From 6134ad4de72bdd536440df1b1bf15c9ab340c7ef Mon Sep 17 00:00:00 2001 From: xaedes Date: Tue, 29 Aug 2023 18:24:06 +0200 Subject: [PATCH] add python script to convert old finetune checkpoint files to gguf --- .../convert-finetune-checkpoint-to-gguf.py | 489 ++++++++++++++++++ 1 file changed, 489 insertions(+) create mode 100644 examples/finetune/convert-finetune-checkpoint-to-gguf.py diff --git a/examples/finetune/convert-finetune-checkpoint-to-gguf.py b/examples/finetune/convert-finetune-checkpoint-to-gguf.py new file mode 100644 index 000000000..4b9fa7c53 --- /dev/null +++ b/examples/finetune/convert-finetune-checkpoint-to-gguf.py @@ -0,0 +1,489 @@ +#!/usr/bin/env python3 +# finetune checkpoint --> gguf conversion + +import argparse +import gguf +import os +import struct +import sys +import numpy as np +from pathlib import Path + +# gguf constants +LLM_KV_OPTIMIZER_TYPE = "optimizer.type" +LLM_KV_OPTIMIZER_TYPE_ADAM = "adam" +LLM_KV_OPTIMIZER_TYPE_LBFGS = "lbfgs" +LLM_KV_OPTIMIZER_FILE_VERSION = "optimizer.file_version" +LLM_KV_OPTIMIZER_CONVERGENCE_PAST_COUNT = "optimizer.convergence_past_count" +LLM_KV_OPTIMIZER_PARAMETER_COUNT = "optimizer.parameter_count" +LLM_KV_OPTIMIZER_ITERATION_COUNT = "optimizer.iteration_count" +LLM_KV_OPTIMIZER_JUST_INITIALIZED = "optimizer.just_initialized" +LLM_KV_OPTIMIZER_ADAM_BEST_LOSS = "optimizer.adam.best_loss" +LLM_KV_OPTIMIZER_ADAM_PREVIOUS_LOSS = "optimizer.adam.previous_loss" +LLM_KV_OPTIMIZER_ADAM_NO_IMPROVEMENT_COUNT = "optimizer.adam.no_improvement_count" +LLM_KV_OPTIMIZER_LBFGS_APPROX_HESSIAN_COUNT = "optimizer.lbfgs.approx_hessian_count" +LLM_KV_OPTIMIZER_LBFGS_BEST_LOSS = "optimizer.lbfgs.best_loss" +LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_STEP = "optimizer.lbfgs.line_search_step" +LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_J = "optimizer.lbfgs.line_search_j" +LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_K = "optimizer.lbfgs.line_search_k" +LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_END = "optimizer.lbfgs.line_search_end" +LLM_KV_OPTIMIZER_LBFGS_NO_IMPROVEMENT_COUNT = "optimizer.lbfgs.no_improvement_count" + +LLM_TENSOR_OPTIMIZER_ADAM_FIRST_MOMENTS = "optimizer.adam.first_moments" +LLM_TENSOR_OPTIMIZER_ADAM_SECOND_MOMENTS = "optimizer.adam.second_moments" +LLM_TENSOR_OPTIMIZER_ADAM_PAST_LOSS_VALUES = "optimizer.adam.past_loss_values" + +LLM_TENSOR_OPTIMIZER_LBFGS_CURRENT_PARAMETERS = "optimizer.lbfgs.current_parameters" +LLM_TENSOR_OPTIMIZER_LBFGS_PREVIOUS_PARAMETERS = "optimizer.lbfgs.previous_parameters" +LLM_TENSOR_OPTIMIZER_LBFGS_CURRENT_GRADIENTS = "optimizer.lbfgs.current_gradients" +LLM_TENSOR_OPTIMIZER_LBFGS_PREVIOUS_GRADIENTS = "optimizer.lbfgs.previous_gradients" +LLM_TENSOR_OPTIMIZER_LBFGS_SEARCH_DIRECTION = "optimizer.lbfgs.search_direction" +LLM_TENSOR_OPTIMIZER_LBFGS_PAST_LOSS_VALUES = "optimizer.lbfgs.past_loss_values" +LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_ALPHA = "optimizer.lbfgs.memory_alpha" +LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_YS = "optimizer.lbfgs.memory_ys" +LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_S = "optimizer.lbfgs.memory_s" +LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_Y = "optimizer.lbfgs.memory_y" + +LLM_KV_TRAINING_TYPE_TRAIN_MODEL = "train_model" +LLM_KV_TRAINING_TYPE_FINETUNE_LORA = "finetune_lora" +LLM_KV_TRAINING_TYPE = "training.type" +LLM_KV_TRAINING_FILE_VERSION = "training.file_version" +LLM_KV_TRAINING_ITERATION_COUNT = "training.iteration_count" +LLM_KV_TRAINING_SAMPLE_COUNT = "training.sample_count" +LLM_KV_TRAINING_TOKEN_COUNT = "training.token_count" + +LLM_KV_TRAINING_LORA_RANK_TOKEN_EMBD = "training.lora.rank.token_embd" +LLM_KV_TRAINING_LORA_RANK_OUTPUT_NORM = "training.lora.rank.output_norm" +LLM_KV_TRAINING_LORA_RANK_OUTPUT = "training.lora.rank.output" +LLM_KV_TRAINING_LORA_RANK_ATTN_NORM = "training.lora.rank.attn_norm" +LLM_KV_TRAINING_LORA_RANK_ATTN_Q = "training.lora.rank.attn_q" +LLM_KV_TRAINING_LORA_RANK_ATTN_K = "training.lora.rank.attn_k" +LLM_KV_TRAINING_LORA_RANK_ATTN_V = "training.lora.rank.attn_v" +LLM_KV_TRAINING_LORA_RANK_ATTN_OUT = "training.lora.rank.attn_output" +LLM_KV_TRAINING_LORA_RANK_FFN_NORM = "training.lora.rank.ffn_norm" +LLM_KV_TRAINING_LORA_RANK_FFN_GATE = "training.lora.rank.ffn_gate" +LLM_KV_TRAINING_LORA_RANK_FFN_DOWN = "training.lora.rank.ffn_down" +LLM_KV_TRAINING_LORA_RANK_FFN_UP = "training.lora.rank.ffn_up" + +class Tensor: + def __init__(self, dtype='f', ne=None): + if ne is None: + ne = [] + self.dtype = dtype + self.ne = ne + self.nbytes = 0 + if self.dtype == 'f': + if len(self.ne) == 0: + self.nbytes = 0 + else: + self.nbytes = int(np.product(self.ne)) * 4 + else: + raise ValueError(f"Unhandled data type '{self.dtype}'") + + def load(self, data, offset): + nd = struct.unpack(' 0 else []) + + self.lbfgs_x = Tensor('f', [self.nx]) + self.lbfgs_xp = Tensor('f', [self.nx]) + self.lbfgs_g = Tensor('f', [self.nx]) + self.lbfgs_gp = Tensor('f', [self.nx]) + self.lbfgs_d = Tensor('f', [self.nx]) + self.lbfgs_pf = Tensor('f', [self.past] if self.past > 0 else []) + self.lbfgs_lmal = Tensor('f', [self.lbfgs_m]) + self.lbfgs_lmys = Tensor('f', [self.lbfgs_m]) + self.lbfgs_lms = Tensor('f', [self.nx, self.lbfgs_m]) + self.lbfgs_lmy = Tensor('f', [self.nx, self.lbfgs_m]) + + # forgot to save type in version 1: + # guess self.type from number of remaining bytes + size_type_0 = 12 + sum([t.max_storage_size() for t in + [self.adam_m, self.adam_v] + +([self.adam_pf] if (self.past > 0) else [])]) + size_type_1 = 24 + sum([t.max_storage_size() for t in + [self.lbfgs_x, self.lbfgs_xp, self.lbfgs_g, + self.lbfgs_gp, self.lbfgs_d, self.lbfgs_pf, + self.lbfgs_lmal, self.lbfgs_lmys, + self.lbfgs_lms, self.lbfgs_lmy] + +([self.lbfgs_pf] if (self.past > 0) else [])]) + # due to alignment padding the size might not by exact + # but the difference in size for both types is significant, + # so we can just use whichever is closest + remaining = len(data) - offset + if abs(remaining - size_type_0) < abs(remaining - size_type_1): + self.type = 0 + else: + self.type = 1 + + if self.type == 0: + offset = self.adam_m.load(data, offset) + offset = self.adam_v.load(data, offset) + offset = self.adam_pf.load(data,offset) + + self.adam_fx_best = struct.unpack(' 0: + self.adam_pf.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_ADAM_PAST_LOSS_VALUES) + + elif self.type == 1: + gguf_writer.add_string(LLM_KV_OPTIMIZER_TYPE, LLM_KV_OPTIMIZER_TYPE_LBFGS) + gguf_writer.add_uint32(LLM_KV_OPTIMIZER_LBFGS_APPROX_HESSIAN_COUNT, self.lbfgs_m) + gguf_writer.add_float32(LLM_KV_OPTIMIZER_LBFGS_BEST_LOSS, self.lbfgs_fx_best) + gguf_writer.add_float32(LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_STEP, self.lbfgs_step) + gguf_writer.add_int32(LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_J, self.lbfgs_j) + gguf_writer.add_int32(LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_K, self.lbfgs_k) + gguf_writer.add_int32(LLM_KV_OPTIMIZER_LBFGS_LINE_SEARCH_END, self.lbfgs_end) + gguf_writer.add_uint32(LLM_KV_OPTIMIZER_LBFGS_NO_IMPROVEMENT_COUNT, self.lbfgs_n_no_improvement) + + self.lbfgs_x.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_CURRENT_PARAMETERS) + self.lbfgs_xp.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_PREVIOUS_PARAMETERS) + self.lbfgs_g.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_CURRENT_GRADIENTS) + self.lbfgs_gp.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_PREVIOUS_GRADIENTS) + self.lbfgs_d.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_SEARCH_DIRECTION) + if self.past > 0: + self.lbfgs_pf.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_PAST_LOSS_VALUES) + self.lbfgs_lmal.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_ALPHA) + self.lbfgs_lmys.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_YS) + self.lbfgs_lms.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_S) + self.lbfgs_lmy.save_gguf(gguf_writer, name=LLM_TENSOR_OPTIMIZER_LBFGS_MEMORY_Y) + else: + raise ValueError('Unknown optimizer type') + +class LoraParams: + def __init__(self): + pass + + def load(self, data, offset): + self.n_rank_attention_norm = struct.unpack('