mirror of
https://github.com/osmarks/nanogpt-experiments.git
synced 2024-12-18 14:10:28 +00:00
118 lines
4.6 KiB
Python
118 lines
4.6 KiB
Python
"""
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A much shorter version of train.py for benchmarking
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"""
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import os
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from contextlib import nullcontext
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import numpy as np
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import time
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import torch
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from model import GPTConfig, GPT
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# -----------------------------------------------------------------------------
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batch_size = 12
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block_size = 1024
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bias = False
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real_data = True
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seed = 1337
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device = 'cuda' # examples: 'cpu', 'cuda', 'cuda:0', 'cuda:1', etc.
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dtype = 'bfloat16' # 'float32' or 'bfloat16' or 'float16'
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compile = True # use PyTorch 2.0 to compile the model to be faster
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profile = False # use pytorch profiler, or just simple benchmarking?
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exec(open('configurator.py').read()) # overrides from command line or config file
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# -----------------------------------------------------------------------------
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torch.manual_seed(seed)
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torch.cuda.manual_seed(seed)
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torch.backends.cuda.matmul.allow_tf32 = True # allow tf32 on matmul
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torch.backends.cudnn.allow_tf32 = True # allow tf32 on cudnn
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device_type = 'cuda' if 'cuda' in device else 'cpu' # for later use in torch.autocast
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ptdtype = {'float32': torch.float32, 'bfloat16': torch.bfloat16, 'float16': torch.float16}[dtype]
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ctx = nullcontext() if device_type == 'cpu' else torch.amp.autocast(device_type=device_type, dtype=ptdtype)
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# data loading init
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if real_data:
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dataset = 'openwebtext'
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data_dir = os.path.join('data', dataset)
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train_data = np.memmap(os.path.join(data_dir, 'train.bin'), dtype=np.uint16, mode='r')
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def get_batch(split):
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data = train_data # note ignore split in benchmarking script
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ix = torch.randint(len(data) - block_size, (batch_size,))
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x = torch.stack([torch.from_numpy((data[i:i+block_size]).astype(np.int64)) for i in ix])
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y = torch.stack([torch.from_numpy((data[i+1:i+1+block_size]).astype(np.int64)) for i in ix])
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x, y = x.pin_memory().to(device, non_blocking=True), y.pin_memory().to(device, non_blocking=True)
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return x, y
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else:
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# alternatively, if fixed data is desired to not care about data loading
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x = torch.randint(50304, (batch_size, block_size), device=device)
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y = torch.randint(50304, (batch_size, block_size), device=device)
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get_batch = lambda split: (x, y)
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# model init
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gptconf = GPTConfig(
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block_size = block_size, # how far back does the model look? i.e. context size
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n_layer = 12, n_head = 12, n_embd = 768, # size of the model
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dropout = 0, # for determinism
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bias = bias,
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)
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model = GPT(gptconf)
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model.to(device)
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optimizer = model.configure_optimizers(weight_decay=1e-2, learning_rate=1e-4, betas=(0.9, 0.95), device_type=device_type)
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if compile:
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print("Compiling model...")
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model = torch.compile(model) # pytorch 2.0
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if profile:
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# useful docs on pytorch profiler:
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# - tutorial https://pytorch.org/tutorials/intermediate/tensorboard_profiler_tutorial.html
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# - api https://pytorch.org/docs/stable/profiler.html#torch.profiler.profile
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wait, warmup, active = 5, 5, 5
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num_steps = wait + warmup + active
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with torch.profiler.profile(
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activities=[torch.profiler.ProfilerActivity.CPU, torch.profiler.ProfilerActivity.CUDA],
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schedule=torch.profiler.schedule(wait=wait, warmup=warmup, active=active, repeat=1),
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on_trace_ready=torch.profiler.tensorboard_trace_handler('./bench_log'),
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record_shapes=False,
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profile_memory=False,
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with_stack=False, # incurs an additional overhead, disable if not needed
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with_flops=True,
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with_modules=False, # only for torchscript models atm
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) as prof:
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X, Y = get_batch('train')
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for k in range(num_steps):
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with ctx:
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logits, loss = model(X, Y)
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X, Y = get_batch('train')
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optimizer.zero_grad(set_to_none=True)
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loss.backward()
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optimizer.step()
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lossf = loss.item()
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print(f"{k}/{num_steps} loss: {lossf:.4f}")
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prof.step() # notify the profiler at end of each step
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else:
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# simple benchmarking
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torch.cuda.synchronize()
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for stage, num_steps in enumerate([10, 20]): # burnin, then benchmark
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t0 = time.time()
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X, Y = get_batch('train')
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for k in range(num_steps):
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with ctx:
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logits, loss = model(X, Y)
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X, Y = get_batch('train')
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optimizer.zero_grad(set_to_none=True)
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loss.backward()
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optimizer.step()
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lossf = loss.item()
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print(f"{k}/{num_steps} loss: {lossf:.4f}")
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torch.cuda.synchronize()
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t1 = time.time()
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dt = t1-t0
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mfu = model.estimate_mfu(batch_size * 1 * num_steps, dt)
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if stage == 1:
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print(f"time per iteration: {dt/num_steps*1000:.4f}ms, MFU: {mfu*100:.2f}%")
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