mirror of https://github.com/hpcaitech/ColossalAI
341 lines
12 KiB
Python
341 lines
12 KiB
Python
#!/usr/bin/env python
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# -*- encoding: utf-8 -*-
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import random
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import socket
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from typing import List, Union
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import torch
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from torch._six import inf
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from torch.nn.parameter import Parameter
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try:
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import colossal_C
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except:
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pass
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from contextlib import contextmanager
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import torch.distributed as dist
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from colossalai.constants import (IS_TENSOR_PARALLEL, NUM_PARTITIONS,
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TENSOR_PARALLEL_ATTRIBUTES)
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from colossalai.context.parallel_mode import ParallelMode
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from colossalai.core import global_context as gpc
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from colossalai.global_variables import moe_env
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from colossalai.global_variables import tensor_parallel_env as env
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from .multi_tensor_apply import multi_tensor_applier
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def print_rank_0(msg: str, logger=None):
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"""Print messages and save logs(optional). This is executed only if you are the rank-0 gpu.
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:param msg: A string message to output
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:type msg: str
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:param logger: Python logger object, defaults to None
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:type logger: optional
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"""
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if gpc.get_global_rank() == 0:
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if logger is None:
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print(msg, flush=True)
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else:
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logger.info(msg)
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def free_port():
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while True:
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try:
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sock = socket.socket()
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port = random.randint(20000, 65000)
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sock.bind(('localhost', port))
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sock.close()
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return port
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except Exception:
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continue
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def sync_model_param(model, parallel_mode):
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"""Make sure data parameters are consistent during Data Parallel Mode
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:param model: A pyTorch nn.model on whose parameters you check the consistency
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:param parallel_mode: Parallel mode to be checked
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:type model: torch.nn.Module
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:type parallel_mode: colossalai.context.ParallelMode
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"""
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if gpc.is_initialized(parallel_mode) and gpc.get_world_size(parallel_mode) > 1:
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for param in model.parameters():
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ranks = gpc.get_ranks_in_group(parallel_mode)
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dist.broadcast(param, src=ranks[0], group=gpc.get_group(parallel_mode))
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def is_dp_rank_0():
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return not gpc.is_initialized(ParallelMode.DATA) or gpc.is_first_rank(ParallelMode.DATA)
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def is_tp_rank_0():
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return not gpc.is_initialized(ParallelMode.TENSOR) or gpc.is_first_rank(ParallelMode.TENSOR)
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def is_no_pp_or_last_stage():
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return not gpc.is_initialized(ParallelMode.PIPELINE) or gpc.is_last_rank(ParallelMode.PIPELINE)
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def is_using_ddp():
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return gpc.is_initialized(ParallelMode.DATA) and gpc.get_world_size(ParallelMode.DATA) > 1
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def is_using_pp():
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return gpc.is_initialized(ParallelMode.PIPELINE) and gpc.get_world_size(ParallelMode.PIPELINE) > 1
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def is_using_sequence():
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return gpc.is_initialized(ParallelMode.SEQUENCE) and gpc.get_world_size(ParallelMode.SEQUENCE) > 1
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@contextmanager
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def conditional_context(context_manager, enable=True):
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if enable:
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with context_manager:
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yield
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else:
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yield
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class model_branch_context(object):
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def __enter__(self):
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self.env_status = env.save()
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def __exit__(self, *exc_info):
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env.load(**self.env_status)
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def is_model_parallel_parameter(p):
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return hasattr(p, IS_TENSOR_PARALLEL) and getattr(p, IS_TENSOR_PARALLEL)
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def is_moe_parallel_parameter(p):
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return hasattr(p, 'moe_param') and moe_env.data_parallel_size > 1
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def _calc_l2_norm(grads):
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norm = 0.0
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if len(grads) > 0:
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dummy_overflow_buf = torch.cuda.IntTensor([0])
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norm, _ = multi_tensor_applier(
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colossal_C.multi_tensor_l2norm,
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dummy_overflow_buf,
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[grads],
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False # no per-parameter norm
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)
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return norm
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def _calc_lp(grads, norm_type):
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norm = 0.0
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for grad in grads:
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grad_norm = torch.norm(grad, norm_type)
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norm += grad_norm**norm_type
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return norm
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def _move_norm_to_cuda(norm: Union[float, torch.Tensor]) -> Union[float, torch.Tensor]:
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if torch.is_tensor(norm) and norm.device.type != 'cuda':
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norm = norm.to(torch.cuda.current_device())
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return norm
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# ======== Gradient Clipping =========
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def clip_grad_norm_fp32(parameters, max_norm, norm_type=2):
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"""Clips gradient norm of an iterable of parameters whose gradients are in fp32.
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This is adapted from :func:`torch.nn.utils.clip_grad.clip_grad_norm_` and
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added functionality to handle model parallel parameters. Note that
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the gradients are modified in place.
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:param parameters: An iterable of Tensors or a single Tensor that will have gradients normalized
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:type parameters: (Iterable[Tensor] or Tensor)
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:param max_norm: Max norm of the gradients
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:type max_norm: float or int
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:param norm_type: Type of the used p-norm. Can be ``'inf'`` for infinity norm.
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:type norm_type: float or int
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:return: Total norm of the parameters (viewed as a single vector).
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:rtype: float
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"""
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if isinstance(parameters, torch.Tensor):
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parameters = [parameters]
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# Filter parameters based on:
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# - grad should not be none
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# - parameter should not be shared
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# - should not be a replica due to tensor model parallelism
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params: List[Parameter] = []
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has_zero_shared_param: bool = False
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for param in parameters:
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if param.grad is not None:
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# Make sure the grads are in fp32
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assert param.grad.dtype == torch.float, \
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f'expected gradient to be dtype torch.float, but got {param.grad.type()}'
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if hasattr(param, 'zero_is_sharded'):
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has_zero_shared_param = True
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params.append(param)
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if len(params) == 0:
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return 0.0
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# Norm parameters.
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max_norm = float(max_norm)
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norm_type = float(norm_type)
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# Parameters can be on CPU or CUDA
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# If parameters are on CPU, disable CUDA kernerls
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enable_cuda_kernels = params[0].grad.device.type == 'cuda'
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# Calculate norm.
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if norm_type == inf:
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total_norm = max(p.grad.data.abs().max() for p in params)
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total_norm_cuda = torch.cuda.FloatTensor([float(total_norm)])
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# Take max across all model-parallel GPUs.
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if gpc.is_initialized(ParallelMode.MODEL) and gpc.get_world_size(ParallelMode.MODEL) > 1:
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dist.all_reduce(total_norm_cuda,
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op=dist.ReduceOp.MAX,
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group=gpc.get_group(ParallelMode.MODEL),
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async_op=False)
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if has_zero_shared_param:
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dist.all_reduce(total_norm_cuda,
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op=dist.ReduceOp.MAX,
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group=gpc.get_group(ParallelMode.DATA),
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async_op=False)
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total_norm = total_norm_cuda[0].item()
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else:
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tensor_parallel_grads = []
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no_tensor_parallel_grads = []
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moe_parallel_grads = [] # used to collect moe tensor parallel gradients
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zero_sharded_grads = []
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for p in params:
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if is_model_parallel_parameter(p):
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reductor = (gpc.get_world_size(ParallelMode.TENSOR) / getattr(p, NUM_PARTITIONS))**(1 / norm_type)
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tensor_parallel_grads.append(p.grad.data / reductor)
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elif is_moe_parallel_parameter(p):
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moe_parallel_grads.append(p.grad.data)
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elif hasattr(p, 'zero_is_sharded'):
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zero_sharded_grads.append(p.grad.data)
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else:
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no_tensor_parallel_grads.append(p.grad.data)
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if norm_type == 2.0 and enable_cuda_kernels:
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tensor_parallel_norm = _calc_l2_norm(
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tensor_parallel_grads) ** norm_type
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no_tensor_parallel_norm = _calc_l2_norm(
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no_tensor_parallel_grads) ** norm_type
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moe_parallel_norm = _calc_l2_norm(
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moe_parallel_grads) ** norm_type
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zero_sharded_norm = _calc_l2_norm(zero_sharded_grads) ** norm_type
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else:
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tensor_parallel_norm = _calc_lp(tensor_parallel_grads, norm_type)
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no_tensor_parallel_norm = _calc_lp(no_tensor_parallel_grads, norm_type)
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moe_parallel_norm = _calc_lp(moe_parallel_grads, norm_type)
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zero_sharded_norm = _calc_lp(zero_sharded_grads, norm_type)
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# If grads are on CPU, the norms is also on CPU. Cast them to CUDA tensors
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if not enable_cuda_kernels:
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tensor_parallel_norm = _move_norm_to_cuda(tensor_parallel_norm)
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no_tensor_parallel_norm = _move_norm_to_cuda(no_tensor_parallel_norm)
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moe_parallel_norm = _move_norm_to_cuda(moe_parallel_norm)
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zero_sharded_norm = _move_norm_to_cuda(zero_sharded_norm)
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# Sum across all model-parallel GPUs.
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if gpc.is_initialized(ParallelMode.TENSOR) and len(tensor_parallel_grads) > 0:
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dist.all_reduce(tensor_parallel_norm, op=dist.ReduceOp.SUM, group=gpc.get_group(ParallelMode.TENSOR))
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# Sum across all moe-tensor-parallel GPUs
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if len(moe_parallel_grads) > 0:
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dist.all_reduce(moe_parallel_norm, group=gpc.get_group(ParallelMode.MOE_MODEL))
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no_tensor_parallel_norm += moe_parallel_norm
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# Sum across all zero sharded GPUs
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if len(zero_sharded_grads) > 0:
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dist.all_reduce(zero_sharded_norm, group=gpc.get_group(ParallelMode.DATA))
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no_tensor_parallel_norm += zero_sharded_norm
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total_norm = tensor_parallel_norm + no_tensor_parallel_norm
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if gpc.is_initialized(ParallelMode.PIPELINE) and gpc.get_world_size(ParallelMode.PIPELINE) > 1:
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dist.all_reduce(total_norm,
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op=dist.ReduceOp.SUM,
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group=gpc.get_group(ParallelMode.PIPELINE))
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total_norm = total_norm ** (1.0 / norm_type)
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if torch.is_tensor(total_norm):
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total_norm = total_norm.item()
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# Scale.
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clip_coeff = max_norm / (total_norm + 1.0e-6)
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if clip_coeff < 1.0:
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if enable_cuda_kernels:
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grads = [p.grad.detach() for p in params]
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dummy_overflow_buf = torch.cuda.IntTensor([0])
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multi_tensor_applier(colossal_C.multi_tensor_scale,
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dummy_overflow_buf,
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[grads, grads],
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clip_coeff)
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else:
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for p in params:
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p.grad.detach().mul_(clip_coeff)
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return total_norm
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def count_zeros_fp32(parameters):
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if isinstance(parameters, torch.Tensor):
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parameters = [parameters]
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# Filter parameters based on:
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# - grad should not be none
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# - parameter should not be shared
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# - should not be a replica due to tensor model parallelism
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total_num_zeros = 0.0
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for param in parameters:
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grad_not_none = param.grad is not None
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is_not_tp_duplicate = param_is_not_tensor_parallel_duplicate(param)
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if grad_not_none and is_not_tp_duplicate:
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grad = param.grad.detach()
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num_zeros = grad.numel() - torch.count_nonzero(grad)
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total_num_zeros = num_zeros + total_num_zeros
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total_num_zeros = torch.IntTensor([int(total_num_zeros)]).cuda()
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# Sum across all model-parallel GPUs.
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ops = []
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ops.append(
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dist.all_reduce(total_num_zeros, op=dist.ReduceOp.SUM, group=gpc.get_group(ParallelMode.TENSOR), async_op=True))
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if gpc.is_initialized(ParallelMode.PIPELINE):
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ops.append(
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dist.all_reduce(total_num_zeros,
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op=dist.ReduceOp.SUM,
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group=gpc.get_group(ParallelMode.PIPELINE),
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async_op=True))
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for req in ops:
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req.wait()
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total_num_zeros = total_num_zeros.item()
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return total_num_zeros
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def copy_tensor_parallel_attributes(src_tensor, dst_tensor):
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for attr in TENSOR_PARALLEL_ATTRIBUTES:
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if hasattr(src_tensor, attr):
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val = getattr(src_tensor, attr)
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setattr(dst_tensor, attr, val)
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def param_is_not_tensor_parallel_duplicate(param):
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return (hasattr(param, IS_TENSOR_PARALLEL) and getattr(param, IS_TENSOR_PARALLEL)) or (gpc.get_local_rank(
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ParallelMode.TENSOR) == 0)
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@contextmanager
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def switch_virtual_pipeline_parallel_rank(rank):
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prev_rank = gpc.virtual_pipeline_parallel_rank
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try:
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gpc.set_virtual_pipeline_parallel_rank(rank)
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yield
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finally:
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gpc.set_virtual_pipeline_parallel_rank(prev_rank)
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