mirror of
https://git.adityakumar.xyz/llama.cpp.git
synced 2024-11-09 23:29:44 +00:00
CUDA GPU acceleration for LoRAs + f16 models (#1970)
This commit is contained in:
parent
cfa0750bc9
commit
7f9753fa12
4 changed files with 78 additions and 19 deletions
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@ -416,13 +416,6 @@ bool gpt_params_parse(int argc, char ** argv, gpt_params & params) {
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exit(1);
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exit(1);
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}
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}
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#ifdef GGML_USE_CUBLAS
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if (!params.lora_adapter.empty() && params.n_gpu_layers > 0) {
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fprintf(stderr, "%s: error: the simultaneous use of LoRAs and GPU acceleration is not supported", __func__);
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exit(1);
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}
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#endif // GGML_USE_CUBLAS
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if (escape_prompt) {
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if (escape_prompt) {
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process_escapes(params.prompt);
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process_escapes(params.prompt);
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}
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}
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51
ggml-cuda.cu
51
ggml-cuda.cu
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@ -223,6 +223,15 @@ static __global__ void add_f32(const float * x, const float * y, float * dst, co
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dst[i] = x[i] + y[i];
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dst[i] = x[i] + y[i];
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}
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}
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static __global__ void add_f16_f32_f16(const half * x, const float * y, half * dst, const int k) {
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const int i = blockDim.x*blockIdx.x + threadIdx.x;
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if (i >= k) {
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return;
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}
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dst[i] = __hadd(x[i], __float2half(y[i]));
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}
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static __global__ void mul_f32(const float * x, const float * y, float * dst, const int kx, const int ky) {
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static __global__ void mul_f32(const float * x, const float * y, float * dst, const int kx, const int ky) {
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const int i = blockDim.x*blockIdx.x + threadIdx.x;
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const int i = blockDim.x*blockIdx.x + threadIdx.x;
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@ -1459,6 +1468,11 @@ static void add_f32_cuda(const float * x, const float * y, float * dst, const in
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add_f32<<<num_blocks, CUDA_ADD_BLOCK_SIZE, 0, stream>>>(x, y, dst, k);
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add_f32<<<num_blocks, CUDA_ADD_BLOCK_SIZE, 0, stream>>>(x, y, dst, k);
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}
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}
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static void add_f16_f32_f16_cuda(const half * x, const float * y, half * dst, const int k, cudaStream_t stream) {
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const int num_blocks = (k + CUDA_ADD_BLOCK_SIZE - 1) / CUDA_ADD_BLOCK_SIZE;
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add_f16_f32_f16<<<num_blocks, CUDA_ADD_BLOCK_SIZE, 0, stream>>>(x, y, dst, k);
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}
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static void mul_f32_cuda(const float * x, const float * y, float * dst, const int kx, const int ky, cudaStream_t stream) {
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static void mul_f32_cuda(const float * x, const float * y, float * dst, const int kx, const int ky, cudaStream_t stream) {
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const int num_blocks = (kx + CUDA_MUL_BLOCK_SIZE - 1) / CUDA_MUL_BLOCK_SIZE;
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const int num_blocks = (kx + CUDA_MUL_BLOCK_SIZE - 1) / CUDA_MUL_BLOCK_SIZE;
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mul_f32<<<num_blocks, CUDA_MUL_BLOCK_SIZE, 0, stream>>>(x, y, dst, kx, ky);
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mul_f32<<<num_blocks, CUDA_MUL_BLOCK_SIZE, 0, stream>>>(x, y, dst, kx, ky);
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@ -1941,7 +1955,7 @@ inline void ggml_cuda_op_add(
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float * src0_ddf_i, float * src1_ddf_i, float * dst_ddf_i, int64_t i02, int64_t i01_low, int64_t i01_high, int i1,
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float * src0_ddf_i, float * src1_ddf_i, float * dst_ddf_i, int64_t i02, int64_t i01_low, int64_t i01_high, int i1,
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cudaStream_t & cudaStream_main){
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cudaStream_t & cudaStream_main){
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GGML_ASSERT(src0_ddf_i != nullptr);
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GGML_ASSERT(src0_ddq_i != nullptr || src0_ddf_i != nullptr);
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GGML_ASSERT(src1_ddf_i != nullptr);
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GGML_ASSERT(src1_ddf_i != nullptr);
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GGML_ASSERT(dst_ddf_i != nullptr);
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GGML_ASSERT(dst_ddf_i != nullptr);
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@ -1949,7 +1963,13 @@ inline void ggml_cuda_op_add(
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const int64_t i01_diff = i01_high - i01_low;
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const int64_t i01_diff = i01_high - i01_low;
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// compute
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// compute
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if (src0->type == GGML_TYPE_F32 && dst->type == GGML_TYPE_F32) {
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add_f32_cuda(src0_ddf_i, src1_ddf_i, dst_ddf_i, ne0*i01_diff, cudaStream_main);
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add_f32_cuda(src0_ddf_i, src1_ddf_i, dst_ddf_i, ne0*i01_diff, cudaStream_main);
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} else if (src0->type == GGML_TYPE_F16 && dst->type == GGML_TYPE_F16) {
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add_f16_f32_f16_cuda((half *) src0_ddq_i, src1_ddf_i, (half *) dst_ddf_i, ne0*i01_diff, cudaStream_main);
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} else {
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GGML_ASSERT(false);
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}
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CUDA_CHECK(cudaGetLastError());
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CUDA_CHECK(cudaGetLastError());
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(void) src1;
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(void) src1;
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@ -2547,8 +2567,14 @@ static void ggml_cuda_op(const ggml_tensor * src0, const ggml_tensor * src1, ggm
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}
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}
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void ggml_cuda_add(const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst) {
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void ggml_cuda_add(const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst) {
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GGML_ASSERT(src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F32 && dst->type == GGML_TYPE_F32);
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// ggml_cuda_add permits f16 dst even though this could in theory cause problems with the pointer arithmetic in ggml_cuda_op.
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ggml_cuda_op(src0, src1, dst, ggml_cuda_op_add, true, true);
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// Due to flatten_rows == true this does in practice not make a difference however.
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// Better solution would be nice but right now that would require disproportionate changes.
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GGML_ASSERT(
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(src0->type == GGML_TYPE_F32 || src0->type == GGML_TYPE_F16) &&
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src1->type == GGML_TYPE_F32 &&
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(dst->type == GGML_TYPE_F32 || dst->type == GGML_TYPE_F16));
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ggml_cuda_op(src0, src1, dst, ggml_cuda_op_add, false, true);
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}
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}
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void ggml_cuda_mul(const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst) {
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void ggml_cuda_mul(const ggml_tensor * src0, const ggml_tensor * src1, ggml_tensor * dst) {
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@ -2801,7 +2827,7 @@ void ggml_cuda_free_data(struct ggml_tensor * tensor) {
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delete extra;
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delete extra;
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}
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}
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void ggml_cuda_assign_buffers_impl(struct ggml_tensor * tensor, bool scratch) {
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void ggml_cuda_assign_buffers_impl(struct ggml_tensor * tensor, bool scratch, bool force_inplace) {
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if (scratch && g_scratch_size == 0) {
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if (scratch && g_scratch_size == 0) {
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return;
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return;
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}
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}
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@ -2810,11 +2836,11 @@ void ggml_cuda_assign_buffers_impl(struct ggml_tensor * tensor, bool scratch) {
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if (tensor->src0 != nullptr && tensor->src0->backend == GGML_BACKEND_CPU) {
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if (tensor->src0 != nullptr && tensor->src0->backend == GGML_BACKEND_CPU) {
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const ggml_op src0_op = tensor->src0->op;
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const ggml_op src0_op = tensor->src0->op;
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if (src0_op == GGML_OP_RESHAPE || src0_op == GGML_OP_TRANSPOSE || src0_op == GGML_OP_VIEW) {
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if (src0_op == GGML_OP_RESHAPE || src0_op == GGML_OP_TRANSPOSE || src0_op == GGML_OP_VIEW) {
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ggml_cuda_assign_buffers_impl(tensor->src0, scratch);
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ggml_cuda_assign_buffers_impl(tensor->src0, scratch, force_inplace);
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}
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}
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}
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}
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if (tensor->op == GGML_OP_CPY && tensor->src1->backend == GGML_BACKEND_CPU) {
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if (tensor->op == GGML_OP_CPY && tensor->src1->backend == GGML_BACKEND_CPU) {
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ggml_cuda_assign_buffers_impl(tensor->src1, scratch);
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ggml_cuda_assign_buffers_impl(tensor->src1, scratch, force_inplace);
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}
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}
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tensor->backend = GGML_BACKEND_GPU;
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tensor->backend = GGML_BACKEND_GPU;
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@ -2822,11 +2848,12 @@ void ggml_cuda_assign_buffers_impl(struct ggml_tensor * tensor, bool scratch) {
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memset(extra, 0, sizeof(*extra));
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memset(extra, 0, sizeof(*extra));
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const bool inplace = (tensor->src0 != nullptr && tensor->src0->data == tensor->data) ||
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const bool inplace = (tensor->src0 != nullptr && tensor->src0->data == tensor->data) ||
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tensor->op == GGML_OP_VIEW;
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tensor->op == GGML_OP_VIEW ||
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force_inplace;
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const size_t size = ggml_nbytes(tensor);
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const size_t size = ggml_nbytes(tensor);
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CUDA_CHECK(cudaSetDevice(g_main_device));
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CUDA_CHECK(cudaSetDevice(g_main_device));
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if (inplace && tensor->src0->backend == GGML_BACKEND_GPU) {
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if (inplace && (tensor->src0->backend == GGML_BACKEND_GPU || tensor->src0->backend == GGML_BACKEND_GPU_SPLIT)) {
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struct ggml_tensor_extra_gpu * src0_extra = (ggml_tensor_extra_gpu * ) tensor->src0->extra;
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struct ggml_tensor_extra_gpu * src0_extra = (ggml_tensor_extra_gpu * ) tensor->src0->extra;
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char * src0_ddc = (char *) src0_extra->data_device[g_main_device];
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char * src0_ddc = (char *) src0_extra->data_device[g_main_device];
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size_t offset = 0;
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size_t offset = 0;
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@ -2865,11 +2892,15 @@ void ggml_cuda_assign_buffers_impl(struct ggml_tensor * tensor, bool scratch) {
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}
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}
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void ggml_cuda_assign_buffers(struct ggml_tensor * tensor) {
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void ggml_cuda_assign_buffers(struct ggml_tensor * tensor) {
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ggml_cuda_assign_buffers_impl(tensor, true);
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ggml_cuda_assign_buffers_impl(tensor, true, false);
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}
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}
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void ggml_cuda_assign_buffers_no_scratch(struct ggml_tensor * tensor) {
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void ggml_cuda_assign_buffers_no_scratch(struct ggml_tensor * tensor) {
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ggml_cuda_assign_buffers_impl(tensor, false);
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ggml_cuda_assign_buffers_impl(tensor, false, false);
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}
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void ggml_cuda_assign_buffers_force_inplace(struct ggml_tensor * tensor) {
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ggml_cuda_assign_buffers_impl(tensor, false, true);
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}
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}
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void ggml_cuda_set_main_device(int main_device) {
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void ggml_cuda_set_main_device(int main_device) {
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@ -29,6 +29,7 @@ void ggml_cuda_transform_tensor(void * data, struct ggml_tensor * tensor);
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void ggml_cuda_free_data(struct ggml_tensor * tensor);
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void ggml_cuda_free_data(struct ggml_tensor * tensor);
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void ggml_cuda_assign_buffers(struct ggml_tensor * tensor);
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void ggml_cuda_assign_buffers(struct ggml_tensor * tensor);
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void ggml_cuda_assign_buffers_no_scratch(struct ggml_tensor * tensor);
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void ggml_cuda_assign_buffers_no_scratch(struct ggml_tensor * tensor);
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void ggml_cuda_assign_buffers_force_inplace(struct ggml_tensor * tensor);
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void ggml_cuda_set_main_device(int main_device);
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void ggml_cuda_set_main_device(int main_device);
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void ggml_cuda_set_scratch_size(size_t scratch_size);
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void ggml_cuda_set_scratch_size(size_t scratch_size);
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void ggml_cuda_free_scratch(void);
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void ggml_cuda_free_scratch(void);
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34
llama.cpp
34
llama.cpp
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@ -2984,6 +2984,7 @@ int llama_apply_lora_from_file_internal(const struct llama_model & model, const
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fprintf(stderr, "%s: unsupported tensor dimension %d\n", __func__, n_dims);
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fprintf(stderr, "%s: unsupported tensor dimension %d\n", __func__, n_dims);
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return 1;
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return 1;
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}
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}
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ggml_set_name(lora_tensor, "lora_tensor");
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// load tensor data
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// load tensor data
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size_t offset = fin.tellg();
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size_t offset = fin.tellg();
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@ -2999,6 +3000,21 @@ int llama_apply_lora_from_file_internal(const struct llama_model & model, const
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lora_tensors.find(base_name + ".loraB") != lora_tensors.end()) {
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lora_tensors.find(base_name + ".loraB") != lora_tensors.end()) {
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ggml_tensor * dest_t = model_tensors[base_name];
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ggml_tensor * dest_t = model_tensors[base_name];
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offload_func_t offload_func = llama_nop;
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offload_func_t offload_func_force_inplace = llama_nop;
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#ifdef GGML_USE_CUBLAS
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if (dest_t->backend == GGML_BACKEND_GPU || dest_t->backend == GGML_BACKEND_GPU_SPLIT) {
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if (dest_t->type != GGML_TYPE_F16) {
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throw std::runtime_error(format(
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"%s: error: the simultaneous use of LoRAs and GPU acceleration is only supported for f16 models", __func__));
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}
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offload_func = ggml_cuda_assign_buffers;
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offload_func_force_inplace = ggml_cuda_assign_buffers_force_inplace;
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}
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#endif // GGML_USE_CUBLAS
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ggml_tensor * base_t;
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ggml_tensor * base_t;
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if (model_loader) {
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if (model_loader) {
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// load from base model
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// load from base model
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@ -3026,7 +3042,12 @@ int llama_apply_lora_from_file_internal(const struct llama_model & model, const
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}
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}
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ggml_tensor * loraA = lora_tensors[base_name + ".loraA"];
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ggml_tensor * loraA = lora_tensors[base_name + ".loraA"];
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GGML_ASSERT(loraA->type == GGML_TYPE_F32);
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ggml_set_name(loraA, "loraA");
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ggml_tensor * loraB = lora_tensors[base_name + ".loraB"];
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ggml_tensor * loraB = lora_tensors[base_name + ".loraB"];
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GGML_ASSERT(loraB->type == GGML_TYPE_F32);
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ggml_set_name(loraB, "loraB");
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if (base_t->ne[0] != loraA->ne[1] || base_t->ne[1] != loraB->ne[1]) {
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if (base_t->ne[0] != loraA->ne[1] || base_t->ne[1] != loraB->ne[1]) {
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fprintf(stderr, "%s: incompatible tensor dimensions (%" PRId64 " and %" PRId64 ");"
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fprintf(stderr, "%s: incompatible tensor dimensions (%" PRId64 " and %" PRId64 ");"
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@ -3036,19 +3057,32 @@ int llama_apply_lora_from_file_internal(const struct llama_model & model, const
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// w = w + BA*s
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// w = w + BA*s
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ggml_tensor * BA = ggml_mul_mat(lora_ctx, loraA, loraB);
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ggml_tensor * BA = ggml_mul_mat(lora_ctx, loraA, loraB);
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offload_func(BA);
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ggml_set_name(BA, "BA");
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if (scaling != 1.0f) {
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if (scaling != 1.0f) {
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ggml_tensor * scale_tensor = ggml_new_f32(lora_ctx, scaling);
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ggml_tensor * scale_tensor = ggml_new_f32(lora_ctx, scaling);
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ggml_set_name(scale_tensor, "scale_tensor");
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BA = ggml_scale_inplace(lora_ctx, BA, scale_tensor);
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BA = ggml_scale_inplace(lora_ctx, BA, scale_tensor);
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offload_func(BA);
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ggml_set_name(BA, "BA_scaled");
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}
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}
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ggml_tensor * r;
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ggml_tensor * r;
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if (base_t == dest_t) {
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if (base_t == dest_t) {
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r = ggml_add_inplace(lora_ctx, dest_t, BA);
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r = ggml_add_inplace(lora_ctx, dest_t, BA);
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offload_func_force_inplace(r);
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ggml_set_name(r, "r_add_inplace");
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}
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}
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else {
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else {
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r = ggml_add(lora_ctx, base_t, BA);
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r = ggml_add(lora_ctx, base_t, BA);
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offload_func(r);
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ggml_set_name(r, "r_add");
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r = ggml_cpy(lora_ctx, r, dest_t);
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r = ggml_cpy(lora_ctx, r, dest_t);
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offload_func(r);
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ggml_set_name(r, "r_cpy");
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}
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}
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struct ggml_cgraph gf = ggml_build_forward(r);
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struct ggml_cgraph gf = ggml_build_forward(r);
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