mirror of
https://github.com/ggerganov/whisper.cpp.git
synced 2024-12-22 14:02:21 +00:00
2948c740a2
* sync : update scripts * sync : ggml * talk-llama : sync llama.cpp * make : WHISPER_CUBLAS -> WHISPER_CUDA * ci : try to fix sycl build * talk-llama : fix make build
237 lines
8.5 KiB
Plaintext
237 lines
8.5 KiB
Plaintext
#include "binbcast.cuh"
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static __device__ __forceinline__ float op_repeat(const float a, const float b) {
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return b;
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GGML_UNUSED(a);
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}
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static __device__ __forceinline__ float op_add(const float a, const float b) {
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return a + b;
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}
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static __device__ __forceinline__ float op_mul(const float a, const float b) {
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return a * b;
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}
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static __device__ __forceinline__ float op_div(const float a, const float b) {
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return a / b;
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}
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template<float (*bin_op)(const float, const float), typename src0_t, typename src1_t, typename dst_t>
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static __global__ void k_bin_bcast(const src0_t * src0, const src1_t * src1, dst_t * dst,
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int ne0, int ne1, int ne2, int ne3,
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int ne10, int ne11, int ne12, int ne13,
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/*int s0, */ int s1, int s2, int s3,
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/*int s10,*/ int s11, int s12, int s13) {
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const int i0s = blockDim.x*blockIdx.x + threadIdx.x;
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const int i1 = (blockDim.y*blockIdx.y + threadIdx.y);
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const int i2 = (blockDim.z*blockIdx.z + threadIdx.z) / ne3;
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const int i3 = (blockDim.z*blockIdx.z + threadIdx.z) % ne3;
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if (i0s >= ne0 || i1 >= ne1 || i2 >= ne2 || i3 >= ne3) {
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return;
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}
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const int i11 = i1 % ne11;
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const int i12 = i2 % ne12;
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const int i13 = i3 % ne13;
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const size_t i_src0 = i3*s3 + i2*s2 + i1*s1;
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const size_t i_src1 = i13*s13 + i12*s12 + i11*s11;
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const size_t i_dst = i_src0;
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const src0_t * src0_row = src0 + i_src0;
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const src1_t * src1_row = src1 + i_src1;
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dst_t * dst_row = dst + i_dst;
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for (int i0 = i0s; i0 < ne0; i0 += blockDim.x*gridDim.x) {
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const int i10 = i0 % ne10;
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dst_row[i0] = (dst_t)bin_op(src0 ? (float)src0_row[i0] : 0.0f, (float)src1_row[i10]);
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}
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}
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template<float (*bin_op)(const float, const float), typename src0_t, typename src1_t, typename dst_t>
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static __global__ void k_bin_bcast_unravel(const src0_t * src0, const src1_t * src1, dst_t * dst,
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int ne0, int ne1, int ne2, int ne3,
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int ne10, int ne11, int ne12, int ne13,
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/*int s0, */ int s1, int s2, int s3,
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/*int s10,*/ int s11, int s12, int s13) {
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const int i = blockDim.x*blockIdx.x + threadIdx.x;
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const int i3 = i/(ne2*ne1*ne0);
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const int i2 = (i/(ne1*ne0)) % ne2;
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const int i1 = (i/ne0) % ne1;
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const int i0 = i % ne0;
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if (i0 >= ne0 || i1 >= ne1 || i2 >= ne2 || i3 >= ne3) {
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return;
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}
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const int i11 = i1 % ne11;
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const int i12 = i2 % ne12;
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const int i13 = i3 % ne13;
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const size_t i_src0 = i3*s3 + i2*s2 + i1*s1;
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const size_t i_src1 = i13*s13 + i12*s12 + i11*s11;
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const size_t i_dst = i_src0;
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const src0_t * src0_row = src0 + i_src0;
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const src1_t * src1_row = src1 + i_src1;
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dst_t * dst_row = dst + i_dst;
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const int i10 = i0 % ne10;
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dst_row[i0] = (dst_t)bin_op(src0 ? (float)src0_row[i0] : 0.0f, (float)src1_row[i10]);
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}
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template<float (*bin_op)(const float, const float)>
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struct bin_bcast_cuda {
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template<typename src0_t, typename src1_t, typename dst_t>
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void operator()(const struct ggml_tensor * src0, const struct ggml_tensor * src1, struct ggml_tensor * dst,
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const src0_t * src0_dd, const src1_t * src1_dd, dst_t * dst_dd,
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cudaStream_t stream) {
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GGML_TENSOR_BINARY_OP_LOCALS
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int nr0 = ne10/ne0;
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int nr1 = ne11/ne1;
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int nr2 = ne12/ne2;
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int nr3 = ne13/ne3;
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int nr[4] = { nr0, nr1, nr2, nr3 };
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// collapse dimensions until first broadcast dimension
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int64_t cne0[] = {ne0, ne1, ne2, ne3};
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int64_t cne1[] = {ne10, ne11, ne12, ne13};
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size_t cnb0[] = {nb0, nb1, nb2, nb3};
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size_t cnb1[] = {nb10, nb11, nb12, nb13};
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auto collapse = [](int64_t cne[]) {
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cne[0] *= cne[1];
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cne[1] = cne[2];
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cne[2] = cne[3];
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cne[3] = 1;
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};
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auto collapse_nb = [](size_t cnb[], const int64_t cne[]) {
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cnb[1] *= cne[1];
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cnb[2] *= cne[2];
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cnb[3] *= cne[3];
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};
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for (int i = 0; i < 4; i++) {
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if (nr[i] != 1) {
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break;
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}
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if (i > 0) {
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collapse_nb(cnb0, cne0);
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collapse_nb(cnb1, cne1);
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collapse(cne0);
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collapse(cne1);
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}
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}
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{
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int64_t ne0 = cne0[0];
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int64_t ne1 = cne0[1];
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int64_t ne2 = cne0[2];
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int64_t ne3 = cne0[3];
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int64_t ne10 = cne1[0];
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int64_t ne11 = cne1[1];
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int64_t ne12 = cne1[2];
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int64_t ne13 = cne1[3];
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size_t nb0 = cnb0[0];
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size_t nb1 = cnb0[1];
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size_t nb2 = cnb0[2];
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size_t nb3 = cnb0[3];
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size_t nb10 = cnb1[0];
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size_t nb11 = cnb1[1];
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size_t nb12 = cnb1[2];
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size_t nb13 = cnb1[3];
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size_t s0 = nb0 / sizeof(dst_t);
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size_t s1 = nb1 / sizeof(dst_t);
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size_t s2 = nb2 / sizeof(dst_t);
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size_t s3 = nb3 / sizeof(dst_t);
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size_t s10 = nb10 / sizeof(src1_t);
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size_t s11 = nb11 / sizeof(src1_t);
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size_t s12 = nb12 / sizeof(src1_t);
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size_t s13 = nb13 / sizeof(src1_t);
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GGML_ASSERT(s0 == 1);
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GGML_ASSERT(s10 == 1);
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const int block_size = 128;
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int64_t hne0 = std::max(ne0/2LL, 1LL);
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dim3 block_dims;
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block_dims.x = std::min<unsigned int>(hne0, block_size);
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block_dims.y = std::min<unsigned int>(ne1, block_size / block_dims.x);
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block_dims.z = std::min(std::min<unsigned int>(ne2*ne3, block_size / block_dims.x / block_dims.y), 64U);
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dim3 block_nums(
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(hne0 + block_dims.x - 1) / block_dims.x,
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(ne1 + block_dims.y - 1) / block_dims.y,
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(ne2*ne3 + block_dims.z - 1) / block_dims.z
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);
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if (block_nums.z > 65535) {
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// this is the maximum number of blocks in z direction, fallback to 1D grid kernel
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int block_num = (ne0*ne1*ne2*ne3 + block_size - 1) / block_size;
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k_bin_bcast_unravel<bin_op><<<block_num, block_size, 0, stream>>>(
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src0_dd, src1_dd, dst_dd,
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ne0, ne1, ne2, ne3,
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ne10, ne11, ne12, ne13,
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/* s0, */ s1, s2, s3,
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/* s10, */ s11, s12, s13);
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} else {
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k_bin_bcast<bin_op><<<block_nums, block_dims, 0, stream>>>(
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src0_dd, src1_dd, dst_dd,
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ne0, ne1, ne2, ne3,
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ne10, ne11, ne12, ne13,
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/* s0, */ s1, s2, s3,
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/* s10, */ s11, s12, s13);
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}
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}
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}
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};
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template<class op>
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static void ggml_cuda_op_bin_bcast(
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const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst,
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const void * src0_dd, const void * src1_dd, void * dst_dd, cudaStream_t stream) {
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GGML_ASSERT(src1->type == GGML_TYPE_F32);
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if (src0->type == GGML_TYPE_F32 && dst->type == GGML_TYPE_F32) {
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op()(src0, src1, dst, (const float *)src0_dd, (const float *)src1_dd, (float *)dst_dd, stream);
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} else if (src0->type == GGML_TYPE_F16 && dst->type == GGML_TYPE_F16) {
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op()(src0, src1, dst, (const half *) src0_dd, (const float *)src1_dd, (half *) dst_dd, stream);
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} else if (src0->type == GGML_TYPE_F16 && dst->type == GGML_TYPE_F32) {
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op()(src0, src1, dst, (const half *) src0_dd, (const float *)src1_dd, (float *)dst_dd, stream);
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} else {
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fprintf(stderr, "%s: unsupported types: dst: %s, src0: %s, src1: %s\n", __func__,
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ggml_type_name(dst->type), ggml_type_name(src0->type), ggml_type_name(src1->type));
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GGML_ASSERT(false);
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}
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}
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void ggml_cuda_op_repeat(ggml_backend_cuda_context & ctx, ggml_tensor * dst) {
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ggml_cuda_op_bin_bcast<bin_bcast_cuda<op_repeat>>(dst, dst->src[0], dst, nullptr, dst->src[0]->data, dst->data, ctx.stream());
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}
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void ggml_cuda_op_add(ggml_backend_cuda_context & ctx, ggml_tensor * dst) {
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ggml_cuda_op_bin_bcast<bin_bcast_cuda<op_add>>(dst->src[0], dst->src[1], dst, dst->src[0]->data, dst->src[1]->data, dst->data, ctx.stream());
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}
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void ggml_cuda_op_mul(ggml_backend_cuda_context & ctx, ggml_tensor * dst) {
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ggml_cuda_op_bin_bcast<bin_bcast_cuda<op_mul>>(dst->src[0], dst->src[1], dst, dst->src[0]->data, dst->src[1]->data, dst->data, ctx.stream());
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}
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void ggml_cuda_op_div(ggml_backend_cuda_context & ctx, ggml_tensor * dst) {
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ggml_cuda_op_bin_bcast<bin_bcast_cuda<op_div>>(dst->src[0], dst->src[1], dst, dst->src[0]->data, dst->src[1]->data, dst->data, ctx.stream());
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}
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