mirror of
https://github.com/ggerganov/llama.cpp.git
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0548a4187f
* ggml : generalize GGML_OP_CONCAT (WIP) ggml-ci * tests : add dim != 2 tests * metal : generalize concat kernel * tests : naming * cuda : generalize concat kernel ggml-ci * sycl : add warning and assert * ggml : fix op params handling * metal : bugfix kernel ggml-ci * ggml : reimplement CPU and Metal * cuda : add asserts ggml-ci * ggml : fix ptrs ggml-ci
131 lines
4.1 KiB
Plaintext
131 lines
4.1 KiB
Plaintext
#include "concat.cuh"
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static __global__ void concat_f32_dim0(const float * x, const float * y, float * dst, const int ne0, const int ne00) {
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int nidx = threadIdx.x + blockIdx.x * blockDim.x;
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if (nidx >= ne0) {
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return;
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}
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int offset_dst =
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nidx +
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blockIdx.y * ne0 +
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blockIdx.z * ne0 * gridDim.y;
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if (nidx < ne00) { // src0
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int offset_src =
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nidx +
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blockIdx.y * ne00 +
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blockIdx.z * ne00 * gridDim.y;
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dst[offset_dst] = x[offset_src];
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} else {
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int offset_src =
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(nidx - ne00) +
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blockIdx.y * (ne0 - ne00) +
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blockIdx.z * (ne0 - ne00) * gridDim.y;
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dst[offset_dst] = y[offset_src];
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}
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}
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static __global__ void concat_f32_dim1(const float * x, const float * y, float * dst, const int ne0, const int ne01) {
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int nidx = threadIdx.x + blockIdx.x * blockDim.x;
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if (nidx >= ne0) {
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return;
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}
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int offset_dst =
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nidx +
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blockIdx.y * ne0 +
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blockIdx.z * ne0 * gridDim.y;
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if (blockIdx.y < ne01) { // src0
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int offset_src =
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nidx +
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blockIdx.y * ne0 +
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blockIdx.z * ne0 * ne01;
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dst[offset_dst] = x[offset_src];
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} else {
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int offset_src =
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nidx +
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(blockIdx.y - ne01) * ne0 +
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blockIdx.z * ne0 * (gridDim.y - ne01);
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dst[offset_dst] = y[offset_src];
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}
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}
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static __global__ void concat_f32_dim2(const float * x, const float * y, float * dst, const int ne0, const int ne02) {
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int nidx = threadIdx.x + blockIdx.x * blockDim.x;
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if (nidx >= ne0) {
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return;
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}
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int offset_dst =
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nidx +
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blockIdx.y * ne0 +
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blockIdx.z * ne0 * gridDim.y;
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if (blockIdx.z < ne02) { // src0
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int offset_src =
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nidx +
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blockIdx.y * ne0 +
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blockIdx.z * ne0 * gridDim.y;
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dst[offset_dst] = x[offset_src];
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} else {
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int offset_src =
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nidx +
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blockIdx.y * ne0 +
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(blockIdx.z - ne02) * ne0 * gridDim.y;
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dst[offset_dst] = y[offset_src];
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}
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}
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static void concat_f32_cuda(const float * x, const float * y, float * dst, int ne00, int ne01, int ne02, int ne0, int ne1, int ne2, int dim, cudaStream_t stream) {
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int num_blocks = (ne0 + CUDA_CONCAT_BLOCK_SIZE - 1) / CUDA_CONCAT_BLOCK_SIZE;
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dim3 gridDim(num_blocks, ne1, ne2);
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if (dim == 0) {
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concat_f32_dim0<<<gridDim, CUDA_CONCAT_BLOCK_SIZE, 0, stream>>>(x, y, dst, ne0, ne00);
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return;
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}
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if (dim == 1) {
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concat_f32_dim1<<<gridDim, CUDA_CONCAT_BLOCK_SIZE, 0, stream>>>(x, y, dst, ne0, ne01);
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return;
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}
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concat_f32_dim2<<<gridDim, CUDA_CONCAT_BLOCK_SIZE, 0, stream>>>(x, y, dst, ne0, ne02);
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}
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void ggml_cuda_op_concat(ggml_backend_cuda_context & ctx, ggml_tensor * dst) {
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const ggml_tensor * src0 = dst->src[0];
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const ggml_tensor * src1 = dst->src[1];
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const float * src0_d = (const float *)src0->data;
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const float * src1_d = (const float *)src1->data;
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float * dst_d = (float *)dst->data;
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cudaStream_t stream = ctx.stream();
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const int32_t dim = ((int32_t *) dst->op_params)[0];
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GGML_ASSERT(ggml_is_contiguous(src0));
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GGML_ASSERT(ggml_is_contiguous(src1));
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GGML_ASSERT(src0->type == GGML_TYPE_F32);
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GGML_ASSERT(src1->type == GGML_TYPE_F32);
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GGML_ASSERT(dst->type == GGML_TYPE_F32);
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if (dim != 3) {
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for (int i3 = 0; i3 < dst->ne[3]; i3++) {
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concat_f32_cuda(
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src0_d + i3 * (src0->nb[3] / 4),
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src1_d + i3 * (src1->nb[3] / 4),
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dst_d + i3 * ( dst->nb[3] / 4),
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src0->ne[0], src0->ne[1], src0->ne[2],
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dst->ne[0], dst->ne[1], dst->ne[2], dim, stream);
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}
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} else {
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const size_t size0 = ggml_nbytes(src0);
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const size_t size1 = ggml_nbytes(src1);
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CUDA_CHECK(cudaMemcpyAsync(dst_d, src0_d, size0, cudaMemcpyDeviceToDevice, stream));
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CUDA_CHECK(cudaMemcpyAsync(dst_d + size0/4, src1_d, size1, cudaMemcpyDeviceToDevice, stream));
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}
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}
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