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train.py
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train.py
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import gzip
import random
import tqdm
import numpy as np
import torch
from torch.optim import Adam
from torch.nn import functional as F
from torch.utils.data import DataLoader, Dataset
from palm_rlhf_pytorch import PaLM
from accelerate import Accelerator
# constants
NUM_BATCHES = int(1e5)
BATCH_SIZE = 4
GRADIENT_ACCUMULATE_EVERY = 4
LEARNING_RATE = 2e-4
VALIDATE_EVERY = 100
PRIME_LENGTH = 128
GENERATE_EVERY = 500
GENERATE_LENGTH = 512
SEQ_LEN = 1024
# helpers
def cycle(loader):
while True:
for data in loader:
yield data
def decode_token(token):
return str(chr(max(32, token)))
def decode_tokens(tokens):
return "".join(list(map(decode_token, tokens)))
# accelerator
accelerator = Accelerator()
device = accelerator.device
# instantiate palm
model = PaLM(
num_tokens=256,
dim=512,
depth=8
).to(device)
# prepare enwik8 data
with gzip.open("./data/enwik8.gz") as file:
data = np.frombuffer(file.read(int(95e6)), dtype=np.uint8).copy()
np_train, np_valid = np.split(data, [int(90e6)])
data_train, data_val = torch.from_numpy(np_train), torch.from_numpy(np_valid)
class TextSamplerDataset(Dataset):
def __init__(self, data, seq_len):
super().__init__()
self.data = data
self.seq_len = seq_len
def __getitem__(self, index):
rand_start = torch.randint(0, self.data.size(0) - self.seq_len, (1,))
full_seq = self.data[rand_start : rand_start + self.seq_len + 1].long()
return full_seq.to(device)
def __len__(self):
return self.data.size(0) // self.seq_len
train_dataset = TextSamplerDataset(data_train, SEQ_LEN)
val_dataset = TextSamplerDataset(data_val, SEQ_LEN)
train_loader = cycle(DataLoader(train_dataset, batch_size=BATCH_SIZE))
val_loader = cycle(DataLoader(val_dataset, batch_size=BATCH_SIZE))
# optimizer
optim = Adam(model.palm_parameters(), lr=LEARNING_RATE)
model, optim, train_loader, val_loader = accelerator.prepare(
model, optim, train_loader, val_loader
)
# training
for i in tqdm.tqdm(range(NUM_BATCHES), mininterval=10.0, desc="training"):
model.train()
for _ in range(GRADIENT_ACCUMULATE_EVERY):
loss = model(next(train_loader), return_loss = True)
accelerator.backward(loss / GRADIENT_ACCUMULATE_EVERY)
accelerator.print(f"training loss: {loss.item()}")
accelerator.clip_grad_norm_(model.parameters(), 0.5)
optim.step()
optim.zero_grad()
if i % VALIDATE_EVERY == 0:
model.eval()
with torch.no_grad():
loss = model(next(val_loader), return_loss = True)
accelerator.print(f"validation loss: {loss.item()}")
if i % GENERATE_EVERY == 0:
model.eval()
inp = random.choice(val_dataset)[:PRIME_LENGTH]
prime = decode_tokens(inp)
accelerator.print(f"%s \n\n %s", (prime, "*" * 100))
sample = model.generate(GENERATE_LENGTH, inp[None, ...])
output_str = decode_tokens(sample[0])
accelerator.print(output_str, "\n")