Ahma-7B / EasyLM /models /llama /convert_easylm_to_hf.py

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	# Copyright 2022 EleutherAI and The HuggingFace Inc. team. All rights reserved.
	# Copyright 2023 Xinyang Geng
	#
	# Licensed under the Apache License, Version 2.0 (the "License");
	# you may not use this file except in compliance with the License.
	# You may obtain a copy of the License at
	#
	# http://www.apache.org/licenses/LICENSE-2.0
	#
	# Unless required by applicable law or agreed to in writing, software
	# distributed under the License is distributed on an "AS IS" BASIS,
	# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	# See the License for the specific language governing permissions and
	# limitations under the License.

	# This script converts LLaMA model checkpoint trained by EsayLM to the
	# HuggingFace transformers LLaMA PyTorch format, which can then be loaded
	# by HuggingFace transformers.

	import gc
	import json
	import math
	import os
	import shutil

	import numpy as np
	import mlxu
	import jax
	import jax.numpy as jnp
	import flax
	from flax.traverse_util import flatten_dict
	import torch
	from transformers import LlamaConfig, LlamaForCausalLM

	from EasyLM.checkpoint import StreamingCheckpointer
	from EasyLM.jax_utils import float_tensor_to_dtype


	FLAGS, FLAGS_DEF = mlxu.define_flags_with_default(
	load_checkpoint='',
	tokenizer_path='',
	model_size='13b',
	output_dir='',
	)


	LLAMA_STANDARD_CONFIGS = {
	'small': {
	'vocab_size': 64256,
	'dim': 768,
	'intermediate_size': 3072,
	'n_layers': 12,
	'n_heads': 12,
	'norm_eps': 1e-6,
	},
	'medium': {
	'vocab_size': 64256,
	'dim': 1024,
	'intermediate_size': 4096,
	'n_layers': 24,
	'n_heads': 16,
	'norm_eps': 1e-6,
	},
	'large': {
	'vocab_size': 64256,
	'dim': 1536,
	'intermediate_size': 6144,
	'n_layers': 24,
	'n_heads': 16,
	'norm_eps': 1e-6,
	},
	'xlarge': {
	'vocab_size': 64256,
	'dim': 2048,
	'intermediate_size': 8192,
	'n_layers': 24,
	'n_heads': 32,
	'norm_eps': 1e-6,
	},
	'1b': {
	'vocab_size': 64256,
	'dim': 2048,
	'intermediate_size': 5504,
	'n_layers': 22,
	'n_heads': 16,
	'norm_eps': 1e-6,
	},
	'3b': {
	'vocab_size': 64256,
	'dim': 3200,
	'intermediate_size': 8640,
	'n_layers': 26,
	'n_heads': 32,
	'norm_eps': 1e-6,
	},
	'7b': {
	'vocab_size': 64256,
	'dim': 4096,
	'intermediate_size': 11008,
	'n_layers': 32,
	'n_heads': 32,
	'norm_eps': 1e-6,
	},
	'13b': {
	'vocab_size': 64256,
	'dim': 5120,
	'intermediate_size': 13824,
	'n_layers': 40,
	'n_heads': 40,
	'norm_eps': 1e-6,
	},
	'30b': {
	'vocab_size': 64256,
	'dim': 6656,
	'intermediate_size': 17920,
	'n_layers': 60,
	'n_heads': 52,
	'norm_eps': 1e-6,
	},
	'65b': {
	'vocab_size': 64256,
	'dim': 8192,
	'intermediate_size': 22016,
	'n_layers': 80,
	'n_heads': 64,
	'norm_eps': 1e-5,
	},
	}


	def match_keywords(string, positives, negatives):
	for positive in positives:
	if positive not in string:
	return False
	for negative in negatives:
	if negative in string:
	return False
	return True


	def load_and_convert_checkpoint(path):
	_, flax_params = StreamingCheckpointer.load_trainstate_checkpoint(path)
	flax_params = flatten_dict(flax_params['params'], sep='.')
	torch_params = {}
	for key, tensor in flax_params.items():
	if match_keywords(key, ["kernel"], ["norm", 'ln_f']):
	tensor = tensor.T
	torch_params[key] = torch.tensor(
	float_tensor_to_dtype(tensor, 'fp32'), dtype=torch.float16
	)
	return torch_params


	def read_json(path):
	with open(path, "r") as f:
	return json.load(f)


	def write_json(text, path):
	with open(path, "w") as f:
	json.dump(text, f)


	def write_model(loaded, model_path, model_size):
	os.makedirs(model_path, exist_ok=True)
	tmp_model_path = os.path.join(model_path, "tmp")
	os.makedirs(tmp_model_path, exist_ok=True)

	params = LLAMA_STANDARD_CONFIGS[model_size]

	n_layers = params["n_layers"]
	n_heads = params["n_heads"]
	dim = params["dim"]
	dims_per_head = dim // n_heads
	base = 10000.0
	inv_freq = 1.0 / (base ** (torch.arange(0, dims_per_head, 2).float() / dims_per_head))

	# permute for sliced rotary
	def permute(w):
	return w.view(n_heads, dim // n_heads // 2, 2, dim).transpose(1, 2).reshape(dim, dim)


	param_count = 0
	index_dict = {"weight_map": {}}
	for layer_i in range(n_layers):
	filename = f"pytorch_model-{layer_i + 1}-of-{n_layers + 1}.bin"
	state_dict = {
	f"model.layers.{layer_i}.self_attn.q_proj.weight": permute(
	loaded[f"transformer.h.{layer_i}.attention.wq.kernel"]
	),
	f"model.layers.{layer_i}.self_attn.k_proj.weight": permute(
	loaded[f"transformer.h.{layer_i}.attention.wk.kernel"]
	),
	f"model.layers.{layer_i}.self_attn.v_proj.weight": loaded[f"transformer.h.{layer_i}.attention.wv.kernel"],
	f"model.layers.{layer_i}.self_attn.o_proj.weight": loaded[f"transformer.h.{layer_i}.attention.wo.kernel"],

	f"model.layers.{layer_i}.mlp.gate_proj.weight": loaded[f"transformer.h.{layer_i}.feed_forward.w1.kernel"],
	f"model.layers.{layer_i}.mlp.down_proj.weight": loaded[f"transformer.h.{layer_i}.feed_forward.w2.kernel"],
	f"model.layers.{layer_i}.mlp.up_proj.weight": loaded[f"transformer.h.{layer_i}.feed_forward.w3.kernel"],

	f"model.layers.{layer_i}.input_layernorm.weight": loaded[f"transformer.h.{layer_i}.attention_norm.kernel"],
	f"model.layers.{layer_i}.post_attention_layernorm.weight": loaded[f"transformer.h.{layer_i}.ffn_norm.kernel"],

	}

	state_dict[f"model.layers.{layer_i}.self_attn.rotary_emb.inv_freq"] = inv_freq
	for k, v in state_dict.items():
	index_dict["weight_map"][k] = filename
	param_count += v.numel()
	torch.save(state_dict, os.path.join(tmp_model_path, filename))

	filename = f"pytorch_model-{n_layers + 1}-of-{n_layers + 1}.bin"
	# Unsharded
	state_dict = {
	"model.embed_tokens.weight": loaded["transformer.wte.embedding"],
	"model.norm.weight": loaded["transformer.ln_f.kernel"],
	"lm_head.weight": loaded["lm_head.kernel"],
	}

	for k, v in state_dict.items():
	index_dict["weight_map"][k] = filename
	param_count += v.numel()
	torch.save(state_dict, os.path.join(tmp_model_path, filename))

	# Write configs
	index_dict["metadata"] = {"total_size": param_count * 2}
	write_json(index_dict, os.path.join(tmp_model_path, "pytorch_model.bin.index.json"))

	config = LlamaConfig(
	vocab_size=params["vocab_size"],
	hidden_size=dim,
	intermediate_size=params["intermediate_size"],
	num_attention_heads=params["n_heads"],
	num_hidden_layers=params["n_layers"],
	rms_norm_eps=params["norm_eps"],
	)
	config.save_pretrained(tmp_model_path)

	# Make space so we can load the model properly now.
	del state_dict
	del loaded
	gc.collect()

	print("Loading the checkpoint in a Llama model.")
	model = LlamaForCausalLM.from_pretrained(tmp_model_path, torch_dtype=torch.float16)
	# Avoid saving this as part of the config.
	print("Model parameter count", model.num_parameters())
	del model.config._name_or_path

	print("Saving in the Transformers format.")
	model.save_pretrained(model_path, safe_serialization=True)
	shutil.rmtree(tmp_model_path)


	def write_tokenizer(tokenizer_path, input_tokenizer_path):
	print(f"Fetching the tokenizer from {input_tokenizer_path}.")
	os.makedirs(tokenizer_path, exist_ok=True)
	write_json(
	{
	"bos_token": {
	"content": "<s>",
	"lstrip": False,
	"normalized": True,
	"rstrip": False,
	"single_word": False
	},
	"eos_token": {
	"content": "</s>",
	"lstrip": False,
	"normalized": True,
	"rstrip": False,
	"single_word": False
	},
	"unk_token": {
	"content": "<unk>",
	"lstrip": False,
	"normalized": True,
	"rstrip": False,
	"single_word": False
	},
	},
	os.path.join(tokenizer_path, "special_tokens_map.json")
	)
	write_json(
	{
	"add_bos_token": True,
	"add_eos_token": False,
	"model_max_length": 2048,
	"pad_token": None,
	"sp_model_kwargs": {},
	"tokenizer_class": "LlamaTokenizer",
	"clean_up_tokenization_spaces": False,
	"bos_token": {
	"__type": "AddedToken",
	"content": "<s>",
	"lstrip": False,
	"normalized": True,
	"rstrip": False,
	"single_word": False
	},
	"eos_token": {
	"__type": "AddedToken",
	"content": "</s>",
	"lstrip": False,
	"normalized": True,
	"rstrip": False,
	"single_word": False
	},
	"unk_token": {
	"__type": "AddedToken",
	"content": "<unk>",
	"lstrip": False,
	"normalized": True,
	"rstrip": False,
	"single_word": False
	},
	},
	os.path.join(tokenizer_path, "tokenizer_config.json"),
	)
	shutil.copyfile(input_tokenizer_path, os.path.join(tokenizer_path, "tokenizer.model"))


	def main(argv):
	assert FLAGS.load_checkpoint != "" and FLAGS.output_dir != ""# and FLAGS.tokenizer_path != ""
	assert FLAGS.model_size in LLAMA_STANDARD_CONFIGS
	# write_tokenizer(
	# tokenizer_path=FLAGS.output_dir,
	# input_tokenizer_path=FLAGS.tokenizer_path,
	# )
	write_model(
	load_and_convert_checkpoint(FLAGS.load_checkpoint),
	model_path=FLAGS.output_dir,
	model_size=FLAGS.model_size,
	)


	if __name__ == "__main__":
	mlxu.run(main)