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talk-llama : sync llama.cpp
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@ -11,6 +11,10 @@
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# include "ggml-cuda.h"
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#elif defined(GGML_USE_CLBLAST)
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# include "ggml-opencl.h"
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#elif defined(GGML_USE_VULKAN)
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# include "ggml-vulkan.h"
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#elif defined(GGML_USE_SYCL)
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# include "ggml-sycl.h"
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#endif
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#ifdef GGML_USE_METAL
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@ -52,6 +56,7 @@
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#include <algorithm>
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#include <array>
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#include <cassert>
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#include <cfloat>
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#include <cinttypes>
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#include <climits>
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#include <cmath>
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@ -196,6 +201,7 @@ enum llm_arch {
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LLM_ARCH_PHI2,
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LLM_ARCH_PLAMO,
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LLM_ARCH_CODESHELL,
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LLM_ARCH_ORION,
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LLM_ARCH_UNKNOWN,
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};
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@ -217,6 +223,7 @@ static std::map<llm_arch, std::string> LLM_ARCH_NAMES = {
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{ LLM_ARCH_PHI2, "phi2" },
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{ LLM_ARCH_PLAMO, "plamo" },
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{ LLM_ARCH_CODESHELL, "codeshell" },
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{ LLM_ARCH_ORION, "orion" },
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};
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enum llm_kv {
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@ -641,6 +648,25 @@ static std::map<llm_arch, std::map<llm_tensor, std::string>> LLM_TENSOR_NAMES =
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{ LLM_TENSOR_FFN_UP, "blk.%d.ffn_up" },
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},
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},
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{
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LLM_ARCH_ORION,
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{
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{ LLM_TENSOR_TOKEN_EMBD, "token_embd" },
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{ LLM_TENSOR_OUTPUT_NORM, "output_norm" },
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{ LLM_TENSOR_OUTPUT, "output" },
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{ LLM_TENSOR_ROPE_FREQS, "rope_freqs" },
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{ LLM_TENSOR_ATTN_NORM, "blk.%d.attn_norm" },
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{ LLM_TENSOR_ATTN_Q, "blk.%d.attn_q" },
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{ LLM_TENSOR_ATTN_K, "blk.%d.attn_k" },
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{ LLM_TENSOR_ATTN_V, "blk.%d.attn_v" },
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{ LLM_TENSOR_ATTN_OUT, "blk.%d.attn_output" },
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{ LLM_TENSOR_ATTN_ROT_EMBD, "blk.%d.attn_rot_embd" },
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{ LLM_TENSOR_FFN_NORM, "blk.%d.ffn_norm" },
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{ LLM_TENSOR_FFN_GATE, "blk.%d.ffn_gate" },
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{ LLM_TENSOR_FFN_DOWN, "blk.%d.ffn_down" },
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{ LLM_TENSOR_FFN_UP, "blk.%d.ffn_up" },
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},
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},
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{
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LLM_ARCH_UNKNOWN,
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@ -1256,8 +1282,14 @@ static ggml_backend_buffer_type_t llama_default_buffer_type_cpu(bool host_buffer
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if (host_buffer) {
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buft = ggml_backend_cuda_host_buffer_type();
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}
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#elif defined(GGML_USE_SYCL)
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buft = ggml_backend_sycl_host_buffer_type();
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#elif defined(GGML_USE_CPU_HBM)
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buft = ggml_backend_cpu_hbm_buffer_type();
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#elif defined(GGML_USE_VULKAN)
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if (host_buffer) {
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buft = ggml_backend_vk_host_buffer_type();
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}
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#endif
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if (buft == nullptr) {
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@ -1275,6 +1307,10 @@ static ggml_backend_buffer_type_t llama_default_buffer_type_offload(int gpu) {
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buft = ggml_backend_metal_buffer_type();
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#elif defined(GGML_USE_CUBLAS)
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buft = ggml_backend_cuda_buffer_type(gpu);
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#elif defined(GGML_USE_VULKAN)
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buft = ggml_backend_vk_buffer_type();
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#elif defined(GGML_USE_SYCL)
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buft = ggml_backend_sycl_buffer_type(gpu);
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#elif defined(GGML_USE_CLBLAST)
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buft = ggml_backend_opencl_buffer_type();
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#endif
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@ -1332,6 +1368,7 @@ enum e_model {
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MODEL_7B,
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MODEL_8B,
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MODEL_13B,
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MODEL_14B,
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MODEL_15B,
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MODEL_30B,
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MODEL_34B,
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@ -2683,6 +2720,7 @@ static const char * llama_model_type_name(e_model type) {
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case MODEL_7B: return "7B";
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case MODEL_8B: return "8B";
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case MODEL_13B: return "13B";
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case MODEL_14B: return "14B";
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case MODEL_15B: return "15B";
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case MODEL_30B: return "30B";
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case MODEL_34B: return "34B";
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@ -2950,7 +2988,15 @@ static void llm_load_hparams(
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default: model.type = e_model::MODEL_UNKNOWN;
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}
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} break;
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case LLM_ARCH_ORION:
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{
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ml.get_key(LLM_KV_ATTENTION_LAYERNORM_EPS, hparams.f_norm_eps);
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switch (hparams.n_layer) {
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case 40: model.type = e_model::MODEL_14B; break;
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default: model.type = e_model::MODEL_UNKNOWN;
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}
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} break;
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default: (void)0;
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}
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@ -3933,6 +3979,38 @@ static bool llm_load_tensors(
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layer.ffn_up_b = ml.create_tensor(ctx_layer, tn(LLM_TENSOR_FFN_UP, "bias", i), {n_ff});
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}
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} break;
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case LLM_ARCH_ORION:
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{
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model.tok_embd = ml.create_tensor(ctx_input, tn(LLM_TENSOR_TOKEN_EMBD, "weight"), {n_embd, n_vocab});
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{
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model.output_norm = ml.create_tensor(ctx_output, tn(LLM_TENSOR_OUTPUT_NORM, "weight"), {n_embd});
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model.output_norm_b = ml.create_tensor(ctx_output, tn(LLM_TENSOR_OUTPUT_NORM, "bias"), {n_embd});
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model.output = ml.create_tensor(ctx_output_split, tn(LLM_TENSOR_OUTPUT, "weight"), {n_embd, n_vocab});
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}
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for (int i = 0; i < n_layer; ++i) {
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ggml_context * ctx_layer = ctx_for_layer(i);
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ggml_context * ctx_split = ctx_for_layer_split(i);
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auto & layer = model.layers[i];
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layer.attn_norm = ml.create_tensor(ctx_layer, tn(LLM_TENSOR_ATTN_NORM, "weight", i), {n_embd});
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layer.attn_norm_b = ml.create_tensor(ctx_layer, tn(LLM_TENSOR_ATTN_NORM, "bias", i), {n_embd});
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layer.wq = ml.create_tensor(ctx_split, tn(LLM_TENSOR_ATTN_Q, "weight", i), {n_embd, n_embd});
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layer.wk = ml.create_tensor(ctx_split, tn(LLM_TENSOR_ATTN_K, "weight", i), {n_embd, n_embd_gqa});
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layer.wv = ml.create_tensor(ctx_split, tn(LLM_TENSOR_ATTN_V, "weight", i), {n_embd, n_embd_gqa});
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layer.wo = ml.create_tensor(ctx_split, tn(LLM_TENSOR_ATTN_OUT, "weight", i), {n_embd, n_embd});
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layer.ffn_norm = ml.create_tensor(ctx_layer, tn(LLM_TENSOR_FFN_NORM, "weight", i), {n_embd});
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layer.ffn_norm_b = ml.create_tensor(ctx_layer, tn(LLM_TENSOR_FFN_NORM, "bias", i), {n_embd});
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layer.ffn_gate = ml.create_tensor(ctx_split, tn(LLM_TENSOR_FFN_GATE, "weight", i), {n_embd, n_ff});
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layer.ffn_down = ml.create_tensor(ctx_split, tn(LLM_TENSOR_FFN_DOWN, "weight", i), { n_ff, n_embd});
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layer.ffn_up = ml.create_tensor(ctx_split, tn(LLM_TENSOR_FFN_UP, "weight", i), {n_embd, n_ff});
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}
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} break;
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default:
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throw std::runtime_error("unknown architecture");
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}
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@ -4563,6 +4641,126 @@ struct llm_build_context {
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ctx0 = nullptr;
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}
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}
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struct ggml_cgraph * build_orion() {
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struct ggml_cgraph * gf = ggml_new_graph_custom(ctx0, LLAMA_MAX_NODES, false);
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const int64_t n_embd_head = hparams.n_embd_head_v;
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GGML_ASSERT(n_embd_head == hparams.n_embd_head_k);
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GGML_ASSERT(n_embd_head == hparams.n_rot);
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struct ggml_tensor * cur;
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struct ggml_tensor * inpL;
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inpL = llm_build_inp_embd(ctx0, hparams, batch, model.tok_embd, lctx.inp_tokens, lctx.inp_embd, cb);
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cb(inpL, "inp_embd", -1);
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// inp_pos - contains the positions
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struct ggml_tensor * inp_pos = ggml_view_1d(ctx0, lctx.inp_pos, n_tokens, 0);
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cb(inp_pos, "inp_pos", -1);
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// KQ_mask (mask for 1 head, it will be broadcasted to all heads)
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struct ggml_tensor * KQ_mask = ggml_view_2d(ctx0, lctx.inp_KQ_mask, n_kv, n_tokens, n_kv*ggml_type_size(lctx.inp_KQ_mask->type), 0);
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cb(KQ_mask, "KQ_mask", -1);
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// shift the entire K-cache if needed
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if (do_rope_shift) {
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llm_build_k_shift(ctx0, hparams, cparams, kv_self, gf, lctx.inp_K_shift, LLM_ROPE, n_ctx, freq_base, freq_scale, cb);
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}
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for (int il = 0; il < n_layer; ++il) {
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struct ggml_tensor * inpSA = inpL;
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// norm
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cur = llm_build_norm(ctx0, inpL, hparams,
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model.layers[il].attn_norm, model.layers[il].attn_norm_b,
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LLM_NORM, cb, il);
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cb(cur, "attn_norm", il);
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// self-attention
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{
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// compute Q and K and RoPE them
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struct ggml_tensor * Qcur = ggml_mul_mat(ctx0, model.layers[il].wq, cur);
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cb(Qcur, "Qcur", il);
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// if (model.layers[il].bq) {
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// Qcur = ggml_add(ctx0, Qcur, model.layers[il].bq);
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// cb(Qcur, "Qcur", il);
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// }
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struct ggml_tensor * Kcur = ggml_mul_mat(ctx0, model.layers[il].wk, cur);
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cb(Kcur, "Kcur", il);
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// if (model.layers[il].bk) {
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// Kcur = ggml_add(ctx0, Kcur, model.layers[il].bk);
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// cb(Kcur, "Kcur", il);
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// }
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struct ggml_tensor * Vcur = ggml_mul_mat(ctx0, model.layers[il].wv, cur);
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cb(Vcur, "Vcur", il);
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// if (model.layers[il].bv) {
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// Vcur = ggml_add(ctx0, Vcur, model.layers[il].bv);
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// cb(Vcur, "Vcur", il);
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// }
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Qcur = ggml_rope_custom(
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ctx0, ggml_reshape_3d(ctx0, Qcur, n_embd_head, n_head, n_tokens), inp_pos,
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hparams.n_rot, 2, 0, n_orig_ctx, freq_base, freq_scale,
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ext_factor, attn_factor, beta_fast, beta_slow
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);
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cb(Qcur, "Qcur", il);
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Kcur = ggml_rope_custom(
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ctx0, ggml_reshape_3d(ctx0, Kcur, n_embd_head, n_head_kv, n_tokens), inp_pos,
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hparams.n_rot, 2, 0, n_orig_ctx, freq_base, freq_scale,
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ext_factor, attn_factor, beta_fast, beta_slow
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);
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cb(Kcur, "Kcur", il);
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cur = llm_build_kv(ctx0, model, hparams, kv_self, gf,
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model.layers[il].wo, NULL,
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Kcur, Vcur, Qcur, KQ_mask, n_ctx, n_tokens, kv_head, n_kv, -1.0f, 1.0f/sqrtf(float(n_embd_head)), cb, il);
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cb(cur, "kqv_out", il);
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}
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struct ggml_tensor * ffn_inp = ggml_add(ctx0, cur, inpSA);
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cb(ffn_inp, "ffn_inp", il);
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// feed-forward network
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cur = llm_build_norm(ctx0, ffn_inp, hparams,
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model.layers[il].ffn_norm, model.layers[il].ffn_norm_b,
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LLM_NORM, cb, il);
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cb(cur, "ffn_norm", il);
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cur = llm_build_ffn(ctx0, cur,
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model.layers[il].ffn_up, NULL,
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model.layers[il].ffn_gate, NULL,
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model.layers[il].ffn_down, NULL,
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NULL,
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LLM_FFN_SILU, LLM_FFN_PAR, cb, il);
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cb(cur, "ffn_out", il);
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cur = ggml_add(ctx0, cur, ffn_inp);
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cb(cur, "l_out", il);
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// input for next layer
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inpL = cur;
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}
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cur = inpL;
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cur = llm_build_norm(ctx0, cur, hparams,
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model.output_norm, model.output_norm_b,
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LLM_NORM, cb, -1);
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cb(cur, "result_norm", -1);
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// lm_head
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cur = ggml_mul_mat(ctx0, model.output, cur);
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cb(cur, "result_output", -1);
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ggml_build_forward_expand(gf, cur);
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return gf;
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}
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struct ggml_cgraph * build_llama() {
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struct ggml_cgraph * gf = ggml_new_graph_custom(ctx0, LLAMA_MAX_NODES, false);
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@ -6520,6 +6718,10 @@ static struct ggml_cgraph * llama_build_graph(
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{
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result = llm.build_codeshell();
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} break;
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case LLM_ARCH_ORION:
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{
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result = llm.build_orion();
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} break;
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default:
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GGML_ASSERT(false);
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}
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@ -6652,7 +6854,7 @@ static int llama_decode_internal(
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}
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const bool fully_offloaded = model.n_gpu_layers >= (int) hparams.n_layer + 1;
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if (ggml_cpu_has_cublas() && fully_offloaded) {
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if ((ggml_cpu_has_cublas() || ggml_cpu_has_vulkan()) && fully_offloaded) {
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n_threads = 1;
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}
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@ -7946,6 +8148,11 @@ void llama_sample_softmax(struct llama_context * ctx, llama_token_data_array * c
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}
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void llama_sample_top_k(struct llama_context * ctx, llama_token_data_array * candidates, int32_t k, size_t min_keep) {
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// TODO: move bucket sort to separate function so that top_p/tail_free/typical/softmax first is equally fast
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// if (k >= (int32_t)candidates->size) {
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// return;
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// }
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const int64_t t_start_sample_us = ggml_time_us();
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k = std::max(k, (int) min_keep);
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@ -8054,21 +8261,56 @@ void llama_sample_min_p(struct llama_context * ctx, llama_token_data_array * can
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return;
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}
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llama_sample_softmax(ctx, candidates);
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const int64_t t_start_sample_us = ggml_time_us();
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float scale = candidates->data[0].p; // scale by max prob
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bool min_p_applied = false;
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// if the candidates aren't sorted, try the unsorted implementation first
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if (!candidates->sorted) {
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std::vector<llama_token_data> filtered_tokens;
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float max_logit = -FLT_MAX;
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for (size_t i = 0; i < candidates->size; ++i) {
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max_logit = std::max(max_logit, candidates->data[i].logit);
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}
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const float min_logit = max_logit + logf(p); // min logit for p_i >= p * p_max
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for (size_t i = 0; i < candidates->size; ++i) {
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if (candidates->data[i].logit >= min_logit) {
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filtered_tokens.push_back(candidates->data[i]);
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}
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}
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// if we have enough values the operation was a success
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if (filtered_tokens.size() >= min_keep) {
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memcpy(candidates->data, filtered_tokens.data(), filtered_tokens.size()*sizeof(llama_token_data));
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candidates->size = filtered_tokens.size();
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min_p_applied = true;
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}
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}
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// if the candidates are sorted or the unsorted implementation failed, use this implementation
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if (!min_p_applied) {
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// Sort the logits in descending order
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if (!candidates->sorted) {
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std::sort(candidates->data, candidates->data + candidates->size, [](const llama_token_data & a, const llama_token_data & b) {
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return a.logit > b.logit;
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});
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candidates->sorted = true;
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}
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const float min_logit = candidates->data[0].logit + logf(p); // min logit for p_i >= p * p_max
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size_t i = 1; // first token always matches
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for (; i < candidates->size; ++i) {
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if (candidates->data[i].p < p * scale && i >= min_keep) {
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if (candidates->data[i].logit < min_logit && i >= min_keep) {
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break; // prob too small
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}
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}
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// Resize the output vector to keep only the matching tokens
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candidates->size = i;
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}
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if (ctx) {
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ctx->t_sample_us += ggml_time_us() - t_start_sample_us;
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@ -9997,6 +10239,26 @@ struct llama_context * llama_new_context_with_model(
|
||||
}
|
||||
}
|
||||
}
|
||||
#elif defined(GGML_USE_VULKAN)
|
||||
if (model->n_gpu_layers > 0) {
|
||||
ggml_backend_t backend = ggml_backend_vk_init();
|
||||
if (backend == nullptr) {
|
||||
LLAMA_LOG_ERROR("%s: failed to initialize Vulkan backend\n", __func__);
|
||||
llama_free(ctx);
|
||||
return nullptr;
|
||||
}
|
||||
ctx->backends.push_back(backend);
|
||||
}
|
||||
#elif defined(GGML_USE_SYCL)
|
||||
if (model->n_gpu_layers > 0) {
|
||||
ggml_backend_t backend = ggml_backend_sycl_init(model->main_gpu);
|
||||
if (backend == nullptr) {
|
||||
LLAMA_LOG_ERROR("%s: failed to initialize SYCL%d backend\n", __func__, model->main_gpu);
|
||||
llama_free(ctx);
|
||||
return nullptr;
|
||||
}
|
||||
ctx->backends.push_back(backend);
|
||||
}
|
||||
#endif
|
||||
ctx->backend_cpu = ggml_backend_cpu_init();
|
||||
if (ctx->backend_cpu == nullptr) {
|
||||
|
@ -6,6 +6,9 @@
|
||||
#ifdef GGML_USE_CUBLAS
|
||||
#include "ggml-cuda.h"
|
||||
#define LLAMA_MAX_DEVICES GGML_CUDA_MAX_DEVICES
|
||||
#elif defined(GGML_USE_SYCL)
|
||||
#include "ggml-sycl.h"
|
||||
#define LLAMA_MAX_DEVICES GGML_SYCL_MAX_DEVICES
|
||||
#else
|
||||
#define LLAMA_MAX_DEVICES 1
|
||||
#endif // GGML_USE_CUBLAS
|
||||
@ -46,7 +49,7 @@
|
||||
#define LLAMA_SESSION_MAGIC LLAMA_FILE_MAGIC_GGSN
|
||||
#define LLAMA_SESSION_VERSION 4
|
||||
|
||||
#if defined(GGML_USE_CUBLAS) || defined(GGML_USE_CLBLAST) || defined(GGML_USE_METAL)
|
||||
#if defined(GGML_USE_CUBLAS) || defined(GGML_USE_CLBLAST) || defined(GGML_USE_METAL) || defined(GGML_USE_VULKAN) || defined(GGML_USE_SYCL)
|
||||
// Defined when llama.cpp is compiled with support for offloading model layers to GPU.
|
||||
#define LLAMA_SUPPORTS_GPU_OFFLOAD
|
||||
#endif
|
||||
|
Loading…
Reference in New Issue
Block a user