603 lines
35 KiB
C++
603 lines
35 KiB
C++
#include "cpy.hpp"
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#include <float.h>
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#include "dequantize.hpp"
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#include "ggml-sycl/common.hpp"
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#include "ggml-sycl/presets.hpp"
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#include "ggml.h"
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static void cpy_1_f32_f32(const char * cxi, char * cdsti) {
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const float * xi = (const float *) cxi;
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float * dsti = (float *) cdsti;
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*dsti = *xi;
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}
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static void cpy_1_f32_f16(const char * cxi, char * cdsti) {
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const float * xi = (const float *) cxi;
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sycl::half * dsti = (sycl::half *) cdsti;
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*dsti = sycl::vec<float, 1>(*xi).convert<sycl::half, sycl::rounding_mode::automatic>()[0];
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}
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static void cpy_1_f16_f16(const char * cxi, char * cdsti) {
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const sycl::half * xi = (const sycl::half *) cxi;
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sycl::half * dsti = (sycl::half *) cdsti;
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*dsti = *xi;
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}
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static void cpy_1_f16_f32(const char * cxi, char * cdsti) {
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const sycl::half * xi = (const sycl::half *) cxi;
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float * dsti = (float *) cdsti;
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*dsti = *xi;
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}
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static void cpy_1_i16_i16(const char * cxi, char * cdsti) {
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const int16_t * xi = (const int16_t *) cxi;
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int16_t * dsti = (int16_t *) cdsti;
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*dsti = *xi;
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}
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static void cpy_1_i32_i32(const char * cxi, char * cdsti) {
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const int32_t * xi = (const int32_t *) cxi;
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int32_t * dsti = (int32_t *) cdsti;
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*dsti = *xi;
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}
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template <cpy_kernel_t cpy_1>
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static void cpy_f32_f16(const char * cx, char * cdst, const int ne, const int ne00, const int ne01, const int ne02,
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const int nb00, const int nb01, const int nb02, const int nb03, const int ne10, const int ne11,
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const int ne12, const int nb10, const int nb11, const int nb12, const int nb13,
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const sycl::nd_item<3> & item_ct1) {
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const int i = item_ct1.get_local_range(2) * item_ct1.get_group(2) + item_ct1.get_local_id(2);
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if (i >= ne) {
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return;
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}
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// determine indices i02/i12, i01/i11, i00/i10 as a function of index i of flattened tensor
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// then combine those indices with the corresponding byte offsets to get the total offsets
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const int i03 = i / (ne00 * ne01 * ne02);
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const int i02 = (i - i03 * ne00 * ne01 * ne02) / (ne00 * ne01);
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const int i01 = (i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00) / ne00;
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const int i00 = i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00 - i01 * ne00;
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const int x_offset = i00 * nb00 + i01 * nb01 + i02 * nb02 + i03 * nb03;
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const int i13 = i / (ne10 * ne11 * ne12);
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const int i12 = (i - i13 * ne10 * ne11 * ne12) / (ne10 * ne11);
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const int i11 = (i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11) / ne10;
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const int i10 = i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11 - i11 * ne10;
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const int dst_offset = i10 * nb10 + i11 * nb11 + i12 * nb12 + i13 * nb13;
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cpy_1(cx + x_offset, cdst + dst_offset);
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}
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/* quantized type same copy */
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template<typename T>
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static void cpy_blck_q_q(const char * cxi, char * cdsti) {
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const T * xi = (const T *) cxi;
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T * dsti = (T *) cdsti;
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*dsti = *xi;
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}
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static void cpy_blck_q8_0_f32(const char * cxi, char * cdsti) {
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float * cdstf = (float *) (cdsti);
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for (int j = 0; j < QK8_0; j += 2) {
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dfloat2 dq;
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dequantize_q8_0(cxi, 0, j, dq);
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*(cdstf + j) = dq.x();
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*(cdstf + j + 1) = dq.y();
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}
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}
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template <dequantize_kernel_t dequant, int qk> static void cpy_blck_q_f32(const char * cxi, char * cdsti) {
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float * cdstf = (float *) (cdsti);
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for (int j = 0; j < qk / 2; j++) {
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dfloat2 dq;
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dequant(cxi, 0, j, dq);
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*(cdstf + j) = dq.x();
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*(cdstf + j + qk / 2) = dq.y();
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}
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}
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template <typename T, int qk>
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static void cpy_q_q(const char * cx, char * cdst, const int ne, const int ne00, const int ne01, const int ne02,
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const int nb00, const int nb01, const int nb02, const int nb03, const int ne10, const int ne11,
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const int ne12, const int nb10, const int nb11, const int nb12, const int nb13,
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const sycl::nd_item<3> & item_ct1) {
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const int i = (item_ct1.get_local_range(2) * item_ct1.get_group(2) + item_ct1.get_local_id(2)) * qk;
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if (i >= ne) {
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return;
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}
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const int i03 = i / (ne00 * ne01 * ne02);
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const int i02 = (i - i03 * ne00 * ne01 * ne02) / (ne00 * ne01);
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const int i01 = (i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00) / ne00;
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const int i00 = i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00 - i01 * ne00;
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const int x_offset = (i00 / qk) * nb00 + i01 * nb01 + i02 * nb02 + i03 * nb03;
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const int i13 = i / (ne10 * ne11 * ne12);
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const int i12 = (i - i13 * ne10 * ne11 * ne12) / (ne10 * ne11);
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const int i11 = (i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11) / ne10;
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const int i10 = i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11 - i11 * ne10;
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const int dst_offset = (i10 / qk) * nb10 + i11 * nb11 + i12 * nb12 + i13 * nb13;
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cpy_blck_q_q<T>(cx + x_offset, cdst + dst_offset);
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}
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template <cpy_kernel_t cpy_blck, int qk>
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static void cpy_f32_q(const char * cx, char * cdst, const int ne, const int ne00, const int ne01, const int ne02,
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const int nb00, const int nb01, const int nb02, const int nb03, const int ne10, const int ne11,
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const int ne12, const int nb10, const int nb11, const int nb12, const int nb13,
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const sycl::nd_item<3> & item_ct1) {
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const int i = (item_ct1.get_local_range(2) * item_ct1.get_group(2) + item_ct1.get_local_id(2)) * qk;
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if (i >= ne) {
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return;
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}
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const int i03 = i / (ne00 * ne01 * ne02);
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const int i02 = (i - i03 * ne00 * ne01 * ne02) / (ne00 * ne01);
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const int i01 = (i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00) / ne00;
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const int i00 = i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00 - i01 * ne00;
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const int x_offset = i00 * nb00 + i01 * nb01 + i02 * nb02 + i03 * nb03;
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const int i13 = i / (ne10 * ne11 * ne12);
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const int i12 = (i - i13 * ne10 * ne11 * ne12) / (ne10 * ne11);
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const int i11 = (i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11) / ne10;
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const int i10 = i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11 - i11 * ne10;
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const int dst_offset = (i10 / qk) * nb10 + i11 * nb11 + i12 * nb12 + i13 * nb13;
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cpy_blck(cx + x_offset, cdst + dst_offset);
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}
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template <cpy_kernel_t cpy_blck, int qk>
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static void cpy_q_f32(const char * cx, char * cdst, const int ne, const int ne00, const int ne01, const int ne02,
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const int nb00, const int nb01, const int nb02, const int nb03, const int ne10, const int ne11,
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const int ne12, const int nb10, const int nb11, const int nb12, const int nb13,
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const sycl::nd_item<3> & item_ct1) {
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const int i = (item_ct1.get_local_range(2) * item_ct1.get_group(2) + item_ct1.get_local_id(2)) * qk;
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if (i >= ne) {
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return;
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}
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const int i03 = i / (ne00 * ne01 * ne02);
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const int i02 = (i - i03 * ne00 * ne01 * ne02) / (ne00 * ne01);
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const int i01 = (i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00) / ne00;
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const int i00 = i - i03 * ne00 * ne01 * ne02 - i02 * ne01 * ne00 - i01 * ne00;
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const int x_offset = (i00 / qk) * nb00 + i01 * nb01 + i02 * nb02 + i03 * nb03;
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const int i13 = i / (ne10 * ne11 * ne12);
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const int i12 = (i - i13 * ne10 * ne11 * ne12) / (ne10 * ne11);
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const int i11 = (i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11) / ne10;
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const int i10 = i - i13 * ne10 * ne11 * ne12 - i12 * ne10 * ne11 - i11 * ne10;
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const int dst_offset = i10 * nb10 + i11 * nb11 + i12 * nb12 + i13 * nb13;
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cpy_blck(cx + x_offset, cdst + dst_offset);
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}
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static void ggml_cpy_f16_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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const int num_blocks = (ne + SYCL_CPY_BLOCK_SIZE - 1) / SYCL_CPY_BLOCK_SIZE;
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{
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dpct::has_capability_or_fail(stream->get_device(), { sycl::aspect::fp16 });
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stream->parallel_for(
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sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
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sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_f32_f16<cpy_1_f16_f32>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
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nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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}
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static void ggml_cpy_f32_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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const int num_blocks = (ne + SYCL_CPY_BLOCK_SIZE - 1) / SYCL_CPY_BLOCK_SIZE;
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{
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dpct::has_capability_or_fail(stream->get_device(), { sycl::aspect::fp16 });
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stream->parallel_for(
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sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
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sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_f32_f16<cpy_1_f32_f32>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
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nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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}
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static void ggml_cpy_f32_f16_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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const int num_blocks = (ne + SYCL_CPY_BLOCK_SIZE - 1) / SYCL_CPY_BLOCK_SIZE;
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{
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dpct::has_capability_or_fail(stream->get_device(), { sycl::aspect::fp16 });
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stream->parallel_for(
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sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
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sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_f32_f16<cpy_1_f32_f16>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
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nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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}
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static void ggml_cpy_f32_q8_0_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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GGML_ASSERT(ne % QK8_0 == 0);
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const int num_blocks = ne / QK8_0;
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stream->parallel_for(sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_f32_q<cpy_blck_f32_q8_0, QK8_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03,
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ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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static void ggml_cpy_q8_0_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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const int num_blocks = ne;
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stream->parallel_for(sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_q_f32<cpy_blck_q8_0_f32, QK8_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03,
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ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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static void ggml_cpy_f32_q4_0_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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GGML_ASSERT(ne % QK4_0 == 0);
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const int num_blocks = ne / QK4_0;
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stream->parallel_for(sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_f32_q<cpy_blck_f32_q4_0, QK4_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03,
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ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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static void ggml_cpy_q4_0_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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const int num_blocks = ne;
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stream->parallel_for(
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sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)), [=](sycl::nd_item<3> item_ct1) {
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cpy_q_f32<cpy_blck_q_f32<dequantize_q4_0, QK4_0>, QK4_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02,
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nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13,
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item_ct1);
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});
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}
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static void ggml_cpy_f32_q4_1_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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GGML_ASSERT(ne % QK4_1 == 0);
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const int num_blocks = ne / QK4_1;
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stream->parallel_for(sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)),
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[=](sycl::nd_item<3> item_ct1) {
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cpy_f32_q<cpy_blck_f32_q4_1, QK4_1>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03,
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ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
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});
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}
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static void ggml_cpy_q4_1_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
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const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
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const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
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const int nb12, const int nb13, queue_ptr stream) {
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const int num_blocks = ne;
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stream->parallel_for(
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sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)), [=](sycl::nd_item<3> item_ct1) {
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cpy_q_f32<cpy_blck_q_f32<dequantize_q4_1, QK4_1>, QK4_1>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02,
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nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13,
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item_ct1);
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});
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}
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static void ggml_cpy_f32_q5_0_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
GGML_ASSERT(ne % QK5_0 == 0);
|
|
const int num_blocks = ne / QK5_0;
|
|
stream->parallel_for(sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)),
|
|
[=](sycl::nd_item<3> item_ct1) {
|
|
cpy_f32_q<cpy_blck_f32_q5_0, QK5_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03,
|
|
ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
static void ggml_cpy_q5_0_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = ne;
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_f32<cpy_blck_q_f32<dequantize_q5_0, QK5_0>, QK5_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02,
|
|
nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13,
|
|
item_ct1);
|
|
});
|
|
}
|
|
|
|
static void ggml_cpy_f32_q5_1_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
GGML_ASSERT(ne % QK5_1 == 0);
|
|
const int num_blocks = ne / QK5_1;
|
|
stream->parallel_for(sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)),
|
|
[=](sycl::nd_item<3> item_ct1) {
|
|
cpy_f32_q<cpy_blck_f32_q5_1, QK5_1>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03,
|
|
ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
static void ggml_cpy_q5_1_f32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = ne;
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_f32<cpy_blck_q_f32<dequantize_q5_1, QK5_1>, QK5_1>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02,
|
|
nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13,
|
|
item_ct1);
|
|
});
|
|
}
|
|
|
|
static void ggml_cpy_f32_iq4_nl_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
GGML_ASSERT(ne % QK4_NL == 0);
|
|
const int num_blocks = ne / QK4_NL;
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks), sycl::range<3>(1, 1, 1)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_f32_q<cpy_blck_f32_iq4_nl, QK4_NL>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11,
|
|
ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
static void ggml_cpy_f16_f16_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = (ne + SYCL_CPY_BLOCK_SIZE - 1) / SYCL_CPY_BLOCK_SIZE;
|
|
{
|
|
dpct::has_capability_or_fail(stream->get_device(), { sycl::aspect::fp16 });
|
|
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
|
|
sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)),
|
|
[=](sycl::nd_item<3> item_ct1) {
|
|
cpy_f32_f16<cpy_1_f16_f16>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
|
|
nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
}
|
|
|
|
static void ggml_cpy_i16_i16_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = (ne + SYCL_CPY_BLOCK_SIZE - 1) / SYCL_CPY_BLOCK_SIZE;
|
|
{
|
|
// dpct::has_capability_or_fail(stream->get_device(),
|
|
// {sycl::aspect::fp16});
|
|
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
|
|
sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)),
|
|
[=](sycl::nd_item<3> item_ct1) {
|
|
cpy_f32_f16<cpy_1_i16_i16>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
|
|
nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
}
|
|
|
|
static void ggml_cpy_i32_i32_sycl(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = (ne + SYCL_CPY_BLOCK_SIZE - 1) / SYCL_CPY_BLOCK_SIZE;
|
|
{
|
|
// dpct::has_capability_or_fail(stream->get_device(),
|
|
// {sycl::aspect::fp16});
|
|
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
|
|
sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)),
|
|
[=](sycl::nd_item<3> item_ct1) {
|
|
cpy_f32_f16<cpy_1_i32_i32>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
|
|
nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
}
|
|
|
|
static void ggml_cpy_q8_0_q8_0(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = ceil_div(ne, SYCL_CPY_BLOCK_SIZE);
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
|
|
sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_q<block_q8_0, QK8_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
|
|
static void ggml_cpy_q5_0_q5_0(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = ceil_div(ne, SYCL_CPY_BLOCK_SIZE);
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
|
|
sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_q<block_q5_0, QK5_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
|
|
static void ggml_cpy_q5_1_q5_1(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = ceil_div(ne, SYCL_CPY_BLOCK_SIZE);
|
|
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE),
|
|
sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_q<block_q5_1, QK5_1>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
|
|
static void ggml_cpy_q4_0_q4_0(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
const int num_blocks = ceil_div(ne, SYCL_CPY_BLOCK_SIZE);
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE), sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_q<block_q4_0, QK4_0>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
|
|
static void ggml_cpy_q4_1_q4_1(const char * cx, char * cdst, const int ne, const int ne00, const int ne01,
|
|
const int ne02, const int nb00, const int nb01, const int nb02, const int nb03,
|
|
const int ne10, const int ne11, const int ne12, const int nb10, const int nb11,
|
|
const int nb12, const int nb13, queue_ptr stream) {
|
|
|
|
const int num_blocks = ceil_div(ne, SYCL_CPY_BLOCK_SIZE);
|
|
stream->parallel_for(
|
|
sycl::nd_range<3>(sycl::range<3>(1, 1, num_blocks) * sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE), sycl::range<3>(1, 1, SYCL_CPY_BLOCK_SIZE)), [=](sycl::nd_item<3> item_ct1) {
|
|
cpy_q_q<block_q4_1, QK4_1>(cx, cdst, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, item_ct1);
|
|
});
|
|
}
|
|
|
|
void ggml_sycl_cpy(ggml_backend_sycl_context & ctx, const ggml_tensor * src0, const ggml_tensor * src1) try {
|
|
// Unlike other operators ggml_sycl_cpy takes 2 distinct tensors instead of a dst ggml_tensor and rely on its src field
|
|
scope_op_debug_print scope_dbg_print(__func__, src1, /*num_src=*/0, debug_get_tensor_str("\tsrc0", src0));
|
|
const int64_t ne = ggml_nelements(src0);
|
|
GGML_ASSERT(ne == ggml_nelements(src1));
|
|
|
|
GGML_TENSOR_BINARY_OP_LOCALS01;
|
|
|
|
SYCL_CHECK(ggml_sycl_set_device(ctx.device));
|
|
queue_ptr main_stream = ctx.stream();
|
|
|
|
char * src0_ddc = (char *) src0->data;
|
|
char * src1_ddc = (char *) src1->data;
|
|
if ((src0->type == src1->type) && (ggml_is_contiguous(src0) && ggml_is_contiguous(src1))) {
|
|
GGML_SYCL_DEBUG("%s: memcpy path\n", __func__);
|
|
main_stream->memcpy(src1_ddc, src0_ddc, ggml_nbytes(src0));
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_f32_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F16) {
|
|
ggml_cpy_f32_f16_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q8_0) {
|
|
ggml_cpy_f32_q8_0_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q4_0) {
|
|
ggml_cpy_f32_q4_0_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q4_1) {
|
|
ggml_cpy_f32_q4_1_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F16 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_f16_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F16 && src1->type == GGML_TYPE_F16) {
|
|
ggml_cpy_f16_f16_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_I16 && src1->type == GGML_TYPE_I16) {
|
|
ggml_cpy_i16_i16_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_I32 && src1->type == GGML_TYPE_I32) {
|
|
ggml_cpy_i32_i32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q4_0 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_q4_0_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q4_1 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_q4_1_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q8_0 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_q8_0_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q5_0) {
|
|
ggml_cpy_f32_q5_0_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q5_0 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_q5_0_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q5_1) {
|
|
ggml_cpy_f32_q5_1_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q5_1 && src1->type == GGML_TYPE_F32) {
|
|
ggml_cpy_q5_1_f32_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10,
|
|
nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_IQ4_NL) {
|
|
ggml_cpy_f32_iq4_nl_sycl(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12,
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|
nb10, nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q8_0 && src1->type == GGML_TYPE_Q8_0) {
|
|
ggml_cpy_q8_0_q8_0(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q5_0 && src1->type == GGML_TYPE_Q5_0) {
|
|
ggml_cpy_q5_0_q5_0(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q5_1 && src1->type == GGML_TYPE_Q5_1) {
|
|
ggml_cpy_q5_1_q5_1(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q4_0 && src1->type == GGML_TYPE_Q4_0) {
|
|
ggml_cpy_q4_0_q4_0(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
|
|
} else if (src0->type == GGML_TYPE_Q4_1 && src1->type == GGML_TYPE_Q4_1) {
|
|
ggml_cpy_q4_1_q4_1(src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
|
|
} else {
|
|
GGML_LOG_ERROR("%s: unsupported type combination (%s to %s)\n", __func__, ggml_type_name(src0->type),
|
|
ggml_type_name(src1->type));
|
|
GGML_ABORT("fatal error");
|
|
}
|
|
} catch (const sycl::exception & exc) {
|
|
std::cerr << exc.what() << "Exception caught at file:" << __FILE__ << ", line:" << __LINE__ << std::endl;
|
|
std::exit(1);
|
|
}
|
|
|
|
void ggml_sycl_dup(ggml_backend_sycl_context & ctx, ggml_tensor * dst) {
|
|
scope_op_debug_print scope_dbg_print(__func__, dst, /*num_src=*/1);
|
|
ggml_sycl_cpy(ctx, dst->src[0], dst);
|
|
}
|