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test_gptq_mt.py
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test_gptq_mt.py
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import unittest
import torch
import os
from pathlib import Path
from torchao._models.llama.tokenizer import get_tokenizer
from torchao._models.llama.model import Transformer, prepare_inputs_for_model
from torchao.quantization.GPTQ_MT import Int4WeightOnlyGPTQQuantizer, MultiTensor
import sys
from safetensors.torch import load_file # Import safetensors loader
import torch.nn.functional as F
from torchao.quantization.utils import _lm_eval_available
if _lm_eval_available:
import lm_eval
try: # lm_eval version 0.4
from lm_eval.evaluator import evaluate
from lm_eval.models.huggingface import HFLM as eval_wrapper
from lm_eval.tasks import get_task_dict
except: # lm_eval version 0.3
from lm_eval import base, evaluator, tasks
eval_wrapper = base.BaseLM
get_task_dict = tasks.get_task_dict
evaluate = evaluator.evaluate
class InputRecorder(eval_wrapper):
def __init__(
self,
tokenizer,
calibration_seq_length,
input_prep_func=None,
pad_calibration_inputs=False,
vocab_size=32000,
pad_token=0,
device="cpu",
):
try:
super().__init__()
except TypeError:
# lm_eval 0.4.2 removed the default init
super().__init__("gpt2", device="cpu")
self.tokenizer = tokenizer
self._device = torch.device(device)
self.vocab_size = vocab_size
self._max_seq_length = calibration_seq_length
self.calibration_seq_length = calibration_seq_length
self.input_prep_func = (
input_prep_func if input_prep_func is not None
else lambda x: (x,)
)
self.pad_calibration_inputs = pad_calibration_inputs
self.pad_token = pad_token
self.inputs = []
@property
def eot_token_id(self):
try:
return self.tokenizer.eos_id()
except:
return self.tokenizer.eos_id
@property
def max_length(self):
return self._max_seq_length
@property
def max_gen_toks(self):
return 50
@property
def batch_size(self):
return 1
@property
def device(self):
return self._device
def tok_encode(self, string: str, **kwargs):
tokens = self.tokenizer.encode(string)
if hasattr(self.tokenizer, "bos_id"):
try:
tokens = [self.tokenizer.bos_id()] + tokens
except:
tokens = [self.tokenizer.bos_id] + tokens
return tokens
def tok_decode(self, tokens):
decoded = self.tokenizer.decode(tokens)
return decoded
def add_input(self, args):
self.inputs.append(args)
def record_inputs(
self,
calibration_tasks,
calibration_limit,
):
try:
lm_eval.tasks.initialize_tasks()
except:
pass
task_dict = get_task_dict(calibration_tasks)
print("Obtaining GPTQ calibration inputs on: ", calibration_tasks)
evaluate(
self,
task_dict,
limit=calibration_limit,
)
return self
def get_inputs(self):
return self.inputs
def _model_call(self, inps):
inps = inps.squeeze(0)
T = len(inps)
if (
# can't use inputs that are too short when padding disabled
(T < self.calibration_seq_length and not self.pad_calibration_inputs)
or
# can't use inputs that actually use token we use for padding
(self.pad_calibration_inputs and self.pad_token in inps)
):
# give random output
return torch.randn(
(1, T, self.vocab_size), dtype=torch.bfloat16, device=self._device
)
# pad or truncate to the right size
if T >= self.calibration_seq_length:
inps = inps[: self.calibration_seq_length]
else:
inps = F.pad(inps, (self.pad_token, self.calibration_seq_length - T))
inps = inps.unsqueeze(0)
model_in = self.input_prep_func(inps)
self.add_input(model_in)
# output `something` with correct shape to keep eval going
return torch.randn(
(1, T, self.vocab_size), dtype=torch.bfloat16, device=self._device
)
def _model_generate(self, context, max_length, eos_token_id):
raise Exception("unimplemented")
import logging
import time
logging.basicConfig(level=logging.INFO)
logger = logging.getLogger(__name__)
class TransformerEvalWrapper(InputRecorder):
"""
A wrapper class for GPTFast, providing integration with the lm-evaluation-harness library.
"""
def __init__(
self,
model,
tokenizer,
max_seq_length,
input_prep_func=None,
device="cuda"
):
super().__init__(tokenizer, None)
self._model = model
# self.tokenizer = tokenizer
self._device = torch.device(device)
self._max_seq_length = max_seq_length
# need to take inps and convert to corrent input
# for model
self.input_prep_func = (
input_prep_func if input_prep_func is not None
else lambda x: (x,)
)
def _model_call(self, inps):
# print("Entering _model_call")
# print(f"Input shape: {inps.shape}")
input = self.input_prep_func(inps)
# print(f"Processed input shapes: {[x.shape for x in input]}")
input = [x.to(self._device) for x in input]
# print(f"Inputs moved to device: {self._device}")
max_seq_length = min(max(inps.size()), self.max_length)
# print(f"Max sequence length: {max_seq_length}")
# print("Setting up caches")
with torch.device(self._device):
# print(f"Device: {self._device}")
# print(f"Batch size: {self.batch_size}")
# print(f"Max sequence length: {max_seq_length}")
self._model.setup_caches(self.batch_size, max_seq_length)
# print("Caches set up")
# print("Running model")
# torch.save(input, "input.pt")
logits = self._model(*input)
# print(f"Model run complete. Logits shape: {logits.shape}")
return logits
def _model_generate(self, context, max_length, eos_token_id):
raise Exception('unimplemented')
def run_eval(self, tasks, limit):
logger.info(f"Starting evaluation on tasks: {tasks}")
logger.info(f"Evaluation limit: {limit}")
try:
logger.info("Initializing lm_eval tasks")
lm_eval.tasks.initialize_tasks()
except Exception as e:
logger.warning(f"Failed to initialize tasks: {e}")
logger.info("Continuing without initialization")
try:
logger.info("Getting task dictionary")
task_dict = get_task_dict(tasks)
logger.info(f"Task dictionary: {task_dict}")
except Exception as e:
logger.error(f"Failed to get task dictionary: {e}")
raise
logger.info("Starting evaluation")
start_time = time.time()
try:
with torch.no_grad():
result = evaluate(
self,
task_dict,
limit=limit,
verbosity= "DEBUG"
)
except Exception as e:
logger.error(f"Evaluation failed: {e}")
raise
end_time = time.time()
logger.info(f"Evaluation completed in {end_time - start_time:.2f} seconds")
logger.info("Evaluation results:")
for task, res in result["results"].items():
print(f"{task}: {res}")
return result
precision = torch.bfloat16
device = "cuda"
print("Loading model")
checkpoint_path = Path("checkpoints/meta-llama/Llama-2-7b-chat-hf/model.pth")
model = Transformer.from_name(checkpoint_path.parent.name)
checkpoint = torch.load(str(checkpoint_path), mmap=True, weights_only=True)
model.load_state_dict(checkpoint, assign=True)
model = model.to(dtype=precision, device="cpu")
model.eval()
print("Model loaded")
tokenizer_path = checkpoint_path.parent / "tokenizer.model"
assert tokenizer_path.is_file(), tokenizer_path
tokenizer = get_tokenizer( # pyre-ignore[28]
tokenizer_path,
"Llama-2-7b-chat-hf",
)
print("Tokenizer loaded")
blocksize = 128
percdamp = 0.01
groupsize = 64
calibration_tasks = ["wikitext"]
calibration_limit = None
calibration_seq_length = 100
input_prep_func = prepare_inputs_for_model
pad_calibration_inputs = False
print("Recording inputs")
inputs = InputRecorder(
tokenizer,
calibration_seq_length,
input_prep_func,
pad_calibration_inputs,
model.config.vocab_size,
device="cpu",
).record_inputs(
calibration_tasks,
calibration_limit,
).get_inputs()
print("Inputs recorded")
quantizer = Int4WeightOnlyGPTQQuantizer(
blocksize,
percdamp,
groupsize,
)
model.setup_caches(max_batch_size=1, max_seq_length=calibration_seq_length)
multi = [MultiTensor([ inp for inp, _ in inputs]),MultiTensor([ inds for _, inds in inputs])]
print("Quantizing model")
model = quantizer.quantize(model, multi).cuda()
print("Model quantized")
print("Saving model and fixing state dict")
regular_state_dict = model.state_dict()#defaultdict(torch.tensor)
for key, value in model.state_dict().items():
if isinstance(value, MultiTensor):
regular_state_dict[key] = value.values[0]
else:
regular_state_dict[key] = value
model = Transformer.from_name(checkpoint_path.parent.name)
remove = [k for k in regular_state_dict if "kv_cache" in k]
for k in remove:
del regular_state_dict[k]
model.load_state_dict(regular_state_dict, assign=True)
torch.save(model.state_dict(), 'model.pth')
print("Running evaluation")
result = TransformerEvalWrapper(
model.to(device), # quantized model needs to run on cuda
tokenizer,
model.config.block_size,
prepare_inputs_for_model,
).run_eval(
["wikitext"],
None,
)
# wikitext: {'word_perplexity,none': 12.523175352665858, 'word_perplexity_stderr,none': 'N/A', 'byte_perplexity,none': 1.6042723245990418, 'byte_perplexity_stderr,none': 'N/A', 'bits_per_byte,none': 0.681919059499152, 'bits_per_byte_stderr,none': 'N/A', 'alias': 'wikitext'}