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https://github.com/ggerganov/llama.cpp.git
synced 2024-12-26 14:20:31 +01:00
cuda : fix defrag with quantized KV (#9319)
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@ -1165,6 +1165,11 @@ static int ggml_backend_sched_backend_id_from_cur(ggml_backend_sched_t sched, st
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}
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}
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if (tensor->buffer || (tensor->view_src && tensor->view_src->buffer)) {
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// since the tensor is pre-allocated, it cannot be moved to another backend
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GGML_ABORT("pre-allocated tensor in a backend that cannot run the operation");
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}
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// graph input
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if (tensor->flags & GGML_TENSOR_FLAG_INPUT) {
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cur_backend_id = sched->n_backends - 1; // last backend (assumed CPU)
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@ -1644,7 +1649,7 @@ static void ggml_backend_sched_split_graph(ggml_backend_sched_t sched, struct gg
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sched->prev_leaf_backend_ids = tmp;
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}
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int graph_size = graph->n_nodes + sched->n_splits*GGML_SCHED_MAX_SPLIT_INPUTS*2;
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int graph_size = MAX(graph->n_nodes, graph->n_leafs) + sched->n_splits*GGML_SCHED_MAX_SPLIT_INPUTS*2*sched->n_copies;
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if (sched->graph.size < graph_size) {
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sched->graph.size = graph_size;
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sched->graph.nodes = realloc(sched->graph.nodes, graph_size * sizeof(struct ggml_tensor *));
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@ -1696,6 +1701,7 @@ static void ggml_backend_sched_split_graph(ggml_backend_sched_t sched, struct gg
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for (int c = 0; c < sched->n_copies; c++) {
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struct ggml_tensor * input_cpy = tensor_id_copy(id, backend_id, c);
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sched->leaf_backend_ids[graph_copy->n_leafs] = backend_id;
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assert(graph_copy->size > graph_copy->n_leafs);
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graph_copy->leafs[graph_copy->n_leafs++] = input_cpy;
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}
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}
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@ -1709,6 +1715,7 @@ static void ggml_backend_sched_split_graph(ggml_backend_sched_t sched, struct gg
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for (int c = 0; c < sched->n_copies; c++) {
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struct ggml_tensor * input_cpy = tensor_id_copy(id, backend_id, c);
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sched->leaf_backend_ids[graph_copy->n_leafs] = backend_id;
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assert(graph_copy->size > graph_copy->n_leafs);
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graph_copy->leafs[graph_copy->n_leafs++] = input_cpy;
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}
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}
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@ -1719,6 +1726,7 @@ static void ggml_backend_sched_split_graph(ggml_backend_sched_t sched, struct gg
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for (int i = 0; i < graph->n_leafs; i++) {
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struct ggml_tensor * leaf = graph->leafs[i];
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sched->leaf_backend_ids[graph_copy->n_leafs] = tensor_backend_id(leaf);
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assert(graph_copy->size > graph_copy->n_leafs);
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graph_copy->leafs[graph_copy->n_leafs++] = leaf;
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}
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}
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@ -2572,8 +2572,15 @@ GGML_CALL static enum ggml_status ggml_backend_cuda_graph_compute(ggml_backend_t
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cuda_ctx->cuda_graph->updated_kernel_arg.push_back((char **) &(node->src[1]->data));
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// store a pointer to each copy op CUDA kernel to identify it later
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void * ptr = ggml_cuda_cpy_fn(node->src[0], node->src[1]);
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if (std::find(ggml_cuda_cpy_fn_ptrs.begin(), ggml_cuda_cpy_fn_ptrs.end(), ptr) == ggml_cuda_cpy_fn_ptrs.end()) {
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ggml_cuda_cpy_fn_ptrs.push_back(ptr);
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if (!ptr) {
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use_cuda_graph = false;
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#ifndef NDEBUG
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GGML_CUDA_LOG_WARN("%s: disabling CUDA graphs due to unsupported copy op\n", __func__);
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#endif
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} else {
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if (std::find(ggml_cuda_cpy_fn_ptrs.begin(), ggml_cuda_cpy_fn_ptrs.end(), ptr) == ggml_cuda_cpy_fn_ptrs.end()) {
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ggml_cuda_cpy_fn_ptrs.push_back(ptr);
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}
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}
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}
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@ -2842,6 +2849,9 @@ GGML_CALL static bool ggml_backend_cuda_supports_op(ggml_backend_t backend, cons
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if (src0_type == GGML_TYPE_F16 && src1_type == GGML_TYPE_F32) {
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return true;
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}
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if (src0_type == src1_type && ggml_is_contiguous(op->src[0]) && ggml_is_contiguous(op->src[1])) {
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return true;
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}
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return false;
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} break;
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case GGML_OP_DUP:
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@ -428,7 +428,10 @@ void ggml_cuda_cpy(ggml_backend_cuda_context & ctx, const ggml_tensor * src0, gg
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char * src0_ddc = (char *) src0->data;
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char * src1_ddc = (char *) src1->data;
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if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F32) {
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if (src0->type == src1->type && ggml_is_contiguous(src0) && ggml_is_contiguous(src1)) {
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GGML_ASSERT(ggml_nbytes(src0) == ggml_nbytes(src1));
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CUDA_CHECK(cudaMemcpyAsync(src1_ddc, src0_ddc, ggml_nbytes(src0), cudaMemcpyDeviceToDevice, main_stream));
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F32) {
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ggml_cpy_f32_f32_cuda (src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F16) {
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ggml_cpy_f32_f16_cuda (src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
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@ -449,9 +452,8 @@ void ggml_cuda_cpy(ggml_backend_cuda_context & ctx, const ggml_tensor * src0, gg
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} else if (src0->type == GGML_TYPE_F16 && src1->type == GGML_TYPE_F32) {
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ggml_cpy_f16_f32_cuda (src0_ddc, src1_ddc, ne, ne00, ne01, ne02, nb00, nb01, nb02, nb03, ne10, ne11, ne12, nb10, nb11, nb12, nb13, main_stream);
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} else {
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fprintf(stderr, "%s: unsupported type combination (%s to %s)\n", __func__,
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GGML_ABORT("%s: unsupported type combination (%s to %s)\n", __func__,
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ggml_type_name(src0->type), ggml_type_name(src1->type));
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GGML_ABORT("fatal error");
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}
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}
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@ -461,29 +463,30 @@ void ggml_cuda_dup(ggml_backend_cuda_context & ctx, ggml_tensor * dst) {
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}
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void* ggml_cuda_cpy_fn(const ggml_tensor * src0, ggml_tensor * src1) {
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if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F32) {
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return (void*) cpy_f32_f16<cpy_1_f32_f32>;
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if (src0->type == src1->type && ggml_is_contiguous(src0) && ggml_is_contiguous(src1)) {
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return nullptr;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F32) {
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return (void*) cpy_f32_f16<cpy_1_f32_f32>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_F16) {
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return (void*) cpy_f32_f16<cpy_1_f32_f16>;
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return (void*) cpy_f32_f16<cpy_1_f32_f16>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q8_0) {
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return (void*) cpy_f32_q<cpy_blck_f32_q8_0, QK8_0>;
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return (void*) cpy_f32_q<cpy_blck_f32_q8_0, QK8_0>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q4_0) {
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return (void*) cpy_f32_q<cpy_blck_f32_q4_0, QK4_0>;
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return (void*) cpy_f32_q<cpy_blck_f32_q4_0, QK4_0>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q4_1) {
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return (void*) cpy_f32_q<cpy_blck_f32_q4_1, QK4_1>;
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return (void*) cpy_f32_q<cpy_blck_f32_q4_1, QK4_1>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q5_0) {
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return (void*) cpy_f32_q<cpy_blck_f32_q5_0, QK5_0>;
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return (void*) cpy_f32_q<cpy_blck_f32_q5_0, QK5_0>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_IQ4_NL) {
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return (void*) cpy_f32_q<cpy_blck_f32_iq4_nl, QK4_NL>;
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return (void*) cpy_f32_q<cpy_blck_f32_iq4_nl, QK4_NL>;
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} else if (src0->type == GGML_TYPE_F32 && src1->type == GGML_TYPE_Q5_1) {
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return (void*) cpy_f32_q<cpy_blck_f32_q5_1, QK5_1>;
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return (void*) cpy_f32_q<cpy_blck_f32_q5_1, QK5_1>;
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} else if (src0->type == GGML_TYPE_F16 && src1->type == GGML_TYPE_F16) {
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return (void*) cpy_f32_f16<cpy_1_f32_f16>;
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return (void*) cpy_f32_f16<cpy_1_f32_f16>;
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} else if (src0->type == GGML_TYPE_F16 && src1->type == GGML_TYPE_F32) {
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return (void*) cpy_f32_f16<cpy_1_f16_f32>;
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return (void*) cpy_f32_f16<cpy_1_f16_f32>;
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} else {
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fprintf(stderr, "%s: unsupported type combination (%s to %s)\n", __func__,
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GGML_ABORT("%s: unsupported type combination (%s to %s)\n", __func__,
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ggml_type_name(src0->type), ggml_type_name(src1->type));
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GGML_ABORT("fatal error");
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}
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}
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