Andromeda / train_simple.py
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import gzip
import random
import numpy as np
import torch
import torch.optim as optim
import tqdm
from torch.utils.data import DataLoader, Dataset
from Andromeda.model import Andromeda
from Andromeda.core.transformer import Decoder, AndromedaEmbedding, Transformer
from Andromeda.core.autoregressive_wrapper import AutoregressiveWrapper
# constants
NUM_BATCHES = int(1e5)
BATCH_SIZE = 4
GRADIENT_ACCUMULATE_EVERY = 1
LEARNING_RATE = 1e-4
VALIDATE_EVERY = 100
GENERATE_EVERY = 500
GENERATE_LENGTH = 1024
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)))
# instantiate GPT-like decoder model
model = Transformer(
num_tokens=50432,
max_seq_len=8192,
use_abs_pos_emb=False,
embedding_provider=AndromedaEmbedding(),
attn_layers=Decoder(
dim=2560,
depth=32,
dim_head=128,
heads=24,
alibi_pos_bias=True,
alibi_num_heads=12,
rotary_xpos=True,
attn_flash=True,
# deepnorm=deepnorm,
# shift_tokens=shift_tokens,
attn_one_kv_head=True,
qk_norm=True,
attn_qk_norm=True,
attn_qk_norm_dim_scale=True
)
)
model = AutoregressiveWrapper(model)
model.cuda()
# prepare enwik8 data
with gzip.open('./data/enwik8.gz') as file:
data = np.frombuffer(file.read(int(95e6)), dtype=np.uint8).copy()
train_x, valid_x = np.split(data, [int(90e6)])
data_train, data_val = torch.from_numpy(train_x), torch.from_numpy(valid_x)
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, (1,))
full_seq = self.data[rand_start: rand_start + self.seq_len + 1].long()
return full_seq.cuda()
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, drop_last = True))
val_loader = cycle(DataLoader(val_dataset, batch_size = BATCH_SIZE, drop_last = True))
# optimizer
optim = torch.optim.Adam(model.parameters(), lr=LEARNING_RATE)
# training
for i in tqdm.tqdm(range(NUM_BATCHES), mininterval=10., desc='training'):
model.train()
for __ in range(GRADIENT_ACCUMULATE_EVERY):
loss = model(next(train_loader))
(loss / GRADIENT_ACCUMULATE_EVERY).backward()
print(f'training loss: {loss.item()}')
torch.nn.utils.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))
print(f'validation loss: {loss.item()}')
#save the model weights
torch.save(model.state_dict(), f"./model_{i}.pth")
if i % GENERATE_EVERY == 0:
model.eval()
inp = random.choice(val_dataset)[:-1]
prime = decode_tokens(inp)
print('%s \n\n %s', (prime, '*' * 100))
sample = model.generate(inp, GENERATE_LENGTH)
output_str = decode_tokens(sample)
print(output_str)