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llama3.py
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llama3.py
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import os
import gc
import sys
import time
import json
import copy
import random
import argparse
from typing import Tuple
import torch
import numpy as np
from transformers import LlamaTokenizer, GenerationConfig, LlamaConfig, AutoTokenizer, LlamaForCausalLM
from transformers.models.llama.modeling_llama import LlamaRMSNorm
import LLMPruner.torch_pruning as tp
from LLMPruner.pruner import hf_llama_pruner as llama_pruner
from LLMPruner.utils.logger import LoggerWithDepth
from LLMPruner.evaluator.ppl import PPLMetric
from LLMPruner.datasets.example_samples import get_examples
from LLMPruner.templates.prompts import prompts
def set_random_seed(seed):
random.seed(seed)
np.random.seed(seed)
torch.manual_seed(seed)
torch.cuda.manual_seed_all(seed)
def main(args):
set_random_seed(args.seed)
logger = LoggerWithDepth(
env_name="{}".format(args.save_ckpt_log_name),
config=args.__dict__,
root_dir='prune_log',
setup_sublogger=True
)
tokenizer = AutoTokenizer.from_pretrained(args.base_model)
model = LlamaForCausalLM.from_pretrained(
args.base_model,
device_map="auto",
torch_dtype=torch.float16,
)
if args.device != "cpu":
model.half()
if args.test_before_train:
logger.log("\n==================Generation Results before Pruning================\n")
model = model.to(args.eval_device)
model.eval()
with torch.no_grad():
for prompt in prompts:
input_ids = tokenizer(prompt, return_tensors="pt")['input_ids'].to(args.eval_device)
generation_output = model.generate(
input_ids=input_ids,
do_sample=True,
top_k=50,
max_length=args.max_seq_len,
top_p=args.top_p,
temperature=args.temperature,
)
result = tokenizer.decode(generation_output[0])
logger.log(result)
ppl = PPLMetric(model, tokenizer, ['wikitext2', 'ptb'], args.max_seq_len, device=args.eval_device)
logger.log("PPL before pruning: {}".format(ppl))
model.to(args.device)
pruner_type = args.pruner_type.lower()
assert pruner_type in ['random', 'l2', 'l1', 'taylor']
for param in model.parameters():
param.requires_grad_(True)
before_pruning_parameters = sum(p.numel() for p in model.parameters() if p.requires_grad)
forward_prompts = torch.tensor([
[ 1, 306, 4658, 278, 6593, 310, 2834, 338],
[ 1, 3439, 17632, 1925, 29892, 278, 6368, 310],
]).to(args.device) # Only for building the dependency graph. Any input will be fine since the computation result are not taken into consideration.
if pruner_type == 'random':
imp = tp.importance.RandomImportance()
elif pruner_type == 'l1':
imp = llama_pruner.MagnitudeImportance(p=1)
elif pruner_type == 'l2':
imp = llama_pruner.MagnitudeImportance(p=2)
elif pruner_type == 'taylor':
imp = llama_pruner.TaylorImportance(group_reduction=args.grouping_strategy, taylor=args.taylor)
else:
raise NotImplementedError
logger.log("Use {} pruner...".format(pruner_type))
if args.block_wise:
kwargs = {
"importance": imp,
"global_pruning": args.global_pruning,
"iterative_steps": args.iterative_steps,
"ch_sparsity": args.pruning_ratio,
"ignored_layers":[],
"channel_groups": {
},
"consecutive_groups": {
layer.self_attn.k_proj: layer.self_attn.head_dim for layer in model.model.layers
},
"customized_pruners": {
LlamaRMSNorm: llama_pruner.hf_rmsnorm_pruner,
},
"root_module_types": None,
"root_instances": [model.model.layers[i].self_attn.k_proj for i in range(args.block_attention_layer_start, args.block_attention_layer_end)] +
[model.model.layers[i].mlp.gate_proj for i in range(args.block_mlp_layer_start, args.block_mlp_layer_end)]
}
logger.log("Pruning Attention Layer = {}".format(list(range(args.block_attention_layer_start, args.block_attention_layer_end))))
logger.log("Pruning MLP Layer = {}".format(list(range(args.block_mlp_layer_start, args.block_mlp_layer_end))))
pruner = tp.pruner.MetaPruner(
model,
forward_prompts,
**kwargs
)
model.zero_grad()
logger.log("Start Pruning")
for i in range(args.iterative_steps):
if pruner_type in ['taylor']:
example_prompts = get_examples('bookcorpus', tokenizer, args.num_examples, seq_len = 64).to(args.device)
logger.log("Start Backwarding in iterative steps = {}...".format(i))
if args.taylor in ['param_mix', 'param_second']:
for j in range(args.num_examples):
print(j)
batch_input = example_prompts[j].unsqueeze(0)
loss = model(batch_input, labels=batch_input).loss
logger.log("Loss = {}".format(loss))
loss.backward()
for module_param in model.parameters():
module_param.grad = module_param.grad * module_param.grad / args.num_examples
if hasattr(module_param, 'acc_grad'):
module_param.acc_grad += module_param.grad
else:
module_param.acc_grad = copy.deepcopy(module_param.grad)
model.zero_grad()
del loss.grad
loss = model(example_prompts, labels=example_prompts).loss
logger.log("Loss = {}".format(loss))
loss.backward()
# 1. Consecutive for grouped KV
# 2.
pruner.step()
after_pruning_parameters = sum(p.numel() for p in model.parameters() if p.requires_grad)
logger.log("After Iter {}/{}, #parameters: {}".format(i+1, args.iterative_steps, after_pruning_parameters))
# modify inferece-related attributes
for layer in model.model.layers:
layer.self_attn.num_heads = layer.self_attn.q_proj.weight.data.shape[0] // layer.self_attn.head_dim
layer.self_attn.num_key_value_heads = layer.self_attn.k_proj.weight.data.shape[0] // layer.self_attn.head_dim
# Clean the gradient in the model
model.zero_grad()
for name, module in model.named_parameters():
if 'weight' in name:
module.grad = None
del pruner
elif args.channel_wise:
kwargs = {
"importance": imp,
"global_pruning": args.global_pruning,
"iterative_steps": args.iterative_steps,
"ch_sparsity": args.pruning_ratio, # remove 50% channels, ResNet18 = {64, 128, 256, 512} => ResNet18_Half = {32, 64, 128, 256}
"ignored_layers":[],
#"round_to": model.config.num_attention_heads * 2,
"channel_groups": {
#layer.self_attn: layer.self_attn.num_heads for layer in model.model.layers
},
"customized_pruners": {
LlamaRMSNorm: llama_pruner.hf_rmsnorm_pruner,
#LlamaAttention: llama_pruner.hf_attention_pruner,
},
"root_module_types": [LlamaRMSNorm],
}
pruner = tp.pruner.MetaPruner(
model,
forward_prompts,
**kwargs
)
model.zero_grad()
logger.log("Start Pruning")
for i in range(args.iterative_steps):
if pruner_type in ['taylor']:
example_prompts = get_examples('bookcorpus', tokenizer, 10, seq_len = 64)
logger.log("Start Backwarding in iterative steps = {}...".format(i))
loss = model(example_prompts, labels=example_prompts).loss
logger.log("Loss = {}".format(loss))
loss.backward()
pruner.step()
after_pruning_parameters = sum(p.numel() for p in model.parameters() if p.requires_grad)
logger.log("After Iter {}/{}, #parameters: {}".format(i+1, args.iterative_steps, after_pruning_parameters))
# Clean the gradient in the model
model.zero_grad()
for name, module in model.named_parameters():
if 'weight' in name:
module.grad = None
# modify inferece-related attributes
model.config.hidden_size = model.model.embed_tokens.weight.shape[1]
model.zero_grad()
del pruner
elif args.layer_wise:
model.model.layers = model.model.layers[:args.layer]
after_pruning_parameters = sum(p.numel() for p in model.parameters() if p.requires_grad)
else:
raise NotImplementedError
logger.log("#Param before: {}, #Param after: {}, Ratio = {:.4f}%".format(before_pruning_parameters, after_pruning_parameters, 100.0*after_pruning_parameters/before_pruning_parameters))
gc.collect()
torch.cuda.empty_cache()
if args.save_model:
model.half()
torch.save({
'model': model,
'tokenizer': tokenizer,
}, logger.best_checkpoint_path)
if args.eval_device != "cpu":
model.half()
model.to(args.eval_device)
model.config.pad_token_id = tokenizer.pad_token_id = 0
model.config.bos_token_id = 1
model.config.eos_token_id = 2
if args.test_after_train:
logger.log("\n==================Generation Results After Pruning================\n")
model.eval()
with torch.no_grad():
for prompt in prompts:
input_ids = tokenizer(prompt, return_tensors="pt")['input_ids'].to(args.eval_device)
generation_output = model.generate(
input_ids=input_ids,
do_sample=True,
top_k=50,
max_length=args.max_seq_len,
top_p=args.top_p,
temperature=args.temperature,
)
result = tokenizer.decode(generation_output[0])
logger.log(result)
logger.log("\n==================Finish================\n")
ppl = PPLMetric(model, tokenizer, ['wikitext2', 'ptb'], args.max_seq_len, device=args.eval_device)
logger.log("PPL after pruning: {}".format(ppl))
logger.log("Memory Requirement: {} MiB\n".format(torch.cuda.memory_allocated()/1024/1024))
if __name__ == "__main__":
parser = argparse.ArgumentParser(description='Pruning LLaMA (huggingface version)')
# argument for parsing
parser.add_argument('--base_model', type=str, default="meta-llama/Llama-2-7b-hf", help='base model name')
parser.add_argument('--save_ckpt_log_name', type=str, default="llama_prune", help='the path for save the checkpoint and the log. The final path would be log/{your_name_here}_{pruner_type}_{pruning_ratio}')
parser.add_argument('--pruning_ratio', type=float, default=0.5, help='pruning ratio')
parser.add_argument('--pruner_type', type=str, default='l2', help='pruner type')
# argument for generation
parser.add_argument('--temperature', type=float, default=1.0, help='temperature')
parser.add_argument('--top_p', type=float, default=0.95, help='top p')
parser.add_argument('--max_seq_len', type=int, default=128, help='max sequence length')
# argument for layer-wise pruning/column-wise pruning
parser.add_argument('--channel_wise', action='store_true', help='channel wise')
parser.add_argument('--block_wise', action='store_true', help='block wise')
parser.add_argument('--layer_wise', action='store_true', help='layer wise')
parser.add_argument('--layer', type=int, default=12, help='remain the previous n layers')
parser.add_argument('--block_attention_layer_start', type=int, help='start layer of block attention layers', default=3)
parser.add_argument('--block_attention_layer_end', type=int, help='end layer of block attention layers', default=31)
parser.add_argument('--block_mlp_layer_start', type=int, help='start layer of block mlp layers', default=3)
parser.add_argument('--block_mlp_layer_end', type=int, help='end layer of block mlp layers', default=31)
parser.add_argument('--iterative_steps', type=int, default=1, help="Iteration step for pruning. Default=1")
parser.add_argument('--grouping_strategy', type=str, default='sum', help='Reduce method for grouping')
parser.add_argument('--global_pruning', action='store_true', help='whether global pruning')
parser.add_argument('--taylor', type=str, default='param_first', help='choose from [vectorize, param_second, param_first, param_mix]')
parser.add_argument('--num_examples', type=int, default=10)
# general argument
parser.add_argument('--device', type=str, default="cuda", help='device')
parser.add_argument('--test_before_train', action='store_true', help='whether test before train')
parser.add_argument('--eval_device', type=str, default="cuda", help='eval device')
parser.add_argument('--test_after_train', action='store_true', help='whether test after train')
parser.add_argument('--seed', type=int, default=42, help='seed')
parser.add_argument('--save_model', action='store_true', help='if save model')
args = parser.parse_args()
torch_version = float('.'.join(torch.__version__.split('.')[:2]))
args.torch_version = torch_version
main(args)