mirror of https://github.com/hpcaitech/ColossalAI
160 lines
4.7 KiB
Python
160 lines
4.7 KiB
Python
import math
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import time
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from typing import Callable, Dict, List, Tuple
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import torch
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from colossalai.context import Config, ParallelMode
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from colossalai.utils import MultiTimer
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def get_time_stamp() -> int:
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"""
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Return the time stamp for profiling.
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Returns:
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time_stamp (int): the time given by time.time()
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"""
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torch.cuda.synchronize()
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time_stamp = time.time()
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return time_stamp
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def get_memory_states() -> Tuple[float]:
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"""
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Return the memory statistics.
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Returns:
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max_allocated (float): the allocated CUDA memory
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max_cached (float): the cached CUDA memory
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"""
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max_allocated = torch.cuda.max_memory_allocated() / (1024**3)
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max_cached = torch.cuda.max_memory_reserved() / (1024**3)
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torch.cuda.reset_peak_memory_stats()
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torch.cuda.empty_cache()
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return max_allocated, max_cached
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def find_all_configs(device_cnt: int) -> List[Dict]:
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"""
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Find all possible configurations for tensor parallelism
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Args:
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device_cnt (int): the number of devices
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Returns:
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config_list (List[Dict]): a list of configurations
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"""
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def _is_square(num):
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# 2D parallel should be implemented with at least 2 devices.
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if num <= 1:
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return False
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return math.floor(math.sqrt(num))**2 == num
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def _is_cube(num):
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# 3D parallel should be implemented with at least 2 devices.
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if num <= 1:
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return False
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return math.floor(num**(1. / 3.))**3 == num
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config_list = []
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# add non-parallel config
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config = dict(parallel=dict(tensor=dict(size=device_cnt, mode=None)))
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config_list.append(config)
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# add 1D config
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config = dict(parallel=dict(tensor=dict(size=device_cnt, mode='1d')))
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config_list.append(config)
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# add 2D config only if device_cnt is a square
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if _is_square(device_cnt):
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config = dict(parallel=dict(tensor=dict(size=device_cnt, mode='2d')))
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config_list.append(config)
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# check for 2.5D
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# iterate over depth
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for depth in range(1, device_cnt):
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if device_cnt % depth == 0 and _is_square(device_cnt // depth):
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config = dict(parallel=dict(tensor=dict(size=device_cnt, mode='2.5d', depth=depth)))
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config_list.append(config)
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# check for 3D if device_cnt is a cube
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if _is_cube(device_cnt):
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config = dict(parallel=dict(tensor=dict(size=device_cnt, mode='3d')))
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config_list.append(config)
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config_list = [Config(cfg) for cfg in config_list]
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return config_list
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def profile_model(model: torch.nn.Module, warmup_steps: int, profile_steps: int, data_func: Callable,
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timer: MultiTimer) -> Tuple[float]:
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"""
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Profile the forward and backward of a model
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Args:
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model (torch.nn.Module): a PyTorch model
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warmup_steps (int): the number of steps for warmup
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profile_steps (int): the number of steps for profiling
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data_func (Callable): a function to generate random data
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timer (colossalai.utils.Multitimer): a timer instance for time recording
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Returns:
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fwd_time (float): the average forward time taken by forward pass in second
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bwd_time (float): the average backward time taken by forward pass in second
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max_allocated (float): the maximum GPU memory allocated in GB
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max_cached (float): the maximum GPU memory cached in GB
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"""
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def _run_step(data):
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timer.start('forward')
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out = model(data)
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timer.stop('forward', keep_in_history=True)
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timer.start('backward')
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out.mean().backward()
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timer.stop('backward', keep_in_history=True)
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data_list = [data_func() for _ in range(warmup_steps)]
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for data in data_list:
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_run_step(data)
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timer.reset('forward')
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timer.reset('backward')
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for _ in range(profile_steps):
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data = data_func()
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_run_step(data)
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max_allocated, max_cached = get_memory_states()
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fwd_time = timer.get_timer('forward').get_history_mean()
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bwd_time = timer.get_timer('backward').get_history_mean()
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return fwd_time, bwd_time, max_allocated, max_cached
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def get_batch_data(dim: int, batch_size: int, seq_length: int, mode: ParallelMode) -> torch.Tensor:
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"""
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Return a random data of shape (batch_size, seq_length, dim) for profiling.
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Args:
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dim (int): hidden size
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batch_size (int): the number of data samples
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seq_length (int): the number of tokens
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mode (ParallelMode): Colossal-AI ParallelMode enum
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Returns:
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data (torch.Tensor): random data
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"""
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if mode in ['2d', '2.5d']:
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batch_size = batch_size // 2
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dim = dim // 2
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elif mode == '3d':
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batch_size = batch_size // 4
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dim = dim // 2
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data = torch.rand(batch_size, seq_length, dim).cuda()
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return data
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