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metal : enable ggml-alloc (#2627)
* metal: enable ggml-alloc Make ggml-alloc work with concurrently dispatch. * style-fix Co-authored-by: slaren <slarengh@gmail.com> --------- Co-authored-by: slaren <slarengh@gmail.com> Co-authored-by: Georgi Gerganov <ggerganov@gmail.com>
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ggml-alloc.c
25
ggml-alloc.c
@ -67,6 +67,8 @@ struct ggml_allocr {
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struct hash_node hash_table[GGML_GRAPH_HASHTABLE_SIZE];
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size_t max_size;
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bool measure;
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int parse_seq[GGML_MAX_NODES];
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bool has_parse_seq;
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#ifdef GGML_ALLOCATOR_DEBUG
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struct ggml_tensor * allocated_tensors[1024];
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@ -229,6 +231,17 @@ static void ggml_allocator_free_tensor(struct ggml_allocr * alloc, struct ggml_t
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alloc->n_free_blocks++;
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}
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void ggml_allocr_set_parse_seq(struct ggml_allocr * alloc, int * list, int n) {
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int pos = 0;
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for (int i = 0; i < n; i++) {
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if (list[i] != -1) {
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alloc->parse_seq[pos] = list[i];
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pos++;
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}
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}
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alloc->has_parse_seq = true;
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}
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void ggml_allocr_reset(struct ggml_allocr * alloc) {
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alloc->n_free_blocks = 1;
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size_t align_offset = aligned_offset(alloc->data, 0, alloc->alignment);
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@ -248,6 +261,8 @@ struct ggml_allocr * ggml_allocr_new(void * data, size_t size, size_t alignment)
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/*.hash_table = */ {{0}},
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/*.max_size = */ 0,
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/*.measure = */ false,
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/*.parse_seq = */ {0},
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/*.has_parse_seq = */ false,
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#ifdef GGML_ALLOCATOR_DEBUG
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/*.allocated_tensors = */ = {0},
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#endif
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@ -275,6 +290,8 @@ struct ggml_allocr * ggml_allocr_new_measure(size_t alignment) {
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/*.hash_table = */ {{0}},
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/*.max_size = */ 0,
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/*.measure = */ true,
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/*.parse_seq = */ {0},
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/*.has_parse_seq = */ false,
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#ifdef GGML_ALLOCATOR_DEBUG
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/*.allocated_tensors = */ = {0},
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#endif
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@ -473,7 +490,13 @@ static size_t ggml_allocator_alloc_graph_tensors_n(
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allocate_node(alloc, input);
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}
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}
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for (int i = 0; i < gf->n_nodes; i++) {
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for (int ind = 0; ind < gf->n_nodes; ind++) {
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int i;
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if (alloc->has_parse_seq) {
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i = alloc->parse_seq[ind];
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} else {
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i = ind;
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}
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struct ggml_tensor * node = gf->nodes[i];
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// allocate parents (leafs)
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@ -10,6 +10,10 @@ extern "C" {
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GGML_API struct ggml_allocr * ggml_allocr_new(void * data, size_t size, size_t alignment);
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GGML_API struct ggml_allocr * ggml_allocr_new_measure(size_t alignment);
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// tell the allocator to parse nodes following the order described in the list
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// you should call this if your graph are optimized to execute out-of-order
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GGML_API void ggml_allocr_set_parse_seq(struct ggml_allocr * alloc, int * list, int n);
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GGML_API void ggml_allocr_free(struct ggml_allocr * alloc);
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GGML_API bool ggml_allocr_is_measure(struct ggml_allocr * alloc);
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GGML_API void ggml_allocr_reset(struct ggml_allocr * alloc);
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@ -63,10 +63,13 @@ void ggml_metal_get_tensor(struct ggml_metal_context * ctx, struct ggml_tensor *
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// try to find operations that can be run concurrently in the graph
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// you should run it again if the topology of your graph changes
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void ggml_metal_graph_find_concurrency(struct ggml_metal_context * ctx, struct ggml_cgraph * gf);
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void ggml_metal_graph_find_concurrency(struct ggml_metal_context * ctx, struct ggml_cgraph * gf, bool check_mem);
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// if the graph has been optimized for concurrently dispatch
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bool ggml_metal_if_optimized(struct ggml_metal_context * ctx);
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// if the graph has been optimized for concurrently dispatch, return length of the concur_list if optimized
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int ggml_metal_if_optimized(struct ggml_metal_context * ctx);
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// output the concur_list for ggml_alloc
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int * ggml_metal_get_concur_list(struct ggml_metal_context * ctx);
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// same as ggml_graph_compute but uses Metal
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// creates gf->n_threads command buffers in parallel
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15
ggml-metal.m
15
ggml-metal.m
@ -236,11 +236,12 @@ void ggml_metal_set_n_cb(struct ggml_metal_context * ctx, int n_cb) {
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ctx->n_cb = n_cb;
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}
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bool ggml_metal_if_optimized(struct ggml_metal_context * ctx) {
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if (ctx->concur_list_len) {
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return true;
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}
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return false;
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int ggml_metal_if_optimized(struct ggml_metal_context * ctx) {
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return ctx->concur_list_len;
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}
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int * ggml_metal_get_concur_list(struct ggml_metal_context * ctx) {
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return ctx->concur_list;
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}
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// finds the Metal buffer that contains the tensor data on the GPU device
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@ -383,7 +384,7 @@ void ggml_metal_get_tensor(
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void ggml_metal_graph_find_concurrency(
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struct ggml_metal_context * ctx,
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struct ggml_cgraph * gf) {
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struct ggml_cgraph * gf, bool check_mem) {
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int search_depth = gf->n_nodes; //we only find concurrency in this range to avoid wasting too much time
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int nodes_unused[GGML_MAX_CONCUR];
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@ -430,7 +431,7 @@ void ggml_metal_graph_find_concurrency(
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}
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}
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}
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if (exe_flag) {
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if (exe_flag && check_mem) {
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// check if nodes[i]'s data will be overwritten by a node before nodes[i].
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// if node[5] and node[3] write to the same memory region, then we can't issue node[5] before node[3]
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int64_t data_start = (int64_t) gf->nodes[i]->data;
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34
llama.cpp
34
llama.cpp
@ -63,7 +63,7 @@ static void llama_log_callback_default(llama_log_level level, const char * text,
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#define LLAMA_LOG_ERROR(...) llama_log_internal(LLAMA_LOG_LEVEL_ERROR, __VA_ARGS__)
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#if !defined(GGML_USE_CUBLAS) && !defined(GGML_USE_METAL)
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#if !defined(GGML_USE_CUBLAS)
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#include "ggml-alloc.h"
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#define LLAMA_USE_ALLOCATOR
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#else
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@ -1846,10 +1846,6 @@ static bool llama_eval_internal(
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#ifdef GGML_USE_METAL
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if (lctx.ctx_metal) {
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// TODO: disabled until #2413 is resolved
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//if (!ggml_metal_if_optimized(lctx.ctx_metal)) {
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// ggml_metal_graph_find_concurrency(lctx.ctx_metal, gf);
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//}
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ggml_metal_set_n_cb (lctx.ctx_metal, n_threads);
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ggml_metal_graph_compute(lctx.ctx_metal, gf);
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ggml_metal_get_tensor (lctx.ctx_metal, res);
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@ -3287,7 +3283,18 @@ struct llama_context * llama_new_context_with_model(
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int n_past = hparams.n_ctx - n_tokens;
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llama_token token = llama_token_bos(); // not actually used by llama_build_graph, but required to choose between token and embedding inputs graph
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ggml_cgraph * gf = llama_build_graph(*ctx, &token, NULL, n_tokens, n_past);
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#ifdef GGML_USE_METAL
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if (params.n_gpu_layers > 0) {
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ctx->ctx_metal = ggml_metal_init(1);
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if (!ctx->ctx_metal) {
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LLAMA_LOG_ERROR("%s: ggml_metal_init() failed\n", __func__);
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llama_free(ctx);
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return NULL;
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}
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ggml_metal_graph_find_concurrency(ctx->ctx_metal, gf, false);
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ggml_allocr_set_parse_seq(ctx->alloc, ggml_metal_get_concur_list(ctx->ctx_metal), ggml_metal_if_optimized(ctx->ctx_metal));
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}
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#endif
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// measure memory requirements for the graph
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size_t alloc_size = ggml_allocr_alloc_graph(ctx->alloc, gf) + tensor_alignment;
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@ -3305,6 +3312,11 @@ struct llama_context * llama_new_context_with_model(
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ctx->buf_alloc.resize(alloc_size);
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ctx->alloc = ggml_allocr_new(ctx->buf_alloc.addr, ctx->buf_alloc.size, tensor_alignment);
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#ifdef GGML_USE_METAL
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if (ctx->ctx_metal) {
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ggml_allocr_set_parse_seq(ctx->alloc, ggml_metal_get_concur_list(ctx->ctx_metal), ggml_metal_if_optimized(ctx->ctx_metal));
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}
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#endif
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}
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#else
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ctx->buf_compute.resize(MEM_REQ_EVAL().at(ctx->model.type) + ggml_graph_overhead());
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@ -3319,13 +3331,6 @@ struct llama_context * llama_new_context_with_model(
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#ifdef GGML_USE_METAL
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if (params.n_gpu_layers > 0) {
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// this allocates all Metal resources and memory buffers
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ctx->ctx_metal = ggml_metal_init(1);
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if (!ctx->ctx_metal) {
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LLAMA_LOG_ERROR("%s: ggml_metal_init() failed\n", __func__);
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llama_free(ctx);
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return NULL;
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}
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void * data_ptr = NULL;
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size_t data_size = 0;
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@ -3354,8 +3359,7 @@ struct llama_context * llama_new_context_with_model(
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LLAMA_METAL_CHECK_BUF(ggml_metal_add_buffer(ctx->ctx_metal, "eval", ctx->buf_compute.addr, ctx->buf_compute.size, 0));
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LLAMA_METAL_CHECK_BUF(ggml_metal_add_buffer(ctx->ctx_metal, "kv", ctx->kv_self.buf.addr, ctx->kv_self.buf.size, 0));
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LLAMA_METAL_CHECK_BUF(ggml_metal_add_buffer(ctx->ctx_metal, "scr0", ctx->buf_scratch[0].addr, ctx->buf_scratch[0].size, 0));
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LLAMA_METAL_CHECK_BUF(ggml_metal_add_buffer(ctx->ctx_metal, "scr1", ctx->buf_scratch[1].addr, ctx->buf_scratch[1].size, 0));
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LLAMA_METAL_CHECK_BUF(ggml_metal_add_buffer(ctx->ctx_metal, "alloc", ctx->buf_alloc.addr, ctx->buf_alloc.size, 0));
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#undef LLAMA_METAL_CHECK_BUF
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}
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#endif
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