mirror of
https://github.com/ggerganov/whisper.cpp.git
synced 2024-12-19 04:37:51 +00:00
366 lines
10 KiB
Plaintext
366 lines
10 KiB
Plaintext
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#include <stdint.h>
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#include <stdio.h>
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#include <cuda_fp16.h>
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#include <atomic>
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#include "ggml-cuda.h"
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typedef uint16_t ggml_fp16_t;
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static_assert(sizeof(__half) == sizeof(ggml_fp16_t), "wrong fp16 size");
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#define QK4_0 32
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typedef struct {
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float d; // delta
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uint8_t qs[QK4_0 / 2]; // nibbles / quants
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} block_q4_0;
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static_assert(sizeof(block_q4_0) == sizeof(float) + QK4_0 / 2, "wrong q4_0 block size/padding");
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#define QK4_1 32
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typedef struct {
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float d; // delta
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float m; // min
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uint8_t qs[QK4_1 / 2]; // nibbles / quants
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} block_q4_1;
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static_assert(sizeof(block_q4_1) == sizeof(float) * 2 + QK4_1 / 2, "wrong q4_1 block size/padding");
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#define QK4_2 16
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typedef struct {
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__half d; // delta
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uint8_t qs[QK4_2 / 2]; // nibbles / quants
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} block_q4_2;
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static_assert(sizeof(block_q4_2) == sizeof(ggml_fp16_t) + QK4_2 / 2, "wrong q4_2 block size/padding");
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#define QK5_0 32
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typedef struct {
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__half d; // delta
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uint8_t qh[4]; // 5-th bit of quants
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uint8_t qs[QK5_0 / 2]; // nibbles / quants
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} block_q5_0;
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static_assert(sizeof(block_q5_0) == sizeof(ggml_fp16_t) + sizeof(uint32_t) + QK5_0 / 2, "wrong q5_0 block size/padding");
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#define QK5_1 32
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typedef struct {
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__half d; // delta
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__half m; // min
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uint32_t qh; // 5-th bit of quants
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uint8_t qs[QK5_1 / 2]; // nibbles / quants
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} block_q5_1;
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static_assert(sizeof(block_q5_1) == 2 * sizeof(ggml_fp16_t) + sizeof(uint32_t) + QK5_1 / 2, "wrong q5_1 block size/padding");
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#define QK8_0 32
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typedef struct {
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float d; // delta
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int8_t qs[QK8_0]; // quants
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} block_q8_0;
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static_assert(sizeof(block_q8_0) == sizeof(float) + QK8_0, "wrong q8_0 block size/padding");
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static __global__ void dequantize_block_q4_0(const void * vx, float * y) {
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const block_q4_0 * x = (const block_q4_0 *) vx;
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const int i = blockIdx.x;
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const float d = x[i].d;
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const uint8_t * pp = x[i].qs;
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for (int l = 0; l < QK4_0; l += 2) {
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const uint8_t vi = pp[l/2];
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const int8_t vi0 = vi & 0xf;
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const int8_t vi1 = vi >> 4;
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const float v0 = (vi0 - 8)*d;
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const float v1 = (vi1 - 8)*d;
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y[i*QK4_0 + l + 0] = v0;
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y[i*QK4_0 + l + 1] = v1;
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}
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}
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static __global__ void dequantize_block_q4_1(const void * vx, float * y) {
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const block_q4_1 * x = (const block_q4_1 *) vx;
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const int i = blockIdx.x;
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const float d = x[i].d;
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const float m = x[i].m;
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const uint8_t * pp = x[i].qs;
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for (int l = 0; l < QK4_1; l += 2) {
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const uint8_t vi = pp[l/2];
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const int8_t vi0 = vi & 0xf;
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const int8_t vi1 = vi >> 4;
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const float v0 = vi0*d + m;
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const float v1 = vi1*d + m;
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y[i*QK4_1 + l + 0] = v0;
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y[i*QK4_1 + l + 1] = v1;
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}
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}
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static __global__ void dequantize_block_q4_2(const void * vx, float * y) {
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const block_q4_2 * x = (const block_q4_2 *) vx;
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const int i = blockIdx.x;
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const float d = x[i].d;
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const uint8_t * pp = x[i].qs;
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for (int l = 0; l < QK4_2; l += 2) {
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const uint8_t vi = pp[l/2];
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const int8_t vi0 = vi & 0xf;
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const int8_t vi1 = vi >> 4;
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const float v0 = (vi0 - 8)*d;
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const float v1 = (vi1 - 8)*d;
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y[i*QK4_2 + l + 0] = v0;
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y[i*QK4_2 + l + 1] = v1;
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}
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}
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static __global__ void dequantize_block_q5_0(const void * vx, float * y) {
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const block_q5_0 * x = (const block_q5_0 *) vx;
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const int i = blockIdx.x;
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const float d = x[i].d;
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const uint8_t * pp = x[i].qs;
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uint32_t qh;
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memcpy(&qh, x[i].qh, sizeof(qh));
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for (int l = 0; l < QK5_0; l += 2) {
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const uint8_t vi = pp[l/2];
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const int8_t vh0 = ((qh & (1 << (l + 0))) >> (l + 0)) << 4;
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const int8_t vh1 = ((qh & (1 << (l + 1))) >> (l + 1)) << 4;
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const int8_t vi0 = ((vi & 0xf) | vh0);
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const int8_t vi1 = ((vi >> 4) | vh1);
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const float v0 = (vi0 - 16)*d;
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const float v1 = (vi1 - 16)*d;
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y[i*QK5_0 + l + 0] = v0;
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y[i*QK5_0 + l + 1] = v1;
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}
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}
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static __global__ void dequantize_block_q5_1(const void * vx, float * y) {
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const block_q5_1 * x = (const block_q5_1 *) vx;
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const int i = blockIdx.x;
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const float d = x[i].d;
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const float m = x[i].m;
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const uint8_t * pp = x[i].qs;
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const uint32_t qh = x[i].qh;
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for (int l = 0; l < QK5_1; l += 2) {
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const uint8_t vi = pp[l/2];
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const int8_t vh0 = ((qh & (1 << (l + 0))) >> (l + 0)) << 4;
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const int8_t vh1 = ((qh & (1 << (l + 1))) >> (l + 1)) << 4;
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const int8_t vi0 = (vi & 0xf) | vh0;
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const int8_t vi1 = (vi >> 4) | vh1;
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const float v0 = vi0*d + m;
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const float v1 = vi1*d + m;
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y[i*QK5_1 + l + 0] = v0;
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y[i*QK5_1 + l + 1] = v1;
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}
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}
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static __global__ void dequantize_block_q8_0(const void * vx, float * y) {
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const block_q8_0 * x = (const block_q8_0 *) vx;
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const int i = blockIdx.x;
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const float d = x[i].d;
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const int8_t * pp = x[i].qs;
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for (int l = 0; l < QK8_0; l++) {
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const int8_t vi = pp[l];
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y[i*QK8_0 + l] = vi*d;
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}
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}
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void dequantize_row_q4_0_cuda(const void * vx, float * y, int k, cudaStream_t stream) {
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const int nb = k / QK4_0;
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dequantize_block_q4_0<<<nb, 1, 0, stream>>>(vx, y);
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}
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void dequantize_row_q4_1_cuda(const void * vx, float * y, int k, cudaStream_t stream) {
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const int nb = k / QK4_1;
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dequantize_block_q4_1<<<nb, 1, 0, stream>>>(vx, y);
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}
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void dequantize_row_q4_2_cuda(const void * vx, float * y, int k, cudaStream_t stream) {
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const int nb = k / QK4_2;
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dequantize_block_q4_2<<<nb, 1, 0, stream>>>(vx, y);
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}
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void dequantize_row_q5_0_cuda(const void * vx, float * y, int k, cudaStream_t stream) {
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const int nb = k / QK5_0;
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dequantize_block_q5_0<<<nb, 1, 0, stream>>>(vx, y);
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}
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void dequantize_row_q5_1_cuda(const void * vx, float * y, int k, cudaStream_t stream) {
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const int nb = k / QK5_1;
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dequantize_block_q5_1<<<nb, 1, 0, stream>>>(vx, y);
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}
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void dequantize_row_q8_0_cuda(const void * vx, float * y, int k, cudaStream_t stream) {
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const int nb = k / QK8_0;
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dequantize_block_q8_0<<<nb, 1, 0, stream>>>(vx, y);
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}
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dequantize_row_q_cuda_t ggml_get_dequantize_row_q_cuda(ggml_type type) {
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switch (type) {
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case GGML_TYPE_Q4_0:
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return dequantize_row_q4_0_cuda;
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case GGML_TYPE_Q4_1:
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return dequantize_row_q4_1_cuda;
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case GGML_TYPE_Q4_2:
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return dequantize_row_q4_2_cuda;
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case GGML_TYPE_Q5_0:
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return dequantize_row_q5_0_cuda;
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case GGML_TYPE_Q5_1:
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return dequantize_row_q5_1_cuda;
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case GGML_TYPE_Q8_0:
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return dequantize_row_q8_0_cuda;
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default:
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return nullptr;
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}
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}
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// buffer pool for cuda
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#define MAX_CUDA_BUFFERS 16
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struct scoped_spin_lock {
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std::atomic_flag& lock;
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scoped_spin_lock(std::atomic_flag& lock) : lock(lock) {
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while (lock.test_and_set(std::memory_order_acquire)) {
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; // spin
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}
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}
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~scoped_spin_lock() {
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lock.clear(std::memory_order_release);
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}
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scoped_spin_lock(const scoped_spin_lock&) = delete;
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scoped_spin_lock& operator=(const scoped_spin_lock&) = delete;
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};
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struct cuda_buffer {
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void * ptr = nullptr;
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size_t size = 0;
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};
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static cuda_buffer g_cuda_buffer_pool[MAX_CUDA_BUFFERS];
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static std::atomic_flag g_cuda_pool_lock = ATOMIC_FLAG_INIT;
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void * ggml_cuda_pool_malloc(size_t size, size_t * actual_size) {
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scoped_spin_lock lock(g_cuda_pool_lock);
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for (int i = 0; i < MAX_CUDA_BUFFERS; ++i) {
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cuda_buffer& b = g_cuda_buffer_pool[i];
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if (b.size >= size && b.ptr != nullptr) {
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void * ptr = b.ptr;
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*actual_size = b.size;
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b.ptr = nullptr;
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b.size = 0;
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return ptr;
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}
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}
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void * ptr;
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CUDA_CHECK(cudaMalloc((void **) &ptr, size));
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*actual_size = size;
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return ptr;
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}
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void ggml_cuda_pool_free(void * ptr, size_t size) {
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scoped_spin_lock lock(g_cuda_pool_lock);
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for (int i = 0; i < MAX_CUDA_BUFFERS; ++i) {
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cuda_buffer& b = g_cuda_buffer_pool[i];
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if (b.ptr == nullptr) {
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b.ptr = ptr;
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b.size = size;
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return;
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}
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}
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fprintf(stderr, "WARNING: cuda buffer pool full, increase MAX_CUDA_BUFFERS\n");
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CUDA_CHECK(cudaFree(ptr));
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}
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cublasHandle_t g_cublasH = nullptr;
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cudaStream_t g_cudaStream = nullptr;
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cudaStream_t g_cudaStream2 = nullptr;
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cudaEvent_t g_cudaEvent = nullptr;
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void ggml_init_cublas() {
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if (g_cublasH == nullptr) {
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// create cublas handle, bind a stream
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CUBLAS_CHECK(cublasCreate(&g_cublasH));
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CUDA_CHECK(cudaStreamCreateWithFlags(&g_cudaStream, cudaStreamNonBlocking));
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CUBLAS_CHECK(cublasSetStream(g_cublasH, g_cudaStream));
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// create additional stream and event for synchronization
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CUDA_CHECK(cudaStreamCreateWithFlags(&g_cudaStream2, cudaStreamNonBlocking));
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CUDA_CHECK(cudaEventCreateWithFlags(&g_cudaEvent, cudaEventDisableTiming));
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// configure logging to stdout
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// CUBLAS_CHECK(cublasLoggerConfigure(1, 1, 0, NULL));
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}
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}
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cudaError_t ggml_cuda_h2d_tensor_2d(void * dst, const struct ggml_tensor * src, uint64_t i3, uint64_t i2, cudaStream_t stream) {
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const uint64_t ne0 = src->ne[0];
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const uint64_t ne1 = src->ne[1];
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const uint64_t nb0 = src->nb[0];
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const uint64_t nb1 = src->nb[1];
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const uint64_t nb2 = src->nb[2];
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const uint64_t nb3 = src->nb[3];
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const enum ggml_type type = src->type;
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const size_t ts = ggml_type_size(type);
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const size_t bs = ggml_blck_size(type);
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const void * x = (const void *) ((const char *) src->data + i2*nb2 + i3*nb3);
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if (nb0 == ts && nb1 == ts*ne0/bs) {
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return cudaMemcpyAsync(dst, x, ne1*nb1, cudaMemcpyHostToDevice, stream);
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} else if (nb0 == ts) {
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return cudaMemcpy2DAsync(dst, ts*ne0/bs, x, nb1, ts*ne0/bs, ne1, cudaMemcpyHostToDevice, stream);
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} else {
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for (uint64_t i1 = 0; i1 < ne1; i1++) {
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const void * rx = (const void *) ((const char *) x + i1*nb1);
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void * rd = (void *) ((char *) dst + i1*ts*ne0/bs);
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// pretend the row is a matrix with cols=1
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cudaError_t r = cudaMemcpy2DAsync(rd, ts/bs, rx, nb0, ts/bs, ne0, cudaMemcpyHostToDevice, stream);
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if (r != cudaSuccess) return r;
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}
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return cudaSuccess;
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}
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}
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void * ggml_cuda_host_malloc(size_t size) {
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void * ptr;
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CUDA_CHECK(cudaMallocHost((void **) &ptr, size));
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return ptr;
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}
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void ggml_cuda_host_free(void * ptr) {
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CUDA_CHECK(cudaFreeHost(ptr));
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}
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