mirror of
https://github.com/ggerganov/llama.cpp.git
synced 2024-12-24 13:28:50 +01:00
imatrix : offload to GPU support (#4957)
* backend : add eval callback ggml-ci * backend : group nodes in a single compute when user don't need them * backend : clean-up the implementation ggml-ci * simple : do not perform tensor data copy if not needed * simple : fix * imatrix : offload to GPU support * imatrix : fix ggml_mul_mat_id hanlding ggml-ci * ci : add imatrix test ggml-ci * ci : rearrange output ggml-ci
This commit is contained in:
parent
44a1a4a41a
commit
ba69bbc84c
11
ci/run.sh
11
ci/run.sh
@ -216,6 +216,8 @@ function gg_run_open_llama_3b_v2 {
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(time ./bin/perplexity --model ${model_q5_k} -f ${wiki_test_60} -c 128 -b 128 --chunks 2 ) 2>&1 | tee -a $OUT/${ci}-tg-q5_k.log
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(time ./bin/perplexity --model ${model_q6_k} -f ${wiki_test_60} -c 128 -b 128 --chunks 2 ) 2>&1 | tee -a $OUT/${ci}-tg-q6_k.log
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(time ./bin/imatrix --model ${model_f16} -f ${wiki_test_60} -c 128 -b 128 --chunks 2 ) 2>&1 | tee -a $OUT/${ci}-imatrix.log
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(time ./bin/save-load-state --model ${model_q4_0} ) 2>&1 | tee -a $OUT/${ci}-save-load-state.log
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function check_ppl {
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@ -243,6 +245,8 @@ function gg_run_open_llama_3b_v2 {
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check_ppl "q5_k" "$(cat $OUT/${ci}-tg-q5_k.log | grep "^\[1\]")" | tee -a $OUT/${ci}-ppl.log
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check_ppl "q6_k" "$(cat $OUT/${ci}-tg-q6_k.log | grep "^\[1\]")" | tee -a $OUT/${ci}-ppl.log
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cat $OUT/${ci}-imatrix.log | grep "Final" >> $OUT/${ci}-imatrix-sum.log
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# lora
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function compare_ppl {
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qnt="$1"
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@ -284,7 +288,6 @@ function gg_run_open_llama_3b_v2 {
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(time ./bin/perplexity --model ${model_q8_0} -f ${shakespeare} --lora ${lora_shakespeare} --lora-base ${model_f16} -c 128 -b 128 --chunks 2 ) 2>&1 | tee -a $OUT/${ci}-ppl-shakespeare-lora-q8_0-f16.log
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compare_ppl "q8_0 / f16 base shakespeare" "$(cat $OUT/${ci}-ppl-shakespeare-q8_0.log | grep "^\[1\]")" "$(cat $OUT/${ci}-ppl-shakespeare-lora-q8_0-f16.log | grep "^\[1\]")" | tee -a $OUT/${ci}-lora-ppl.log
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set +e
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}
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@ -294,6 +297,7 @@ function gg_sum_open_llama_3b_v2 {
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gg_printf 'OpenLLaMA 3B-v2:\n'
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gg_printf '- status: %s\n' "$(cat $OUT/${ci}.exit)"
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gg_printf '- perplexity:\n%s\n' "$(cat $OUT/${ci}-ppl.log)"
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gg_printf '- imatrix:\n```\n%s\n```\n' "$(cat $OUT/${ci}-imatrix-sum.log)"
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gg_printf '- lora:\n%s\n' "$(cat $OUT/${ci}-lora-ppl.log)"
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gg_printf '- f16: \n```\n%s\n```\n' "$(cat $OUT/${ci}-tg-f16.log)"
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gg_printf '- q8_0:\n```\n%s\n```\n' "$(cat $OUT/${ci}-tg-q8_0.log)"
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@ -393,6 +397,8 @@ function gg_run_open_llama_7b_v2 {
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(time ./bin/perplexity --model ${model_q5_k} -f ${wiki_test} -t 1 -ngl 999 -c 2048 -b 512 --chunks 4 ) 2>&1 | tee -a $OUT/${ci}-tg-q5_k.log
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(time ./bin/perplexity --model ${model_q6_k} -f ${wiki_test} -t 1 -ngl 999 -c 2048 -b 512 --chunks 4 ) 2>&1 | tee -a $OUT/${ci}-tg-q6_k.log
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(time ./bin/imatrix --model ${model_f16} -f ${wiki_test} -t 1 -ngl 999 -c 2048 -b 512 --chunks 4 ) 2>&1 | tee -a $OUT/${ci}-imatrix.log
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(time ./bin/save-load-state --model ${model_q4_0} ) 2>&1 | tee -a $OUT/${ci}-save-load-state.log
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function check_ppl {
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@ -420,6 +426,8 @@ function gg_run_open_llama_7b_v2 {
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check_ppl "q5_k" "$(cat $OUT/${ci}-tg-q5_k.log | grep "^\[1\]")" | tee -a $OUT/${ci}-ppl.log
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check_ppl "q6_k" "$(cat $OUT/${ci}-tg-q6_k.log | grep "^\[1\]")" | tee -a $OUT/${ci}-ppl.log
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cat $OUT/${ci}-imatrix.log | grep "Final" >> $OUT/${ci}-imatrix-sum.log
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# lora
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function compare_ppl {
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qnt="$1"
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@ -471,6 +479,7 @@ function gg_sum_open_llama_7b_v2 {
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gg_printf 'OpenLLaMA 7B-v2:\n'
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gg_printf '- status: %s\n' "$(cat $OUT/${ci}.exit)"
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gg_printf '- perplexity:\n%s\n' "$(cat $OUT/${ci}-ppl.log)"
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gg_printf '- imatrix:\n```\n%s\n```\n' "$(cat $OUT/${ci}-imatrix-sum.log)"
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gg_printf '- lora:\n%s\n' "$(cat $OUT/${ci}-lora-ppl.log)"
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gg_printf '- f16: \n```\n%s\n```\n' "$(cat $OUT/${ci}-tg-f16.log)"
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gg_printf '- q8_0:\n```\n%s\n```\n' "$(cat $OUT/${ci}-tg-q8_0.log)"
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@ -33,43 +33,120 @@ class IMatrixCollector {
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public:
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IMatrixCollector() = default;
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void set_parameters(StatParams&& params) { m_params = std::move(params); }
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void collect_imatrix(const struct ggml_tensor * src0, const struct ggml_tensor * src1);
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bool collect_imatrix(struct ggml_tensor * t, bool ask, void * user_data);
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void save_imatrix() const;
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private:
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std::unordered_map<std::string, Stats> m_stats;
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StatParams m_params;
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std::mutex m_mutex;
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int m_last_call = 0;
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std::vector<float> m_src1_data;
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std::vector<int> m_ids; // the expert ids from ggml_mul_mat_id
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};
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void IMatrixCollector::collect_imatrix(const struct ggml_tensor * src0, const struct ggml_tensor * src1) {
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if (src1->ne[1] < 16 || src1->type != GGML_TYPE_F32) return;
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if (!(strncmp(src0->name, "blk.", 4) == 0 || (m_params.collect_output_weight && strcmp(src0->name, "output.weight") == 0))) return;
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bool IMatrixCollector::collect_imatrix(struct ggml_tensor * t, bool ask, void * user_data) {
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GGML_UNUSED(user_data);
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const struct ggml_tensor * src0 = t->src[0];
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const struct ggml_tensor * src1 = t->src[1];
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// when ask is true, the scheduler wants to know if we are interested in data from this tensor
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// if we return true, a follow-up call will be made with ask=false in which we can do the actual collection
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if (ask) {
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if (t->op == GGML_OP_MUL_MAT_ID) return true; // collect all indirect matrix multiplications
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if (t->op != GGML_OP_MUL_MAT) return false;
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if (src1->ne[1] < 16 || src1->type != GGML_TYPE_F32) return false;
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if (!(strncmp(src0->name, "blk.", 4) == 0 || (m_params.collect_output_weight && strcmp(src0->name, "output.weight") == 0))) return false;
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return true;
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}
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std::lock_guard<std::mutex> lock(m_mutex);
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auto& e = m_stats[src0->name];
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if (e.values.empty()) {
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e.values.resize(src1->ne[0], 0);
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// copy the data from the GPU memory if needed
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const bool is_host = ggml_backend_buffer_is_host(src1->buffer);
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if (!is_host) {
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m_src1_data.resize(ggml_nelements(src1));
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ggml_backend_tensor_get(src1, m_src1_data.data(), 0, ggml_nbytes(src1));
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}
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else if (e.values.size() != (size_t)src1->ne[0]) {
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fprintf(stderr, "Oops: inconsistent size for %s (%d vs %d)\n", src0->name, (int)e.values.size(), (int)src1->ne[0]);
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exit(1); //GGML_ASSERT(false);
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}
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++e.ncall;
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if (m_params.verbosity > 1) {
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printf("%s[%d]: %s, %d x %d, %d\n",__func__,m_last_call,src0->name,(int)src1->ne[0],(int)src1->ne[1],(int)src1->type);
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}
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for (int row = 0; row < (int)src1->ne[1]; ++row) {
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const float * x = (const float *)src1->data + row * src1->ne[0];
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for (int j = 0; j < (int)src1->ne[0]; ++j) {
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e.values[j] += x[j]*x[j];
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}
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}
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if (e.ncall > m_last_call) {
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m_last_call = e.ncall;
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if (m_last_call % m_params.n_output_frequency == 0) {
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save_imatrix();
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const float * data = is_host ? (const float *) src1->data : m_src1_data.data();
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if (t->op == GGML_OP_MUL_MAT_ID) {
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const int idx = ((int32_t *) t->op_params)[0];
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const int n_as = ((int32_t *) t->op_params)[1];
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// the top-k selected expert ids are stored in the src0 tensor
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// for simplicity, always copy src0 to host, because it is small
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// take into account that src0 is not contiguous!
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GGML_ASSERT(src0->ne[1] == src1->ne[1]);
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GGML_ASSERT(n_as*ggml_nrows(src0));
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m_ids.resize(ggml_nbytes(src0)/sizeof(int));
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ggml_backend_tensor_get(src0, m_ids.data(), 0, ggml_nbytes(src0));
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// loop over all possible experts, regardless if they are used or not in the batch
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// this is necessary to guarantee equal number of "ncall" for each tensor
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for (int ex = 0; ex < n_as; ++ex) {
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src0 = t->src[2 + ex];
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auto& e = m_stats[src0->name];
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if (e.values.empty()) {
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e.values.resize(src1->ne[0], 0);
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}
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else if (e.values.size() != (size_t)src1->ne[0]) {
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fprintf(stderr, "Oops: inconsistent size for %s (%d vs %d)\n", src0->name, (int)e.values.size(), (int)src1->ne[0]);
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exit(1); //GGML_ASSERT(false);
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}
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// NOTE: since we select top-k experts, the number of calls for the expert tensors will be k times larger
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// using the following line, we can correct for that if needed
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//if (idx == t->src[0]->ne[0] - 1) ++e.ncall;
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++e.ncall;
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if (m_params.verbosity > 1) {
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printf("%s[%d]: %32s, %s, %5d x %5d, %d\n", __func__, m_last_call, src0->name, ggml_op_name(t->op), (int)src1->ne[0], (int)src1->ne[1], (int)src1->type);
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}
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for (int row = 0; row < (int)src1->ne[1]; ++row) {
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const int excur = m_ids[row*n_as + idx];
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GGML_ASSERT(excur >= 0 && excur < n_as); // sanity check
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if (excur != ex) continue;
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const float * x = data + row * src1->ne[0];
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for (int j = 0; j < (int)src1->ne[0]; ++j) {
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e.values[j] += x[j]*x[j];
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}
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}
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if (e.ncall > m_last_call) {
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m_last_call = e.ncall;
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if (m_last_call % m_params.n_output_frequency == 0) {
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save_imatrix();
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}
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}
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}
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} else {
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auto& e = m_stats[src0->name];
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if (e.values.empty()) {
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e.values.resize(src1->ne[0], 0);
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}
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else if (e.values.size() != (size_t)src1->ne[0]) {
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fprintf(stderr, "Oops: inconsistent size for %s (%d vs %d)\n", src0->name, (int)e.values.size(), (int)src1->ne[0]);
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exit(1); //GGML_ASSERT(false);
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}
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++e.ncall;
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if (m_params.verbosity > 1) {
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printf("%s[%d]: %32s, %s, %5d x %5d, %d\n", __func__, m_last_call, src0->name, ggml_op_name(t->op), (int)src1->ne[0], (int)src1->ne[1], (int)src1->type);
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}
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for (int row = 0; row < (int)src1->ne[1]; ++row) {
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const float * x = data + row * src1->ne[0];
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for (int j = 0; j < (int)src1->ne[0]; ++j) {
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e.values[j] += x[j]*x[j];
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}
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}
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if (e.ncall > m_last_call) {
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m_last_call = e.ncall;
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if (m_last_call % m_params.n_output_frequency == 0) {
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save_imatrix();
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}
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}
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}
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return true;
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}
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void IMatrixCollector::save_imatrix() const {
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@ -93,8 +170,8 @@ void IMatrixCollector::save_imatrix() const {
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static IMatrixCollector g_collector;
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static void ik_collect_imatrix(const struct ggml_tensor * src0, const struct ggml_tensor * src1) {
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g_collector.collect_imatrix(src0, src1);
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static bool ik_collect_imatrix(struct ggml_tensor * t, bool ask, void * user_data) {
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return g_collector.collect_imatrix(t, ask, user_data);
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}
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@ -320,8 +397,6 @@ int main(int argc, char ** argv) {
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g_collector.set_parameters(std::move(sparams));
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ggml_set_imatrix_collection(ik_collect_imatrix);
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params.logits_all = true;
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params.n_batch = std::min(params.n_batch, params.n_ctx);
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@ -340,16 +415,27 @@ int main(int argc, char ** argv) {
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llama_backend_init(params.numa);
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llama_model * model;
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llama_context * ctx;
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llama_model_params mparams = llama_model_params_from_gpt_params(params);
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// load the model and apply lora adapter, if any
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std::tie(model, ctx) = llama_init_from_gpt_params(params);
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llama_model * model = llama_load_model_from_file(params.model.c_str(), mparams);
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if (model == NULL) {
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fprintf(stderr, "%s: error: unable to load model\n", __func__);
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return 1;
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}
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llama_context_params cparams = llama_context_params_from_gpt_params(params);
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// pass the callback to the backend scheduler
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// it will be executed for each node during the graph computation
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cparams.cb_eval = ik_collect_imatrix;
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cparams.cb_eval_user_data = NULL;
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llama_context * ctx = llama_new_context_with_model(model, cparams);
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if (ctx == NULL) {
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fprintf(stderr, "%s: error: unable to create context\n", __func__);
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return 1;
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}
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const int n_ctx_train = llama_n_ctx_train(model);
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if (params.n_ctx > n_ctx_train) {
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fprintf(stderr, "%s: warning: model was trained on only %d context tokens (%d specified)\n",
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14
ggml.c
14
ggml.c
@ -394,12 +394,6 @@ static const size_t CACHE_LINE_SIZE_F32 = CACHE_LINE_SIZE/sizeof(float);
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static void ggml_vec_dot_f32(const int n, float * restrict s, const float * restrict x, const float * restrict y);
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static void ggml_vec_dot_f16(const int n, float * restrict s, ggml_fp16_t * restrict x, ggml_fp16_t * restrict y);
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ggml_collect_imatrix_t g_imatrix_collect = NULL;
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void ggml_set_imatrix_collection(ggml_collect_imatrix_t imatrix_collect) {
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g_imatrix_collect = imatrix_collect;
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}
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static const ggml_type_traits_t type_traits[GGML_TYPE_COUNT] = {
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[GGML_TYPE_I8] = {
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.type_name = "i8",
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@ -9790,10 +9784,6 @@ static void ggml_compute_forward_mul_mat(
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const int ith = params->ith;
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const int nth = params->nth;
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if (ith == 1 && g_imatrix_collect) {
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g_imatrix_collect(src0, src1);
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}
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const enum ggml_type type = src0->type;
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const bool src1_cont = ggml_is_contiguous(src1);
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@ -10097,10 +10087,6 @@ static void ggml_compute_forward_mul_mat_id(
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const struct ggml_tensor * src0_cur = dst->src[cur_a + 2];
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if (ith == 1 && g_imatrix_collect) {
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g_imatrix_collect(src0_cur, src1);
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}
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const void * wdata = (src1->type == vec_dot_type) ? src1->data : params->wdata;
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const size_t row_size = ggml_row_size(vec_dot_type, ne10);
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6
ggml.h
6
ggml.h
@ -2085,12 +2085,6 @@ extern "C" {
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GGML_API void ggml_init_iq2_quantization(enum ggml_type type);
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GGML_API void ggml_deinit_iq2_quantization(enum ggml_type type);
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//
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// Importance matrix
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//
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typedef void(*ggml_collect_imatrix_t)(const struct ggml_tensor * src0, const struct ggml_tensor * src1);
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GGML_API void ggml_set_imatrix_collection(ggml_collect_imatrix_t imatrix_collect);
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//
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// gguf
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//
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