386 lines
14 KiB
C
386 lines
14 KiB
C
#include "ggml-backend.h"
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#include "ggml-alloc.h"
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#include <assert.h>
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#include <stdarg.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#define UNUSED GGML_UNUSED
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#define MAX(a, b) ((a) > (b) ? (a) : (b))
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// backend buffer
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ggml_backend_buffer_t ggml_backend_buffer_init(
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struct ggml_backend * backend,
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struct ggml_backend_buffer_i iface,
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ggml_backend_buffer_context_t context,
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size_t size) {
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ggml_backend_buffer_t buffer = malloc(sizeof(struct ggml_backend_buffer));
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GGML_ASSERT(iface.get_base != NULL);
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(*buffer) = (struct ggml_backend_buffer) {
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/* .interface = */ iface,
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/* .backend = */ backend,
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/* .context = */ context,
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/* .size = */ size,
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};
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return buffer;
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}
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void ggml_backend_buffer_free(ggml_backend_buffer_t buffer) {
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if (buffer->iface.free_buffer != NULL) {
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buffer->iface.free_buffer(buffer);
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}
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free(buffer);
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}
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size_t ggml_backend_buffer_get_alignment(ggml_backend_buffer_t buffer) {
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return ggml_backend_get_alignment(buffer->backend);
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}
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void * ggml_backend_buffer_get_base(ggml_backend_buffer_t buffer) {
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return buffer->iface.get_base(buffer);
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}
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size_t ggml_backend_buffer_get_size(ggml_backend_buffer_t buffer) {
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return buffer->size;
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}
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size_t ggml_backend_buffer_get_alloc_size(ggml_backend_buffer_t buffer, struct ggml_tensor * tensor) {
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if (buffer->iface.get_alloc_size) {
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return buffer->iface.get_alloc_size(buffer, tensor);
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}
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return ggml_nbytes(tensor);
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}
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void ggml_backend_buffer_init_tensor(ggml_backend_buffer_t buffer, struct ggml_tensor * tensor) {
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if (buffer->iface.init_tensor) {
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buffer->iface.init_tensor(buffer, tensor);
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}
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}
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void ggml_backend_buffer_free_tensor(ggml_backend_buffer_t buffer, struct ggml_tensor * tensor) {
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if (buffer->iface.free_tensor) {
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buffer->iface.free_tensor(buffer, tensor);
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}
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}
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// backend
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ggml_backend_t ggml_get_backend(const struct ggml_tensor * tensor) {
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return tensor->buffer->backend;
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}
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const char * ggml_backend_name(ggml_backend_t backend) {
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return backend->iface.get_name(backend);
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}
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void ggml_backend_free(ggml_backend_t backend) {
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backend->iface.free(backend);
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}
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ggml_backend_buffer_t ggml_backend_alloc_buffer(ggml_backend_t backend, size_t size) {
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return backend->iface.alloc_buffer(backend, size);
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}
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size_t ggml_backend_get_alignment(ggml_backend_t backend) {
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return backend->iface.get_alignment(backend);
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}
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void ggml_backend_tensor_set_async(struct ggml_tensor * tensor, const void * data, size_t offset, size_t size) {
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ggml_get_backend(tensor)->iface.set_tensor_async(ggml_get_backend(tensor), tensor, data, offset, size);
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}
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void ggml_backend_tensor_get_async(const struct ggml_tensor * tensor, void * data, size_t offset, size_t size) {
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ggml_get_backend(tensor)->iface.get_tensor_async(ggml_get_backend(tensor), tensor, data, offset, size);
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}
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void ggml_backend_tensor_set(struct ggml_tensor * tensor, const void * data, size_t offset, size_t size) {
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ggml_get_backend(tensor)->iface.set_tensor_async(ggml_get_backend(tensor), tensor, data, offset, size);
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ggml_get_backend(tensor)->iface.synchronize(ggml_get_backend(tensor));
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}
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void ggml_backend_tensor_get(const struct ggml_tensor * tensor, void * data, size_t offset, size_t size) {
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ggml_get_backend(tensor)->iface.get_tensor_async(ggml_get_backend(tensor), tensor, data, offset, size);
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ggml_get_backend(tensor)->iface.synchronize(ggml_get_backend(tensor));
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}
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void ggml_backend_synchronize(ggml_backend_t backend) {
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backend->iface.synchronize(backend);
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}
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ggml_backend_graph_plan_t ggml_backend_graph_plan_create(ggml_backend_t backend, struct ggml_cgraph * cgraph) {
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return backend->iface.graph_plan_create(backend, cgraph);
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}
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void ggml_backend_graph_plan_free(ggml_backend_t backend, ggml_backend_graph_plan_t plan) {
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backend->iface.graph_plan_free(backend, plan);
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}
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void ggml_backend_graph_plan_compute(ggml_backend_t backend, ggml_backend_graph_plan_t plan) {
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backend->iface.graph_plan_compute(backend, plan);
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}
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void ggml_backend_graph_compute(ggml_backend_t backend, struct ggml_cgraph * cgraph) {
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backend->iface.graph_compute(backend, cgraph);
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}
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bool ggml_backend_supports_op(ggml_backend_t backend, const struct ggml_tensor * op) {
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return backend->iface.supports_op(backend, op);
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}
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// backend copy
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static bool ggml_are_same_layout(const struct ggml_tensor * a, const struct ggml_tensor * b) {
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if (a->type != b->type) {
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return false;
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}
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for (int i = 0; i < GGML_MAX_DIMS; i++) {
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if (a->ne[i] != b->ne[i]) {
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return false;
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}
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if (a->nb[i] != b->nb[i]) {
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return false;
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}
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}
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return true;
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}
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void ggml_backend_tensor_copy(struct ggml_tensor * src, struct ggml_tensor * dst) {
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//printf("src: %s ne: [%d %d %d %d] nb: [%d %d %d %d]\n", src->name, (int)src->ne[0], (int)src->ne[1], (int)src->ne[2], (int)src->ne[3], (int)src->nb[0], (int)src->nb[1], (int)src->nb[2], (int)src->nb[3]);
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//printf("dst: %s ne: [%d %d %d %d] nb: [%d %d %d %d]\n", dst->name, (int)dst->ne[0], (int)dst->ne[1], (int)dst->ne[2], (int)dst->ne[3], (int)dst->nb[0], (int)dst->nb[1], (int)dst->nb[2], (int)dst->nb[3]);
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GGML_ASSERT(ggml_are_same_layout(src, dst) && "cannot copy tensors with different layouts");
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// printf("cpy tensor %s from %s to %s (%lu bytes)\n", src->name, ggml_backend_name(src->backend), ggml_backend_name(dst->backend), ggml_nbytes(src));
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if (src == dst) {
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return;
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}
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// TODO: allow backends to support copy to/from same backend
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if (ggml_get_backend(dst)->iface.cpy_tensor_from != NULL) {
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ggml_get_backend(dst)->iface.cpy_tensor_from(ggml_get_backend(dst)->context, src, dst);
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} else if (ggml_get_backend(src)->iface.cpy_tensor_to != NULL) {
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ggml_get_backend(src)->iface.cpy_tensor_to(ggml_get_backend(src)->context, src, dst);
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} else {
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// shouldn't be hit when copying from/to CPU
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#ifndef NDEBUG
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fprintf(stderr, "ggml_backend_tensor_copy: neither cpy_tensor_from nor cpy_tensor_to are implemented for backends %s and %s, falling back to get/set\n", ggml_backend_name(src->buffer->backend), ggml_backend_name(dst->buffer->backend));
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#endif
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size_t nbytes = ggml_nbytes(src);
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void * data = malloc(nbytes);
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ggml_backend_tensor_get(src, data, 0, nbytes);
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ggml_backend_tensor_set(dst, data, 0, nbytes);
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free(data);
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}
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}
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// backend CPU
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struct ggml_backend_cpu_context {
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int n_threads;
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void * work_data;
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size_t work_size;
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};
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static const char * ggml_backend_cpu_name(ggml_backend_t backend) {
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return "CPU";
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UNUSED(backend);
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}
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static void ggml_backend_cpu_free(ggml_backend_t backend) {
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struct ggml_backend_cpu_context * cpu_ctx = (struct ggml_backend_cpu_context *)backend->context;
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free(cpu_ctx->work_data);
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free(cpu_ctx);
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free(backend);
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}
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static void * ggml_backend_cpu_buffer_get_base(ggml_backend_buffer_t buffer) {
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return (void *)buffer->context;
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}
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static void ggml_backend_cpu_buffer_free_buffer(ggml_backend_buffer_t buffer) {
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free(buffer->context);
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UNUSED(buffer);
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}
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static struct ggml_backend_buffer_i cpu_backend_buffer_i = {
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/* .free_buffer = */ ggml_backend_cpu_buffer_free_buffer,
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/* .get_base = */ ggml_backend_cpu_buffer_get_base,
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/* .get_alloc_size = */ NULL, // defaults to ggml_nbytes
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/* .init_tensor = */ NULL, // no initialization required
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/* .free_tensor = */ NULL, // no cleanup required
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};
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// for buffers from ptr, free is not called
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static struct ggml_backend_buffer_i cpu_backend_buffer_i_from_ptr = {
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/* .free_buffer = */ NULL, // ptr is not owned by the buffer, so it does not need to be freed
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/* .get_base = */ ggml_backend_cpu_buffer_get_base,
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/* .get_alloc_size = */ NULL, // defaults to ggml_nbytes
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/* .init_tensor = */ NULL,
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/* .free_tensor = */ NULL,
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};
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static const size_t TENSOR_ALIGNMENT = 64; // should be enough for AVX 512
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static ggml_backend_buffer_t ggml_backend_cpu_alloc_buffer(ggml_backend_t backend, size_t size) {
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size += TENSOR_ALIGNMENT; // malloc may return an address that is not aligned
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void * data = malloc(size); // TODO: maybe use GGML_ALIGNED_MALLOC?
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return ggml_backend_buffer_init(backend, cpu_backend_buffer_i, data, size);
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}
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static size_t ggml_backend_cpu_get_alignment(ggml_backend_t backend) {
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return TENSOR_ALIGNMENT;
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UNUSED(backend);
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}
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static void ggml_backend_cpu_set_tensor_async(ggml_backend_t backend, struct ggml_tensor * tensor, const void * data, size_t offset, size_t size) {
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GGML_ASSERT(offset + size <= ggml_nbytes(tensor) && "tensor write out of bounds");
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GGML_ASSERT(tensor->data != NULL && "tensor not allocated");
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memcpy((char *)tensor->data + offset, data, size);
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UNUSED(backend);
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}
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static void ggml_backend_cpu_get_tensor_async(ggml_backend_t backend, const struct ggml_tensor * tensor, void * data, size_t offset, size_t size) {
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GGML_ASSERT(offset + size <= ggml_nbytes(tensor) && "tensor read out of bounds");
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GGML_ASSERT(tensor->data != NULL && "tensor not allocated");
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memcpy(data, (const char *)tensor->data + offset, size);
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UNUSED(backend);
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}
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static void ggml_backend_cpu_synchronize(ggml_backend_t backend) {
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UNUSED(backend);
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}
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static void ggml_backend_cpu_cpy_tensor_from(ggml_backend_t backend, struct ggml_tensor * src, struct ggml_tensor * dst) {
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ggml_backend_tensor_get(src, dst->data, 0, ggml_nbytes(src));
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UNUSED(backend);
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}
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static void ggml_backend_cpu_cpy_tensor_to(ggml_backend_t backend, struct ggml_tensor * src, struct ggml_tensor * dst) {
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// for a backend such as CUDA that can queue async calls, it is ok to do this asynchronously, but it may not be the case for other backends
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ggml_backend_tensor_set_async(dst, src->data, 0, ggml_nbytes(src));
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UNUSED(backend);
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}
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struct ggml_backend_plan_cpu {
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struct ggml_cplan cplan;
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struct ggml_cgraph cgraph;
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};
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static ggml_backend_graph_plan_t ggml_backend_cpu_graph_plan_create(ggml_backend_t backend, struct ggml_cgraph * cgraph) {
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struct ggml_backend_cpu_context * cpu_ctx = (struct ggml_backend_cpu_context *)backend->context;
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struct ggml_backend_plan_cpu * cpu_plan = malloc(sizeof(struct ggml_backend_plan_cpu));
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cpu_plan->cplan = ggml_graph_plan(cgraph, cpu_ctx->n_threads);
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cpu_plan->cgraph = *cgraph;
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if (cpu_plan->cplan.work_size > 0) {
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cpu_plan->cplan.work_data = malloc(cpu_plan->cplan.work_size);
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}
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return cpu_plan;
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}
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static void ggml_backend_cpu_graph_plan_free(ggml_backend_t backend, ggml_backend_graph_plan_t plan) {
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struct ggml_backend_plan_cpu * cpu_plan = (struct ggml_backend_plan_cpu *)plan;
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free(cpu_plan->cplan.work_data);
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free(cpu_plan);
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UNUSED(backend);
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}
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static void ggml_backend_cpu_graph_plan_compute(ggml_backend_t backend, ggml_backend_graph_plan_t plan) {
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struct ggml_backend_plan_cpu * cpu_plan = (struct ggml_backend_plan_cpu *)plan;
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ggml_graph_compute(&cpu_plan->cgraph, &cpu_plan->cplan);
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UNUSED(backend);
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}
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static void ggml_backend_cpu_graph_compute(ggml_backend_t backend, struct ggml_cgraph * cgraph) {
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struct ggml_backend_cpu_context * cpu_ctx = (struct ggml_backend_cpu_context *)backend->context;
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struct ggml_cplan cplan = ggml_graph_plan(cgraph, cpu_ctx->n_threads);
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if (cpu_ctx->work_size < cplan.work_size) {
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// TODO: may be faster to free and use malloc to avoid the copy
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cpu_ctx->work_data = realloc(cpu_ctx->work_data, cplan.work_size);
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cpu_ctx->work_size = cplan.work_size;
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}
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cplan.work_data = cpu_ctx->work_data;
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ggml_graph_compute(cgraph, &cplan);
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}
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static bool ggml_backend_cpu_supports_op(ggml_backend_t backend, const struct ggml_tensor * op) {
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return true;
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UNUSED(backend);
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UNUSED(op);
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}
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static struct ggml_backend_i cpu_backend_i = {
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/* .get_name = */ ggml_backend_cpu_name,
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/* .free = */ ggml_backend_cpu_free,
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/* .alloc_buffer = */ ggml_backend_cpu_alloc_buffer,
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/* .get_alignment = */ ggml_backend_cpu_get_alignment,
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/* .set_tensor_async = */ ggml_backend_cpu_set_tensor_async,
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/* .get_tensor_async = */ ggml_backend_cpu_get_tensor_async,
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/* .synchronize = */ ggml_backend_cpu_synchronize,
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/* .cpy_tensor_from = */ ggml_backend_cpu_cpy_tensor_from,
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/* .cpy_tensor_to = */ ggml_backend_cpu_cpy_tensor_to,
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/* .graph_plan_create = */ ggml_backend_cpu_graph_plan_create,
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/* .graph_plan_free = */ ggml_backend_cpu_graph_plan_free,
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/* .graph_plan_compute = */ ggml_backend_cpu_graph_plan_compute,
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/* .graph_compute = */ ggml_backend_cpu_graph_compute,
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/* .supports_op = */ ggml_backend_cpu_supports_op,
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};
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ggml_backend_t ggml_backend_cpu_init(void) {
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struct ggml_backend_cpu_context * ctx = malloc(sizeof(struct ggml_backend_cpu_context));
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ctx->n_threads = GGML_DEFAULT_N_THREADS;
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ctx->work_data = NULL;
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ctx->work_size = 0;
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ggml_backend_t cpu_backend = malloc(sizeof(struct ggml_backend));
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*cpu_backend = (struct ggml_backend) {
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/* .interface = */ cpu_backend_i,
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/* .context = */ ctx
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};
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return cpu_backend;
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}
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bool ggml_backend_is_cpu(ggml_backend_t backend) {
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return backend->iface.get_name == ggml_backend_cpu_name;
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}
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void ggml_backend_cpu_set_n_threads(ggml_backend_t backend_cpu, int n_threads) {
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GGML_ASSERT(ggml_backend_is_cpu(backend_cpu));
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struct ggml_backend_cpu_context * ctx = (struct ggml_backend_cpu_context *)backend_cpu->context;
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ctx->n_threads = n_threads;
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}
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ggml_backend_buffer_t ggml_backend_cpu_buffer_from_ptr(ggml_backend_t backend_cpu, void * ptr, size_t size) {
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return ggml_backend_buffer_init(backend_cpu, cpu_backend_buffer_i_from_ptr, ptr, size);
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}
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