +#else // VECTOR_REGISTERS == 16 + if (m % 16 == 0 && (m/16 >= params->nth)) { + const int64_t SIZE_N = BLOCK_SIZE<3>(n); + mnpack<4, 3, 4>(m, n, SIZE_N, 24); + return true; + } + if (m % 8 == 0 ) { + const int64_t SIZE_N = BLOCK_SIZE<3>(n); + mnpack<4, 3, 2>(m, n, SIZE_N, 24); + return true; + } + if (m % 4 == 0) { + const int64_t SIZE_N = BLOCK_SIZE<3>(n); + mnpack<4, 3, 1>(m, n, SIZE_N, 24); + return true; + } +#endif + return false; } private: - NOINLINE void mnpack(int64_t m0, int64_t m, int64_t n0, int64_t n) { - int64_t mc, nc, mp, np; - switch ((MIN(m - m0, 5) << 4) | MIN(n - n0, 5)) { -#if VECTOR_REGISTERS == 32 - case 0x55: - mc = 5; - nc = 5; - gemm<5, 5>(m0, m, n0, n); - break; - case 0x45: - mc = 4; - nc = 5; - gemm<4, 5>(m0, m, n0, n); - break; - case 0x54: - mc = 5; - nc = 4; - gemm<5, 4>(m0, m, n0, n); - break; - case 0x44: - mc = 4; - nc = 4; - gemm<4, 4>(m0, m, n0, n); - break; - case 0x53: - mc = 5; - nc = 3; - gemm<5, 3>(m0, m, n0, n); - break; - case 0x35: - mc = 3; - nc = 5; - gemm<3, 5>(m0, m, n0, n); - break; - case 0x43: - mc = 4; - nc = 3; - gemm<4, 3>(m0, m, n0, n); - break; -#else - case 0x55: - case 0x54: - case 0x53: - case 0x45: - case 0x44: - case 0x43: - mc = 4; - nc = 3; - gemm<4, 3>(m0, m, n0, n); - break; - case 0x35: -#endif - case 0x34: - mc = 3; - nc = 4; - gemm<3, 4>(m0, m, n0, n); - break; - case 0x52: - mc = 5; - nc = 2; - gemm<5, 2>(m0, m, n0, n); - break; - case 0x33: - mc = 3; - nc = 3; - gemm<3, 3>(m0, m, n0, n); - break; - case 0x25: - mc = 2; - nc = 5; - gemm<2, 5>(m0, m, n0, n); - break; - case 0x42: - mc = 4; - nc = 2; - gemm<4, 2>(m0, m, n0, n); - break; - case 0x24: - mc = 2; - nc = 4; - gemm<2, 4>(m0, m, n0, n); - break; - case 0x32: - mc = 3; - nc = 2; - gemm<3, 2>(m0, m, n0, n); - break; - case 0x23: - mc = 2; - nc = 3; - gemm<2, 3>(m0, m, n0, n); - break; - case 0x51: - mc = 5; - nc = 1; - gemm<5, 1>(m0, m, n0, n); - break; - case 0x41: - mc = 4; - nc = 1; - gemm<4, 1>(m0, m, n0, n); - break; - case 0x22: - mc = 2; - nc = 2; - gemm<2, 2>(m0, m, n0, n); - break; - case 0x15: - mc = 1; - nc = 5; - gemm<1, 5>(m0, m, n0, n); - break; - case 0x14: - mc = 1; - nc = 4; - gemm<1, 4>(m0, m, n0, n); - break; - case 0x31: - mc = 3; - nc = 1; - gemm<3, 1>(m0, m, n0, n); - break; - case 0x13: - mc = 1; - nc = 3; - gemm<1, 3>(m0, m, n0, n); - break; - case 0x21: - mc = 2; - nc = 1; - gemm<2, 1>(m0, m, n0, n); - break; - case 0x12: - mc = 1; - nc = 2; - gemm<1, 2>(m0, m, n0, n); - break; - case 0x11: - mc = 1; - nc = 1; - gemm<1, 1>(m0, m, n0, n); - break; - default: - return; + template + inline void mnpack(int64_t m, int64_t n, int64_t SIZE_N, int64_t BN) { + if (SIZE_N == RN) { + return gemm(m, n, BN); + } + if constexpr (RN > 1) { + return mnpack(m, n, SIZE_N, BN); + } else { + GGML_LOG_ERROR("mnpack<%d, %d> bloc size not supported\n", RM, (int)SIZE_N); + GGML_ASSERT(false); // we have miss something. } - mp = m0 + (m - m0) / mc * mc; - np = n0 + (n - n0) / nc * nc; - mnpack(mp, m, n0, np); - mnpack(m0, m, np, n); } template - NOINLINE void gemm(int64_t m0, int64_t m, int64_t n0, int64_t n) { - int64_t ytiles = (m - m0) / RM; - int64_t xtiles = (n - n0) / RN; - int64_t tiles = xtiles * ytiles; - int64_t duty = (tiles + nth - 1) / nth; - int64_t start = duty * ith; - int64_t end = start + duty; - if (end > tiles) - end = tiles; - for (int64_t job = start; job < end; ++job) { - int64_t ii = m0 + job / xtiles * RM; - int64_t jj = n0 + job % xtiles * RN; - D Cv[RN][RM] = {}; - for (int64_t l = 0; l < k; l += KN) - for (int64_t j = 0; j < RN; ++j) - for (int64_t i = 0; i < RM; ++i) - Cv[j][i] = madd(load(A + lda * (ii + i) + l), - load(B + ldb * (jj + j) + l), - Cv[j][i]); - for (int64_t j = 0; j < RN; ++j) - for (int64_t i = 0; i < RM; ++i) - C[ldc * (jj + j) + (ii + i)] = hsum(Cv[j][i]); + inline void gemm_bloc(int64_t ii, int64_t jj) { + D Cv[RN][RM] = {}; + for (int64_t l = 0; l < k; l += KN) { + // help compiler for op order. + if constexpr (RM <= RN) { + V Av[RM]; + for (int64_t i = 0; i < RM; ++i) { + Av[i] = load(A + lda * (ii + i) + l); + } + for (int64_t j = 0; j < RN; ++j) { + V Bv = load(B + ldb * (jj + j) + l); + for (int64_t i = 0; i < RM; ++i) { + Cv[j][i] = madd(Av[i], Bv, Cv[j][i]); + } + } + } else { + V Bv[RN]; + for (int64_t j = 0; j < RN; ++j) { + Bv[j] = load(B + ldb * (jj + j) + l); + } + for (int64_t i = 0; i < RM; ++i) { + V Av = load(A + lda * (ii + i) + l); + for (int64_t j = 0; j < RN; ++j) { + Cv[j][i] = madd(Av, Bv[j], Cv[j][i]); + } + } + } } + for (int64_t j = 0; j < RN; ++j) + for (int64_t i = 0; i < RM; ++i) + C[ldc * (jj + j) + (ii + i)] = hsum(Cv[j][i]); } + template + NOINLINE void gemm(int64_t m, int64_t n, int64_t BN) { + static std::atomic current_chunk; + + GGML_ASSERT(m % (RM * BM) == 0); + const int64_t ytiles = m / (RM * BM); + const int64_t xtiles = (n + RN -1) / RN; + const int64_t jj_RN = (xtiles - (xtiles * RN - n)); + + // "round" bloc_size to "nearest" BN + const int64_t NB_BN = xtiles < BN ? 1 : (xtiles + BN / 2) / BN; + const int64_t SIZE_BN = xtiles % NB_BN == 0 ? xtiles / NB_BN : xtiles / NB_BN + 1; + const int64_t jj_BN = (NB_BN - (NB_BN * SIZE_BN - xtiles)); + const int64_t nb_job = ytiles * NB_BN; + + if (params->ith == 0) { + GGML_ASSERT( jj_BN * SIZE_BN + (NB_BN - jj_BN) * (SIZE_BN - 1) == xtiles); + // Every thread starts at ith, so the first unprocessed chunk is nth. This save a bit of coordination right at the start. + std::atomic_store_explicit(¤t_chunk, (int64_t)params->nth, std::memory_order_relaxed); + } + + ggml_barrier(params->threadpool); + + int64_t job = params->ith; + while (job < nb_job) { + const int64_t ii = (job % ytiles) * RM * BM; + const int64_t jb = job / ytiles; + const int64_t jr0 = BLOC_POS(jb , jj_BN, SIZE_BN); + const int64_t jrN = BLOC_POS(jb+1, jj_BN, SIZE_BN); + + const int64_t jj0 = BLOC_POS(jr0, jj_RN, RN); + const int64_t jj2 = BLOC_POS(jrN, jj_RN, RN); + const int64_t jj1 = jj2 < jj_RN * RN ? jj2 : jj_RN * RN; + + for (int64_t bi = 0; bi < BM * RM; bi += RM) { + int64_t jj = jj0; + for (; jj < jj1; jj += RN) { + gemm_bloc(ii + bi, jj); + } + if constexpr (RN > 1) { + for (; jj < jj2; jj += RN - 1) { + gemm_bloc(ii + bi, jj); + } + } + GGML_ASSERT(jj == jj2); + } + + // next step. + job = std::atomic_fetch_add_explicit(¤t_chunk, (int64_t)1, std::memory_order_relaxed); + } + + ggml_barrier(params->threadpool); + return; + } + + const ggml_compute_params * params; const TA *const A; const TB *const B; TC *const C; @@ -452,8 +461,6 @@ class tinyBLAS { const int64_t lda; const int64_t ldb; const int64_t ldc; - const int ith; - const int nth; }; ////////////////////////////////////////////////////////////////////////////////////////// @@ -1657,8 +1664,9 @@ class tinyBLAS_PPC { * @param Ctype is GGML data type of `C` * @return true if this function was able to service the matmul request */ -bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda, const void *B, int64_t ldb, void *C, - int64_t ldc, int ith, int nth, int Atype, int Btype, int Ctype) { +bool llamafile_sgemm(const struct ggml_compute_params * params, int64_t m, int64_t n, int64_t k, + const void *A, int64_t lda, const void *B, int64_t ldb, void *C, + int64_t ldc, int Atype, int Btype, int Ctype) { assert(m >= 0); assert(n >= 0); @@ -1666,8 +1674,8 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda assert(lda >= k); assert(ldb >= k); assert(ldc >= m); - assert(nth > 0); - assert(ith < nth); + assert(params->nth > 0); + assert(params->ith < params->nth); // only enable sgemm for prompt processing if (n < 2) @@ -1682,37 +1690,25 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda if (Btype != GGML_TYPE_F32) return false; #if defined(__AVX512F__) - if (k % 16) - return false; - tinyBLAS<16, __m512, __m512, float, float, float> tb{ + tinyBLAS<16, __m512, __m512, float, float, float> tb{ params, k, (const float *)A, lda, (const float *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; + (float *)C, ldc}; + return tb.matmul(m, n); #elif defined(__AVX__) || defined(__AVX2__) - if (k % 8) - return false; - tinyBLAS<8, __m256, __m256, float, float, float> tb{ + tinyBLAS<8, __m256, __m256, float, float, float> tb{ params, k, (const float *)A, lda, (const float *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; + (float *)C, ldc}; + return tb.matmul(m, n); #elif defined(__ARM_NEON) if (n < 4) return false; - if (k % 4) - return false; - tinyBLAS<4, float32x4_t, float32x4_t, float, float, float> tb{ + tinyBLAS<4, float32x4_t, float32x4_t, float, float, float> tb{ params, k, (const float *)A, lda, (const float *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; + (float *)C, ldc}; + return tb.matmul(m, n); #elif defined(__MMA__) if (k % 8) return false; @@ -1720,7 +1716,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const float *)A, lda, (const float *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #else @@ -1728,60 +1724,71 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda #endif } + case GGML_TYPE_BF16: { +#if defined(__AVX512BF16__) + if (Btype == GGML_TYPE_BF16) { + tinyBLAS<32, __m512, __m512bh, ggml_bf16_t, ggml_bf16_t, float> tb{ params, k, + (const ggml_bf16_t *)A, lda, + (const ggml_bf16_t *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } +#elif defined(__AVX512F__) + if (Btype == GGML_TYPE_BF16) { + tinyBLAS<16, __m512, __m512, ggml_bf16_t, ggml_bf16_t, float> tb{ params, k, + (const ggml_bf16_t *)A, lda, + (const ggml_bf16_t *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } +#elif defined(__AVX2__) + if (Btype == GGML_TYPE_BF16) { + tinyBLAS<8, __m256, __m256, ggml_bf16_t, ggml_bf16_t, float> tb{ params, k, + (const ggml_bf16_t *)A, lda, + (const ggml_bf16_t *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } +#endif + return false; + } case GGML_TYPE_F16: { #if defined(__AVX512F__) - if (k % 16) - return false; - if (Btype != GGML_TYPE_F32) - return false; - tinyBLAS<16, __m512, __m512, ggml_fp16_t, float, float> tb{ - k, (const ggml_fp16_t *)A, lda, - (const float *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; + if (Btype == GGML_TYPE_F16) { + tinyBLAS<16, __m512, __m512, ggml_fp16_t, ggml_fp16_t, float> tb{ params, k, + (const ggml_fp16_t *)A, lda, + (const ggml_fp16_t *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } #elif (defined(__AVX__) || defined(__AVX2__)) && defined(__F16C__) - if (k % 8) - return false; - if (Btype != GGML_TYPE_F32) - return false; - tinyBLAS<8, __m256, __m256, ggml_fp16_t, float, float> tb{ - k, (const ggml_fp16_t *)A, lda, - (const float *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; + if (Btype == GGML_TYPE_F16) { + tinyBLAS<8, __m256, __m256, ggml_fp16_t, ggml_fp16_t, float> tb{ params, k, + (const ggml_fp16_t *)A, lda, + (const ggml_fp16_t *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } #elif defined(__ARM_FEATURE_FP16_VECTOR_ARITHMETIC) && !defined(_MSC_VER) if (n < 8) return false; - if (k % 8) - return false; - if (Btype != GGML_TYPE_F16) - return false; - tinyBLAS<8, float16x8_t, float16x8_t, ggml_fp16_t, ggml_fp16_t, float> tb{ - k, (const ggml_fp16_t *)A, lda, - (const ggml_fp16_t *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; + if (Btype == GGML_TYPE_F16) { + tinyBLAS<8, float16x8_t, float16x8_t, ggml_fp16_t, ggml_fp16_t, float> tb{ params, + k, (const ggml_fp16_t *)A, lda, + (const ggml_fp16_t *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } #elif defined(__ARM_NEON) && !defined(_MSC_VER) - if (k % 4) - return false; - if (Btype != GGML_TYPE_F32) - return false; - tinyBLAS<4, float32x4_t, float32x4_t, ggml_fp16_t, float, float> tb{ - k, (const ggml_fp16_t *)A, lda, - (const float *)B, ldb, - (float *)C, ldc, - ith, nth}; - tb.matmul(m, n); - return true; -#else - return false; + if (Btype == GGML_TYPE_F32) { + tinyBLAS<4, float32x4_t, float32x4_t, ggml_fp16_t, float, float> tb{ params, + k, (const ggml_fp16_t *)A, lda, + (const float *)B, ldb, + (float *)C, ldc}; + return tb.matmul(m, n); + } #endif + return false; } case GGML_TYPE_Q8_0: { @@ -1792,7 +1799,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const block_q8_0 *)A, lda, (const block_q8_0 *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #elif defined(__ARM_FEATURE_DOTPROD) @@ -1800,7 +1807,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const block_q8_0 *)A, lda, (const block_q8_0 *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #else @@ -1816,7 +1823,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const block_q4_0 *)A, lda, (const block_q8_0 *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #elif defined(__ARM_FEATURE_DOTPROD) @@ -1824,7 +1831,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const block_q4_0 *)A, lda, (const block_q8_0 *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #else @@ -1840,7 +1847,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const block_q5_0 *)A, lda, (const block_q8_0 *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #else @@ -1856,7 +1863,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda k, (const block_iq4_nl *)A, lda, (const block_q8_0 *)B, ldb, (float *)C, ldc, - ith, nth}; + params->ith, params->nth}; tb.matmul(m, n); return true; #else @@ -1868,6 +1875,7 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda return false; } + (void)params; (void)m; (void)n; (void)k; @@ -1877,8 +1885,6 @@ bool llamafile_sgemm(int64_t m, int64_t n, int64_t k, const void *A, int64_t lda (void)ldb; (void)C; (void)ldc; - (void)ith; - (void)nth; (void)Atype; (void)Btype; (void)Ctype; diff --git a/ggml/src/ggml-cpu/llamafile/sgemm.h b/ggml/src/ggml-cpu/llamafile/sgemm.h index caf6dd556..3d2909515 100644 --- a/ggml/src/ggml-cpu/llamafile/sgemm.h +++ b/ggml/src/ggml-cpu/llamafile/sgemm.h @@ -5,8 +5,8 @@ extern "C" { #endif -bool llamafile_sgemm(int64_t, int64_t, int64_t, const void *, int64_t, - const void *, int64_t, void *, int64_t, int, int, +bool llamafile_sgemm(const struct ggml_compute_params * params, int64_t, int64_t, int64_t, + const void *, int64_t, const void *, int64_t, void *, int64_t, int, int, int); #ifdef __cplusplus diff --git a/scripts/compare-llama-bench.py b/scripts/compare-llama-bench.py index 5069ae638..239c458d8 100755 --- a/scripts/compare-llama-bench.py +++ b/scripts/compare-llama-bench.py @@ -126,6 +126,8 @@ connection = sqlite3.connect(input_file) cursor = connection.cursor() builds = cursor.execute("SELECT DISTINCT build_commit FROM test;").fetchall() +commit_short_len = len(builds[0][0]) + try: repo = git.Repo(".", search_parent_directories=True) except git.InvalidGitRepositoryError: @@ -138,11 +140,11 @@ def find_parent_in_data(commit: git.Commit): seen_hexsha8 = set() while heap: depth, current_commit = heapq.heappop(heap) - current_hexsha8 = commit.hexsha[:8] + current_hexsha8 = commit.hexsha[:commit_short_len] if (current_hexsha8,) in builds: return current_hexsha8 for parent in commit.parents: - parent_hexsha8 = parent.hexsha[:8] + parent_hexsha8 = parent.hexsha[:commit_short_len] if parent_hexsha8 not in seen_hexsha8: seen_hexsha8.add(parent_hexsha8) heapq.heappush(heap, (depth + 1, parent)) @@ -156,9 +158,9 @@ def get_all_parent_hexsha8s(commit: git.Commit): while unvisited: current_commit = unvisited.pop(0) - visited.append(current_commit.hexsha[:8]) + visited.append(current_commit.hexsha[:commit_short_len]) for parent in current_commit.parents: - if parent.hexsha[:8] not in visited: + if parent.hexsha[:commit_short_len] not in visited: unvisited.append(parent) return visited @@ -169,10 +171,10 @@ def get_commit_name(hexsha8): if repo is None: return hexsha8 for h in repo.heads: - if h.commit.hexsha[:8] == hexsha8: + if h.commit.hexsha[:commit_short_len] == hexsha8: return h.name for t in repo.tags: - if t.commit.hexsha[:8] == hexsha8: + if t.commit.hexsha[:commit_short_len] == hexsha8: return t.name return hexsha8 @@ -183,13 +185,13 @@ def get_commit_hexsha8(name): return None for h in repo.heads: if h.name == name: - return h.commit.hexsha[:8] + return h.commit.hexsha[:commit_short_len] for t in repo.tags: if t.name == name: - return t.commit.hexsha[:8] + return t.commit.hexsha[:commit_short_len] for c in repo.iter_commits("--all"): - if c.hexsha[:8] == name[:8]: - return c.hexsha[:8] + if c.hexsha[:commit_short_len] == name[:commit_short_len]: + return c.hexsha[:commit_short_len] return None