From 468ea24fb4633a0d681f7ac84089566c1c6190cb Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Johannes=20G=C3=A4=C3=9Fler?= Date: Wed, 2 Aug 2023 18:04:04 +0200 Subject: [PATCH 01/13] CUDA: faster non k-quant mul_mat_q kernels (#2483) --- ggml-cuda.cu | 580 ++++++++++++++++++++++++++++++++------------------- 1 file changed, 368 insertions(+), 212 deletions(-) diff --git a/ggml-cuda.cu b/ggml-cuda.cu index a4dd6bb9d..e0192bc6e 100644 --- a/ggml-cuda.cu +++ b/ggml-cuda.cu @@ -1362,22 +1362,185 @@ static __global__ void dequantize_block(const void * __restrict__ vx, float * __ } // VDR = vec dot ratio, how many contiguous integers each thread processes when the vec dot kernel is called +// MMVQ = mul_mat_vec_q, MMQ = mul_mat_q -#define VDR_q4_0_q8_1 1 +#define VDR_Q4_0_Q8_1_MMVQ 2 +#define VDR_Q4_0_Q8_1_MMQ 4 -static __device__ __forceinline__ float vec_dot_q4_0_q8_1_impl( - const int & vi, const int & ui0, const int & ui1, const half & d4, const half2 & ds8) { +template static __device__ __forceinline__ float vec_dot_q4_0_q8_1_impl( + const int * v, const int * u, const float & d4, const half2 & ds8) { #if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - // subtract 8 from each quantized value - const int vi0 = (vi >> 0) & 0x0F0F0F0F; - const int vi1 = (vi >> 4) & 0x0F0F0F0F; + int sumi = 0; - // SIMD dot product of quantized values - int sumi = __dp4a(vi0, ui0, 0); - sumi = __dp4a(vi1, ui1, sumi); +#pragma unroll + for (int i = 0; i < vdr; ++i) { + const int vi0 = (v[i] >> 0) & 0x0F0F0F0F; + const int vi1 = (v[i] >> 4) & 0x0F0F0F0F; - return __half2float(d4) * (sumi * __half2float(ds8.x) - (8/QI4_0) * __half2float(ds8.y)); + // SIMD dot product of quantized values + sumi = __dp4a(vi0, u[2*i+0], sumi); + sumi = __dp4a(vi1, u[2*i+1], sumi); + } + + // second part effectively subtracts 8 from each quant value + return d4 * (sumi * __half2float(ds8.x) - (8*vdr/QI4_0) * __half2float(ds8.y)); +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q4_1_Q8_1_MMVQ 2 +#define VDR_Q4_1_Q8_1_MMQ 4 + +template static __device__ __forceinline__ float vec_dot_q4_1_q8_1_impl( + const int * v, const int * u, const half2 & dm4, const half2 & ds8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi = 0; + +#pragma unroll + for (int i = 0; i < vdr; ++i) { + const int vi0 = (v[i] >> 0) & 0x0F0F0F0F; + const int vi1 = (v[i] >> 4) & 0x0F0F0F0F; + + // SIMD dot product of quantized values + sumi = __dp4a(vi0, u[2*i+0], sumi); + sumi = __dp4a(vi1, u[2*i+1], sumi); + } + +#ifdef GGML_CUDA_F16 + const half2 tmp = __hmul2(dm4, ds8); + const float d4d8 = __half2float(tmp.x); + const float m4s8 = __half2float(tmp.y); +#else + const float d4d8 = __half2float(dm4.x) * __half2float(ds8.x); + const float m4s8 = __half2float(dm4.y) * __half2float(ds8.y); +#endif // GGML_CUDA_F16 + + // scale second part of sum by QI8_1/(vdr * QR4_1) to compensate for multiple threads adding it + return sumi * d4d8 + m4s8 / (QI8_1 / (vdr * QR4_1)); +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q5_0_Q8_1_MMVQ 2 +#define VDR_Q5_0_Q8_1_MMQ 4 + +template static __device__ __forceinline__ float vec_dot_q5_0_q8_1_impl( + const int * vl, const int * vh, const int * u, const float & d5, const half2 & ds8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi = 0; + + for (int i = 0; i < vdr; ++i) { + int vi0 = (vl[i] >> 0) & 0x0F0F0F0F; // lower 4 qs bits, still need qh as 5th bits + vi0 |= (vh[i] << 4) & 0x00000010; // 0 -> 4 + vi0 |= (vh[i] << 11) & 0x00001000; // 1 -> 12 + vi0 |= (vh[i] << 18) & 0x00100000; // 2 -> 20 + vi0 |= (vh[i] << 25) & 0x10000000; // 3 -> 28 + sumi = __dp4a(vi0, u[2*i+0], sumi); // SIMD dot product of quantized values + + int vi1 = (vl[i] >> 4) & 0x0F0F0F0F; // upper 4 qs bits, still need qh as 5th bits + vi1 |= (vh[i] >> 12) & 0x00000010; // 16 -> 4 + vi1 |= (vh[i] >> 5) & 0x00001000; // 17 -> 12 + vi1 |= (vh[i] << 2) & 0x00100000; // 18 -> 20 + vi1 |= (vh[i] << 9) & 0x10000000; // 19 -> 28 + sumi = __dp4a(vi1, u[2*i+1], sumi); // SIMD dot product of quantized values + } + + // second part effectively subtracts 16 from each quant value + return d5 * (sumi*__half2float(ds8.x) - (16*vdr/QI5_0) * __half2float(ds8.y)); +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q5_1_Q8_1_MMVQ 2 +#define VDR_Q5_1_Q8_1_MMQ 4 + +template static __device__ __forceinline__ float vec_dot_q5_1_q8_1_impl( + const int * vl, const int * vh, const int * u, const half2 & dm5, const half2 & ds8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi = 0; + + for (int i = 0; i < vdr; ++i) { + int vi0 = (vl[i] >> 0) & 0x0F0F0F0F; // lower 4 qs bits, still need qh as 5th bits + vi0 |= (vh[i] << 4) & 0x00000010; // 0 -> 4 + vi0 |= (vh[i] << 11) & 0x00001000; // 1 -> 12 + vi0 |= (vh[i] << 18) & 0x00100000; // 2 -> 20 + vi0 |= (vh[i] << 25) & 0x10000000; // 3 -> 28 + sumi = __dp4a(vi0, u[2*i+0], sumi); // SIMD dot product of quantized values + + int vi1 = (vl[i] >> 4) & 0x0F0F0F0F; // upper 4 qs bits, still need qh as 5th bits + vi1 |= (vh[i] >> 12) & 0x00000010; // 16 -> 4 + vi1 |= (vh[i] >> 5) & 0x00001000; // 17 -> 12 + vi1 |= (vh[i] << 2) & 0x00100000; // 18 -> 20 + vi1 |= (vh[i] << 9) & 0x10000000; // 19 -> 28 + sumi = __dp4a(vi1, u[2*i+1], sumi); // SIMD dot product of quantized values + } + +#ifdef GGML_CUDA_F16 + const half2 tmp = __hmul2(dm5, ds8); + const float d5d8 = __half2float(tmp.x); + const float m5s8 = __half2float(tmp.y); +#else + const float d5d8 = __half2float(dm5.x) * __half2float(ds8.x); + const float m5s8 = __half2float(dm5.y) * __half2float(ds8.y); +#endif // GGML_CUDA_F16 + + // scale second part of sum by QI5_1 / vdr to compensate for multiple threads adding it + return sumi*d5d8 + m5s8 / (QI5_1 / vdr); + +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q8_0_Q8_1_MMVQ 2 +#define VDR_Q8_0_Q8_1_MMQ 8 + +template static __device__ __forceinline__ float vec_dot_q8_0_q8_1_impl( + const int * v, const int * u, const float & d8_0, const half2 & ds8_1) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi = 0; + + for (int i = 0; i < vdr; ++i) { + // SIMD dot product of quantized values + sumi = __dp4a(v[i], u[i], sumi); + } + + return sumi * d8_0 * __half2float(ds8_1.x); +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +template static __device__ __forceinline__ float vec_dot_q8_1_q8_1_impl( + const int * v, const int * u, const half2 & dm8, const half2 & ds8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi = 0; + + for (int i = 0; i < vdr; ++i) { + // SIMD dot product of quantized values + sumi = __dp4a(v[i], u[i], sumi); + } + +#ifdef GGML_CUDA_F16 + const half2 tmp = __hmul2(dm8, ds8); + const float d8d8 = __half2float(tmp.x); + const float m8s8 = __half2float(tmp.y); +#else + const float d8d8 = __half2float(dm8.x) * __half2float(ds8.x); + const float m8s8 = __half2float(dm8.y) * __half2float(ds8.y); +#endif // GGML_CUDA_F16 + + // scale second part of sum by QI8_1/ vdr to compensate for multiple threads adding it + return sumi*d8d8 + m8s8 / (QI8_1 / vdr); #else return 0.0f; // only to satisfy the compiler #endif // __CUDA_ARCH__ >= MIN_CC_DP4A @@ -1388,20 +1551,26 @@ static __device__ __forceinline__ float vec_dot_q4_0_q8_1( const block_q4_0 * bq4_0 = (const block_q4_0 *) vbq; - const int vi = get_int_from_uint8(bq4_0->qs, iqs); - const int ui0 = get_int_from_int8_aligned(bq8_1->qs, iqs); - const int ui1 = get_int_from_int8_aligned(bq8_1->qs, iqs + QI4_0); + int v[VDR_Q4_0_Q8_1_MMVQ]; + int u[2*VDR_Q4_0_Q8_1_MMVQ]; - return vec_dot_q4_0_q8_1_impl(vi, ui0, ui1, bq4_0->d, bq8_1->ds); +#pragma unroll + for (int i = 0; i < VDR_Q4_0_Q8_1_MMVQ; ++i) { + v[i] = get_int_from_uint8(bq4_0->qs, iqs + i); + u[2*i+0] = get_int_from_int8_aligned(bq8_1->qs, iqs + i); + u[2*i+1] = get_int_from_int8_aligned(bq8_1->qs, iqs + i + QI4_0); + } + + return vec_dot_q4_0_q8_1_impl(v, u, bq4_0->d, bq8_1->ds); } static __device__ __forceinline__ void allocate_tiles_q4_0(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { __shared__ int tile_x_qs[GGML_CUDA_MMQ_Y * (WARP_SIZE) + GGML_CUDA_MMQ_Y]; - __shared__ half2 tile_x_d[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI4_0) + GGML_CUDA_MMQ_Y/QI4_0]; + __shared__ float tile_x_d[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI4_0) + GGML_CUDA_MMQ_Y/QI4_0]; *x_ql = tile_x_qs; - *x_dm = tile_x_d; + *x_dm = (half2 *) tile_x_d; } template static __device__ __forceinline__ void load_tiles_q4_0( @@ -1418,6 +1587,8 @@ template static __device__ __forceinline__ void load_tiles_q4_ const block_q4_0 * bx0 = (block_q4_0 *) vx; + float * x_dmf = (float *) x_dm; + #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8) { int i = i0 + i_offset; @@ -1429,7 +1600,7 @@ template static __device__ __forceinline__ void load_tiles_q4_ const block_q4_0 * bxi = bx0 + i*blocks_per_row + kbx; x_ql[i * (WARP_SIZE + 1) + k] = get_int_from_uint8(bxi->qs, kqsx); - x_dm[i * (WARP_SIZE/QI4_0) + i / QI4_0 + kbx].x = bxi->d; + x_dmf[i * (WARP_SIZE/QI4_0) + i / QI4_0 + kbx] = bxi->d; } // const int blocks_per_tile_x_row = WARP_SIZE / QI4_0; @@ -1462,39 +1633,19 @@ static __device__ __forceinline__ float vec_dot_q4_0_q8_1_mul_mat( __builtin_assume(k < WARP_SIZE); const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); + const float * x_dmf = (float *) x_dm; - return vec_dot_q4_0_q8_1_impl( - x_ql[i * (WARP_SIZE + 1) + k], y_qs[j * (2*WARP_SIZE) + kyqs], y_qs[j * (2*WARP_SIZE) + kyqs + (QI8_1/2)], - x_dm[i * (WARP_SIZE/QI4_0) + i/QI4_0 + k/QI4_0].x, y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); -} + int u[2*VDR_Q4_0_Q8_1_MMQ]; -#define VDR_q4_1_q8_1 1 +#pragma unroll + for (int l = 0; l < VDR_Q4_0_Q8_1_MMQ; ++l) { + u[2*l+0] = y_qs[j * (2*WARP_SIZE) + kyqs + l]; + u[2*l+1] = y_qs[j * (2*WARP_SIZE) + kyqs + l + QI4_0]; + } -static __device__ __forceinline__ float vec_dot_q4_1_q8_1_impl( - const int & vi, const int & ui0, const int & ui1, const half2 & dm4, const half2 & ds8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - const int vi0 = (vi >> 0) & 0x0F0F0F0F; - const int vi1 = (vi >> 4) & 0x0F0F0F0F; - - // SIMD dot product of quantized values - int sumi = __dp4a(vi0, ui0, 0); - sumi = __dp4a(vi1, ui1, sumi); - -#ifdef GGML_CUDA_F16 - const half2 tmp = __hmul2(dm4, ds8); - const float d4d8 = __half2float(tmp.x); - const float m4s8 = __half2float(tmp.y); -#else - const float d4d8 = __half2float(dm4.x) * __half2float(ds8.x); - const float m4s8 = __half2float(dm4.y) * __half2float(ds8.y); -#endif // GGML_CUDA_F16 - - // scale second part of sum by QI8_1/QR4_1 to compensate for multiple threads adding it - return sumi * d4d8 + m4s8 / (QI8_1 / QR4_1); -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + return vec_dot_q4_0_q8_1_impl + (&x_ql[i * (WARP_SIZE + 1) + k], u, x_dmf[i * (WARP_SIZE/QI4_0) + i/QI4_0 + k/QI4_0], + y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); } static __device__ __forceinline__ float vec_dot_q4_1_q8_1( @@ -1502,11 +1653,17 @@ static __device__ __forceinline__ float vec_dot_q4_1_q8_1( const block_q4_1 * bq4_1 = (const block_q4_1 *) vbq; - const int vi = get_int_from_uint8_aligned(bq4_1->qs, iqs); - const int ui0 = get_int_from_int8_aligned(bq8_1->qs, iqs); - const int ui1 = get_int_from_int8_aligned(bq8_1->qs, iqs + QI4_1); + int v[VDR_Q4_1_Q8_1_MMVQ]; + int u[2*VDR_Q4_1_Q8_1_MMVQ]; - return vec_dot_q4_1_q8_1_impl(vi, ui0, ui1, bq4_1->dm, bq8_1->ds); +#pragma unroll + for (int i = 0; i < VDR_Q4_1_Q8_1_MMVQ; ++i) { + v[i] = get_int_from_uint8_aligned(bq4_1->qs, iqs + i); + u[2*i+0] = get_int_from_int8_aligned(bq8_1->qs, iqs + i); + u[2*i+1] = get_int_from_int8_aligned(bq8_1->qs, iqs + i + QI4_1); + } + + return vec_dot_q4_1_q8_1_impl(v, u, bq4_1->dm, bq8_1->ds); } static __device__ __forceinline__ void allocate_tiles_q4_1(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { @@ -1575,35 +1732,17 @@ static __device__ __forceinline__ float vec_dot_q4_1_q8_1_mul_mat( const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); - return vec_dot_q4_1_q8_1_impl( - x_ql[i * (WARP_SIZE + 1) + k], y_qs[j * (2*WARP_SIZE) + kyqs], y_qs[j * (2*WARP_SIZE) + kyqs + (QI8_1/2)], - x_dm[i * (WARP_SIZE/QI4_1) + i/QI4_1 + k/QI4_1], y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); -} + int u[2*VDR_Q4_1_Q8_1_MMQ]; -#define VDR_q5_0_q8_1 1 +#pragma unroll + for (int l = 0; l < VDR_Q4_1_Q8_1_MMQ; ++l) { + u[2*l+0] = y_qs[j * (2*WARP_SIZE) + kyqs + l]; + u[2*l+1] = y_qs[j * (2*WARP_SIZE) + kyqs + l + QI4_1]; + } -static __device__ __forceinline__ float vec_dot_q5_0_q8_1_impl( - const int & qs, const int & qh, const int & ui0, const int & ui1, const half & d5, const half2 & ds8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - int vi0 = (qs >> 0) & 0x0F0F0F0F; // lower 4 qs bits, still need qh as 5th bits - vi0 |= (qh << 4) & 0x00000010; // 0 -> 4 - vi0 |= (qh << 11) & 0x00001000; // 1 -> 12 - vi0 |= (qh << 18) & 0x00100000; // 2 -> 20 - vi0 |= (qh << 25) & 0x10000000; // 3 -> 28 - int sumi = __dp4a(vi0, ui0, 0); // SIMD dot product of quantized values - - int vi1 = (qs >> 4) & 0x0F0F0F0F; // upper 4 qs bits, still need qh as 5th bits - vi1 |= (qh >> 12) & 0x00000010; // 16 -> 4 - vi1 |= (qh >> 5) & 0x00001000; // 17 -> 12 - vi1 |= (qh << 2) & 0x00100000; // 18 -> 20 - vi1 |= (qh << 9) & 0x10000000; // 19 -> 28 - sumi = __dp4a(vi1, ui1, sumi); // SIMD dot product of quantized values - - return __half2float(d5) * (sumi*__half2float(ds8.x) - (16/QI5_0) * __half2float(ds8.y)); -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + return vec_dot_q4_1_q8_1_impl + (&x_ql[i * (WARP_SIZE + 1) + k], u, x_dm[i * (WARP_SIZE/QI4_1) + i/QI4_1 + k/QI4_1], + y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); } static __device__ __forceinline__ float vec_dot_q5_0_q8_1( @@ -1611,23 +1750,28 @@ static __device__ __forceinline__ float vec_dot_q5_0_q8_1( const block_q5_0 * bq5_0 = (const block_q5_0 *) vbq; - const int qs = get_int_from_uint8(bq5_0->qs, iqs); - const int qh = get_int_from_uint8(bq5_0->qh, 0) >> (4 * iqs); - const int ui0 = get_int_from_int8_aligned(bq8_1->qs, iqs); - const int ui1 = get_int_from_int8_aligned(bq8_1->qs, iqs + QI5_0); + int vl[VDR_Q5_0_Q8_1_MMVQ]; + int vh[VDR_Q5_0_Q8_1_MMVQ]; + int u[2*VDR_Q5_0_Q8_1_MMVQ]; - return vec_dot_q5_0_q8_1_impl(qs, qh, ui0, ui1, bq5_0->d, bq8_1->ds); +#pragma unroll + for (int i = 0; i < VDR_Q5_0_Q8_1_MMVQ; ++i) { + vl[i] = get_int_from_uint8(bq5_0->qs, iqs + i); + vh[i] = get_int_from_uint8(bq5_0->qh, 0) >> (4 * (iqs + i)); + u[2*i+0] = get_int_from_int8_aligned(bq8_1->qs, iqs + i); + u[2*i+1] = get_int_from_int8_aligned(bq8_1->qs, iqs + i + QI5_0); + } + + return vec_dot_q5_0_q8_1_impl(vl, vh, u, bq5_0->d, bq8_1->ds); } static __device__ __forceinline__ void allocate_tiles_q5_0(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { - __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (WARP_SIZE) + GGML_CUDA_MMQ_Y]; - __shared__ int tile_x_qh[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI5_0) + GGML_CUDA_MMQ_Y/QI5_0]; - __shared__ half2 tile_x_d[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI5_0) + GGML_CUDA_MMQ_Y/QI5_0]; + __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (2*WARP_SIZE) + GGML_CUDA_MMQ_Y]; + __shared__ float tile_x_d[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI5_0) + GGML_CUDA_MMQ_Y/QI5_0]; *x_ql = tile_x_ql; - *x_qh = tile_x_qh; - *x_dm = tile_x_d; + *x_dm = (half2 *) tile_x_d; } template static __device__ __forceinline__ void load_tiles_q5_0( @@ -1654,11 +1798,31 @@ template static __device__ __forceinline__ void load_tiles_q5_ const block_q5_0 * bxi = bx0 + i*blocks_per_row + kbx; - x_ql[i * (WARP_SIZE + 1) + k] = get_int_from_uint8(bxi->qs, kqsx); + const int ql = get_int_from_uint8(bxi->qs, kqsx); + const int qh = get_int_from_uint8(bxi->qh, 0) >> (4 * (k % QI5_0)); + + int qs0 = (ql >> 0) & 0x0F0F0F0F; + qs0 |= (qh << 4) & 0x00000010; // 0 -> 4 + qs0 |= (qh << 11) & 0x00001000; // 1 -> 12 + qs0 |= (qh << 18) & 0x00100000; // 2 -> 20 + qs0 |= (qh << 25) & 0x10000000; // 3 -> 28 + qs0 = __vsubss4(qs0, 0x10101010); // subtract 16 + + x_ql[i * (2*WARP_SIZE + 1) + 2*k+0] = qs0; + + int qs1 = (ql >> 4) & 0x0F0F0F0F; + qs1 |= (qh >> 12) & 0x00000010; // 16 -> 4 + qs1 |= (qh >> 5) & 0x00001000; // 17 -> 12 + qs1 |= (qh << 2) & 0x00100000; // 18 -> 20 + qs1 |= (qh << 9) & 0x10000000; // 19 -> 28 + qs1 = __vsubss4(qs1, 0x10101010); // subtract 16 + + x_ql[i * (2*WARP_SIZE + 1) + 2*k+1] = qs1; } const int blocks_per_tile_x_row = WARP_SIZE / QI5_0; const int kbxd = k % blocks_per_tile_x_row; + float * x_dmf = (float *) x_dm; #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * QI5_0) { @@ -1670,8 +1834,7 @@ template static __device__ __forceinline__ void load_tiles_q5_ const block_q5_0 * bxi = bx0 + i*blocks_per_row + kbxd; - x_qh[i * (WARP_SIZE/QI5_0) + i / QI5_0 + kbxd] = get_int_from_uint8(bxi->qh, 0); - x_dm[i * (WARP_SIZE/QI5_0) + i / QI5_0 + kbxd].x = bxi->d; + x_dmf[i * (WARP_SIZE/QI5_0) + i / QI5_0 + kbxd] = bxi->d; } } @@ -1688,46 +1851,18 @@ static __device__ __forceinline__ float vec_dot_q5_0_q8_1_mul_mat( const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); const int index_bx = i * (WARP_SIZE/QI5_0) + i/QI5_0 + k/QI5_0; + const float * x_dmf = (float *) x_dm; - return vec_dot_q5_0_q8_1_impl( - x_ql[i * (WARP_SIZE + 1) + k], x_qh[index_bx] >> (4 * (k % QI5_0)), y_qs[j * (2*WARP_SIZE) + kyqs], - y_qs[j * (2*WARP_SIZE) + kyqs + (QI8_1/2)], x_dm[index_bx].x, y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); -} + int u[2*VDR_Q5_0_Q8_1_MMQ]; -#define VDR_q5_1_q8_1 1 +#pragma unroll + for (int l = 0; l < VDR_Q5_0_Q8_1_MMQ; ++l) { + u[2*l+0] = y_qs[j * (2*WARP_SIZE) + kyqs + l]; + u[2*l+1] = y_qs[j * (2*WARP_SIZE) + kyqs + l + QI5_0]; + } -static __device__ __forceinline__ float vec_dot_q5_1_q8_1_impl( - const int & qs, const int & qh, const int & ui0, const int & ui1, const half2 & dm5, const half2 & ds8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - int vi0 = (qs >> 0) & 0x0F0F0F0F; // lower 4 qs bits, still need qh0 as 5th bits - vi0 |= (qh << 4) & 0x00000010; // 0 -> 4 - vi0 |= (qh << 11) & 0x00001000; // 1 -> 12 - vi0 |= (qh << 18) & 0x00100000; // 2 -> 20 - vi0 |= (qh << 25) & 0x10000000; // 3 -> 28 - int sumi = __dp4a(vi0, ui0, 0); // SIMD dot product of quantized values - - int vi1 = (qs >> 4) & 0x0F0F0F0F; // upper 4 qs bits, still need qh1 as 5th bits - vi1 |= (qh >> 12) & 0x00000010; // 16 -> 4 - vi1 |= (qh >> 5) & 0x00001000; // 17 -> 12 - vi1 |= (qh << 2) & 0x00100000; // 18 -> 20 - vi1 |= (qh << 9) & 0x10000000; // 19 -> 28 - sumi = __dp4a(vi1, ui1, sumi); // SIMD dot product of quantized values - -#ifdef GGML_CUDA_F16 - const half2 tmp = __hmul2(dm5, ds8); - const float d5d8 = __half2float(tmp.x); - const float m5s8 = __half2float(tmp.y); -#else - const float d5d8 = __half2float(dm5.x) * __half2float(ds8.x); - const float m5s8 = __half2float(dm5.y) * __half2float(ds8.y); -#endif // GGML_CUDA_F16 - - return sumi*d5d8 + m5s8/QI5_1; // scale sum by QI5_1 because there are QI5_1 threads working on this block - -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + return vec_dot_q8_0_q8_1_impl + (&x_ql[i * (2*WARP_SIZE + 1) + 2 * k], u, x_dmf[index_bx], y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); } static __device__ __forceinline__ float vec_dot_q5_1_q8_1( @@ -1735,22 +1870,27 @@ static __device__ __forceinline__ float vec_dot_q5_1_q8_1( const block_q5_1 * bq5_1 = (const block_q5_1 *) vbq; - const int qs = get_int_from_uint8_aligned(bq5_1->qs, iqs); - const int qh = get_int_from_uint8_aligned(bq5_1->qh, 0) >> (4 * iqs); - const int ui0 = get_int_from_int8_aligned(bq8_1->qs, iqs); - const int ui1 = get_int_from_int8_aligned(bq8_1->qs, iqs + QI5_1); + int vl[VDR_Q5_1_Q8_1_MMVQ]; + int vh[VDR_Q5_1_Q8_1_MMVQ]; + int u[2*VDR_Q5_1_Q8_1_MMVQ]; - return vec_dot_q5_1_q8_1_impl(qs, qh, ui0, ui1, bq5_1->dm, bq8_1->ds); +#pragma unroll + for (int i = 0; i < VDR_Q5_1_Q8_1_MMVQ; ++i) { + vl[i] = get_int_from_uint8_aligned(bq5_1->qs, iqs + i); + vh[i] = get_int_from_uint8_aligned(bq5_1->qh, 0) >> (4 * (iqs + i)); + u[2*i+0] = get_int_from_int8_aligned(bq8_1->qs, iqs + i); + u[2*i+1] = get_int_from_int8_aligned(bq8_1->qs, iqs + i + QI5_1); + } + + return vec_dot_q5_1_q8_1_impl(vl, vh, u, bq5_1->dm, bq8_1->ds); } static __device__ __forceinline__ void allocate_tiles_q5_1(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { - __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (WARP_SIZE ) + GGML_CUDA_MMQ_Y]; - __shared__ int tile_x_qh[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI5_1) + GGML_CUDA_MMQ_Y/QI5_1]; + __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (2*WARP_SIZE) + GGML_CUDA_MMQ_Y]; __shared__ half2 tile_x_dm[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI5_1) + GGML_CUDA_MMQ_Y/QI5_1]; *x_ql = tile_x_ql; - *x_qh = tile_x_qh; *x_dm = tile_x_dm; } @@ -1778,7 +1918,24 @@ template static __device__ __forceinline__ void load_tiles_q5_ const block_q5_1 * bxi = bx0 + i*blocks_per_row + kbx; - x_ql[i * (WARP_SIZE + 1) + k] = get_int_from_uint8_aligned(bxi->qs, kqsx); + const int ql = get_int_from_uint8_aligned(bxi->qs, kqsx); + const int qh = get_int_from_uint8_aligned(bxi->qh, 0) >> (4 * (k % QI5_1)); + + int qs0 = (ql >> 0) & 0x0F0F0F0F; + qs0 |= (qh << 4) & 0x00000010; // 0 -> 4 + qs0 |= (qh << 11) & 0x00001000; // 1 -> 12 + qs0 |= (qh << 18) & 0x00100000; // 2 -> 20 + qs0 |= (qh << 25) & 0x10000000; // 3 -> 28 + + x_ql[i * (2*WARP_SIZE + 1) + 2*k+0] = qs0; + + int qs1 = (ql >> 4) & 0x0F0F0F0F; + qs1 |= (qh >> 12) & 0x00000010; // 16 -> 4 + qs1 |= (qh >> 5) & 0x00001000; // 17 -> 12 + qs1 |= (qh << 2) & 0x00100000; // 18 -> 20 + qs1 |= (qh << 9) & 0x10000000; // 19 -> 28 + + x_ql[i * (2*WARP_SIZE + 1) + 2*k+1] = qs1; } const int blocks_per_tile_x_row = WARP_SIZE / QI5_1; @@ -1794,7 +1951,6 @@ template static __device__ __forceinline__ void load_tiles_q5_ const block_q5_1 * bxi = bx0 + i*blocks_per_row + kbxd; - x_qh[i * (WARP_SIZE/QI5_1) + i / QI5_1 + kbxd] = get_int_from_uint8_aligned(bxi->qh, 0); x_dm[i * (WARP_SIZE/QI5_1) + i / QI5_1 + kbxd] = bxi->dm; } } @@ -1813,24 +1969,16 @@ static __device__ __forceinline__ float vec_dot_q5_1_q8_1_mul_mat( const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); const int index_bx = i * (WARP_SIZE/QI5_1) + + i/QI5_1 + k/QI5_1; - return vec_dot_q5_1_q8_1_impl( - x_ql[i * (WARP_SIZE + 1) + k], x_qh[index_bx] >> (4 * (k % QI5_1)), y_qs[j * (2*WARP_SIZE) + kyqs], - y_qs[j * (2*WARP_SIZE) + kyqs + (QI8_1/2)], x_dm[index_bx], y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); -} + int u[2*VDR_Q5_1_Q8_1_MMQ]; -#define VDR_q8_0_q8_1 1 +#pragma unroll + for (int l = 0; l < VDR_Q5_1_Q8_1_MMQ; ++l) { + u[2*l+0] = y_qs[j * (2*WARP_SIZE) + kyqs + l]; + u[2*l+1] = y_qs[j * (2*WARP_SIZE) + kyqs + l + QI5_1]; + } -static __device__ __forceinline__ float vec_dot_q8_0_q8_1_impl( - const int & vi, const int & ui, const half & d8_0, const half2 & ds8_1) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - // SIMD dot product of quantized values - const int sumi = __dp4a(vi, ui, 0); - - return sumi * __half2float(d8_0) * __half2float(ds8_1.x); -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + return vec_dot_q8_1_q8_1_impl + (&x_ql[i * (2*WARP_SIZE + 1) + 2 * k], u, x_dm[index_bx], y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); } static __device__ __forceinline__ float vec_dot_q8_0_q8_1( @@ -1838,19 +1986,24 @@ static __device__ __forceinline__ float vec_dot_q8_0_q8_1( const block_q8_0 * bq8_0 = (const block_q8_0 *) vbq; - const int vi = get_int_from_int8(bq8_0->qs, iqs); - const int ui = get_int_from_int8_aligned(bq8_1->qs, iqs); + int v[VDR_Q8_0_Q8_1_MMVQ]; + int u[VDR_Q8_0_Q8_1_MMVQ]; - return vec_dot_q8_0_q8_1_impl(vi, ui, bq8_0->d, bq8_1->ds); + for (int i = 0; i < VDR_Q8_0_Q8_1_MMVQ; ++i) { + v[i] = get_int_from_int8(bq8_0->qs, iqs + i); + u[i] = get_int_from_int8_aligned(bq8_1->qs, iqs + i); + } + + return vec_dot_q8_0_q8_1_impl(v, u, bq8_0->d, bq8_1->ds); } static __device__ __forceinline__ void allocate_tiles_q8_0(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { __shared__ int tile_x_qs[GGML_CUDA_MMQ_Y * (WARP_SIZE) + GGML_CUDA_MMQ_Y]; - __shared__ half2 tile_x_d[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI8_0) + GGML_CUDA_MMQ_Y/QI8_0]; + __shared__ float tile_x_d[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI8_0) + GGML_CUDA_MMQ_Y/QI8_0]; *x_ql = tile_x_qs; - *x_dm = tile_x_d; + *x_dm = (half2 *) tile_x_d; } template static __device__ __forceinline__ void load_tiles_q8_0( @@ -1864,6 +2017,7 @@ template static __device__ __forceinline__ void load_tiles_q8_ const int kbx = k / QI8_0; const int kqsx = k % QI8_0; + float * x_dmf = (float *) x_dm; const block_q8_0 * bx0 = (block_q8_0 *) vx; @@ -1878,7 +2032,7 @@ template static __device__ __forceinline__ void load_tiles_q8_ const block_q8_0 * bxi = bx0 + i*blocks_per_row + kbx; x_ql[i * (WARP_SIZE + 1) + k] = get_int_from_int8(bxi->qs, kqsx); - x_dm[i * (WARP_SIZE/QI8_0) + i / QI8_0 + kbx].x = bxi->d; + x_dmf[i * (WARP_SIZE/QI8_0) + i / QI8_0 + kbx] = bxi->d; } // const int blocks_per_tile_x_row = WARP_SIZE / QI8_0; @@ -1912,9 +2066,11 @@ static __device__ __forceinline__ float vec_dot_q8_0_q8_1_mul_mat( __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); - return vec_dot_q8_0_q8_1_impl( - x_ql[i * (WARP_SIZE + 1) + k], y_qs[j*WARP_SIZE + k], - x_dm[i * (WARP_SIZE/QI8_0) + i/QI8_0 + k/QI8_0].x, y_ds[j * (WARP_SIZE/QI8_1) + k/QI8_1]); + const float * x_dmf = (float *) x_dm; + + return vec_dot_q8_0_q8_1_impl + (&x_ql[i * (WARP_SIZE + 1) + k], &y_qs[j * WARP_SIZE + k], x_dmf[i * (WARP_SIZE/QI8_0) + i/QI8_0 + k/QI8_0], + y_ds[j * (WARP_SIZE/QI8_1) + k/QI8_1]); } #define VDR_q2_K_q8_1 1 @@ -2288,15 +2444,15 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1( int u[2*QR4_K]; float d8[QR4_K]; - // iqs is in 0...15. bq8_offset = 2 * (iqs/4) -> bq8_offset = 0, 2, 4, 6 - const int bq8_offset = QR4_K * (iqs / (QI8_1/2)); + // iqs is in 0,2..30. bq8_offset = iqs/4 -> bq8_offset = 0, 2, 4, 6 + const int bq8_offset = QR4_K * ((iqs/2) / (QI8_1/2)); // iqs = 0....3 -> bq8_offset = 0, want q4_offset = 0, 4, 8, 12 // iqs = 4....7 -> bq8_offset = 2, want q4_offset = 32, 36, 40, 44 // iqs = 8...11 -> bq8_offset = 4, want q4_offset = 64, 68, 72, 76 // iqs = 12..15 -> bq8_offset = 6, want q4_offset = 96, 100, 104, 108 - const int * q4 = (const int *)(bq4_K->qs + 16 * bq8_offset + 4 * (iqs%4)); + const int * q4 = (const int *)(bq4_K->qs + 16 * bq8_offset + 4 * ((iqs/2)%4)); v[0] = q4[0]; v[1] = q4[4]; @@ -2317,7 +2473,7 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1( const block_q8_1 * bq8i = bq8_1 + bq8_offset + i; d8[i] = bq8i->ds.x; - const int * q8 = (const int *)bq8i->qs + (iqs%4); + const int * q8 = (const int *)bq8i->qs + ((iqs/2)%4); u[2*i+0] = q8[0]; u[2*i+1] = q8[4]; } @@ -2345,12 +2501,12 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1( const float d8_1 = bq8_1[0].ds.x; const float d8_2 = bq8_1[1].ds.x; - const int ui1 = *((const int *)bq8_1[0].qs + iqs); - const int ui2 = *((const int *)bq8_1[0].qs + iqs + 4); - const int ui3 = *((const int *)bq8_1[1].qs + iqs); - const int ui4 = *((const int *)bq8_1[1].qs + iqs + 4); + const int ui1 = *((const int *)bq8_1[0].qs + (iqs/2)); + const int ui2 = *((const int *)bq8_1[0].qs + (iqs/2) + 4); + const int ui3 = *((const int *)bq8_1[1].qs + (iqs/2)); + const int ui4 = *((const int *)bq8_1[1].qs + (iqs/2) + 4); - const int * q4 = (const int *)bq4_K->qs + iqs; + const int * q4 = (const int *)bq4_K->qs + (iqs/2); const int v1 = q4[0]; const int v2 = q4[4]; @@ -2457,11 +2613,11 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1_mul_mat( int u[2*QR4_K]; float d8[QR4_K]; - // iqs is in 0...15. bq8_offset = 2 * (iqs/4) -> bq8_offset = 0, 2, 4, 6 - const int bq8_offset = QR4_K * (kqsx / (QI8_1/2)); + // kqsx is in 0,2...30. bq8_offset = 2 * (kqsx/4) -> bq8_offset = 0, 2, 4, 6 + const int bq8_offset = QR4_K * ((kqsx/2) / (QI8_1/2)); - v[0] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + kqsx % 4 + 0]; - v[1] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + kqsx % 4 + 4]; + v[0] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 0]; + v[1] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 4]; const uint16_t * scales = (const uint16_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + kbx * 4]; uint16_t aux[2]; @@ -2477,7 +2633,7 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1_mul_mat( const uint8_t * m = sc + 2; for (int l = 0; l < QR4_K; ++l) { - const int kqsy = j * (QR4_K*WARP_SIZE) + kbx * (QR4_K*QI4_K) + (bq8_offset + l) * QI8_1 + kqsx % (QI8_1/2); + const int kqsy = j * (QR4_K*WARP_SIZE) + kbx * (QR4_K*QI4_K) + (bq8_offset + l) * QI8_1 + (kqsx/2) % (QI8_1/2); u[2*l+0] = y_qs[kqsy + 0*(QI8_1/2)]; u[2*l+1] = y_qs[kqsy + 1*(QI8_1/2)]; d8[l] = y_ds[kqsy / QI8_1].x; @@ -2532,9 +2688,9 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1( int u[2*QR5_K]; float d8[QR5_K]; - const int bq8_offset = QR5_K * (iqs / (QI8_1/2)); - const int * ql = (const int *)(bq5_K->qs + 16 * bq8_offset + 4 * (iqs%4)); - const int * qh = (const int *)(bq5_K->qh + 4 * (iqs%4)); + const int bq8_offset = QR5_K * ((iqs/2) / (QI8_1/2)); + const int * ql = (const int *)(bq5_K->qs + 16 * bq8_offset + 4 * ((iqs/2)%4)); + const int * qh = (const int *)(bq5_K->qh + 4 * ((iqs/2)%4)); vl[0] = ql[0]; vl[1] = ql[4]; @@ -2559,7 +2715,7 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1( const block_q8_1 * bq8i = bq8_1 + bq8_offset + i; d8[i] = bq8i->ds.x; - const int * q8 = (const int *)bq8i->qs + (iqs%4); + const int * q8 = (const int *)bq8i->qs + ((iqs/2)%4); u[2*i+0] = q8[0]; u[2*i+1] = q8[4]; } @@ -2578,17 +2734,17 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1( const float d8_1 = bq8_1[0].ds.x; const float d8_2 = bq8_1[1].ds.x; - const int ui1 = *((const int *)bq8_1[0].qs + iqs); - const int ui2 = *((const int *)bq8_1[0].qs + iqs + 4); - const int ui3 = *((const int *)bq8_1[1].qs + iqs); - const int ui4 = *((const int *)bq8_1[1].qs + iqs + 4); + const int ui1 = *((const int *)bq8_1[0].qs + (iqs/2)); + const int ui2 = *((const int *)bq8_1[0].qs + (iqs/2) + 4); + const int ui3 = *((const int *)bq8_1[1].qs + (iqs/2)); + const int ui4 = *((const int *)bq8_1[1].qs + (iqs/2) + 4); - const int * ql = (const int *)bq5_K->qs + iqs; + const int * ql = (const int *)bq5_K->qs + (iqs/2); const int vl1 = ql[0]; const int vl2 = ql[4]; - const int step = 4 * iqs; // 0, 4, 8, 12 - const int im = step/8; // = 0 for iqs = 0, 1, = 1 for iqs = 2, 3 + const int step = 4 * (iqs/2); // 0, 4, 8, 12 + const int im = step/8; // = 0 for iqs = 0, 2, = 1 for iqs = 4, 6 const int in = step%8; // 0, 4, 0, 4 const int vh = (*((const int *)(bq5_K->qh + in))) >> im; @@ -2711,13 +2867,13 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1_mul_mat( int u[2*QR4_K]; float d8[QR4_K]; - const int bq8_offset = QR5_K * (kqsx / (QI8_1/2)); + const int bq8_offset = QR5_K * ((kqsx/2) / (QI8_1/2)); - vl[0] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + kqsx % 4 + 0]; - vl[1] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + kqsx % 4 + 4]; + vl[0] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 0]; + vl[1] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 4]; - vh[0] = x_qh[i * (WARP_SIZE/4) + i/4 + kqsx % 4 + 0] >> bq8_offset; - vh[1] = x_qh[i * (WARP_SIZE/4) + i/4 + kqsx % 4 + 4] >> bq8_offset; + vh[0] = x_qh[i * (WARP_SIZE/4) + i/4 + (kqsx/2) % 4 + 0] >> bq8_offset; + vh[1] = x_qh[i * (WARP_SIZE/4) + i/4 + (kqsx/2) % 4 + 4] >> bq8_offset; const uint16_t * scales = (const uint16_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + kbx * 4]; uint16_t aux[2]; @@ -2733,7 +2889,7 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1_mul_mat( const uint8_t * m = sc + 2; for (int l = 0; l < QR5_K; ++l) { - const int kqsy = j * (QR5_K*WARP_SIZE) + kbx * (QR5_K*QI5_K) + (bq8_offset + l) * QI8_1 + kqsx % (QI8_1/2); + const int kqsy = j * (QR5_K*WARP_SIZE) + kbx * (QR5_K*QI5_K) + (bq8_offset + l) * QI8_1 + (kqsx/2) % (QI8_1/2); u[2*l+0] = y_qs[kqsy + 0*(QI8_1/2)]; u[2*l+1] = y_qs[kqsy + 1*(QI8_1/2)]; d8[l] = y_ds[kqsy / QI8_1].x; @@ -2982,7 +3138,7 @@ static __global__ void mul_mat_q( #if __CUDA_ARCH__ >= 700 // Unrolling the loop is slower on Pascal #pragma unroll #endif // __CUDA_ARCH__ >= 700 - for (int k = 0; k < WARP_SIZE/vdr; ++k) { + for (int k = 0; k < WARP_SIZE; k += vdr) { #pragma unroll for (int j = 0; j < WARP_SIZE; j += 8) { #pragma unroll @@ -3034,9 +3190,9 @@ static __global__ void mul_mat_vec_q(const void * __restrict__ vx, const void * for (int i = 0; i < blocks_per_row; i += blocks_per_warp) { const int ibx = row*blocks_per_row + i + threadIdx.x / (qi/vdr); // x block index - const int iby = (i + threadIdx.x / (qi/vdr)) * qk/QK8_1; // y block index that aligns with ibx + const int iby = (i + threadIdx.x / (qi/vdr)) * (qk/QK8_1); // y block index that aligns with ibx - const int iqs = threadIdx.x % (qi/vdr); // x block quant index when casting the quants to int + const int iqs = vdr * (threadIdx.x % (qi/vdr)); // x block quant index when casting the quants to int tmp += vec_dot_q_cuda(&x[ibx], &y[iby], iqs); } @@ -3579,7 +3735,7 @@ static void mul_mat_vec_q4_0_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3588,7 +3744,7 @@ static void mul_mat_vec_q4_1_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3597,7 +3753,7 @@ static void mul_mat_vec_q5_0_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3606,7 +3762,7 @@ static void mul_mat_vec_q5_1_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3615,7 +3771,7 @@ static void mul_mat_vec_q8_0_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3717,10 +3873,10 @@ static void ggml_mul_mat_q4_0_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q4_0_q8_1, vec_dot_q4_0_q8_1_mul_mat> + mul_mat_q, VDR_Q4_0_Q8_1_MMQ, vec_dot_q4_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q4_0_q8_1, vec_dot_q4_0_q8_1_mul_mat> + mul_mat_q, VDR_Q4_0_Q8_1_MMQ, vec_dot_q4_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3735,10 +3891,10 @@ static void ggml_mul_mat_q4_1_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q4_1_q8_1, vec_dot_q4_1_q8_1_mul_mat> + mul_mat_q, VDR_Q4_1_Q8_1_MMQ, vec_dot_q4_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q4_1_q8_1, vec_dot_q4_1_q8_1_mul_mat> + mul_mat_q, VDR_Q4_1_Q8_1_MMQ, vec_dot_q4_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3753,10 +3909,10 @@ static void ggml_mul_mat_q5_0_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q5_0_q8_1, vec_dot_q5_0_q8_1_mul_mat> + mul_mat_q, VDR_Q5_0_Q8_1_MMQ, vec_dot_q5_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q5_0_q8_1, vec_dot_q5_0_q8_1_mul_mat> + mul_mat_q, VDR_Q5_0_Q8_1_MMQ, vec_dot_q5_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3771,10 +3927,10 @@ static void ggml_mul_mat_q5_1_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q5_1_q8_1, vec_dot_q5_1_q8_1_mul_mat> + mul_mat_q, VDR_Q5_1_Q8_1_MMQ, vec_dot_q5_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q5_1_q8_1, vec_dot_q5_1_q8_1_mul_mat> + mul_mat_q, VDR_Q5_1_Q8_1_MMQ, vec_dot_q5_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3789,10 +3945,10 @@ static void ggml_mul_mat_q8_0_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q8_0_q8_1, vec_dot_q8_0_q8_1_mul_mat> + mul_mat_q, VDR_Q8_0_Q8_1_MMQ, vec_dot_q8_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q8_0_q8_1, vec_dot_q8_0_q8_1_mul_mat> + mul_mat_q, VDR_Q8_0_Q8_1_MMQ, vec_dot_q8_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } From 8183159cf3def112f6d1fe94815fce70e1bffa12 Mon Sep 17 00:00:00 2001 From: Evan Jones Date: Wed, 2 Aug 2023 22:05:44 -0400 Subject: [PATCH 02/13] examples : generate JSON according to schema (#1887) * examples : add JSON schema grammars * complete JSON grammar * ensure primitive types can be used as root of schema * support integer type and adjust usage text --- examples/json-schema-to-grammar.py | 132 +++++++++++++++++++++++++++++ grammars/json.gbnf | 16 ++-- 2 files changed, 138 insertions(+), 10 deletions(-) create mode 100644 examples/json-schema-to-grammar.py diff --git a/examples/json-schema-to-grammar.py b/examples/json-schema-to-grammar.py new file mode 100644 index 000000000..2dccc118a --- /dev/null +++ b/examples/json-schema-to-grammar.py @@ -0,0 +1,132 @@ +import argparse +import json +import re +import sys + +# whitespace is constrained to a single space char to prevent model "running away" in +# whitespace. Also maybe improves generation quality? +SPACE_RULE = '" "?' + +PRIMITIVE_RULES = { + 'boolean': '("true" | "false") space', + 'number': '("-"? ([0-9] | [1-9] [0-9]*)) ("." [0-9]+)? ([eE] [-+]? [0-9]+)? space', + 'integer': '("-"? ([0-9] | [1-9] [0-9]*)) space', + 'string': r''' "\"" ( + [^"\\] | + "\\" (["\\/bfnrt] | "u" [0-9a-fA-F] [0-9a-fA-F] [0-9a-fA-F] [0-9a-fA-F]) + )* "\"" space ''', + 'null': '"null" space', +} + +INVALID_RULE_CHARS_RE = re.compile(r'[^a-zA-Z0-9-]+') +GRAMMAR_LITERAL_ESCAPE_RE = re.compile(r'[\r\n"]') +GRAMMAR_LITERAL_ESCAPES = {'\r': '\\r', '\n': '\\n', '"': '\\"'} + + +class SchemaConverter: + def __init__(self, prop_order): + self._prop_order = prop_order + self._rules = {'space': SPACE_RULE} + + def _format_literal(self, literal): + escaped = GRAMMAR_LITERAL_ESCAPE_RE.sub( + lambda m: GRAMMAR_LITERAL_ESCAPES.get(m.group(0)), json.dumps(literal) + ) + return f'"{escaped}"' + + def _add_rule(self, name, rule): + esc_name = INVALID_RULE_CHARS_RE.sub('-', name) + if esc_name not in self._rules or self._rules[esc_name] == rule: + key = esc_name + else: + i = 0 + while f'{esc_name}{i}' in self._rules: + i += 1 + key = f'{esc_name}{i}' + self._rules[key] = rule + return key + + def visit(self, schema, name): + schema_type = schema.get('type') + rule_name = name or 'root' + + if 'oneOf' in schema or 'anyOf' in schema: + rule = ' | '.join(( + self.visit(alt_schema, f'{name}{"-" if name else ""}{i}') + for i, alt_schema in enumerate(schema.get('oneOf') or schema['anyOf']) + )) + return self._add_rule(rule_name, rule) + + elif 'const' in schema: + return self._add_rule(rule_name, self._format_literal(schema['const'])) + + elif 'enum' in schema: + rule = ' | '.join((self._format_literal(v) for v in schema['enum'])) + return self._add_rule(rule_name, rule) + + elif schema_type == 'object' and 'properties' in schema: + # TODO: `required` keyword + prop_order = self._prop_order + prop_pairs = sorted( + schema['properties'].items(), + # sort by position in prop_order (if specified) then by key + key=lambda kv: (prop_order.get(kv[0], len(prop_order)), kv[0]), + ) + + rule = '"{" space' + for i, (prop_name, prop_schema) in enumerate(prop_pairs): + prop_rule_name = self.visit(prop_schema, f'{name}{"-" if name else ""}{prop_name}') + if i > 0: + rule += ' "," space' + rule += fr' {self._format_literal(prop_name)} space ":" space {prop_rule_name}' + rule += ' "}" space' + + return self._add_rule(rule_name, rule) + + elif schema_type == 'array' and 'items' in schema: + # TODO `prefixItems` keyword + item_rule_name = self.visit(schema['items'], f'{name}{"-" if name else ""}item') + rule = f'"[" space ({item_rule_name} ("," space {item_rule_name})*)? "]" space' + return self._add_rule(rule_name, rule) + + else: + assert schema_type in PRIMITIVE_RULES, f'Unrecognized schema: {schema}' + return self._add_rule( + 'root' if rule_name == 'root' else schema_type, + PRIMITIVE_RULES[schema_type] + ) + + def format_grammar(self): + return '\n'.join((f'{name} ::= {rule}' for name, rule in self._rules.items())) + + +def main(args_in = None): + parser = argparse.ArgumentParser( + description=''' + Generates a grammar (suitable for use in ./main) that produces JSON conforming to a + given JSON schema. Only a subset of JSON schema features are supported; more may be + added in the future. + ''', + ) + parser.add_argument( + '--prop-order', + default=[], + type=lambda s: s.split(','), + help=''' + comma-separated property names defining the order of precedence for object properties; + properties not specified here are given lower precedence than those that are, and are + sorted alphabetically + ''' + ) + parser.add_argument('schema', help='file containing JSON schema ("-" for stdin)') + args = parser.parse_args(args_in) + + schema = json.load(sys.stdin if args.schema == '-' else open(args.schema)) + prop_order = {name: idx for idx, name in enumerate(args.prop_order)} + converter = SchemaConverter(prop_order) + converter.visit(schema, '') + print(converter.format_grammar()) + + +if __name__ == '__main__': + main() diff --git a/grammars/json.gbnf b/grammars/json.gbnf index 40fa2b637..a9537cdf9 100644 --- a/grammars/json.gbnf +++ b/grammars/json.gbnf @@ -1,29 +1,25 @@ -# Grammar for subset of JSON - doesn't support full string or number syntax - -root ::= object -value ::= object | array | string | number | boolean | "null" +root ::= object +value ::= object | array | string | number | ("true" | "false" | "null") ws object ::= "{" ws ( string ":" ws value ("," ws string ":" ws value)* - )? "}" + )? "}" ws array ::= "[" ws ( value ("," ws value)* - )? "]" + )? "]" ws -string ::= +string ::= "\"" ( [^"\\] | "\\" (["\\/bfnrt] | "u" [0-9a-fA-F] [0-9a-fA-F] [0-9a-fA-F] [0-9a-fA-F]) # escapes )* "\"" ws -# Only plain integers currently -number ::= "-"? [0-9]+ ws -boolean ::= ("true" | "false") ws +number ::= ("-"? ([0-9] | [1-9] [0-9]*)) ("." [0-9]+)? ([eE] [-+]? [0-9]+)? ws # Optional space: by convention, applied in this grammar after literal chars when allowed ws ::= ([ \t\n] ws)? From ff966e7ca6af127c9405523cdb07ef8fa01bf6d6 Mon Sep 17 00:00:00 2001 From: Borislav Stanimirov Date: Fri, 4 Aug 2023 13:07:21 +0300 Subject: [PATCH 03/13] build : fix several cast and printf warnings (#2499) --- examples/embd-input/embd-input-lib.cpp | 2 +- examples/grammar-parser.cpp | 2 +- examples/perplexity/perplexity.cpp | 8 ++++---- examples/simple/simple.cpp | 2 +- 4 files changed, 7 insertions(+), 7 deletions(-) diff --git a/examples/embd-input/embd-input-lib.cpp b/examples/embd-input/embd-input-lib.cpp index 26563821a..2185b9b0e 100644 --- a/examples/embd-input/embd-input-lib.cpp +++ b/examples/embd-input/embd-input-lib.cpp @@ -30,7 +30,7 @@ struct MyModel* create_mymodel(int argc, char ** argv) { fprintf(stderr, "%s: build = %d (%s)\n", __func__, BUILD_NUMBER, BUILD_COMMIT); if (params.seed == LLAMA_DEFAULT_SEED) { - params.seed = time(NULL); + params.seed = uint32_t(time(NULL)); } fprintf(stderr, "%s: seed = %d\n", __func__, params.seed); diff --git a/examples/grammar-parser.cpp b/examples/grammar-parser.cpp index 019d5e1bf..e76bd11c3 100644 --- a/examples/grammar-parser.cpp +++ b/examples/grammar-parser.cpp @@ -405,7 +405,7 @@ namespace grammar_parser { for (size_t i = 0, end = state.rules.size(); i < end; i++) { // fprintf(file, "%zu: ", i); // print_rule_binary(file, state.rules[i]); - print_rule(file, i, state.rules[i], symbol_id_names); + print_rule(file, uint32_t(i), state.rules[i], symbol_id_names); // fprintf(file, "\n"); } } catch (const std::exception & err) { diff --git a/examples/perplexity/perplexity.cpp b/examples/perplexity/perplexity.cpp index 6870a11b9..62433e983 100644 --- a/examples/perplexity/perplexity.cpp +++ b/examples/perplexity/perplexity.cpp @@ -153,7 +153,7 @@ void hellaswag_score(llama_context * ctx, const gpt_params & params) { } size_t hs_task_count = prompt_lines.size()/6; - fprintf(stderr, "%s : loaded %lu tasks from prompt.\n", __func__, hs_task_count); + fprintf(stderr, "%s : loaded %zu tasks from prompt.\n", __func__, hs_task_count); // This is needed as usual for LLaMA models bool prepend_bos = true; @@ -178,7 +178,7 @@ void hellaswag_score(llama_context * ctx, const gpt_params & params) { double ending_logprob[4]; }; - fprintf(stderr, "%s : selecting %lu %s tasks.\n", __func__, hs_task_count, (randomize_tasks?"randomized":"the first") ); + fprintf(stderr, "%s : selecting %zu %s tasks.\n", __func__, hs_task_count, (randomize_tasks?"randomized":"the first") ); // Select and read data from prompt lines hs_data_t *hs_data = new hs_data_t[hs_task_count]; @@ -223,7 +223,7 @@ void hellaswag_score(llama_context * ctx, const gpt_params & params) { // Stop if query wont fit the ctx window if (query_size > (size_t)params.n_ctx) { - fprintf(stderr, "%s : number of tokens in query %lu > n_ctxl\n", __func__, query_size); + fprintf(stderr, "%s : number of tokens in query %zu > n_ctxl\n", __func__, query_size); return; } @@ -284,7 +284,7 @@ void hellaswag_score(llama_context * ctx, const gpt_params & params) { } // Print the accumulated accuracy mean x 100 - printf("%li\t%.8lf\n",task_idx+1, acc/double(task_idx+1)*100.0); + printf("%zu\t%.8lf\n",task_idx+1, acc/double(task_idx+1)*100.0); fflush(stdout); } diff --git a/examples/simple/simple.cpp b/examples/simple/simple.cpp index aa2c4352d..97137a658 100644 --- a/examples/simple/simple.cpp +++ b/examples/simple/simple.cpp @@ -123,7 +123,7 @@ int main(int argc, char ** argv) // Evaluate the tokens : //--------------------------------- - if ( llama_eval( ctx , tokens_list.data() , tokens_list.size() , llama_get_kv_cache_token_count( ctx ) , params.n_threads ) ) + if ( llama_eval( ctx , tokens_list.data() , int(tokens_list.size()) , llama_get_kv_cache_token_count( ctx ) , params.n_threads ) ) { fprintf( stderr, "%s : failed to eval\n" , __func__ ); return 1; From 415e99fec27be5a2e4283f1937afd17eb33fbd66 Mon Sep 17 00:00:00 2001 From: l3utterfly Date: Fri, 4 Aug 2023 19:29:52 +0800 Subject: [PATCH 04/13] Stream save llama context data to file instead of allocating entire buffer upfront (#2488) * added stream saving context data to file to avoid allocating unnecessary amounts of memory * generalised copying state data to file or buffer * added comments explaining how copy_state_data works * fixed trailing whitespaces * fixed save load state example * updated save load state to use public function in llama.cpp * - restored breakage of the llama_copy_state_data API - moved new logic for copying llama state data to internal function * fixed function declaration order * restored save load state example * fixed whitepace * removed unused llama-util.h include * Apply suggestions from code review Co-authored-by: slaren * Apply code review suggestions Co-authored-by: slaren --------- Co-authored-by: slaren --- llama-util.h | 40 ++++++++++++++++++++++++++ llama.cpp | 79 ++++++++++++++++++++++++++++++---------------------- 2 files changed, 86 insertions(+), 33 deletions(-) diff --git a/llama-util.h b/llama-util.h index 042ebe43c..3fc03ce28 100644 --- a/llama-util.h +++ b/llama-util.h @@ -149,6 +149,46 @@ struct llama_file { } }; +// llama_context_data +struct llama_data_context { + virtual void write(const void * src, size_t size) = 0; + virtual size_t get_size_written() = 0; + virtual ~llama_data_context() = default; +}; + +struct llama_data_buffer_context : llama_data_context { + uint8_t* ptr; + size_t size_written = 0; + + llama_data_buffer_context(uint8_t * p) : ptr(p) {} + + void write(const void * src, size_t size) override { + memcpy(ptr, src, size); + ptr += size; + size_written += size; + } + + size_t get_size_written() override { + return size_written; + } +}; + +struct llama_data_file_context : llama_data_context { + llama_file* file; + size_t size_written = 0; + + llama_data_file_context(llama_file * f) : file(f) {} + + void write(const void * src, size_t size) override { + file->write_raw(src, size); + size_written += size; + } + + size_t get_size_written() override { + return size_written; + } +}; + #if defined(_WIN32) static std::string llama_format_win_err(DWORD err) { LPSTR buf; diff --git a/llama.cpp b/llama.cpp index d427054dd..839739870 100644 --- a/llama.cpp +++ b/llama.cpp @@ -3743,10 +3743,20 @@ size_t llama_get_state_size(const struct llama_context * ctx) { return s_total; } -// Copies the state to the specified destination address -size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { - uint8_t * out = dst; - +/** copy state data into either a buffer or file depending on the passed in context + * + * file context: + * llama_file file("/path", "wb"); + * llama_data_file_context data_ctx(&file); + * llama_copy_state_data(ctx, &data_ctx); + * + * buffer context: + * std::vector buf(max_size, 0); + * llama_data_buffer_context data_ctx(&buf.data()); + * llama_copy_state_data(ctx, &data_ctx); + * +*/ +void llama_copy_state_data_internal(struct llama_context * ctx, llama_data_context * data_ctx) { // copy rng { std::stringstream rng_ss; @@ -3758,8 +3768,8 @@ size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { memset(&rng_buf[0], 0, LLAMA_MAX_RNG_STATE); memcpy(&rng_buf[0], rng_ss.str().data(), rng_ss.str().size()); - memcpy(out, &rng_size, sizeof(rng_size)); out += sizeof(rng_size); - memcpy(out, &rng_buf[0], LLAMA_MAX_RNG_STATE); out += LLAMA_MAX_RNG_STATE; + data_ctx->write(&rng_size, sizeof(rng_size)); + data_ctx->write(&rng_buf[0], LLAMA_MAX_RNG_STATE); } // copy logits @@ -3767,25 +3777,29 @@ size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { const size_t logits_cap = ctx->logits.capacity(); const size_t logits_size = ctx->logits.size(); - memcpy(out, &logits_cap, sizeof(logits_cap)); out += sizeof(logits_cap); - memcpy(out, &logits_size, sizeof(logits_size)); out += sizeof(logits_size); + data_ctx->write(&logits_cap, sizeof(logits_cap)); + data_ctx->write(&logits_size, sizeof(logits_size)); if (logits_size) { - memcpy(out, ctx->logits.data(), logits_size * sizeof(float)); + data_ctx->write(ctx->logits.data(), logits_size * sizeof(float)); } - out += logits_cap * sizeof(float); + // If there is a gap between the size and the capacity, write padding + size_t padding_size = (logits_cap - logits_size) * sizeof(float); + if (padding_size > 0) { + std::vector padding(padding_size, 0); // Create a buffer filled with zeros + data_ctx->write(padding.data(), padding_size); + } } // copy embeddings { const size_t embedding_size = ctx->embedding.size(); - memcpy(out, &embedding_size, sizeof(embedding_size)); out += sizeof(embedding_size); + data_ctx->write(&embedding_size, sizeof(embedding_size)); if (embedding_size) { - memcpy(out, ctx->embedding.data(), embedding_size * sizeof(float)); - out += embedding_size * sizeof(float); + data_ctx->write(ctx->embedding.data(), embedding_size * sizeof(float)); } } @@ -3800,8 +3814,8 @@ size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { const size_t kv_size = kv_self.buf.size; const int kv_ntok = llama_get_kv_cache_token_count(ctx); - memcpy(out, &kv_size, sizeof(kv_size)); out += sizeof(kv_size); - memcpy(out, &kv_ntok, sizeof(kv_ntok)); out += sizeof(kv_ntok); + data_ctx->write(&kv_size, sizeof(kv_size)); + data_ctx->write(&kv_ntok, sizeof(kv_ntok)); if (kv_size) { const size_t elt_size = ggml_element_size(kv_self.k); @@ -3810,12 +3824,12 @@ size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { ggml_cgraph gf{}; ggml_tensor * kout3d = ggml_new_tensor_3d(cpy_ctx, kv_self.k->type, n_embd, kv_ntok, n_layer); - kout3d->data = out; - out += ggml_nbytes(kout3d); + std::vector kout3d_data(ggml_nbytes(kout3d), 0); + kout3d->data = kout3d_data.data(); ggml_tensor * vout3d = ggml_new_tensor_3d(cpy_ctx, kv_self.v->type, kv_ntok, n_embd, n_layer); - vout3d->data = out; - out += ggml_nbytes(vout3d); + std::vector vout3d_data(ggml_nbytes(vout3d), 0); + vout3d->data = vout3d_data.data(); ggml_tensor * k3d = ggml_view_3d(cpy_ctx, kv_self.k, n_embd, kv_ntok, n_layer, @@ -3830,15 +3844,20 @@ size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { ggml_graph_compute_helper(ctx->work_buffer, &gf, /*n_threads*/ 1); ggml_free(cpy_ctx); + + // our data is now in the kout3d_data and vout3d_data buffers + // write them to file + data_ctx->write(kout3d_data.data(), kout3d_data.size()); + data_ctx->write(vout3d_data.data(), vout3d_data.size()); } } +} - const size_t written = out - dst; - const size_t max_size = llama_get_state_size(ctx); +size_t llama_copy_state_data(struct llama_context * ctx, uint8_t * dst) { + llama_data_buffer_context data_ctx(dst); + llama_copy_state_data_internal(ctx, &data_ctx); - LLAMA_ASSERT(written <= max_size); - - return written; + return data_ctx.get_size_written(); } // Sets the state reading from the specified source address @@ -4023,15 +4042,9 @@ bool llama_save_session_file(struct llama_context * ctx, const char * path_sessi file.write_u32((uint32_t) n_token_count); file.write_raw(tokens, sizeof(llama_token) * n_token_count); - // save the context state - { - const size_t n_state_size_max = llama_get_state_size(ctx); - - std::vector state_data(n_state_size_max); - const size_t n_state_size_cur = llama_copy_state_data(ctx, state_data.data()); - - file.write_raw(state_data.data(), n_state_size_cur); - } + // save the context state using stream saving + llama_data_file_context data_ctx(&file); + llama_copy_state_data_internal(ctx, &data_ctx); return true; } From 5f631c26794b6371fcf2660e8d0c53494a5575f7 Mon Sep 17 00:00:00 2001 From: Stephen Nichols Date: Fri, 4 Aug 2023 06:37:24 -0500 Subject: [PATCH 05/13] Fixing race condition in server and partial stream handling in frontend. (#2391) * Fixing race condition in server.cpp and partial stream handling in completion.js * Reverting assert edits. * Adding newline to eof --- examples/server/public/completion.js | 53 +++++++++++++++++++--------- examples/server/server.cpp | 6 +++- 2 files changed, 41 insertions(+), 18 deletions(-) diff --git a/examples/server/public/completion.js b/examples/server/public/completion.js index a43d5a7d5..0c9bd5f10 100644 --- a/examples/server/public/completion.js +++ b/examples/server/public/completion.js @@ -43,6 +43,7 @@ export async function* llama(prompt, params = {}, config = {}) { const decoder = new TextDecoder(); let content = ""; + let leftover = ""; // Buffer for partially read lines try { let cont = true; @@ -53,29 +54,47 @@ export async function* llama(prompt, params = {}, config = {}) { break; } - // sse answers in the form multiple lines of: value\n with data always present as a key. in our case we - // mainly care about the data: key here, which we expect as json - const text = decoder.decode(result.value); + // Add any leftover data to the current chunk of data + const text = leftover + decoder.decode(result.value); - // parse all sse events and add them to result - const regex = /^(\S+):\s(.*)$/gm; - for (const match of text.matchAll(regex)) { - result[match[1]] = match[2] + // Check if the last character is a line break + const endsWithLineBreak = text.endsWith('\n'); + + // Split the text into lines + let lines = text.split('\n'); + + // If the text doesn't end with a line break, then the last line is incomplete + // Store it in leftover to be added to the next chunk of data + if (!endsWithLineBreak) { + leftover = lines.pop(); + } else { + leftover = ""; // Reset leftover if we have a line break at the end } - // since we know this is llama.cpp, let's just decode the json in data - result.data = JSON.parse(result.data); - content += result.data.content; + // Parse all sse events and add them to result + const regex = /^(\S+):\s(.*)$/gm; + for (const line of lines) { + const match = regex.exec(line); + if (match) { + result[match[1]] = match[2] + // since we know this is llama.cpp, let's just decode the json in data + if (result.data) { + result.data = JSON.parse(result.data); + content += result.data.content; - // yield - yield result; + // yield + yield result; - // if we got a stop token from server, we will break here - if (result.data.stop) { - if (result.data.generation_settings) { - generation_settings = result.data.generation_settings; + // if we got a stop token from server, we will break here + if (result.data.stop) { + if (result.data.generation_settings) { + generation_settings = result.data.generation_settings; + } + cont = false; + break; + } + } } - break; } } } catch (e) { diff --git a/examples/server/server.cpp b/examples/server/server.cpp index c0725088f..6f7a66da1 100644 --- a/examples/server/server.cpp +++ b/examples/server/server.cpp @@ -1274,7 +1274,11 @@ int main(int argc, char **argv) sink.done(); return true; }; - res.set_chunked_content_provider("text/event-stream", chunked_content_provider); + const auto on_complete = [&](bool) { + llama.mutex.unlock(); + }; + lock.release(); + res.set_chunked_content_provider("text/event-stream", chunked_content_provider, on_complete); } }); svr.Get("/model.json", [&llama](const Request &, Response &res) From 3498588e0fb4daf040c4e3c698595cb0bfd345c0 Mon Sep 17 00:00:00 2001 From: DannyDaemonic Date: Fri, 4 Aug 2023 08:20:12 -0700 Subject: [PATCH 06/13] Add --simple-io option for subprocesses and break out console.h and cpp (#1558) --- Makefile | 5 +- examples/CMakeLists.txt | 2 + examples/common.cpp | 377 +----------------------------- examples/common.h | 45 +--- examples/console.cpp | 494 ++++++++++++++++++++++++++++++++++++++++ examples/console.h | 19 ++ examples/main/main.cpp | 29 ++- 7 files changed, 536 insertions(+), 435 deletions(-) create mode 100644 examples/console.cpp create mode 100644 examples/console.h diff --git a/Makefile b/Makefile index a692a39ea..e0528aeee 100644 --- a/Makefile +++ b/Makefile @@ -340,6 +340,9 @@ llama.o: llama.cpp ggml.h ggml-alloc.h ggml-cuda.h ggml-metal.h llama.h llama-ut common.o: examples/common.cpp examples/common.h $(CXX) $(CXXFLAGS) -c $< -o $@ +console.o: examples/console.cpp examples/console.h + $(CXX) $(CXXFLAGS) -c $< -o $@ + grammar-parser.o: examples/grammar-parser.cpp examples/grammar-parser.h $(CXX) $(CXXFLAGS) -c $< -o $@ @@ -353,7 +356,7 @@ clean: # Examples # -main: examples/main/main.cpp build-info.h ggml.o llama.o common.o grammar-parser.o $(OBJS) +main: examples/main/main.cpp build-info.h ggml.o llama.o common.o console.o grammar-parser.o $(OBJS) $(CXX) $(CXXFLAGS) $(filter-out %.h,$^) -o $@ $(LDFLAGS) @echo @echo '==== Run ./main -h for help. ====' diff --git a/examples/CMakeLists.txt b/examples/CMakeLists.txt index 4b1f1cf44..a7b26776a 100644 --- a/examples/CMakeLists.txt +++ b/examples/CMakeLists.txt @@ -13,6 +13,8 @@ set(TARGET common) add_library(${TARGET} OBJECT common.h common.cpp + console.h + console.cpp grammar-parser.h grammar-parser.cpp ) diff --git a/examples/common.cpp b/examples/common.cpp index 3e7c3b696..21f4a0357 100644 --- a/examples/common.cpp +++ b/examples/common.cpp @@ -25,7 +25,6 @@ #else #include #include -#include #endif #if defined(_MSC_VER) @@ -329,6 +328,8 @@ bool gpt_params_parse(int argc, char ** argv, gpt_params & params) { params.instruct = true; } else if (arg == "--multiline-input") { params.multiline_input = true; + } else if (arg == "--simple-io") { + params.simple_io = true; } else if (arg == "--color") { params.use_color = true; } else if (arg == "--mlock") { @@ -598,6 +599,7 @@ void gpt_print_usage(int /*argc*/, char ** argv, const gpt_params & params) { fprintf(stdout, " --mtest compute maximum memory usage\n"); fprintf(stdout, " --export export the computation graph to 'llama.ggml'\n"); fprintf(stdout, " --verbose-prompt print prompt before generation\n"); + fprintf(stderr, " --simple-io use basic IO for better compatibility in subprocesses and limited consoles\n"); fprintf(stdout, " --lora FNAME apply LoRA adapter (implies --no-mmap)\n"); fprintf(stdout, " --lora-base FNAME optional model to use as a base for the layers modified by the LoRA adapter\n"); fprintf(stdout, " -m FNAME, --model FNAME\n"); @@ -690,376 +692,3 @@ std::tuple llama_init_from_gpt_par return std::make_tuple(model, lctx); } - -void console_init(console_state & con_st) { -#if defined(_WIN32) - // Windows-specific console initialization - DWORD dwMode = 0; - con_st.hConsole = GetStdHandle(STD_OUTPUT_HANDLE); - if (con_st.hConsole == INVALID_HANDLE_VALUE || !GetConsoleMode(con_st.hConsole, &dwMode)) { - con_st.hConsole = GetStdHandle(STD_ERROR_HANDLE); - if (con_st.hConsole != INVALID_HANDLE_VALUE && (!GetConsoleMode(con_st.hConsole, &dwMode))) { - con_st.hConsole = NULL; - } - } - if (con_st.hConsole) { - // Enable ANSI colors on Windows 10+ - if (con_st.use_color && !(dwMode & ENABLE_VIRTUAL_TERMINAL_PROCESSING)) { - SetConsoleMode(con_st.hConsole, dwMode | ENABLE_VIRTUAL_TERMINAL_PROCESSING); - } - // Set console output codepage to UTF8 - SetConsoleOutputCP(CP_UTF8); - } - HANDLE hConIn = GetStdHandle(STD_INPUT_HANDLE); - if (hConIn != INVALID_HANDLE_VALUE && GetConsoleMode(hConIn, &dwMode)) { - // Set console input codepage to UTF16 - _setmode(_fileno(stdin), _O_WTEXT); - - // Turn off ICANON (ENABLE_LINE_INPUT) and ECHO (ENABLE_ECHO_INPUT) - dwMode &= ~(ENABLE_LINE_INPUT | ENABLE_ECHO_INPUT); - SetConsoleMode(hConIn, dwMode); - } -#else - // POSIX-specific console initialization - struct termios new_termios; - tcgetattr(STDIN_FILENO, &con_st.prev_state); - new_termios = con_st.prev_state; - new_termios.c_lflag &= ~(ICANON | ECHO); - new_termios.c_cc[VMIN] = 1; - new_termios.c_cc[VTIME] = 0; - tcsetattr(STDIN_FILENO, TCSANOW, &new_termios); - - con_st.tty = fopen("/dev/tty", "w+"); - if (con_st.tty != nullptr) { - con_st.out = con_st.tty; - } - - setlocale(LC_ALL, ""); -#endif -} - -void console_cleanup(console_state & con_st) { - // Reset console color - console_set_color(con_st, CONSOLE_COLOR_DEFAULT); - -#if !defined(_WIN32) - if (con_st.tty != nullptr) { - con_st.out = stdout; - fclose(con_st.tty); - con_st.tty = nullptr; - } - // Restore the terminal settings on POSIX systems - tcsetattr(STDIN_FILENO, TCSANOW, &con_st.prev_state); -#endif -} - -/* Keep track of current color of output, and emit ANSI code if it changes. */ -void console_set_color(console_state & con_st, console_color_t color) { - if (con_st.use_color && con_st.color != color) { - fflush(stdout); - switch(color) { - case CONSOLE_COLOR_DEFAULT: - fprintf(con_st.out, ANSI_COLOR_RESET); - break; - case CONSOLE_COLOR_PROMPT: - fprintf(con_st.out, ANSI_COLOR_YELLOW); - break; - case CONSOLE_COLOR_USER_INPUT: - fprintf(con_st.out, ANSI_BOLD ANSI_COLOR_GREEN); - break; - case CONSOLE_COLOR_ERROR: - fprintf(con_st.out, ANSI_BOLD ANSI_COLOR_RED); - break; - } - con_st.color = color; - fflush(con_st.out); - } -} - -char32_t getchar32() { -#if defined(_WIN32) - HANDLE hConsole = GetStdHandle(STD_INPUT_HANDLE); - wchar_t high_surrogate = 0; - - while (true) { - INPUT_RECORD record; - DWORD count; - if (!ReadConsoleInputW(hConsole, &record, 1, &count) || count == 0) { - return WEOF; - } - - if (record.EventType == KEY_EVENT && record.Event.KeyEvent.bKeyDown) { - wchar_t wc = record.Event.KeyEvent.uChar.UnicodeChar; - if (wc == 0) { - continue; - } - - if ((wc >= 0xD800) && (wc <= 0xDBFF)) { // Check if wc is a high surrogate - high_surrogate = wc; - continue; - } else if ((wc >= 0xDC00) && (wc <= 0xDFFF)) { // Check if wc is a low surrogate - if (high_surrogate != 0) { // Check if we have a high surrogate - return ((high_surrogate - 0xD800) << 10) + (wc - 0xDC00) + 0x10000; - } - } - - high_surrogate = 0; // Reset the high surrogate - return static_cast(wc); - } - } -#else - wchar_t wc = getwchar(); - if (static_cast(wc) == WEOF) { - return WEOF; - } - -#if WCHAR_MAX == 0xFFFF - if ((wc >= 0xD800) && (wc <= 0xDBFF)) { // Check if wc is a high surrogate - wchar_t low_surrogate = getwchar(); - if ((low_surrogate >= 0xDC00) && (low_surrogate <= 0xDFFF)) { // Check if the next wchar is a low surrogate - return (static_cast(wc & 0x03FF) << 10) + (low_surrogate & 0x03FF) + 0x10000; - } - } - if ((wc >= 0xD800) && (wc <= 0xDFFF)) { // Invalid surrogate pair - return 0xFFFD; // Return the replacement character U+FFFD - } -#endif - - return static_cast(wc); -#endif -} - -void pop_cursor(console_state & con_st) { -#if defined(_WIN32) - if (con_st.hConsole != NULL) { - CONSOLE_SCREEN_BUFFER_INFO bufferInfo; - GetConsoleScreenBufferInfo(con_st.hConsole, &bufferInfo); - - COORD newCursorPosition = bufferInfo.dwCursorPosition; - if (newCursorPosition.X == 0) { - newCursorPosition.X = bufferInfo.dwSize.X - 1; - newCursorPosition.Y -= 1; - } else { - newCursorPosition.X -= 1; - } - - SetConsoleCursorPosition(con_st.hConsole, newCursorPosition); - return; - } -#endif - putc('\b', con_st.out); -} - -int estimateWidth(char32_t codepoint) { -#if defined(_WIN32) - return 1; -#else - return wcwidth(codepoint); -#endif -} - -int put_codepoint(console_state & con_st, const char* utf8_codepoint, size_t length, int expectedWidth) { -#if defined(_WIN32) - CONSOLE_SCREEN_BUFFER_INFO bufferInfo; - if (!GetConsoleScreenBufferInfo(con_st.hConsole, &bufferInfo)) { - // go with the default - return expectedWidth; - } - COORD initialPosition = bufferInfo.dwCursorPosition; - DWORD nNumberOfChars = length; - WriteConsole(con_st.hConsole, utf8_codepoint, nNumberOfChars, &nNumberOfChars, NULL); - - CONSOLE_SCREEN_BUFFER_INFO newBufferInfo; - GetConsoleScreenBufferInfo(con_st.hConsole, &newBufferInfo); - - // Figure out our real position if we're in the last column - if (utf8_codepoint[0] != 0x09 && initialPosition.X == newBufferInfo.dwSize.X - 1) { - DWORD nNumberOfChars; - WriteConsole(con_st.hConsole, &" \b", 2, &nNumberOfChars, NULL); - GetConsoleScreenBufferInfo(con_st.hConsole, &newBufferInfo); - } - - int width = newBufferInfo.dwCursorPosition.X - initialPosition.X; - if (width < 0) { - width += newBufferInfo.dwSize.X; - } - return width; -#else - // we can trust expectedWidth if we've got one - if (expectedWidth >= 0 || con_st.tty == nullptr) { - fwrite(utf8_codepoint, length, 1, con_st.out); - return expectedWidth; - } - - fputs("\033[6n", con_st.tty); // Query cursor position - int x1, x2, y1, y2; - int results = 0; - results = fscanf(con_st.tty, "\033[%d;%dR", &y1, &x1); - - fwrite(utf8_codepoint, length, 1, con_st.tty); - - fputs("\033[6n", con_st.tty); // Query cursor position - results += fscanf(con_st.tty, "\033[%d;%dR", &y2, &x2); - - if (results != 4) { - return expectedWidth; - } - - int width = x2 - x1; - if (width < 0) { - // Calculate the width considering text wrapping - struct winsize w; - ioctl(STDOUT_FILENO, TIOCGWINSZ, &w); - width += w.ws_col; - } - return width; -#endif -} - -void replace_last(console_state & con_st, char ch) { -#if defined(_WIN32) - pop_cursor(con_st); - put_codepoint(con_st, &ch, 1, 1); -#else - fprintf(con_st.out, "\b%c", ch); -#endif -} - -void append_utf8(char32_t ch, std::string & out) { - if (ch <= 0x7F) { - out.push_back(static_cast(ch)); - } else if (ch <= 0x7FF) { - out.push_back(static_cast(0xC0 | ((ch >> 6) & 0x1F))); - out.push_back(static_cast(0x80 | (ch & 0x3F))); - } else if (ch <= 0xFFFF) { - out.push_back(static_cast(0xE0 | ((ch >> 12) & 0x0F))); - out.push_back(static_cast(0x80 | ((ch >> 6) & 0x3F))); - out.push_back(static_cast(0x80 | (ch & 0x3F))); - } else if (ch <= 0x10FFFF) { - out.push_back(static_cast(0xF0 | ((ch >> 18) & 0x07))); - out.push_back(static_cast(0x80 | ((ch >> 12) & 0x3F))); - out.push_back(static_cast(0x80 | ((ch >> 6) & 0x3F))); - out.push_back(static_cast(0x80 | (ch & 0x3F))); - } else { - // Invalid Unicode code point - } -} - -// Helper function to remove the last UTF-8 character from a string -void pop_back_utf8_char(std::string & line) { - if (line.empty()) { - return; - } - - size_t pos = line.length() - 1; - - // Find the start of the last UTF-8 character (checking up to 4 bytes back) - for (size_t i = 0; i < 3 && pos > 0; ++i, --pos) { - if ((line[pos] & 0xC0) != 0x80) break; // Found the start of the character - } - line.erase(pos); -} - -bool console_readline(console_state & con_st, std::string & line) { - console_set_color(con_st, CONSOLE_COLOR_USER_INPUT); - if (con_st.out != stdout) { - fflush(stdout); - } - - line.clear(); - std::vector widths; - bool is_special_char = false; - bool end_of_stream = false; - - char32_t input_char; - while (true) { - fflush(con_st.out); // Ensure all output is displayed before waiting for input - input_char = getchar32(); - - if (input_char == '\r' || input_char == '\n') { - break; - } - - if (input_char == (char32_t) WEOF || input_char == 0x04 /* Ctrl+D*/) { - end_of_stream = true; - break; - } - - if (is_special_char) { - console_set_color(con_st, CONSOLE_COLOR_USER_INPUT); - replace_last(con_st, line.back()); - is_special_char = false; - } - - if (input_char == '\033') { // Escape sequence - char32_t code = getchar32(); - if (code == '[' || code == 0x1B) { - // Discard the rest of the escape sequence - while ((code = getchar32()) != (char32_t) WEOF) { - if ((code >= 'A' && code <= 'Z') || (code >= 'a' && code <= 'z') || code == '~') { - break; - } - } - } - } else if (input_char == 0x08 || input_char == 0x7F) { // Backspace - if (!widths.empty()) { - int count; - do { - count = widths.back(); - widths.pop_back(); - // Move cursor back, print space, and move cursor back again - for (int i = 0; i < count; i++) { - replace_last(con_st, ' '); - pop_cursor(con_st); - } - pop_back_utf8_char(line); - } while (count == 0 && !widths.empty()); - } - } else { - int offset = line.length(); - append_utf8(input_char, line); - int width = put_codepoint(con_st, line.c_str() + offset, line.length() - offset, estimateWidth(input_char)); - if (width < 0) { - width = 0; - } - widths.push_back(width); - } - - if (!line.empty() && (line.back() == '\\' || line.back() == '/')) { - console_set_color(con_st, CONSOLE_COLOR_PROMPT); - replace_last(con_st, line.back()); - is_special_char = true; - } - } - - bool has_more = con_st.multiline_input; - if (is_special_char) { - replace_last(con_st, ' '); - pop_cursor(con_st); - - char last = line.back(); - line.pop_back(); - if (last == '\\') { - line += '\n'; - fputc('\n', con_st.out); - has_more = !has_more; - } else { - // llama will just eat the single space, it won't act as a space - if (line.length() == 1 && line.back() == ' ') { - line.clear(); - pop_cursor(con_st); - } - has_more = false; - } - } else { - if (end_of_stream) { - has_more = false; - } else { - line += '\n'; - fputc('\n', con_st.out); - } - } - - fflush(con_st.out); - return has_more; -} diff --git a/examples/common.h b/examples/common.h index 974484207..375bc0a3d 100644 --- a/examples/common.h +++ b/examples/common.h @@ -11,11 +11,6 @@ #include #include -#if !defined (_WIN32) -#include -#include -#endif - // // CLI argument parsing // @@ -85,6 +80,7 @@ struct gpt_params { bool embedding = false; // get only sentence embedding bool interactive_first = false; // wait for user input immediately bool multiline_input = false; // reverse the usage of `\` + bool simple_io = false; // improves compatibility with subprocesses and limited consoles bool input_prefix_bos = false; // prefix BOS to user inputs, preceding input_prefix bool instruct = false; // instruction mode (used for Alpaca models) @@ -116,42 +112,3 @@ std::vector llama_tokenize(struct llama_context * ctx, const std::s std::tuple llama_init_from_gpt_params(const gpt_params & params); struct llama_context_params llama_context_params_from_gpt_params(const gpt_params & params); - -// -// Console utils -// - -#define ANSI_COLOR_RED "\x1b[31m" -#define ANSI_COLOR_GREEN "\x1b[32m" -#define ANSI_COLOR_YELLOW "\x1b[33m" -#define ANSI_COLOR_BLUE "\x1b[34m" -#define ANSI_COLOR_MAGENTA "\x1b[35m" -#define ANSI_COLOR_CYAN "\x1b[36m" -#define ANSI_COLOR_RESET "\x1b[0m" -#define ANSI_BOLD "\x1b[1m" - -enum console_color_t { - CONSOLE_COLOR_DEFAULT=0, - CONSOLE_COLOR_PROMPT, - CONSOLE_COLOR_USER_INPUT, - CONSOLE_COLOR_ERROR -}; - -struct console_state { - bool multiline_input = false; - bool use_color = false; - console_color_t color = CONSOLE_COLOR_DEFAULT; - - FILE* out = stdout; -#if defined (_WIN32) - void* hConsole; -#else - FILE* tty = nullptr; - termios prev_state; -#endif -}; - -void console_init(console_state & con_st); -void console_cleanup(console_state & con_st); -void console_set_color(console_state & con_st, console_color_t color); -bool console_readline(console_state & con_st, std::string & line); diff --git a/examples/console.cpp b/examples/console.cpp new file mode 100644 index 000000000..4c32f3b09 --- /dev/null +++ b/examples/console.cpp @@ -0,0 +1,494 @@ +#include "console.h" +#include +#include + +#if defined(_WIN32) +#define WIN32_LEAN_AND_MEAN +#ifndef NOMINMAX +#define NOMINMAX +#endif +#include +#include +#include +#else +#include +#include +#include +#include +#include +#include +#include +#include +#endif + +#define ANSI_COLOR_RED "\x1b[31m" +#define ANSI_COLOR_GREEN "\x1b[32m" +#define ANSI_COLOR_YELLOW "\x1b[33m" +#define ANSI_COLOR_BLUE "\x1b[34m" +#define ANSI_COLOR_MAGENTA "\x1b[35m" +#define ANSI_COLOR_CYAN "\x1b[36m" +#define ANSI_COLOR_RESET "\x1b[0m" +#define ANSI_BOLD "\x1b[1m" + +namespace console { + + // + // Console state + // + + static bool advanced_display = false; + static bool simple_io = true; + static display_t current_display = reset; + + static FILE* out = stdout; + +#if defined (_WIN32) + static void* hConsole; +#else + static FILE* tty = nullptr; + static termios initial_state; +#endif + + // + // Init and cleanup + // + + void init(bool use_simple_io, bool use_advanced_display) { + advanced_display = use_advanced_display; + simple_io = use_simple_io; +#if defined(_WIN32) + // Windows-specific console initialization + DWORD dwMode = 0; + hConsole = GetStdHandle(STD_OUTPUT_HANDLE); + if (hConsole == INVALID_HANDLE_VALUE || !GetConsoleMode(hConsole, &dwMode)) { + hConsole = GetStdHandle(STD_ERROR_HANDLE); + if (hConsole != INVALID_HANDLE_VALUE && (!GetConsoleMode(hConsole, &dwMode))) { + hConsole = nullptr; + simple_io = true; + } + } + if (hConsole) { + // Enable ANSI colors on Windows 10+ + if (advanced_display && !(dwMode & ENABLE_VIRTUAL_TERMINAL_PROCESSING)) { + SetConsoleMode(hConsole, dwMode | ENABLE_VIRTUAL_TERMINAL_PROCESSING); + } + // Set console output codepage to UTF8 + SetConsoleOutputCP(CP_UTF8); + } + HANDLE hConIn = GetStdHandle(STD_INPUT_HANDLE); + if (hConIn != INVALID_HANDLE_VALUE && GetConsoleMode(hConIn, &dwMode)) { + // Set console input codepage to UTF16 + _setmode(_fileno(stdin), _O_WTEXT); + + if (!simple_io) { + // Turn off ICANON (ENABLE_LINE_INPUT) and ECHO (ENABLE_ECHO_INPUT) + dwMode &= ~(ENABLE_LINE_INPUT | ENABLE_ECHO_INPUT); + } + if (!SetConsoleMode(hConIn, dwMode)) { + simple_io = true; + } + } +#else + // POSIX-specific console initialization + if (!simple_io) { + struct termios new_termios; + tcgetattr(STDIN_FILENO, &initial_state); + new_termios = initial_state; + new_termios.c_lflag &= ~(ICANON | ECHO); + new_termios.c_cc[VMIN] = 1; + new_termios.c_cc[VTIME] = 0; + tcsetattr(STDIN_FILENO, TCSANOW, &new_termios); + + tty = fopen("/dev/tty", "w+"); + if (tty != nullptr) { + out = tty; + } + } + + setlocale(LC_ALL, ""); +#endif + } + + void cleanup() { + // Reset console display + set_display(reset); + +#if !defined(_WIN32) + // Restore settings on POSIX systems + if (!simple_io) { + if (tty != nullptr) { + out = stdout; + fclose(tty); + tty = nullptr; + } + tcsetattr(STDIN_FILENO, TCSANOW, &initial_state); + } +#endif + } + + // + // Display and IO + // + + // Keep track of current display and only emit ANSI code if it changes + void set_display(display_t display) { + if (advanced_display && current_display != display) { + fflush(stdout); + switch(display) { + case reset: + fprintf(out, ANSI_COLOR_RESET); + break; + case prompt: + fprintf(out, ANSI_COLOR_YELLOW); + break; + case user_input: + fprintf(out, ANSI_BOLD ANSI_COLOR_GREEN); + break; + case error: + fprintf(out, ANSI_BOLD ANSI_COLOR_RED); + } + current_display = display; + fflush(out); + } + } + + char32_t getchar32() { +#if defined(_WIN32) + HANDLE hConsole = GetStdHandle(STD_INPUT_HANDLE); + wchar_t high_surrogate = 0; + + while (true) { + INPUT_RECORD record; + DWORD count; + if (!ReadConsoleInputW(hConsole, &record, 1, &count) || count == 0) { + return WEOF; + } + + if (record.EventType == KEY_EVENT && record.Event.KeyEvent.bKeyDown) { + wchar_t wc = record.Event.KeyEvent.uChar.UnicodeChar; + if (wc == 0) { + continue; + } + + if ((wc >= 0xD800) && (wc <= 0xDBFF)) { // Check if wc is a high surrogate + high_surrogate = wc; + continue; + } + if ((wc >= 0xDC00) && (wc <= 0xDFFF)) { // Check if wc is a low surrogate + if (high_surrogate != 0) { // Check if we have a high surrogate + return ((high_surrogate - 0xD800) << 10) + (wc - 0xDC00) + 0x10000; + } + } + + high_surrogate = 0; // Reset the high surrogate + return static_cast(wc); + } + } +#else + wchar_t wc = getwchar(); + if (static_cast(wc) == WEOF) { + return WEOF; + } + +#if WCHAR_MAX == 0xFFFF + if ((wc >= 0xD800) && (wc <= 0xDBFF)) { // Check if wc is a high surrogate + wchar_t low_surrogate = getwchar(); + if ((low_surrogate >= 0xDC00) && (low_surrogate <= 0xDFFF)) { // Check if the next wchar is a low surrogate + return (static_cast(wc & 0x03FF) << 10) + (low_surrogate & 0x03FF) + 0x10000; + } + } + if ((wc >= 0xD800) && (wc <= 0xDFFF)) { // Invalid surrogate pair + return 0xFFFD; // Return the replacement character U+FFFD + } +#endif + + return static_cast(wc); +#endif + } + + void pop_cursor() { +#if defined(_WIN32) + if (hConsole != NULL) { + CONSOLE_SCREEN_BUFFER_INFO bufferInfo; + GetConsoleScreenBufferInfo(hConsole, &bufferInfo); + + COORD newCursorPosition = bufferInfo.dwCursorPosition; + if (newCursorPosition.X == 0) { + newCursorPosition.X = bufferInfo.dwSize.X - 1; + newCursorPosition.Y -= 1; + } else { + newCursorPosition.X -= 1; + } + + SetConsoleCursorPosition(hConsole, newCursorPosition); + return; + } +#endif + putc('\b', out); + } + + int estimateWidth(char32_t codepoint) { +#if defined(_WIN32) + return 1; +#else + return wcwidth(codepoint); +#endif + } + + int put_codepoint(const char* utf8_codepoint, size_t length, int expectedWidth) { +#if defined(_WIN32) + CONSOLE_SCREEN_BUFFER_INFO bufferInfo; + if (!GetConsoleScreenBufferInfo(hConsole, &bufferInfo)) { + // go with the default + return expectedWidth; + } + COORD initialPosition = bufferInfo.dwCursorPosition; + DWORD nNumberOfChars = length; + WriteConsole(hConsole, utf8_codepoint, nNumberOfChars, &nNumberOfChars, NULL); + + CONSOLE_SCREEN_BUFFER_INFO newBufferInfo; + GetConsoleScreenBufferInfo(hConsole, &newBufferInfo); + + // Figure out our real position if we're in the last column + if (utf8_codepoint[0] != 0x09 && initialPosition.X == newBufferInfo.dwSize.X - 1) { + DWORD nNumberOfChars; + WriteConsole(hConsole, &" \b", 2, &nNumberOfChars, NULL); + GetConsoleScreenBufferInfo(hConsole, &newBufferInfo); + } + + int width = newBufferInfo.dwCursorPosition.X - initialPosition.X; + if (width < 0) { + width += newBufferInfo.dwSize.X; + } + return width; +#else + // We can trust expectedWidth if we've got one + if (expectedWidth >= 0 || tty == nullptr) { + fwrite(utf8_codepoint, length, 1, out); + return expectedWidth; + } + + fputs("\033[6n", tty); // Query cursor position + int x1; + int y1; + int x2; + int y2; + int results = 0; + results = fscanf(tty, "\033[%d;%dR", &y1, &x1); + + fwrite(utf8_codepoint, length, 1, tty); + + fputs("\033[6n", tty); // Query cursor position + results += fscanf(tty, "\033[%d;%dR", &y2, &x2); + + if (results != 4) { + return expectedWidth; + } + + int width = x2 - x1; + if (width < 0) { + // Calculate the width considering text wrapping + struct winsize w; + ioctl(STDOUT_FILENO, TIOCGWINSZ, &w); + width += w.ws_col; + } + return width; +#endif + } + + void replace_last(char ch) { +#if defined(_WIN32) + pop_cursor(); + put_codepoint(&ch, 1, 1); +#else + fprintf(out, "\b%c", ch); +#endif + } + + void append_utf8(char32_t ch, std::string & out) { + if (ch <= 0x7F) { + out.push_back(static_cast(ch)); + } else if (ch <= 0x7FF) { + out.push_back(static_cast(0xC0 | ((ch >> 6) & 0x1F))); + out.push_back(static_cast(0x80 | (ch & 0x3F))); + } else if (ch <= 0xFFFF) { + out.push_back(static_cast(0xE0 | ((ch >> 12) & 0x0F))); + out.push_back(static_cast(0x80 | ((ch >> 6) & 0x3F))); + out.push_back(static_cast(0x80 | (ch & 0x3F))); + } else if (ch <= 0x10FFFF) { + out.push_back(static_cast(0xF0 | ((ch >> 18) & 0x07))); + out.push_back(static_cast(0x80 | ((ch >> 12) & 0x3F))); + out.push_back(static_cast(0x80 | ((ch >> 6) & 0x3F))); + out.push_back(static_cast(0x80 | (ch & 0x3F))); + } else { + // Invalid Unicode code point + } + } + + // Helper function to remove the last UTF-8 character from a string + void pop_back_utf8_char(std::string & line) { + if (line.empty()) { + return; + } + + size_t pos = line.length() - 1; + + // Find the start of the last UTF-8 character (checking up to 4 bytes back) + for (size_t i = 0; i < 3 && pos > 0; ++i, --pos) { + if ((line[pos] & 0xC0) != 0x80) { + break; // Found the start of the character + } + } + line.erase(pos); + } + + bool readline_advanced(std::string & line, bool multiline_input) { + if (out != stdout) { + fflush(stdout); + } + + line.clear(); + std::vector widths; + bool is_special_char = false; + bool end_of_stream = false; + + char32_t input_char; + while (true) { + fflush(out); // Ensure all output is displayed before waiting for input + input_char = getchar32(); + + if (input_char == '\r' || input_char == '\n') { + break; + } + + if (input_char == (char32_t) WEOF || input_char == 0x04 /* Ctrl+D*/) { + end_of_stream = true; + break; + } + + if (is_special_char) { + set_display(user_input); + replace_last(line.back()); + is_special_char = false; + } + + if (input_char == '\033') { // Escape sequence + char32_t code = getchar32(); + if (code == '[' || code == 0x1B) { + // Discard the rest of the escape sequence + while ((code = getchar32()) != (char32_t) WEOF) { + if ((code >= 'A' && code <= 'Z') || (code >= 'a' && code <= 'z') || code == '~') { + break; + } + } + } + } else if (input_char == 0x08 || input_char == 0x7F) { // Backspace + if (!widths.empty()) { + int count; + do { + count = widths.back(); + widths.pop_back(); + // Move cursor back, print space, and move cursor back again + for (int i = 0; i < count; i++) { + replace_last(' '); + pop_cursor(); + } + pop_back_utf8_char(line); + } while (count == 0 && !widths.empty()); + } + } else { + int offset = line.length(); + append_utf8(input_char, line); + int width = put_codepoint(line.c_str() + offset, line.length() - offset, estimateWidth(input_char)); + if (width < 0) { + width = 0; + } + widths.push_back(width); + } + + if (!line.empty() && (line.back() == '\\' || line.back() == '/')) { + set_display(prompt); + replace_last(line.back()); + is_special_char = true; + } + } + + bool has_more = multiline_input; + if (is_special_char) { + replace_last(' '); + pop_cursor(); + + char last = line.back(); + line.pop_back(); + if (last == '\\') { + line += '\n'; + fputc('\n', out); + has_more = !has_more; + } else { + // llama will just eat the single space, it won't act as a space + if (line.length() == 1 && line.back() == ' ') { + line.clear(); + pop_cursor(); + } + has_more = false; + } + } else { + if (end_of_stream) { + has_more = false; + } else { + line += '\n'; + fputc('\n', out); + } + } + + fflush(out); + return has_more; + } + + bool readline_simple(std::string & line, bool multiline_input) { +#if defined(_WIN32) + std::wstring wline; + if (!std::getline(std::wcin, wline)) { + // Input stream is bad or EOF received + line.clear(); + GenerateConsoleCtrlEvent(CTRL_C_EVENT, 0); + return false; + } + + int size_needed = WideCharToMultiByte(CP_UTF8, 0, &wline[0], (int)wline.size(), NULL, 0, NULL, NULL); + line.resize(size_needed); + WideCharToMultiByte(CP_UTF8, 0, &wline[0], (int)wline.size(), &line[0], size_needed, NULL, NULL); +#else + if (!std::getline(std::cin, line)) { + // Input stream is bad or EOF received + line.clear(); + return false; + } +#endif + if (!line.empty()) { + char last = line.back(); + if (last == '/') { // Always return control on '/' symbol + line.pop_back(); + return false; + } + if (last == '\\') { // '\\' changes the default action + line.pop_back(); + multiline_input = !multiline_input; + } + } + line += '\n'; + + // By default, continue input if multiline_input is set + return multiline_input; + } + + bool readline(std::string & line, bool multiline_input) { + set_display(user_input); + + if (simple_io) { + return readline_simple(line, multiline_input); + } + return readline_advanced(line, multiline_input); + } + +} diff --git a/examples/console.h b/examples/console.h new file mode 100644 index 000000000..ec175269b --- /dev/null +++ b/examples/console.h @@ -0,0 +1,19 @@ +// Console functions + +#pragma once + +#include + +namespace console { + enum display_t { + reset = 0, + prompt, + user_input, + error + }; + + void init(bool use_simple_io, bool use_advanced_display); + void cleanup(); + void set_display(display_t display); + bool readline(std::string & line, bool multiline_input); +} diff --git a/examples/main/main.cpp b/examples/main/main.cpp index 3796a9230..56ada7e69 100644 --- a/examples/main/main.cpp +++ b/examples/main/main.cpp @@ -4,6 +4,7 @@ #endif #include "common.h" +#include "console.h" #include "llama.h" #include "build-info.h" #include "grammar-parser.h" @@ -35,9 +36,7 @@ #pragma warning(disable: 4244 4267) // possible loss of data #endif -static console_state con_st; static llama_context ** g_ctx; - static bool is_interacting = false; #if defined (__unix__) || (defined (__APPLE__) && defined (__MACH__)) || defined (_WIN32) @@ -46,7 +45,7 @@ void sigint_handler(int signo) { if (!is_interacting) { is_interacting=true; } else { - console_cleanup(con_st); + console::cleanup(); printf("\n"); llama_print_timings(*g_ctx); _exit(130); @@ -64,10 +63,8 @@ int main(int argc, char ** argv) { // save choice to use color for later // (note for later: this is a slightly awkward choice) - con_st.use_color = params.use_color; - con_st.multiline_input = params.multiline_input; - console_init(con_st); - atexit([]() { console_cleanup(con_st); }); + console::init(params.simple_io, params.use_color); + atexit([]() { console::cleanup(); }); if (params.perplexity) { printf("\n************\n"); @@ -373,7 +370,7 @@ int main(int argc, char ** argv) { if (params.interactive) { const char *control_message; - if (con_st.multiline_input) { + if (params.multiline_input) { control_message = " - To return control to LLaMa, end your input with '\\'.\n" " - To return control without starting a new line, end your input with '/'.\n"; } else { @@ -401,7 +398,7 @@ int main(int argc, char ** argv) { int n_past_guidance = 0; // the first thing we will do is to output the prompt, so set color accordingly - console_set_color(con_st, CONSOLE_COLOR_PROMPT); + console::set_display(console::prompt); std::vector embd; std::vector embd_guidance; @@ -422,9 +419,9 @@ int main(int argc, char ** argv) { // Ensure the input doesn't exceed the context size by truncating embd if necessary. if ((int)embd.size() > max_embd_size) { auto skipped_tokens = embd.size() - max_embd_size; - console_set_color(con_st, CONSOLE_COLOR_ERROR); + console::set_display(console::error); printf("<>", skipped_tokens, skipped_tokens != 1 ? "s" : ""); - console_set_color(con_st, CONSOLE_COLOR_DEFAULT); + console::set_display(console::reset); fflush(stdout); embd.resize(max_embd_size); } @@ -667,7 +664,7 @@ int main(int argc, char ** argv) { } // reset color to default if we there is no pending user input if (input_echo && (int)embd_inp.size() == n_consumed) { - console_set_color(con_st, CONSOLE_COLOR_DEFAULT); + console::set_display(console::reset); } // if not currently processing queued inputs; @@ -693,7 +690,7 @@ int main(int argc, char ** argv) { if (last_output.find(antiprompt.c_str(), search_start_pos) != std::string::npos) { if (params.interactive) { is_interacting = true; - console_set_color(con_st, CONSOLE_COLOR_USER_INPUT); + console::set_display(console::user_input); } is_antiprompt = true; fflush(stdout); @@ -714,7 +711,7 @@ int main(int argc, char ** argv) { is_interacting = true; printf("\n"); - console_set_color(con_st, CONSOLE_COLOR_USER_INPUT); + console::set_display(console::user_input); fflush(stdout); } else if (params.instruct) { is_interacting = true; @@ -739,12 +736,12 @@ int main(int argc, char ** argv) { std::string line; bool another_line = true; do { - another_line = console_readline(con_st, line); + another_line = console::readline(line, params.multiline_input); buffer += line; } while (another_line); // done taking input, reset color - console_set_color(con_st, CONSOLE_COLOR_DEFAULT); + console::set_display(console::reset); // Add tokens to embd only if the input buffer is non-empty // Entering a empty line lets the user pass control back From 02f9d96a866268700b8d8e7acbbcb4392c5ff345 Mon Sep 17 00:00:00 2001 From: Cebtenzzre Date: Fri, 4 Aug 2023 11:34:32 -0400 Subject: [PATCH 07/13] CUDA: check if event is NULL before cudaStreamWaitEvent (#2505) Fixes #2503 --- ggml-cuda.cu | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/ggml-cuda.cu b/ggml-cuda.cu index e0192bc6e..4321e4674 100644 --- a/ggml-cuda.cu +++ b/ggml-cuda.cu @@ -5203,7 +5203,7 @@ static void ggml_cuda_op(const ggml_tensor * src0, const ggml_tensor * src1, ggm if (split && g_device_count > 1) { CUDA_CHECK(cudaSetDevice(g_main_device)); for (int id = 0; id < g_device_count; ++id) { - if (id != g_main_device) { + if (id != g_main_device && src0_extra->events[id]) { CUDA_CHECK(cudaStreamWaitEvent(g_cudaStreams_main[g_main_device], src0_extra->events[id])); } } From 4329d1acb01c353803a54733b8eef9d93d0b84b2 Mon Sep 17 00:00:00 2001 From: Cebtenzzre Date: Fri, 4 Aug 2023 11:35:22 -0400 Subject: [PATCH 08/13] CUDA: use min compute capability of GPUs actually used (#2506) --- ggml-cuda.cu | 3 ++- 1 file changed, 2 insertions(+), 1 deletion(-) diff --git a/ggml-cuda.cu b/ggml-cuda.cu index 4321e4674..d64d7045c 100644 --- a/ggml-cuda.cu +++ b/ggml-cuda.cu @@ -5347,7 +5347,8 @@ void ggml_cuda_mul_mat(const ggml_tensor * src0, const ggml_tensor * src1, ggml_ } else { int min_compute_capability = INT_MAX; for (int id = 0; id < g_device_count; ++id) { - if (min_compute_capability > g_compute_capabilities[id]) { + if (min_compute_capability > g_compute_capabilities[id] + && g_tensor_split[id] < (id + 1 < g_device_count ? g_tensor_split[id + 1] : 1.0f)) { min_compute_capability = g_compute_capabilities[id]; } } From 182af739c4ce237f7579facfe8f94dc53a1f573f Mon Sep 17 00:00:00 2001 From: Cebtenzzre Date: Fri, 4 Aug 2023 15:00:57 -0400 Subject: [PATCH 09/13] server: regenerate completion.js.hpp (#2515) --- examples/server/completion.js.hpp | 613 ++++++++++++++++-------------- 1 file changed, 333 insertions(+), 280 deletions(-) diff --git a/examples/server/completion.js.hpp b/examples/server/completion.js.hpp index f399fb19a..f0a071a69 100644 --- a/examples/server/completion.js.hpp +++ b/examples/server/completion.js.hpp @@ -87,289 +87,342 @@ unsigned char completion_js[] = { 0x20, 0x54, 0x65, 0x78, 0x74, 0x44, 0x65, 0x63, 0x6f, 0x64, 0x65, 0x72, 0x28, 0x29, 0x3b, 0x0a, 0x0a, 0x20, 0x20, 0x6c, 0x65, 0x74, 0x20, 0x63, 0x6f, 0x6e, 0x74, 0x65, 0x6e, 0x74, 0x20, 0x3d, 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++++++++++++++--------------- examples/server/public/index.html | 5 +- 2 files changed, 556 insertions(+), 556 deletions(-) diff --git a/examples/server/index.html.hpp b/examples/server/index.html.hpp index 5bca2a8ab..bd0b47870 100644 --- a/examples/server/index.html.hpp +++ b/examples/server/index.html.hpp @@ -554,600 +554,599 @@ unsigned char index_html[] = { 0x20, 0x73, 0x63, 0x72, 0x6f, 0x6c, 0x6c, 0x20, 0x74, 0x6f, 0x20, 0x62, 0x6f, 0x74, 0x74, 0x6f, 0x6d, 0x20, 0x28, 0x69, 0x66, 0x20, 0x6e, 0x65, 0x65, 0x64, 0x65, 0x64, 0x29, 0x0a, 0x20, 0x20, 0x20, 0x20, 0x20, 0x20, - 0x20, 0x20, 0x69, 0x66, 0x20, 0x28, 0x63, 0x6f, 0x6e, 0x74, 0x61, 0x69, - 0x6e, 0x65, 0x72, 0x2e, 0x63, 0x75, 0x72, 0x72, 0x65, 0x6e, 0x74, 0x20, - 0x26, 0x26, 0x20, 0x63, 0x6f, 0x6e, 0x74, 0x61, 0x69, 0x6e, 0x65, 0x72, - 0x2e, 0x63, 0x75, 0x72, 0x72, 0x65, 0x6e, 0x74, 0x2e, 0x73, 0x63, 0x72, - 0x6f, 0x6c, 0x6c, 0x48, 0x65, 0x69, 0x67, 0x68, 0x74, 0x20, 0x3c, 0x3d, - 0x20, 0x63, 0x6f, 0x6e, 0x74, 0x61, 0x69, 0x6e, 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parent.scrollHeight <= parent.scrollTop + parent.offsetHeight + 300) { + parent.scrollTo(0, parent.scrollHeight) } }, [messages]) From f514d1b306e1114c2884fcb25dd9bd48ae64ba32 Mon Sep 17 00:00:00 2001 From: =?UTF-8?q?Johannes=20G=C3=A4=C3=9Fler?= Date: Sat, 5 Aug 2023 18:20:44 +0200 Subject: [PATCH 11/13] CUDA: faster k-quant mul_mat_q kernels (#2525) --- ggml-cuda.cu | 889 ++++++++++++++++++++++++++++++--------------------- 1 file changed, 518 insertions(+), 371 deletions(-) diff --git a/ggml-cuda.cu b/ggml-cuda.cu index d64d7045c..9d42efb0d 100644 --- a/ggml-cuda.cu +++ b/ggml-cuda.cu @@ -1383,8 +1383,10 @@ template static __device__ __forceinline__ float vec_dot_q4_0_q8_1_imp sumi = __dp4a(vi1, u[2*i+1], sumi); } + const float2 ds8f = __half22float2(ds8); + // second part effectively subtracts 8 from each quant value - return d4 * (sumi * __half2float(ds8.x) - (8*vdr/QI4_0) * __half2float(ds8.y)); + return d4 * (sumi * ds8f.x - (8*vdr/QI4_0) * ds8f.y); #else return 0.0f; // only to satisfy the compiler #endif // __CUDA_ARCH__ >= MIN_CC_DP4A @@ -1410,12 +1412,14 @@ template static __device__ __forceinline__ float vec_dot_q4_1_q8_1_imp } #ifdef GGML_CUDA_F16 - const half2 tmp = __hmul2(dm4, ds8); - const float d4d8 = __half2float(tmp.x); - const float m4s8 = __half2float(tmp.y); + const float2 tmp = __half22float2(__hmul2(dm4, ds8)); + const float d4d8 = tmp.x; + const float m4s8 = tmp.y; #else - const float d4d8 = __half2float(dm4.x) * __half2float(ds8.x); - const float m4s8 = __half2float(dm4.y) * __half2float(ds8.y); + const float2 dm4f = __half22float2(dm4); + const float2 ds8f = __half22float2(ds8); + const float d4d8 = dm4f.x * ds8f.x; + const float m4s8 = dm4f.y * ds8f.y; #endif // GGML_CUDA_F16 // scale second part of sum by QI8_1/(vdr * QR4_1) to compensate for multiple threads adding it @@ -1434,6 +1438,7 @@ template static __device__ __forceinline__ float vec_dot_q5_0_q8_1_imp #if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics int sumi = 0; +#pragma unroll for (int i = 0; i < vdr; ++i) { int vi0 = (vl[i] >> 0) & 0x0F0F0F0F; // lower 4 qs bits, still need qh as 5th bits vi0 |= (vh[i] << 4) & 0x00000010; // 0 -> 4 @@ -1450,8 +1455,10 @@ template static __device__ __forceinline__ float vec_dot_q5_0_q8_1_imp sumi = __dp4a(vi1, u[2*i+1], sumi); // SIMD dot product of quantized values } + const float2 ds8f = __half22float2(ds8); + // second part effectively subtracts 16 from each quant value - return d5 * (sumi*__half2float(ds8.x) - (16*vdr/QI5_0) * __half2float(ds8.y)); + return d5 * (sumi * ds8f.x - (16*vdr/QI5_0) * ds8f.y); #else return 0.0f; // only to satisfy the compiler #endif // __CUDA_ARCH__ >= MIN_CC_DP4A @@ -1466,6 +1473,7 @@ template static __device__ __forceinline__ float vec_dot_q5_1_q8_1_imp #if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics int sumi = 0; +#pragma unroll for (int i = 0; i < vdr; ++i) { int vi0 = (vl[i] >> 0) & 0x0F0F0F0F; // lower 4 qs bits, still need qh as 5th bits vi0 |= (vh[i] << 4) & 0x00000010; // 0 -> 4 @@ -1483,12 +1491,14 @@ template static __device__ __forceinline__ float vec_dot_q5_1_q8_1_imp } #ifdef GGML_CUDA_F16 - const half2 tmp = __hmul2(dm5, ds8); - const float d5d8 = __half2float(tmp.x); - const float m5s8 = __half2float(tmp.y); + const float2 tmp = __half22float2(__hmul2(dm5, ds8)); + const float d5d8 = tmp.x; + const float m5s8 = tmp.y; #else - const float d5d8 = __half2float(dm5.x) * __half2float(ds8.x); - const float m5s8 = __half2float(dm5.y) * __half2float(ds8.y); + const float2 dm5f = __half22float2(dm5); + const float2 ds8f = __half22float2(ds8); + const float d5d8 = dm5f.x * ds8f.x; + const float m5s8 = dm5f.y * ds8f.y; #endif // GGML_CUDA_F16 // scale second part of sum by QI5_1 / vdr to compensate for multiple threads adding it @@ -1503,17 +1513,18 @@ template static __device__ __forceinline__ float vec_dot_q5_1_q8_1_imp #define VDR_Q8_0_Q8_1_MMQ 8 template static __device__ __forceinline__ float vec_dot_q8_0_q8_1_impl( - const int * v, const int * u, const float & d8_0, const half2 & ds8_1) { + const int * v, const int * u, const float & d8_0, const float & d8_1) { #if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics int sumi = 0; +#pragma unroll for (int i = 0; i < vdr; ++i) { // SIMD dot product of quantized values sumi = __dp4a(v[i], u[i], sumi); } - return sumi * d8_0 * __half2float(ds8_1.x); + return d8_0*d8_1 * sumi; #else return 0.0f; // only to satisfy the compiler #endif // __CUDA_ARCH__ >= MIN_CC_DP4A @@ -1525,18 +1536,21 @@ template static __device__ __forceinline__ float vec_dot_q8_1_q8_1_imp #if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics int sumi = 0; +#pragma unroll for (int i = 0; i < vdr; ++i) { // SIMD dot product of quantized values sumi = __dp4a(v[i], u[i], sumi); } #ifdef GGML_CUDA_F16 - const half2 tmp = __hmul2(dm8, ds8); - const float d8d8 = __half2float(tmp.x); - const float m8s8 = __half2float(tmp.y); + const float2 tmp = __half22float2(__hmul2(dm8, ds8)); + const float d8d8 = tmp.x; + const float m8s8 = tmp.y; #else - const float d8d8 = __half2float(dm8.x) * __half2float(ds8.x); - const float m8s8 = __half2float(dm8.y) * __half2float(ds8.y); + const float2 dm8f = __half22float2(dm8); + const float2 ds8f = __half22float2(ds8); + const float d8d8 = dm8.x * ds8.x; + const float m8s8 = dm8.y * ds8.y; #endif // GGML_CUDA_F16 // scale second part of sum by QI8_1/ vdr to compensate for multiple threads adding it @@ -1546,6 +1560,312 @@ template static __device__ __forceinline__ float vec_dot_q8_1_q8_1_imp #endif // __CUDA_ARCH__ >= MIN_CC_DP4A } +#define VDR_Q2_K_Q8_1_MMVQ 1 +#define VDR_Q2_K_Q8_1_MMQ 2 + +// contiguous v/x values +static __device__ __forceinline__ float vec_dot_q2_K_q8_1_impl_mmvq( + const int & v, const int * __restrict__ u, const uint8_t * __restrict__ scales, + const half2 & dm2, const float * __restrict__ d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf_d = 0.0f; + float sumf_m = 0.0f; + +#pragma unroll + for (int i = 0; i < QR2_K; ++i) { + const int sc = scales[2*i]; + + const int vi = (v >> (2*i)) & 0x03030303; + + sumf_d += d8[i] * (__dp4a(vi, u[i], 0) * (sc & 0xF)); // SIMD dot product + + // fill int with 4x m + int m = sc >> 4; + m |= m << 8; + m |= m << 16; + sumf_m += d8[i] * __dp4a(m, u[i], 0); // multiply constant q2_K part with sum of q8_1 values + } + + const float2 dm2f = __half22float2(dm2); + + return dm2f.x*sumf_d - dm2f.y*sumf_m; +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +// contiguous u/y values +static __device__ __forceinline__ float vec_dot_q2_K_q8_1_impl_mmq( + const int * __restrict__ v, const int * __restrict__ u, const uint8_t * __restrict__ scales, + const half2 & dm2, const float & d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi_d = 0; + int sumi_m = 0; + +#pragma unroll + for (int i0 = 0; i0 < QI8_1; i0 += QI8_1/2) { + int sumi_d_sc = 0; + + const int sc = scales[i0 / (QI8_1/2)]; + + // fill int with 4x m + int m = sc >> 4; + m |= m << 8; + m |= m << 16; + +#pragma unroll + for (int i = i0; i < i0 + QI8_1/2; ++i) { + sumi_d_sc = __dp4a(v[i], u[i], sumi_d_sc); // SIMD dot product + sumi_m = __dp4a(m, u[i], sumi_m); // multiply sum of q8_1 values with m + } + + sumi_d += sumi_d_sc * (sc & 0xF); + } + + const float2 dm2f = __half22float2(dm2); + + return d8 * (dm2f.x*sumi_d - dm2f.y*sumi_m); +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q3_K_Q8_1_MMVQ 1 +#define VDR_Q3_K_Q8_1_MMQ 2 + +// contiguous v/x values +static __device__ __forceinline__ float vec_dot_q3_K_q8_1_impl_mmvq( + const int & vl, const int & vh, const int * __restrict__ u, const uint8_t * __restrict__ scales, + const int & scale_offset, const float & d3, const float * __restrict__ d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf = 0.0f; + +#pragma unroll + for (int i = 0; i < QR3_K; ++i) { + const int isc = scale_offset + 2*i; + + const int isc_low = isc % (QK_K/32); + const int sc_shift_low = 4 * (isc / (QK_K/32)); + const int sc_low = (scales[isc_low] >> sc_shift_low) & 0xF; + + const int isc_high = isc % (QK_K/64); + const int sc_shift_high = 2 * (isc / (QK_K/64)); + const int sc_high = ((scales[(QK_K/32) + isc_high] >> sc_shift_high) & 3) << 4; + + const int sc = (sc_low | sc_high) - 32; + + const int vil = (vl >> (2*i)) & 0x03030303; + + const int vih = ((vh >> i) << 2) & 0x04040404; + + const int vi = __vsubss4(vil, vih); + + sumf += d8[i] * (__dp4a(vi, u[i], 0) * sc); // SIMD dot product + } + + return d3 * sumf; +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +// contiguous u/y values +static __device__ __forceinline__ float vec_dot_q3_K_q8_1_impl_mmq( + const int * __restrict__ v, const int * __restrict__ u, const int8_t * __restrict__ scales, + const float & d3, const float & d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + int sumi = 0; + +#pragma unroll + for (int i0 = 0; i0 < QR3_K*VDR_Q3_K_Q8_1_MMQ; i0 += QI8_1/2) { + int sumi_sc = 0; + + for (int i = i0; i < i0 + QI8_1/2; ++i) { + sumi_sc = __dp4a(v[i], u[i], sumi_sc); // SIMD dot product + } + + sumi += sumi_sc * scales[i0 / (QI8_1/2)]; + } + + return d3*d8 * sumi; +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q4_K_Q8_1_MMVQ 2 +#define VDR_Q4_K_Q8_1_MMQ 8 + +// contiguous v/x values +static __device__ __forceinline__ float vec_dot_q4_K_q8_1_impl_vmmq( + const int * __restrict__ v, const int * __restrict__ u, const uint8_t * __restrict__ sc, + const uint8_t * __restrict__ m, const half2 & dm4, const float * __restrict__ d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf_d = 0.0f; + float sumf_m = 0.0f; + +#pragma unroll + for (int i = 0; i < QR4_K; ++i) { + const int v0i = (v[0] >> (4*i)) & 0x0F0F0F0F; + const int v1i = (v[1] >> (4*i)) & 0x0F0F0F0F; + + const int dot1 = __dp4a(v1i, u[2*i+1], __dp4a(v0i, u[2*i+0], 0)); // SIMD dot product + const int dot2 = __dp4a(0x01010101, u[2*i+1], __dp4a(0x01010101, u[2*i+0], 0)); // sum of u + + sumf_d += d8[i] * (dot1 * sc[i]); + sumf_m += d8[i] * (dot2 * m[i]); // multiply constant part of q4_K with sum of q8_1 values + } + + const float2 dm4f = __half22float2(dm4); + + return dm4f.x*sumf_d - dm4f.y*sumf_m; + +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +// contiguous u/y values +// also used for q5_K +static __device__ __forceinline__ float vec_dot_q4_K_q8_1_impl_mmq( + const int * __restrict__ v, const int * __restrict__ u, const uint8_t * __restrict__ sc, + const uint8_t * __restrict__ m, const half2 & dm4, const half2 * __restrict__ ds8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf_d = 0.0f; + float sumf_m = 0.0f; + +#pragma unroll + for (int i0 = 0; i0 < VDR_Q4_K_Q8_1_MMQ; i0 += (QI8_1/QR4_K)) { + int sumi_d = 0; + +#pragma unroll + for (int i = i0; i < i0 + (QI8_1/QR4_K); ++i) { + sumi_d = __dp4a(v[2*i+0], u[2*i+0], sumi_d); // SIMD dot product + sumi_d = __dp4a(v[2*i+1], u[2*i+1], sumi_d); // SIMD dot product + } + + const float2 ds8f = __half22float2(ds8[i0 / 4]); + + sumf_d += ds8f.x * (sc[i0/4] * sumi_d); + sumf_m += ds8f.y * m[i0/4]; // sum of q8_1 block * q4_K min val + } + + const float2 dm4f = __half22float2(dm4); + + return dm4f.x*sumf_d - dm4f.y*sumf_m; + +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q5_K_Q8_1_MMVQ 2 +#define VDR_Q5_K_Q8_1_MMQ 8 + +// contiguous v/x values +static __device__ __forceinline__ float vec_dot_q5_K_q8_1_impl( + const int * __restrict__ vl, const int * __restrict__ vh, const int * __restrict__ u, const uint8_t * __restrict__ sc, + const uint8_t * __restrict__ m, const half2 & dm5, const float * __restrict__ d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf_d = 0.0f; + float sumf_m = 0.0f; + +#pragma unroll + for (int i = 0; i < QR5_K; ++i) { + const int vl0i = (vl[0] >> (4*i)) & 0x0F0F0F0F; + const int vl1i = (vl[1] >> (4*i)) & 0x0F0F0F0F; + + const int vh0i = ((vh[0] >> i) << 4) & 0x10101010; + const int vh1i = ((vh[1] >> i) << 4) & 0x10101010; + + const int v0i = vl0i | vh0i; + const int v1i = vl1i | vh1i; + + const int dot1 = __dp4a(v0i, u[2*i+0], __dp4a(v1i, u[2*i+1], 0)); // SIMD dot product + const int dot2 = __dp4a(0x01010101, u[2*i+0], __dp4a(0x01010101, u[2*i+1], 0)); // sum of u + + sumf_d += d8[i] * (dot1 * sc[i]); + sumf_m += d8[i] * (dot2 * m[i]); + + } + + const float2 dm5f = __half22float2(dm5); + + return dm5f.x*sumf_d - dm5f.y*sumf_m; + +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +#define VDR_Q6_K_Q8_1_MMVQ 1 +#define VDR_Q6_K_Q8_1_MMQ 8 + +// contiguous v/x values +static __device__ __forceinline__ float vec_dot_q6_K_q8_1_impl_mmvq( + const int & vl, const int & vh, const int * __restrict__ u, const int8_t * __restrict__ scales, + const float & d, const float * __restrict__ d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf = 0.0f; + +#pragma unroll + for (int i = 0; i < QR6_K; ++i) { + const int sc = scales[4*i]; + + const int vil = (vl >> (4*i)) & 0x0F0F0F0F; + + const int vih = ((vh >> (4*i)) << 4) & 0x30303030; + + const int vi = __vsubss4((vil | vih), 0x20202020); // vi = (vil | vih) - 32 + + sumf += d8[i] * (__dp4a(vi, u[i], 0) * sc); // SIMD dot product + } + + return d*sumf; +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + +// contiguous u/y values +static __device__ __forceinline__ float vec_dot_q6_K_q8_1_impl_mmq( + const int * __restrict__ v, const int * __restrict__ u, const int8_t * __restrict__ sc, + const float & d6, const float * __restrict__ d8) { + +#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics + float sumf_d = 0.0f; + +#pragma unroll + for (int i0 = 0; i0 < VDR_Q6_K_Q8_1_MMQ; i0 += 4) { + int2 sumi_d = {0, 0}; // 2 q6_K scales per q8_1 scale + +#pragma unroll + for (int i = i0; i < i0 + 2; ++i) { + sumi_d.x = __dp4a(v[2*i+0], u[2*i+0], sumi_d.x); // SIMD dot product + sumi_d.x = __dp4a(v[2*i+1], u[2*i+1], sumi_d.x); // SIMD dot product + + sumi_d.y = __dp4a(v[2*i+4], u[2*i+4], sumi_d.y); // SIMD dot product + sumi_d.y = __dp4a(v[2*i+5], u[2*i+5], sumi_d.y); // SIMD dot product + } + + sumf_d += d8[i0/4] * (sc[i0/2+0]*sumi_d.x + sc[i0/2+1]*sumi_d.y); + } + + return d6 * sumf_d; + +#else + return 0.0f; // only to satisfy the compiler +#endif // __CUDA_ARCH__ >= MIN_CC_DP4A +} + static __device__ __forceinline__ float vec_dot_q4_0_q8_1( const void * __restrict__ vbq, const block_q8_1 * __restrict__ bq8_1, const int & iqs) { @@ -1631,6 +1951,7 @@ static __device__ __forceinline__ float vec_dot_q4_0_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q4_0_Q8_1_MMQ == 0); const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); const float * x_dmf = (float *) x_dm; @@ -1729,6 +2050,7 @@ static __device__ __forceinline__ float vec_dot_q4_1_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q4_1_Q8_1_MMQ == 0); const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); @@ -1848,10 +2170,12 @@ static __device__ __forceinline__ float vec_dot_q5_0_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q5_0_Q8_1_MMQ == 0); const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); const int index_bx = i * (WARP_SIZE/QI5_0) + i/QI5_0 + k/QI5_0; - const float * x_dmf = (float *) x_dm; + const float * x_dmf = (const float *) x_dm; + const float * y_df = (const float *) y_ds; int u[2*VDR_Q5_0_Q8_1_MMQ]; @@ -1862,7 +2186,7 @@ static __device__ __forceinline__ float vec_dot_q5_0_q8_1_mul_mat( } return vec_dot_q8_0_q8_1_impl - (&x_ql[i * (2*WARP_SIZE + 1) + 2 * k], u, x_dmf[index_bx], y_ds[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); + (&x_ql[i * (2*WARP_SIZE + 1) + 2 * k], u, x_dmf[index_bx], y_df[j * (2*WARP_SIZE/QI8_1) + 2*k/QI8_1]); } static __device__ __forceinline__ float vec_dot_q5_1_q8_1( @@ -1965,6 +2289,7 @@ static __device__ __forceinline__ float vec_dot_q5_1_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q5_1_Q8_1_MMQ == 0); const int kyqs = k % (QI8_1/2) + QI8_1 * (k / (QI8_1/2)); const int index_bx = i * (WARP_SIZE/QI5_1) + + i/QI5_1 + k/QI5_1; @@ -1989,12 +2314,13 @@ static __device__ __forceinline__ float vec_dot_q8_0_q8_1( int v[VDR_Q8_0_Q8_1_MMVQ]; int u[VDR_Q8_0_Q8_1_MMVQ]; +#pragma unroll for (int i = 0; i < VDR_Q8_0_Q8_1_MMVQ; ++i) { v[i] = get_int_from_int8(bq8_0->qs, iqs + i); u[i] = get_int_from_int8_aligned(bq8_1->qs, iqs + i); } - return vec_dot_q8_0_q8_1_impl(v, u, bq8_0->d, bq8_1->ds); + return vec_dot_q8_0_q8_1_impl(v, u, bq8_0->d, bq8_1->ds.x); } static __device__ __forceinline__ void allocate_tiles_q8_0(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { @@ -2065,43 +2391,14 @@ static __device__ __forceinline__ float vec_dot_q8_0_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q8_0_Q8_1_MMQ == 0); - const float * x_dmf = (float *) x_dm; + const float * x_dmf = (const float *) x_dm; + const float * y_df = (const float *) y_ds; return vec_dot_q8_0_q8_1_impl (&x_ql[i * (WARP_SIZE + 1) + k], &y_qs[j * WARP_SIZE + k], x_dmf[i * (WARP_SIZE/QI8_0) + i/QI8_0 + k/QI8_0], - y_ds[j * (WARP_SIZE/QI8_1) + k/QI8_1]); -} - -#define VDR_q2_K_q8_1 1 - -static __device__ __forceinline__ float vec_dot_q2_K_q8_1_impl( - const int & v, const int * __restrict__ u, const uint8_t * __restrict__ scales, - const half2 & dm, const float * __restrict__ d8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - float sumf_d = 0.0f; - float sumf_m = 0.0f; - - for (int i = 0; i < QR2_K; ++i) { - const int sc = scales[2*i]; - - const int vi = (v >> (2*i)) & 0x03030303; - - sumf_d += d8[i] * (__dp4a(vi, u[i], 0) * (sc & 0xF)); // SIMD dot product - - int sc_high = sc >> 4; - sc_high |= sc_high << 8; - sc_high |= sc_high << 16; - sumf_m += d8[i] * __dp4a(sc_high, u[i], 0); // multiply constant q2_K part with sum of q8_1 values - } - - const float2 dmf = __half22float2(dm); - - return dmf.x*sumf_d - dmf.y*sumf_m; -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + y_df[j * (WARP_SIZE/QI8_1) + k/QI8_1]); } static __device__ __forceinline__ float vec_dot_q2_K_q8_1( @@ -2115,15 +2412,16 @@ static __device__ __forceinline__ float vec_dot_q2_K_q8_1( const uint8_t * scales = bq2_K->scales + scale_offset; const int v = get_int_from_uint8_aligned(bq2_K->qs, iqs); - int u[QR2_K]; + int u[QR2_K]; float d8[QR2_K]; +#pragma unroll for (int i = 0; i < QR2_K; ++ i) { u[i] = get_int_from_int8_aligned(bq8_1[bq8_offset + i].qs, iqs % QI8_1); d8[i] = bq8_1[bq8_offset + i].ds.x; } - return vec_dot_q2_K_q8_1_impl(v, u, scales, bq2_K->dm, d8); + return vec_dot_q2_K_q8_1_impl_mmvq(v, u, scales, bq2_K->dm, d8); } static __device__ __forceinline__ void allocate_tiles_q2_K(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { @@ -2204,62 +2502,26 @@ static __device__ __forceinline__ float vec_dot_q2_K_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q2_K_Q8_1_MMQ == 0); - const int kbx = k / QI2_K; - const int kqsx = k % QI2_K; + const int kbx = k / QI2_K; + const int ky = (k % QI2_K) * QR2_K; + const float * y_df = (const float *) y_ds; - const int bq8_offset = QR2_K * (kqsx / QI8_1); - const int scale_offset = kqsx - kqsx % QI8_1 + (kqsx % QI8_1) / (QI8_1/2); + int v[QR2_K*VDR_Q2_K_Q8_1_MMQ]; - const uint8_t * scales = ((uint8_t *) (x_sc + i * (WARP_SIZE/4) + i / 4)) + kbx*16 + scale_offset; + const int kqsx = i * (WARP_SIZE + 1) + kbx*QI2_K + (QI2_K/2) * (ky/(2*QI2_K)) + ky % (QI2_K/2); + const int shift = 2 * ((ky % (2*QI2_K)) / (QI2_K/2)); - int u[QR2_K]; - float d8[QR2_K]; - - for (int l = 0; l < QR2_K; ++ l) { - const int y_qs_index = j * (QR2_K*WARP_SIZE) + kbx * (QR2_K*QI2_K) + (bq8_offset + l)*QI8_1 + kqsx % QI8_1; - u[l] = y_qs[y_qs_index]; - d8[l] = y_ds[y_qs_index / QI8_1].x; +#pragma unroll + for (int l = 0; l < QR2_K*VDR_Q2_K_Q8_1_MMQ; ++l) { + v[l] = (x_ql[kqsx + l] >> shift) & 0x03030303; } - return vec_dot_q2_K_q8_1_impl(x_ql[i * (WARP_SIZE + 1) + k], u, scales, x_dm[i * (WARP_SIZE/QI2_K) + i/QI2_K + kbx], d8); -} + const uint8_t * scales = ((const uint8_t *) &x_sc[i * (WARP_SIZE/4) + i/4 + kbx*4]) + ky/4; -#define VDR_q3_K_q8_1 1 - -static __device__ __forceinline__ float vec_dot_q3_K_q8_1_impl( - const int & vl, const int & vh, const int * __restrict__ u, const uint8_t * __restrict__ scales, - const int & scale_offset, const float & d, const float * __restrict__ d8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - float sumf = 0.0f; - - for (int i = 0; i < QR3_K; ++i) { - const int isc = scale_offset + 2*i; - - const int isc_low = isc % (QK_K/32); - const int sc_shift_low = 4 * (isc / (QK_K/32)); - const int sc_low = (scales[isc_low] >> sc_shift_low) & 0xF; - - const int isc_high = isc % (QK_K/64); - const int sc_shift_high = 2 * (isc / (QK_K/64)); - const int sc_high = ((scales[(QK_K/32) + isc_high] >> sc_shift_high) & 3) << 4; - - const int sc = (sc_low | sc_high) - 32; - - const int vil = (vl >> (2*i)) & 0x03030303; - - const int vih = ((vh >> i) << 2) & 0x04040404; - - const int vi = __vsubss4(vil, vih); - - sumf += d8[i] * (__dp4a(vi, u[i], 0) * sc); // SIMD dot product - } - - return d*sumf; -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + const int index_y = j * (QR2_K*WARP_SIZE) + QR2_K*k; + return vec_dot_q2_K_q8_1_impl_mmq(v, &y_qs[index_y], scales, x_dm[i * (WARP_SIZE/QI2_K) + i/QI2_K + kbx], y_df[index_y/QI8_1]); } static __device__ __forceinline__ float vec_dot_q3_K_q8_1( @@ -2277,15 +2539,16 @@ static __device__ __forceinline__ float vec_dot_q3_K_q8_1( // invert the mask with ~ so that a 0/1 results in 4/0 being subtracted const int vh = ~get_int_from_uint8(bq3_K->hmask, iqs % (QI3_K/2)) >> bq8_offset; - int u[QR3_K]; + int u[QR3_K]; float d8[QR3_K]; +#pragma unroll for (int i = 0; i < QR3_K; ++i) { u[i] = get_int_from_int8_aligned(bq8_1[bq8_offset + i].qs, iqs % QI8_1); d8[i] = bq8_1[bq8_offset + i].ds.x; } - return vec_dot_q3_K_q8_1_impl(vl, vh, u, bq3_K->scales, scale_offset, d, d8); + return vec_dot_q3_K_q8_1_impl_mmvq(vl, vh, u, bq3_K->scales, scale_offset, d, d8); } static __device__ __forceinline__ void allocate_tiles_q3_K(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { @@ -2330,6 +2593,7 @@ template static __device__ __forceinline__ void load_tiles_q3_ const int blocks_per_tile_x_row = WARP_SIZE / QI3_K; const int kbxd = k % blocks_per_tile_x_row; + float * x_dmf = (float *) x_dm; #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * QI3_K) { @@ -2341,7 +2605,7 @@ template static __device__ __forceinline__ void load_tiles_q3_ const block_q3_K * bxi = bx0 + i*blocks_per_row + kbxd; - x_dm[i * (WARP_SIZE/QI3_K) + i / QI3_K + kbxd].x = bxi->d; + x_dmf[i * (WARP_SIZE/QI3_K) + i / QI3_K + kbxd] = bxi->d; } #pragma unroll @@ -2354,7 +2618,8 @@ template static __device__ __forceinline__ void load_tiles_q3_ const block_q3_K * bxi = bx0 + i*blocks_per_row + (k % (WARP_SIZE/2)) / (QI3_K/2); - x_qh[i * (WARP_SIZE/2) + i / 2 + k % (WARP_SIZE/2)] = get_int_from_uint8(bxi->hmask, k % (QI3_K/2)); + // invert the mask with ~ so that a 0/1 results in 4/0 being subtracted + x_qh[i * (WARP_SIZE/2) + i / 2 + k % (WARP_SIZE/2)] = ~get_int_from_uint8(bxi->hmask, k % (QI3_K/2)); } #pragma unroll @@ -2367,7 +2632,19 @@ template static __device__ __forceinline__ void load_tiles_q3_ const block_q3_K * bxi = bx0 + i*blocks_per_row + (k % (WARP_SIZE/4)) / (QI3_K/4); - x_sc[i * (WARP_SIZE/4) + i / 4 + k % (WARP_SIZE/4)] = get_int_from_uint8(bxi->scales, k % (QI3_K/4)); + const int ksc = k % (QI3_K/4); + + const int ksc_low = ksc % (QI3_K/8); + const int shift_low = 4 * (ksc / (QI3_K/8)); + const int sc_low = (get_int_from_uint8(bxi->scales, ksc_low) >> shift_low) & 0x0F0F0F0F; + + const int ksc_high = QI3_K/8; + const int shift_high = 2 * ksc; + const int sc_high = ((get_int_from_uint8(bxi->scales, ksc_high) >> shift_high) << 4) & 0x30303030; + + const int sc = __vsubss4(sc_low | sc_high, 0x20202020); + + x_sc[i * (WARP_SIZE/4) + i / 4 + k % (WARP_SIZE/4)] = sc; } } @@ -2381,57 +2658,31 @@ static __device__ __forceinline__ float vec_dot_q3_K_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q3_K_Q8_1_MMQ == 0); const int kbx = k / QI3_K; - const int kqsx = k % QI3_K; + const int ky = (k % QI3_K) * QR3_K; + const float * x_dmf = (const float *) x_dm; + const float * y_df = (const float *) y_ds; - const int bq8_offset = QR3_K * (kqsx / (QI3_K/2)); - const int scale_offset = kqsx - kqsx % QI8_1 + (kqsx % QI8_1) / (QI8_1/2); + const int8_t * scales = ((int8_t *) (x_sc + i * (WARP_SIZE/4) + i/4 + kbx*4)) + ky/4; - const uint8_t * scales = ((uint8_t *) (x_sc + i * (WARP_SIZE/4) + i / 4)) + kbx*16; + int v[QR3_K*VDR_Q3_K_Q8_1_MMQ]; - // invert the mask with ~ so that a 0/1 results in 4/0 being subtracted - const int vh = ~x_qh[i * (WARP_SIZE/2) + i/2 + kbx * (QI3_K/2) + kqsx % (QI3_K/2)] >> bq8_offset; +#pragma unroll + for (int l = 0; l < QR3_K*VDR_Q3_K_Q8_1_MMQ; ++l) { + const int kqsx = i * (WARP_SIZE + 1) + kbx*QI3_K + (QI3_K/2) * (ky/(2*QI3_K)) + ky % (QI3_K/2); + const int shift = 2 * ((ky % 32) / 8); + const int vll = (x_ql[kqsx + l] >> shift) & 0x03030303; - int u[QR3_K]; - float d8[QR3_K]; + const int vh = x_qh[i * (WARP_SIZE/2) + i/2 + kbx * (QI3_K/2) + (ky+l)%8] >> ((ky+l) / 8); + const int vlh = (vh << 2) & 0x04040404; - for (int l = 0; l < QR3_K; ++ l) { - const int y_qs_index = j * (QR3_K*WARP_SIZE) + kbx * (QR3_K*QI3_K) + (bq8_offset + l)*QI8_1 + kqsx % QI8_1; - u[l] = y_qs[y_qs_index]; - d8[l] = y_ds[y_qs_index / QI8_1].x; + v[l] = __vsubss4(vll, vlh); } - return vec_dot_q3_K_q8_1_impl(x_ql[i * (WARP_SIZE + 1) + k], vh, u, scales, scale_offset, - x_dm[i * (WARP_SIZE/QI3_K) + i/QI3_K + kbx].x, d8); -} - -#define VDR_q4_K_q8_1 2 - -static __device__ __forceinline__ float vec_dot_q4_K_q8_1_impl( - const int * __restrict__ v, const int * __restrict__ u, const uint8_t * __restrict__ sc, - const uint8_t * __restrict__ m, const half2 & dm4, const float * __restrict__ d8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - float sumf_d = 0.0f; - float sumf_m = 0.0f; - - for (int i = 0; i < QR4_K; ++i) { - const int v0i = (v[0] >> (4*i)) & 0x0F0F0F0F; - const int v1i = (v[1] >> (4*i)) & 0x0F0F0F0F; - - const int dot1 = __dp4a(v1i, u[2*i+1], __dp4a(v0i, u[2*i+0], 0)); // SIMD dot product - const int dot2 = __dp4a(0x01010101, u[2*i+1], __dp4a(0x01010101, u[2*i+0], 0)); // sum of u - - sumf_d += d8[i] * (dot1 * sc[i]); - sumf_m += d8[i] * (dot2 * m[i]); // multiply constant part of q4_K with sum of q8_1 values - } - - return __half2float(dm4.x)*sumf_d - __half2float(dm4.y)*sumf_m; - -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + const int index_y = j * (QR3_K*WARP_SIZE) + k*QR3_K; + return vec_dot_q3_K_q8_1_impl_mmq(v, &y_qs[index_y], scales, x_dmf[i * (WARP_SIZE/QI3_K) + i/QI3_K + kbx], y_df[index_y/QI8_1]); } static __device__ __forceinline__ float vec_dot_q4_K_q8_1( @@ -2478,7 +2729,7 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1( u[2*i+1] = q8[4]; } - return vec_dot_q4_K_q8_1_impl(v, u, sc, m, bq4_K->dm, d8); + return vec_dot_q4_K_q8_1_impl_vmmq(v, u, sc, m, bq4_K->dm, d8); #else @@ -2566,7 +2817,7 @@ template static __device__ __forceinline__ void load_tiles_q4_ } const int blocks_per_tile_x_row = WARP_SIZE / QI4_K; // == 1 if QK_K == 256 - const int kbxd = k % blocks_per_tile_x_row; // == 0 if QK_K == 256 + const int kbxd = k % blocks_per_tile_x_row; // == 0 if QK_K == 256 #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * QI4_K) { @@ -2591,7 +2842,15 @@ template static __device__ __forceinline__ void load_tiles_q4_ const block_q4_K * bxi = bx0 + i*blocks_per_row + (k % (WARP_SIZE/8)) / (QI4_K/8); - x_sc[i * (WARP_SIZE/8) + i / 8 + k % (WARP_SIZE/8)] = get_int_from_uint8_aligned(bxi->scales, k % (QI4_K/8)); + const int * scales = (int *) bxi->scales; + + const int ksc = k % (WARP_SIZE/8); + + // scale arrangement after the following two lines: sc0,...,sc3, sc4,...,sc7, m0,...,m3, m4,...,m8 + int scales8 = (scales[(ksc%2) + (ksc!=0)] >> (4 * (ksc & (ksc/2)))) & 0x0F0F0F0F; // lower 4 bits + scales8 |= (scales[ksc/2] >> (2 * (ksc % 2))) & 0x30303030; // upper 2 bits + + x_sc[i * (WARP_SIZE/8) + i / 8 + ksc] = scales8; } } @@ -2605,76 +2864,20 @@ static __device__ __forceinline__ float vec_dot_q4_K_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q4_K_Q8_1_MMQ == 0); - const int kbx = k / QI6_K; // == 0 if QK_K == 256 - const int kqsx = k % QI6_K; // == k if QK_K == 256 + int v[QR4_K*VDR_Q4_K_Q8_1_MMQ]; - int v[2]; - int u[2*QR4_K]; - float d8[QR4_K]; - - // kqsx is in 0,2...30. bq8_offset = 2 * (kqsx/4) -> bq8_offset = 0, 2, 4, 6 - const int bq8_offset = QR4_K * ((kqsx/2) / (QI8_1/2)); - - v[0] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 0]; - v[1] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 4]; - - const uint16_t * scales = (const uint16_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + kbx * 4]; - uint16_t aux[2]; - const int l = bq8_offset/2; - if (l < 2) { - aux[0] = scales[l+0] & 0x3f3f; - aux[1] = scales[l+2] & 0x3f3f; - } else { - aux[0] = ((scales[l+2] >> 0) & 0x0f0f) | ((scales[l-2] & 0xc0c0) >> 2); - aux[1] = ((scales[l+2] >> 4) & 0x0f0f) | ((scales[l-0] & 0xc0c0) >> 2); - } - const uint8_t * sc = (const uint8_t *)aux; - const uint8_t * m = sc + 2; - - for (int l = 0; l < QR4_K; ++l) { - const int kqsy = j * (QR4_K*WARP_SIZE) + kbx * (QR4_K*QI4_K) + (bq8_offset + l) * QI8_1 + (kqsx/2) % (QI8_1/2); - u[2*l+0] = y_qs[kqsy + 0*(QI8_1/2)]; - u[2*l+1] = y_qs[kqsy + 1*(QI8_1/2)]; - d8[l] = y_ds[kqsy / QI8_1].x; +#pragma unroll + for (int l = 0; l < VDR_Q4_K_Q8_1_MMQ; ++l) { + v[l + 0] = (x_ql[i * (WARP_SIZE + 1) + k + l] >> 0) & 0x0F0F0F0F; + v[l + (QI4_K/4)] = (x_ql[i * (WARP_SIZE + 1) + k + l] >> 4) & 0x0F0F0F0F; } - return vec_dot_q4_K_q8_1_impl(v, u, sc, m, x_dm[i * (WARP_SIZE/QI4_K) + i/QI4_K + kbx], d8); -} + const uint8_t * sc = ((const uint8_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + k/16]) + 2*((k % 16) / 8); -#define VDR_q5_K_q8_1 2 - -static __device__ __forceinline__ float vec_dot_q5_K_q8_1_impl( - const int * __restrict__ vl, const int * __restrict__ vh, const int * __restrict__ u, const uint8_t * __restrict__ sc, - const uint8_t * __restrict__ m, const half2 & dm5, const float * __restrict__ d8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - float sumf_d = 0.0f; - float sumf_m = 0.0f; - - for (int i = 0; i < QR5_K; ++i) { - const int vl0i = (vl[0] >> (4*i)) & 0x0F0F0F0F; - const int vl1i = (vl[1] >> (4*i)) & 0x0F0F0F0F; - - const int vh0i = ((vh[0] >> i) << 4) & 0x10101010; - const int vh1i = ((vh[1] >> i) << 4) & 0x10101010; - - const int v0i = vl0i | vh0i; - const int v1i = vl1i | vh1i; - - const int dot1 = __dp4a(v0i, u[2*i+0], __dp4a(v1i, u[2*i+1], 0)); // SIMD dot product - const int dot2 = __dp4a(0x01010101, u[2*i+0], __dp4a(0x01010101, u[2*i+1], 0)); // sum of u - - sumf_d += d8[i] * (dot1 * sc[i]); - sumf_m += d8[i] * (dot2 * m[i]); - - } - - return __half2float(dm5.x)*sumf_d - __half2float(dm5.y)*sumf_m; - -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + const int index_y = j * (QR4_K*WARP_SIZE) + QR4_K*k; + return vec_dot_q4_K_q8_1_impl_mmq(v, &y_qs[index_y], sc, sc+8, x_dm[i * (WARP_SIZE/QI4_K) + i/QI4_K], &y_ds[index_y/QI8_1]); } static __device__ __forceinline__ float vec_dot_q5_K_q8_1( @@ -2711,6 +2914,7 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1( const uint8_t * sc = (const uint8_t *)aux; const uint8_t * m = sc + 2; +#pragma unroll for (int i = 0; i < QR5_K; ++i) { const block_q8_1 * bq8i = bq8_1 + bq8_offset + i; d8[i] = bq8i->ds.x; @@ -2767,14 +2971,12 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1( static __device__ __forceinline__ void allocate_tiles_q5_K(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { - __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (WARP_SIZE) + GGML_CUDA_MMQ_Y]; + __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (2*WARP_SIZE) + GGML_CUDA_MMQ_Y]; __shared__ half2 tile_x_dm[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI5_K) + GGML_CUDA_MMQ_Y/QI5_K]; - __shared__ int tile_x_qh[GGML_CUDA_MMQ_Y * (WARP_SIZE/4) + GGML_CUDA_MMQ_Y/4]; __shared__ int tile_x_sc[GGML_CUDA_MMQ_Y * (WARP_SIZE/8) + GGML_CUDA_MMQ_Y/8]; *x_ql = tile_x_ql; *x_dm = tile_x_dm; - *x_qh = tile_x_qh; *x_sc = tile_x_sc; } @@ -2801,12 +3003,25 @@ template static __device__ __forceinline__ void load_tiles_q5_ } const block_q5_K * bxi = bx0 + i*blocks_per_row + kbx; + const int ky = QR5_K*kqsx; - x_ql[i * (WARP_SIZE + 1) + k] = get_int_from_uint8_aligned(bxi->qs, kqsx); + const int ql = get_int_from_uint8_aligned(bxi->qs, kqsx); + const int ql0 = (ql >> 0) & 0x0F0F0F0F; + const int ql1 = (ql >> 4) & 0x0F0F0F0F; + + const int qh = get_int_from_uint8_aligned(bxi->qh, kqsx % (QI5_K/4)); + const int qh0 = ((qh >> (2 * (kqsx / (QI5_K/4)) + 0)) << 4) & 0x10101010; + const int qh1 = ((qh >> (2 * (kqsx / (QI5_K/4)) + 1)) << 4) & 0x10101010; + + const int kq0 = ky - ky % (QI5_K/2) + k % (QI5_K/4) + 0; + const int kq1 = ky - ky % (QI5_K/2) + k % (QI5_K/4) + (QI5_K/4); + + x_ql[i * (2*WARP_SIZE + 1) + kq0] = ql0 | qh0; + x_ql[i * (2*WARP_SIZE + 1) + kq1] = ql1 | qh1; } const int blocks_per_tile_x_row = WARP_SIZE / QI5_K; // == 1 if QK_K == 256 - const int kbxd = k % blocks_per_tile_x_row; // == 0 if QK_K == 256 + const int kbxd = k % blocks_per_tile_x_row; // == 0 if QK_K == 256 #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * QI5_K) { @@ -2821,19 +3036,6 @@ template static __device__ __forceinline__ void load_tiles_q5_ x_dm[i * (WARP_SIZE/QI5_K) + i / QI5_K + kbxd] = bxi->dm; } -#pragma unroll - for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * 4) { - int i = i0 + i_offset * 4 + k / (WARP_SIZE/4); - - if (need_check) { - i = min(i, i_max); - } - - const block_q5_K * bxi = bx0 + i*blocks_per_row + (k % (WARP_SIZE/4)) / (QI5_K/4); - - x_qh[i * (WARP_SIZE/4) + i / 4 + k % (WARP_SIZE/4)] = get_int_from_uint8(bxi->qh, k % (QI5_K/4)); - } - #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * 8) { int i = (i0 + i_offset * 8 + k / (WARP_SIZE/8)) % GGML_CUDA_MMQ_Y; @@ -2844,7 +3046,15 @@ template static __device__ __forceinline__ void load_tiles_q5_ const block_q5_K * bxi = bx0 + i*blocks_per_row + (k % (WARP_SIZE/8)) / (QI5_K/8); - x_sc[i * (WARP_SIZE/8) + i / 8 + k % (WARP_SIZE/8)] = get_int_from_uint8_aligned(bxi->scales, k % (QI5_K/8)); + const int * scales = (int *) bxi->scales; + + const int ksc = k % (WARP_SIZE/8); + + // scale arrangement after the following two lines: sc0,...,sc3, sc4,...,sc7, m0,...,m3, m4,...,m8 + int scales8 = (scales[(ksc%2) + (ksc!=0)] >> (4 * (ksc & (ksc/2)))) & 0x0F0F0F0F; // lower 4 bits + scales8 |= (scales[ksc/2] >> (2 * (ksc % 2))) & 0x30303030; // upper 2 bits + + x_sc[i * (WARP_SIZE/8) + i / 8 + ksc] = scales8; } } @@ -2858,71 +3068,13 @@ static __device__ __forceinline__ float vec_dot_q5_K_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q5_K_Q8_1_MMQ == 0); - const int kbx = k / QI6_K; // == 0 if QK_K == 256 - const int kqsx = k % QI6_K; // == k if QK_K == 256 + const uint8_t * sc = ((const uint8_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + k/16]) + 2 * ((k % 16) / 8); - int vl[2]; - int vh[2]; - int u[2*QR4_K]; - float d8[QR4_K]; - - const int bq8_offset = QR5_K * ((kqsx/2) / (QI8_1/2)); - - vl[0] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 0]; - vl[1] = x_ql[i * (WARP_SIZE + 1) + 4 * bq8_offset + (kqsx/2) % 4 + 4]; - - vh[0] = x_qh[i * (WARP_SIZE/4) + i/4 + (kqsx/2) % 4 + 0] >> bq8_offset; - vh[1] = x_qh[i * (WARP_SIZE/4) + i/4 + (kqsx/2) % 4 + 4] >> bq8_offset; - - const uint16_t * scales = (const uint16_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + kbx * 4]; - uint16_t aux[2]; - const int l = bq8_offset/2; - if (l < 2) { - aux[0] = scales[l+0] & 0x3f3f; - aux[1] = scales[l+2] & 0x3f3f; - } else { - aux[0] = ((scales[l+2] >> 0) & 0x0f0f) | ((scales[l-2] & 0xc0c0) >> 2); - aux[1] = ((scales[l+2] >> 4) & 0x0f0f) | ((scales[l-0] & 0xc0c0) >> 2); - } - const uint8_t * sc = (const uint8_t *)aux; - const uint8_t * m = sc + 2; - - for (int l = 0; l < QR5_K; ++l) { - const int kqsy = j * (QR5_K*WARP_SIZE) + kbx * (QR5_K*QI5_K) + (bq8_offset + l) * QI8_1 + (kqsx/2) % (QI8_1/2); - u[2*l+0] = y_qs[kqsy + 0*(QI8_1/2)]; - u[2*l+1] = y_qs[kqsy + 1*(QI8_1/2)]; - d8[l] = y_ds[kqsy / QI8_1].x; - } - - return vec_dot_q5_K_q8_1_impl(vl, vh, u, sc, m, x_dm[i * (WARP_SIZE/QI5_K) + i/QI5_K + kbx], d8); -} - -#define VDR_q6_K_q8_1 1 - -static __device__ __forceinline__ float vec_dot_q6_K_q8_1_impl( - const int & vl, const int & vh, const int * __restrict__ u, const int8_t * __restrict__ scales, - const float & d, const float * __restrict__ d8) { - -#if __CUDA_ARCH__ >= MIN_CC_DP4A // lowest compute capability for integer intrinsics - float sumf = 0.0f; - - for (int i = 0; i < QR6_K; ++i) { - const int sc = scales[4*i]; - - const int vil = (vl >> (4*i)) & 0x0F0F0F0F; - - const int vih = ((vh >> (4*i)) << 4) & 0x30303030; - - const int vi = __vsubss4((vil | vih), 0x20202020); // vi = (vil | vih) - 32 - - sumf += d8[i] * (__dp4a(vi, u[i], 0) * sc); // SIMD dot product - } - - return d*sumf; -#else - return 0.0f; // only to satisfy the compiler -#endif // __CUDA_ARCH__ >= MIN_CC_DP4A + const int index_x = i * (QR5_K*WARP_SIZE + 1) + QR5_K*k; + const int index_y = j * (QR5_K*WARP_SIZE) + QR5_K*k; + return vec_dot_q4_K_q8_1_impl_mmq(&x_ql[index_x], &y_qs[index_y], sc, sc+8, x_dm[i * (WARP_SIZE/QI5_K) + i/QI5_K], &y_ds[index_y/QI8_1]); } static __device__ __forceinline__ float vec_dot_q6_K_q8_1( @@ -2942,24 +3094,23 @@ static __device__ __forceinline__ float vec_dot_q6_K_q8_1( int u[QR6_K]; float d8[QR6_K]; +#pragma unroll for (int i = 0; i < QR6_K; ++i) { u[i] = get_int_from_int8_aligned(bq8_1[bq8_offset + 2*i].qs, iqs % QI8_1); d8[i] = bq8_1[bq8_offset + 2*i].ds.x; } - return vec_dot_q6_K_q8_1_impl(vl, vh, u, scales, bq6_K->d, d8); + return vec_dot_q6_K_q8_1_impl_mmvq(vl, vh, u, scales, bq6_K->d, d8); } static __device__ __forceinline__ void allocate_tiles_q6_K(int ** x_ql, half2 ** x_dm, int ** x_qh, int ** x_sc) { - __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (WARP_SIZE) + GGML_CUDA_MMQ_Y]; + __shared__ int tile_x_ql[GGML_CUDA_MMQ_Y * (2*WARP_SIZE) + GGML_CUDA_MMQ_Y]; __shared__ half2 tile_x_dm[GGML_CUDA_MMQ_Y * (WARP_SIZE/QI6_K) + GGML_CUDA_MMQ_Y/QI6_K]; - __shared__ int tile_x_qh[GGML_CUDA_MMQ_Y * (WARP_SIZE/2) + GGML_CUDA_MMQ_Y/2]; __shared__ int tile_x_sc[GGML_CUDA_MMQ_Y * (WARP_SIZE/8) + GGML_CUDA_MMQ_Y/8]; *x_ql = tile_x_ql; *x_dm = tile_x_dm; - *x_qh = tile_x_qh; *x_sc = tile_x_sc; } @@ -2986,12 +3137,26 @@ template static __device__ __forceinline__ void load_tiles_q6_ } const block_q6_K * bxi = bx0 + i*blocks_per_row + kbx; + const int ky = QR6_K*kqsx; - x_ql[i * (WARP_SIZE + 1) + k] = get_int_from_uint8(bxi->ql, kqsx); + const int ql = get_int_from_uint8(bxi->ql, kqsx); + const int ql0 = (ql >> 0) & 0x0F0F0F0F; + const int ql1 = (ql >> 4) & 0x0F0F0F0F; + + const int qh = get_int_from_uint8(bxi->qh, (QI6_K/4) * (kqsx / (QI6_K/2)) + kqsx % (QI6_K/4)); + const int qh0 = ((qh >> (2 * ((kqsx % (QI6_K/2)) / (QI6_K/4)))) << 4) & 0x30303030; + const int qh1 = (qh >> (2 * ((kqsx % (QI6_K/2)) / (QI6_K/4)))) & 0x30303030; + + const int kq0 = ky - ky % QI6_K + k % (QI6_K/2) + 0; + const int kq1 = ky - ky % QI6_K + k % (QI6_K/2) + (QI6_K/2); + + x_ql[i * (2*WARP_SIZE + 1) + kq0] = __vsubss4(ql0 | qh0, 0x20202020); + x_ql[i * (2*WARP_SIZE + 1) + kq1] = __vsubss4(ql1 | qh1, 0x20202020); } const int blocks_per_tile_x_row = WARP_SIZE / QI6_K; // == 1 if QK_K == 256 - const int kbxd = k % blocks_per_tile_x_row; // == 0 if QK_K == 256 + const int kbxd = k % blocks_per_tile_x_row; // == 0 if QK_K == 256 + float * x_dmf = (float *) x_dm; #pragma unroll for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * QI6_K) { @@ -3003,20 +3168,7 @@ template static __device__ __forceinline__ void load_tiles_q6_ const block_q6_K * bxi = bx0 + i*blocks_per_row + kbxd; - x_dm[i * (WARP_SIZE/QI6_K) + i / QI6_K + kbxd].x = bxi->d; - } - -#pragma unroll - for (int i0 = 0; i0 < GGML_CUDA_MMQ_Y; i0 += 8 * 2) { - int i = i0 + i_offset * 2 + k / (WARP_SIZE/2); - - if (need_check) { - i = min(i, i_max); - } - - const block_q6_K * bxi = bx0 + i*blocks_per_row + (k % (WARP_SIZE/2)) / (QI6_K/2); - - x_qh[i * (WARP_SIZE/2) + i / 2 + k % (WARP_SIZE/2)] = get_int_from_uint8(bxi->qh, k % (QI6_K/2)); + x_dmf[i * (WARP_SIZE/QI6_K) + i / QI6_K + kbxd] = bxi->d; } #pragma unroll @@ -3043,33 +3195,19 @@ static __device__ __forceinline__ float vec_dot_q6_K_q8_1_mul_mat( __builtin_assume(j < WARP_SIZE); __builtin_assume(k >= 0); __builtin_assume(k < WARP_SIZE); + __builtin_assume(k % VDR_Q6_K_Q8_1_MMQ == 0); - const int kbx = k / QI6_K; // == 0 if QK_K == 256 - const int kqsx = k % QI6_K; // == k if QK_K == 256 + const float * x_dmf = (const float *) x_dm; + const float * y_df = (const float *) y_ds; - const int bq8_offset = 2 * QR6_K * (kqsx / (QI6_K/2)) + (kqsx % (QI6_K/2)) / (QI6_K/4); - const int scale_offset = (QI6_K/4) * (kqsx / (QI6_K/2)) + (kqsx % (QI6_K/2)) / (QI6_K/8); - const int vh_shift = 2 * ((kqsx % (QI6_K/2)) / (QI6_K/4)); + const int8_t * sc = ((const int8_t *) &x_sc[i * (WARP_SIZE/8) + i/8 + k/8]); - const int vh = x_qh[i * (WARP_SIZE/2) + i/2 + kbx * (QI6_K/2) + (QI6_K/4) * (kqsx / (QI6_K/2)) + kqsx % (QI6_K/4)] >> vh_shift; - - const int x_sc_offset = i * (WARP_SIZE/8) + i/8 + kbx * (QI6_K/8); - const int8_t * scales = ((int8_t *) (x_sc + x_sc_offset)) + scale_offset; - - int u[QR6_K]; - float d8[QR6_K]; - - for (int l = 0; l < QR6_K; ++l) { - const int kqsy = j * (QR6_K*WARP_SIZE) + kbx * (QR6_K*QI6_K) + (bq8_offset + 2*l)*QI8_1 + kqsx % QI8_1; - u[l] = y_qs[kqsy]; - d8[l] = y_ds[kqsy / QI8_1].x; - } - - return vec_dot_q6_K_q8_1_impl(x_ql[i * (WARP_SIZE + 1) + k], vh, u, scales, - x_dm[i * (WARP_SIZE/QI6_K) + i/QI6_K + kbx].x, d8); + const int index_x = i * (QR6_K*WARP_SIZE + 1) + QR6_K*k; + const int index_y = j * (QR6_K*WARP_SIZE) + QR6_K*k; + return vec_dot_q6_K_q8_1_impl_mmq(&x_ql[index_x], &y_qs[index_y], sc, x_dmf[i * (WARP_SIZE/QI6_K) + i/QI6_K], &y_df[index_y/QI8_1]); } -template static __global__ void mul_mat_q( const void * __restrict__ vx, const void * __restrict__ vy, float * __restrict__ dst, @@ -3130,7 +3268,16 @@ static __global__ void mul_mat_q( const int ids = (ids0 + tid_y * (WARP_SIZE/blocks_per_tile_y_col) + tid_x / blocks_per_tile_y_col) % WARP_SIZE; const int kby = tid_x % blocks_per_tile_y_col; const int col_y_eff = min(col_y_0 + ids, ncols_y-1); - tile_y_ds[ids * (qr*WARP_SIZE/QI8_1) + kby] = y[col_y_eff*blocks_per_col_y + ib0 * (qk/QK8_1) + kby].ds; + + // if the sum is not needed it's faster to transform the scale to f32 ahead of time + const half2 * dsi_src = &y[col_y_eff*blocks_per_col_y + ib0 * (qk/QK8_1) + kby].ds; + half2 * dsi_dst = &tile_y_ds[ids * (qr*WARP_SIZE/QI8_1) + kby]; + if (need_sum) { + *dsi_dst = *dsi_src; + } else { + float * dfi_dst = (float *) dsi_dst; + *dfi_dst = (*dsi_src).x; + } } __syncthreads(); @@ -3780,7 +3927,7 @@ static void mul_mat_vec_q2_K_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3789,7 +3936,7 @@ static void mul_mat_vec_q3_K_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3798,7 +3945,7 @@ static void mul_mat_vec_q4_K_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3807,7 +3954,7 @@ static void mul_mat_vec_q5_K_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3816,7 +3963,7 @@ static void mul_mat_vec_q6_K_q8_1_cuda(const void * vx, const void * vy, float * const int block_num_y = (nrows + GGML_CUDA_MMV_Y - 1) / GGML_CUDA_MMV_Y; const dim3 block_nums(1, block_num_y, 1); const dim3 block_dims(WARP_SIZE, GGML_CUDA_MMV_Y, 1); - mul_mat_vec_q + mul_mat_vec_q <<>>(vx, vy, dst, ncols, nrows); } @@ -3873,10 +4020,10 @@ static void ggml_mul_mat_q4_0_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_Q4_0_Q8_1_MMQ, vec_dot_q4_0_q8_1_mul_mat> + mul_mat_q, VDR_Q4_0_Q8_1_MMQ, vec_dot_q4_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_Q4_0_Q8_1_MMQ, vec_dot_q4_0_q8_1_mul_mat> + mul_mat_q, VDR_Q4_0_Q8_1_MMQ, vec_dot_q4_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3891,10 +4038,10 @@ static void ggml_mul_mat_q4_1_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_Q4_1_Q8_1_MMQ, vec_dot_q4_1_q8_1_mul_mat> + mul_mat_q, VDR_Q4_1_Q8_1_MMQ, vec_dot_q4_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_Q4_1_Q8_1_MMQ, vec_dot_q4_1_q8_1_mul_mat> + mul_mat_q, VDR_Q4_1_Q8_1_MMQ, vec_dot_q4_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3909,10 +4056,10 @@ static void ggml_mul_mat_q5_0_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_Q5_0_Q8_1_MMQ, vec_dot_q5_0_q8_1_mul_mat> + mul_mat_q, VDR_Q5_0_Q8_1_MMQ, vec_dot_q5_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_Q5_0_Q8_1_MMQ, vec_dot_q5_0_q8_1_mul_mat> + mul_mat_q, VDR_Q5_0_Q8_1_MMQ, vec_dot_q5_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3927,10 +4074,10 @@ static void ggml_mul_mat_q5_1_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_Q5_1_Q8_1_MMQ, vec_dot_q5_1_q8_1_mul_mat> + mul_mat_q, VDR_Q5_1_Q8_1_MMQ, vec_dot_q5_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_Q5_1_Q8_1_MMQ, vec_dot_q5_1_q8_1_mul_mat> + mul_mat_q, VDR_Q5_1_Q8_1_MMQ, vec_dot_q5_1_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3945,10 +4092,10 @@ static void ggml_mul_mat_q8_0_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_Q8_0_Q8_1_MMQ, vec_dot_q8_0_q8_1_mul_mat> + mul_mat_q, VDR_Q8_0_Q8_1_MMQ, vec_dot_q8_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_Q8_0_Q8_1_MMQ, vec_dot_q8_0_q8_1_mul_mat> + mul_mat_q, VDR_Q8_0_Q8_1_MMQ, vec_dot_q8_0_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3963,10 +4110,10 @@ static void ggml_mul_mat_q2_K_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q2_K_q8_1, vec_dot_q2_K_q8_1_mul_mat> + mul_mat_q, VDR_Q2_K_Q8_1_MMQ, vec_dot_q2_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q2_K_q8_1, vec_dot_q2_K_q8_1_mul_mat> + mul_mat_q, VDR_Q2_K_Q8_1_MMQ, vec_dot_q2_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3981,10 +4128,10 @@ static void ggml_mul_mat_q3_K_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q3_K_q8_1, vec_dot_q3_K_q8_1_mul_mat> + mul_mat_q, VDR_Q3_K_Q8_1_MMQ, vec_dot_q3_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q3_K_q8_1, vec_dot_q3_K_q8_1_mul_mat> + mul_mat_q, VDR_Q3_K_Q8_1_MMQ, vec_dot_q3_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -3999,10 +4146,10 @@ static void ggml_mul_mat_q4_K_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q4_K_q8_1, vec_dot_q4_K_q8_1_mul_mat> + mul_mat_q, VDR_Q4_K_Q8_1_MMQ, vec_dot_q4_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q4_K_q8_1, vec_dot_q4_K_q8_1_mul_mat> + mul_mat_q, VDR_Q4_K_Q8_1_MMQ, vec_dot_q4_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -4017,10 +4164,10 @@ static void ggml_mul_mat_q5_K_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q5_K_q8_1, vec_dot_q5_K_q8_1_mul_mat> + mul_mat_q, VDR_Q5_K_Q8_1_MMQ, vec_dot_q5_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q5_K_q8_1, vec_dot_q5_K_q8_1_mul_mat> + mul_mat_q, VDR_Q5_K_Q8_1_MMQ, vec_dot_q5_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } @@ -4035,10 +4182,10 @@ static void ggml_mul_mat_q6_K_q8_1_cuda( const dim3 block_dims(WARP_SIZE, WARP_SIZE/4, 1); if (nrows_x % GGML_CUDA_MMQ_Y == 0) { - mul_mat_q, VDR_q6_K_q8_1, vec_dot_q6_K_q8_1_mul_mat> + mul_mat_q, VDR_Q6_K_Q8_1_MMQ, vec_dot_q6_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } else { - mul_mat_q, VDR_q6_K_q8_1, vec_dot_q6_K_q8_1_mul_mat> + mul_mat_q, VDR_Q6_K_Q8_1_MMQ, vec_dot_q6_K_q8_1_mul_mat> <<>>(vx, vy, dst, ncols_x, nrows_x, ncols_y, nrows_y, nrows_dst); } } From 2e8265ae1764d6288aab0e2df641909072e2d58e Mon Sep 17 00:00:00 2001 From: Keiichi Tabata Date: Sun, 6 Aug 2023 15:34:05 +0900 Subject: [PATCH 12/13] convert.py : add missing abstract methods for quantized data (#2491) --- convert.py | 7 +++++++ 1 file changed, 7 insertions(+) diff --git a/convert.py b/convert.py index ab6a4e10e..f3bf17980 100644 --- a/convert.py +++ b/convert.py @@ -465,6 +465,13 @@ class GGMLQuantizedTensor(Tensor): def permute(self, n_head: int, n_kv_head: Optional[int] = None) -> 'GGMLQuantizedTensor': return GGMLQuantizedTensor(permute(self.ndarray, n_head, n_kv_head), self.shape, self.data_type) + def permute_part(self, n_part: int, n_head: int) -> 'UnquantizedTensor': + r = self.ndarray.shape[0] // 3 + return UnquantizedTensor(permute(self.ndarray[r * n_part : r * n_part + r, ...], n_head)) + + def part(self, n_part: int) -> 'UnquantizedTensor': + r = self.ndarray.shape[0] // 3 + return UnquantizedTensor(self.ndarray[r * n_part : r * n_part + r, ...]) GGMLCompatibleTensor = Union[UnquantizedTensor, GGMLQuantizedTensor] From 86c32198954a2bc482025703d6875e11f1c2a574 Mon Sep 17 00:00:00 2001 From: DannyDaemonic Date: Sat, 5 Aug 2023 23:49:34 -0700 Subject: [PATCH 13/13] console : fix issue related to Windows 11 PowerShell console mode persistence (#2521) --- examples/console.cpp | 6 ++++-- 1 file changed, 4 insertions(+), 2 deletions(-) diff --git a/examples/console.cpp b/examples/console.cpp index 4c32f3b09..8966b107f 100644 --- a/examples/console.cpp +++ b/examples/console.cpp @@ -80,8 +80,10 @@ namespace console { // Set console input codepage to UTF16 _setmode(_fileno(stdin), _O_WTEXT); - if (!simple_io) { - // Turn off ICANON (ENABLE_LINE_INPUT) and ECHO (ENABLE_ECHO_INPUT) + // Set ICANON (ENABLE_LINE_INPUT) and ECHO (ENABLE_ECHO_INPUT) + if (simple_io) { + dwMode |= ENABLE_LINE_INPUT | ENABLE_ECHO_INPUT; + } else { dwMode &= ~(ENABLE_LINE_INPUT | ENABLE_ECHO_INPUT); } if (!SetConsoleMode(hConIn, dwMode)) {