mirror of
https://github.com/nomic-ai/gpt4all
synced 2024-11-08 07:10:32 +00:00
205 lines
8.4 KiB
Python
205 lines
8.4 KiB
Python
from transformers import AutoModelForCausalLM, AutoTokenizer
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import torch
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import torch.nn as nn
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from argparse import ArgumentParser
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from read import read_config
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from accelerate.utils import set_seed
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from data import load_data_for_inference
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from tqdm import tqdm
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from datasets import Dataset
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import torch.distributed as dist
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from transformers.trainer_pt_utils import nested_numpify
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from transformers import DefaultDataCollator
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from torch.utils.data import DataLoader, DistributedSampler
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import numpy as np
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import pyarrow as pa
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from pyarrow import compute as pc
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def calc_cross_entropy_no_reduction(lm_logits, labels):
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# calculate cross entropy across batch dim
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shift_logits = lm_logits[..., :-1, :].contiguous()
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shift_labels = labels[..., 1:].contiguous()
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# Flatten the tokens
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loss_fct = nn.CrossEntropyLoss(reduction='none')
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loss = loss_fct(shift_logits.permute(0, 2, 1), shift_labels).mean(dim=1)
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return loss
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def rank0_print(msg):
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if dist.get_rank() == 0:
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print(msg)
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def inference(config):
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set_seed(config['seed'])
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rank0_print(f"World size: {dist.get_world_size()}")
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tokenizer = AutoTokenizer.from_pretrained(config['tokenizer_name'], model_max_length=config['max_length'])
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# llama has no pad token, set it to new token
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if tokenizer.pad_token is None:
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tokenizer.pad_token = tokenizer.eos_token
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train_dataset, val_dataset = load_data_for_inference(config, tokenizer)
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num_processes = dist.get_world_size()
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local_rank = dist.get_rank()
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train_sampler = DistributedSampler(train_dataset, shuffle=False, drop_last=True, num_replicas=num_processes, rank=local_rank)
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train_dataloader = DataLoader(
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train_dataset,
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collate_fn=DefaultDataCollator(),
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batch_size=config["batch_size"],
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sampler=train_sampler,
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drop_last=True
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)
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val_sampler = DistributedSampler(val_dataset, shuffle=False, drop_last=True, num_replicas=num_processes, rank=local_rank)
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val_dataloader = DataLoader(
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val_dataset,
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collate_fn=DefaultDataCollator(),
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batch_size=config["batch_size"],
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sampler=val_sampler,
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drop_last=True
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)
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model = AutoModelForCausalLM.from_pretrained(config["model_name"],
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trust_remote_code=True,
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torch_dtype=torch.bfloat16,
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)
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model.to(f"cuda:{local_rank}")
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with torch.no_grad():
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train_outputs = {"loss": [], "embeddings": [], "index": []}
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for batch in tqdm(train_dataloader, disable=local_rank != 0):
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batch["input_ids"] = batch["input_ids"].to(f"cuda:{local_rank}")
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batch["labels"] = batch["labels"].to(f"cuda:{local_rank}")
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outputs = model(input_ids=batch["input_ids"], labels=batch["labels"], output_hidden_states=True)
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loss = calc_cross_entropy_no_reduction(outputs.logits, batch["labels"])
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train_outputs["loss"].extend(loss)
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embeddings = outputs.hidden_states[-1]
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batch_size = batch["input_ids"].shape[0]
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sequence_lengths = []
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# since we use mutiturn with multiple <|endoftext|>, we need to find the place where
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# <|endoftext|> is repeated
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for item in batch["input_ids"]:
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indices = torch.where(item == tokenizer.pad_token_id)[0]
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found = False
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for index in indices:
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# case where sequence is less than max length
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if torch.all(item[index:] == tokenizer.pad_token_id):
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sequence_lengths.append(index)
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found = True
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break
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# case where sequence is >= max length
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if not found:
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sequence_lengths.append(len(item) - 1)
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sequence_lengths = torch.tensor(sequence_lengths)
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pooled_logits = embeddings[torch.arange(batch_size, device=embeddings.device), sequence_lengths]
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train_outputs["embeddings"].append(pooled_logits)
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train_outputs["index"].extend(batch["index"].to(model.device))
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torch.cuda.empty_cache()
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train_outputs = nested_numpify(train_outputs)
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# stack since they're 0-dim arrays
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train_outputs["index"] = np.stack(train_outputs["index"])
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train_outputs["loss"] = np.stack(train_outputs["loss"])
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train_outputs["embeddings"] = np.concatenate(train_outputs["embeddings"])
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df_train = Dataset.from_dict(train_outputs)
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curr_idx = df_train["index"]
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# compute mask in pyarrow since it's super fast
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# ty @bmschmidt for showing me this!
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table = train_dataset.data
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mask = pc.is_in(table['index'], value_set=pa.array(curr_idx, pa.int32()))
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filtered_table = table.filter(mask)
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# convert from pyarrow to Dataset
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filtered_train = Dataset.from_dict(filtered_table.to_pydict())
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filtered_train = filtered_train.add_column("embeddings", df_train["embeddings"])
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filtered_train = filtered_train.add_column("loss", df_train["loss"])
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filtered_train = filtered_train.add_column("is_train", [True] * len(filtered_train))
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filtered_train.to_json(f"inference/epoch_2_embeddings_train_shard_{local_rank}.jsonl", lines=True, orient="records", num_proc=64)
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val_outputs = {"loss": [], "embeddings": [], "index": []}
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for batch in tqdm(val_dataloader, disable=local_rank != 0):
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batch["input_ids"] = batch["input_ids"].to(f"cuda:{local_rank}")
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batch["labels"] = batch["labels"].to(f"cuda:{local_rank}")
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outputs = model(input_ids=batch["input_ids"], labels=batch["labels"], output_hidden_states=True)
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loss = calc_cross_entropy_no_reduction(outputs.logits, batch["labels"])
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val_outputs["loss"].extend(loss)
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embeddings = outputs.hidden_states[-1]
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batch_size = batch["input_ids"].shape[0]
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sequence_lengths = []
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# since we use mutiturn with multiple <|endoftext|>, we need to find the place where
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# <|endoftext|> is repeated
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for item in batch["input_ids"]:
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indices = torch.where(item == tokenizer.pad_token_id)[0]
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found = False
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for index in indices:
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# case where sequence is less than max length
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if torch.all(item[index:] == tokenizer.pad_token_id):
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sequence_lengths.append(index)
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found = True
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break
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# case where sequence is >= max length
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if not found:
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sequence_lengths.append(len(item) - 1)
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sequence_lengths = torch.tensor(sequence_lengths)
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pooled_logits = embeddings[torch.arange(batch_size, device=embeddings.device), sequence_lengths]
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val_outputs["embeddings"].append(pooled_logits)
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val_outputs["index"].extend(batch["index"].to(model.device))
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torch.cuda.empty_cache()
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val_outputs = nested_numpify(val_outputs)
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val_outputs["index"] = np.stack(val_outputs["index"])
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val_outputs["loss"] = np.stack(val_outputs["loss"])
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val_outputs["embeddings"] = np.concatenate(val_outputs["embeddings"])
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df_val = Dataset.from_dict(val_outputs)
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curr_idx = df_val["index"]
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# compute mask in pyarrow since it's super fast
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# ty @bmschmidt for showing me this!
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table = val_dataset.data
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mask = pc.is_in(table['index'], value_set=pa.array(curr_idx, pa.int32()))
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filtered_table = table.filter(mask)
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# convert from pyarrow to Dataset
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filtered_val = Dataset.from_dict(filtered_table.to_pydict())
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filtered_val = filtered_val.add_column("embeddings", df_val["embeddings"])
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filtered_val = filtered_val.add_column("loss", df_val["loss"])
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filtered_val = filtered_val.add_column("is_train", [False] * len(filtered_val))
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filtered_val.to_json(f"inference/epoch_2_embeddings_val_shard_{local_rank}.jsonl", lines=True, orient="records", num_proc=64)
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def main():
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dist.init_process_group("nccl")
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parser = ArgumentParser()
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parser.add_argument("--config", type=str, default="config.yaml")
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args = parser.parse_args()
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config = read_config(args.config)
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inference(config)
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if __name__ == "__main__":
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# parse arguments by reading in a config
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main()
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