# Copyright 2020-2024 Huawei Technologies Co., Ltd
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
# ============================================================================
"""
The context of mindspore, used to configure the current execution environment,
includes the execution mode, execution backend and other feature switches.
"""
from __future__ import absolute_import
import json
import os
import time
import threading
from collections import namedtuple
from types import FunctionType
from mindspore import log as logger
from mindspore._c_expression import MSContext, ms_ctx_param
from mindspore import _checkparam as Validator
from mindspore._checkparam import args_type_check
from mindspore.parallel._auto_parallel_context import _set_auto_parallel_context, _get_auto_parallel_context, \
_reset_auto_parallel_context
from mindspore.parallel._ps_context import _set_ps_context, _get_ps_context, _reset_ps_context, \
_need_reset_device_target_for_ps
from mindspore.parallel._offload_context import _set_offload_context, _get_offload_context
from mindspore.hal.device import is_initialized
from mindspore.common import api
__all__ = ['GRAPH_MODE', 'PYNATIVE_MODE', 'STRICT', 'COMPATIBLE', 'LAX', 'set_context', 'get_context',
'set_auto_parallel_context', 'get_auto_parallel_context', 'reset_auto_parallel_context', 'ParallelMode',
'set_ps_context', 'get_ps_context', 'reset_ps_context', 'set_offload_context', 'get_offload_context']
GRAPH_MODE = 0
PYNATIVE_MODE = 1
_DEVICE_APP_MEMORY_SIZE = 31 # The max memory size of graph plus variable.
_RE_PATTERN = r'[1-9][0-9]*(\.)?[0-9]*GB|0\.[0-9]*GB'
K_CONTEXT = None
# Enumerate for the property 'jit_syntax_level'.
STRICT = 0
COMPATIBLE = 1
LAX = 2
# Enumerate for the property 'debug_level'.
RELEASE = 0
DEBUG = 1
def _make_directory(path):
"""Make directory."""
if path is None or not isinstance(path, str) or path.strip() == "":
raise ValueError(f"For 'context.set_context', the 'save_graphs_path' or the 'print_file_path' is invalid "
f"type, it should be Non-empty string, but got '{path}'.")
path = os.path.realpath(path)
logger.debug("The absolute path is %r", path)
if not os.path.exists(path):
logger.debug("The directory(%s) doesn't exist, will create it", path)
try:
os.makedirs(path, mode=0o700)
except FileExistsError:
logger.debug("The directory(%s) already exist.", path)
except PermissionError as e:
logger.critical(f"No write permission on the directory '{path}'', error = {e}")
raise ValueError(e.__str__() + f"\nNo write permission on the directory '{path}'.")
return path
def _get_print_file_name(file_name):
"""Add timestamp suffix to file name. Rename the file name: file_name + "." + time(seconds)."""
time_second = str(int(time.time()))
file_name = file_name + "." + time_second
if os.path.exists(file_name):
raise ValueError("For 'context.set_context', the argument 'print_file_path' {} already exists, "
"please check it".format(file_name))
return file_name
class _ThreadLocalInfo(threading.local):
"""
Thread local Info used for store thread local attributes.
"""
def __init__(self):
super(_ThreadLocalInfo, self).__init__()
self._reserve_class_name_in_scope = True
self.debug_runtime = False
@property
def reserve_class_name_in_scope(self):
"""Get whether to save the network class name in the scope."""
return self._reserve_class_name_in_scope
@reserve_class_name_in_scope.setter
def reserve_class_name_in_scope(self, reserve_class_name_in_scope):
"""Set whether to save the network class name in the scope."""
self._reserve_class_name_in_scope = reserve_class_name_in_scope
_ContextRecord = namedtuple(
"_ContextRecord", ["is_pynative_mode", "switch_context_fn"])
class _ContextSwitchInfo(threading.local):
"""
Record of context switch information.
Args:
is_pynative (bool): Whether to adopt the PyNative mode.
"""
def __init__(self, is_pynative):
super(_ContextSwitchInfo, self).__init__()
self.context_stack = []
if is_pynative:
self.push(True, None)
def push(self, is_pynative, switch_context_fn):
"""
Push a context switch record onto the stack.
Args:
is_pynative (bool): Whether context switch to PyNative mode.
switch_context_fn (Function): A callable that executes the context switch.
"""
if isinstance(switch_context_fn, FunctionType):
switch_context_fn()
self.context_stack.append(
_ContextRecord(is_pynative, switch_context_fn))
def pop(self):
self.context_stack.pop()
class _Context:
"""
_Context is the environment in which operations are executed
Note:
Create a context through instantiating Context object is not recommended.
should use context() to get the context since Context is a singleton.
"""
_instance = None
_instance_lock = threading.Lock()
def __new__(cls, *args, **kwargs):
if cls._instance is None:
cls._instance_lock.acquire()
cls._instance = object.__new__(cls)
cls._instance_lock.release()
return cls._instance
def __init__(self):
self._thread_local_info = _ThreadLocalInfo()
self._context_switches = _ContextSwitchInfo(False)
self._context_handle = MSContext.get_instance()
self._support_binary = False
self.enable_compile_cache = None
self._mode = PYNATIVE_MODE
self.aoe_config = {}
self.jit_config = {}
self.ascend_config = {}
self.gpu_config = {}
def __getattribute__(self, attr):
value = object.__getattribute__(self, attr)
if attr == "_context_handle" and value is None:
raise ValueError("Get {} failed, please check whether 'env_config_path' is correct.".format(attr))
return value
def get_param(self, param):
return self._context_handle.get_param(param)
def set_param(self, param, value):
self._context_handle.set_param(param, value)
def get_mode(self):
"""Get current mode."""
return self._mode
def get_jit_config(self):
"""Get current jit_config."""
return self.jit_config
def set_mode(self, mode):
"""
Switch between Graph mode and PyNative mode.
Args:
mode (int): GRAPH_MODE or PYNATIVE_MODE.
"""
if mode == PYNATIVE_MODE:
if self.enable_debug_runtime:
self.set_backend_policy("vm")
parallel_mode = _get_auto_parallel_context("parallel_mode")
if parallel_mode not in (ParallelMode.DATA_PARALLEL, ParallelMode.STAND_ALONE, ParallelMode.AUTO_PARALLEL):
raise ValueError(f"Got {parallel_mode}, when the user enabled SEMI_AUTO_PARALELL, "
f"pynative mode dose not support, you should set either "
f"context.set_auto_parallel_context(parallel_mode='data_parallel'), "
f"context.set_auto_parallel_context(parallel_mode='stand_alone') "
f"or context.set_auto_parallel_context(parallel_mode='auto_parallel').")
self._context_switches.push(True, None)
elif mode == GRAPH_MODE:
if self.enable_debug_runtime:
self.set_backend_policy("ge")
self._context_switches.push(False, None)
else:
raise ValueError(f"For 'context.set_context', the argument 'mode' should be context.GRAPH_MODE (0) "
f"or context.PYNATIVE_MODE (1), but got {mode}.")
self.set_param(ms_ctx_param.mode, mode)
self._mode = mode
def set_jit_syntax_level(self, level):
""""Set the JIT syntax level for graph compiling"""
if level != STRICT and level != COMPATIBLE and level != LAX:
raise ValueError(f"For 'context.set_jit_syntax_level', the argument 'level' should be context.STRICT "
f"or context.LAX, but got {level}.")
self.set_param(ms_ctx_param.jit_syntax_level, level)
def set_debug_level(self, level):
""""Set the debug level for graph compiling"""
if level != RELEASE and level != DEBUG:
raise ValueError(f"For 'context.set_debug_level', the argument 'level' should be context.RELEASE "
f"or context.DEBUG, but got {level}.")
self.set_param(ms_ctx_param.debug_level, level)
def set_memory_optimize_level(self, memory_optimize_level):
"""
The memory optimize level, support "O0", "O1".
Args:
target (str): "O0", "O1"
"""
memory_optimize_levels = ["O0", "O1"]
if memory_optimize_level not in memory_optimize_levels:
raise ValueError(f"For 'context.set_context', the argument 'memory_optimize_level' must be one of "
f"{memory_optimize_levels}, but got {memory_optimize_level}.")
if memory_optimize_level == "O0":
self.set_param(ms_ctx_param.memory_optimize_level, 0)
else:
self.set_param(ms_ctx_param.memory_optimize_level, 1)
def set_exec_order(self, exec_order):
"""
The execution order mode, support "bfs", "dfs", "gpto".
"""
exec_order_modes = ["bfs", "dfs", "gpto"]
if exec_order not in exec_order_modes:
raise ValueError(f"For 'context.set_context', the argument 'exec_order' must be one of "
f"{exec_order_modes}, but got {exec_order}.")
self.set_param(ms_ctx_param.exec_order, exec_order)
def set_memory_offload(self, memory_offload):
"""
Enable memory offload or not, support "ON", "OFF".
Args:
memory_offload (str): "ON", "OFF"
"""
memory_offload_options = ["ON", "OFF"]
if memory_offload not in memory_offload_options:
raise ValueError(f"For 'context.set_context', the argument 'memory_offload' must be one of "
f"{memory_offload_options}, but got {memory_offload}.")
if memory_offload == "ON":
self.set_param(ms_ctx_param.memory_offload, True)
else:
self.set_param(ms_ctx_param.memory_offload, False)
def set_deterministic(self, deterministic):
"""
Enable model run in deterministic, and support the values "ON" and "OFF".
Args:
deterministic (str): "ON", "OFF"
"""
deterministic_options = ["ON", "OFF"]
if deterministic not in deterministic_options:
raise ValueError(f"For 'context.set_context', the argument 'deterministic' must be one of "
f"{deterministic_options}, but got {deterministic}.")
self.set_param(ms_ctx_param.deterministic, deterministic)
hccl_deterministic = os.getenv("HCCL_DETERMINISTIC")
te_parallel_compiler = os.getenv("TE_PARALLEL_COMPILER")
if deterministic == "ON":
if hccl_deterministic and hccl_deterministic != "true":
logger.warning(f"Environment 'HCCL_DETERMINISTIC' should be 'true' when set deterministic='ON', but "
f"got '{hccl_deterministic}'. 'HCCL_DETERMINISTIC' will be set to 'true'.")
if te_parallel_compiler and te_parallel_compiler != "1":
logger.warning(f"Environment 'TE_PARALLEL_COMPILER' should be '1' when set deterministic='ON', but "
f"got '{te_parallel_compiler}'. 'TE_PARALLEL_COMPILER' will be set to '1'.")
os.environ["HCCL_DETERMINISTIC"] = "true"
os.environ["TE_PARALLEL_COMPILER"] = "1"
if deterministic == "OFF":
if hccl_deterministic and hccl_deterministic != "false":
logger.warning(f"Environment 'HCCL_DETERMINISTIC' should not be set or be 'false' when set "
f"deterministic='OFF', but got '{hccl_deterministic}'. 'HCCL_DETERMINISTIC' "
f"will be unset.")
del os.environ["HCCL_DETERMINISTIC"]
if te_parallel_compiler and te_parallel_compiler != "0":
logger.warning(f"Environment 'TE_PARALLEL_COMPILER' should not be set or be '0' when set "
f"deterministic='OFF', but got '{te_parallel_compiler}'. 'TE_PARALLEL_COMPILER' "
f"will be unset.")
del os.environ["TE_PARALLEL_COMPILER"]
def set_ascend_config(self, ascend_config):
"""
Enable ascend config.
Args:
ascend_config (dict):
- precision_mode (str): "force_fp16", "allow_fp32_to_fp16", "allow_mix_precision",
"must_keep_origin_dtype", "force_fp32", "allow_fp32_to_bf16",
"allow_mix_precision_fp16" and "allow_mix_precision_bf16".
- jit_compile (bool): ``False`` and ``True``.
- atomic_clean_policy (int): ``0`` and ``1``. Default: ``1`` .
- op_precision_mode (str): precision mode config file path.
- op_debug_option (str): Enable debugging options for Ascend operators,
default not enabled, only supports ``"oom"`` currently.
``"oom"``: Detect memory out of bounds.
- ge_options (dict): Global or session CANN options.
- exception_dump (str): Enable exception dump for Ascend operators. ``"0"`` , ``"1"`` and ``"2"``.
Default: ``"2"`` .
- parallel_speed_up_json_path(Union[str, None]): The path to the parallel speed up json file.
If its value is None or '', it does not take effect. Default None.
- host_scheduling_max_threshold(int): The host scheduling max threshold.
- hccl_watchdog (bool): Enable a thread to monitor the failure of collective communication.
Default: ``True`` .
"""
ascend_cfg_modes = {
'precision_mode': ["force_fp16", "allow_fp32_to_fp16", "allow_mix_precision", "must_keep_origin_dtype",
"force_fp32", "allow_fp32_to_bf16", "allow_mix_precision_fp16",
"allow_mix_precision_bf16"],
'jit_compile': [True, False],
'atomic_clean_policy': [0, 1],
'matmul_allow_hf32': [True, False],
'conv_allow_hf32': [True, False],
'exception_dump': ["0", "1", "2"],
'op_precision_mode': (str,),
'ge_options': (dict,),
'parallel_speed_up_json_path': (str, None),
'host_scheduling_max_threshold': (int,),
'cur_step_num': (int,),
'save_checkpoint_steps': (int,),
'need_ckpt': (bool,),
'last_triggered_step': (int,),
'hccl_watchdog': (bool,),
'topo_order': (dict,),
'op_debug_option': (str, None),
}
ascend_cfg_setters = {
'precision_mode': self._get_ascend_config_setter('precision_mode'),
'jit_compile': self._get_ascend_config_setter('jit_compile', lambda v: "1" if v else "0"),
'atomic_clean_policy': self._get_ascend_config_setter('atomic_clean_policy', str),
'matmul_allow_hf32': self._get_ascend_config_setter('matmul_allow_hf32', lambda v: "1" if v else "0"),
'conv_allow_hf32': self._get_ascend_config_setter('conv_allow_hf32', lambda v: "1" if v else "0"),
'exception_dump': self._get_ascend_config_setter('exception_dump'),
'op_debug_option': self._set_op_debug_option,
'op_precision_mode': self._set_op_precision_mode,
'ge_options': self._set_ge_options,
'parallel_speed_up_json_path': self._set_speedup_config_path,
'host_scheduling_max_threshold': self._get_ascend_config_setter('host_scheduling_max_threshold', str),
'cur_step_num': self._set_cur_step_num,
'save_checkpoint_steps': self._set_save_checkpoint_steps,
'need_ckpt': self._set_need_ckpt,
'last_triggered_step': self._set_last_triggered_step,
'hccl_watchdog': self._set_hccl_watchdog,
'topo_order': self._set_topo_order
}
ascend_cfg_set = tuple(ascend_cfg_modes.keys())
for ascend_key, ascend_value in ascend_config.items():
if ascend_key not in ascend_cfg_set:
raise ValueError(f"For 'context.set_context', the key of argument 'ascend_config' must be one of "
f"{ascend_cfg_set}, but got {ascend_key}.")
supported_modes = ascend_cfg_modes.get(ascend_key)
if isinstance(supported_modes, list) and ascend_value not in supported_modes:
raise ValueError(f"For 'ascend_config', the value of argument {ascend_key} must be one of "
f"{supported_modes}, but got {ascend_value}.")
if isinstance(supported_modes, tuple) and not isinstance(ascend_value, supported_modes):
raise TypeError(f"For 'ascend_config', the type of argument {ascend_key} must be one of "
f"{supported_modes}, but got {type(ascend_value)}.")
cfg_setter = ascend_cfg_setters.get(ascend_key)
cfg_setter(ascend_value)
self.ascend_config = ascend_config
def set_gpu_config(self, gpu_config):
"""
Enable gpu config.
Args:
gpu_config (dict):
- conv_fprop_algo (str): "normal", "performance" or user specifies conv forward algorithm directly.
- conv_dgrad_algo (str): "normal", "performance" or user specifies conv data grad algorithm directly.
- conv_wgrad_algo (str): "normal", "performance" or user specifies conv weight grad algorithm directly.
- conv_allow_tf32 (bool): ``False`` and ``True``.
- matmul_allow_tf32 (bool): ``False`` and ``True``.
"""
gpu_cfgs = {'conv_fprop_algo': ["normal", "performance", "implicit_gemm", "precomp_gemm", "gemm", "direct",
"fft", "fft_tiling", "winograd", "winograd_nonfused"],
'conv_dgrad_algo': ["normal", "performance", "algo_0", "algo_1", "fft", "fft_tiling", "winograd",
"winograd_nonfused"],
'conv_wgrad_algo': ["normal", "performance", "algo_0", "algo_1", "fft", "algo_3", "fft_tiling",
"winograd_nonfused"],
'conv_allow_tf32': [True, False],
'matmul_allow_tf32': [True, False]}
for gpu_key in gpu_config:
if gpu_key not in gpu_cfgs:
raise ValueError(f"For 'context.set_context', the key of argument 'gpu_config' must be one of "
f"{gpu_cfgs}, but got {gpu_key}.")
supported_value = gpu_cfgs.get(gpu_key)
if gpu_config[gpu_key] not in supported_value:
raise ValueError(f"For 'gpu_config', the value of argument {gpu_key} must be one of "
f"{supported_value}, but got {gpu_config[gpu_key]}.")
if gpu_key == 'conv_fprop_algo':
self.set_param(ms_ctx_param.conv_fprop_algo, gpu_config[gpu_key])
if gpu_key == 'conv_dgrad_algo':
self.set_param(ms_ctx_param.conv_dgrad_algo, gpu_config[gpu_key])
if gpu_key == 'conv_wgrad_algo':
self.set_param(ms_ctx_param.conv_wgrad_algo, gpu_config[gpu_key])
if gpu_key == 'conv_allow_tf32':
self.set_param(ms_ctx_param.conv_allow_tf32, gpu_config[gpu_key])
if gpu_key == 'matmul_allow_tf32':
self.set_param(ms_ctx_param.matmul_allow_tf32, gpu_config[gpu_key])
self.gpu_config = gpu_config
def set_jit_config(self, jit_config):
"""
Enable jit config.
Args:
jit_config (dict):
- jit_level (str): "O0", "O1" or "O2" to control the compilation optimization level.
"""
jit_cfgs = {'jit_level': ["O0", "O1", "O2"], 'infer_boost': ["on", "off"]}
key_args_map = {'jit_level': ms_ctx_param.jit_level, 'infer_boost': ms_ctx_param.infer_boost}
for jit_key in jit_config:
if jit_key not in jit_cfgs:
raise ValueError(f"For 'context.set_context', the key of argument 'jit_config' must be one of "
f"{jit_cfgs}, but got {jit_key}.")
supported_value = jit_cfgs.get(jit_key)
if jit_config[jit_key] not in supported_value:
raise ValueError(f"For 'jit_config', the value of argument {jit_key} must be one of "
f"{supported_value}, but got {jit_config[jit_key]}.")
self.set_param(key_args_map[jit_key], jit_config[jit_key])
self.jit_config = jit_config
jit_level = jit_config.get("jit_level", None)
if jit_config.get("infer_boost", None) == "on" and (jit_level == "O1" or jit_level == "O2"):
raise ValueError(f"Only jit_level set O0 can set infer_boost to on.")
def set_backend_policy(self, policy):
success = self._context_handle.set_backend_policy(policy)
if not success:
raise RuntimeError("Backend policy must be one of values in ['ge', 'vm', 'ms']. "
"But got {}.".format(policy))
def set_save_graphs_path(self, save_graphs_path):
self.set_param(ms_ctx_param.save_graphs_path, _make_directory(save_graphs_path))
def set_device_target(self, target):
"""
The target device to run, support "Ascend", "GPU", and "CPU".
Args:
target (str): "Ascend", "GPU", and "CPU".
"""
valid_targets = ["CPU", "GPU", "Ascend", "Davinci"]
if target not in valid_targets:
raise ValueError(f"For 'context.set_context', the argument 'device_target' must be one of "
f"{valid_targets}, but got {target}.")
if target == "Davinci":
target = "Ascend"
logger.warning("The device 'Davinci' is deprecated and will be removed in the next version. "
"For 'context.set_context', please set the argument 'device_target' "
"to 'CPU', 'GPU' or 'Ascend',if you set it to 'Davinci', it will be automatically "
"changed to 'Ascend'.")
# If in Parameter Server mode, Ascend card should not be used by server and scheduler.
if _need_reset_device_target_for_ps(target):
logger.info("Reset device target to CPU when set_device_target.")
target = "CPU"
self.set_param(ms_ctx_param.device_target, target)
if self.enable_debug_runtime and target == "CPU":
self.set_backend_policy("vm")
def set_aoe_tune_mode(self, tune_mode):
"""
Set aoe tune mode, support "online" and "offline".
Args:
tune_mode (str): "online" and "offline".
"""
candidate = ["online", "offline"]
if tune_mode in candidate:
self.set_param(ms_ctx_param.aoe_tune_mode, tune_mode)
else:
raise ValueError(f"For 'context.set_context', the argument 'aoe_tune_mode' must be in "
f"['online', 'offline'], but got {tune_mode}.")
def set_aoe_config(self, aoe_config):
"""
Enable aoe config.
Args:
aoe_config (dict):
- job_type (str): ``"1"``, ``"2"``. Default: ``"2"`` .
- ``"1"``: subgraph tuning.
- ``"2"``: operator tuning.
"""
aoe_cfgs = {'job_type': ["1", "2"]}
for aoe_config_key in aoe_config:
if aoe_config_key not in aoe_cfgs:
raise ValueError(f"For 'context.set_context', the key of argument 'aoe_config' must be one of "
f"{aoe_cfgs}, but got {aoe_config_key}.")
supported_value = aoe_cfgs.get(aoe_config_key)
if aoe_config[aoe_config_key] not in supported_value:
raise ValueError(f"For 'aoe_config', the value of argument {aoe_config_key} must be one of "
f"{supported_value}, but got {aoe_config[aoe_config_key]}.")
if aoe_config_key == 'job_type':
self.set_param(ms_ctx_param.aoe_job_type, aoe_config[aoe_config_key])
self.aoe_config = aoe_config
def set_device_id(self, device_id):
if device_id < 0 or device_id > 4095:
raise ValueError(f"For 'context.set_context', the argument 'device_id' must be in range [0, 4095], "
f"but got {device_id}.")
self.set_param(ms_ctx_param.device_id, device_id)
def set_max_call_depth(self, max_call_depth):
if max_call_depth <= 0:
raise ValueError(f"For 'context.set_context', the argument 'max_call_depth' must be greater than 0, "
f"but got {max_call_depth}.")
self.set_param(ms_ctx_param.max_call_depth, max_call_depth)
def set_profiling_options(self, option):
if not isinstance(option, str):
raise TypeError("For 'context.set_context', the argument 'profiling_option' must be string, "
"but got {}.".format(type(option)))
self.set_param(ms_ctx_param.profiling_options, option)
def set_variable_memory_max_size(self, variable_memory_max_size):
"""set values of variable_memory_max_size and graph_memory_max_size"""
logger.warning("For 'context.set_context', the parameter 'variable_memory_max_size' is deprecated, "
"and will be removed in a future "
"version. Please use parameter 'max_device_memory' instead.")
if not Validator.check_str_by_regular(variable_memory_max_size, _RE_PATTERN):
raise ValueError("For 'context.set_context', the argument 'variable_memory_max_size' should be in correct"
" format! It must be a string ending with 'GB', in addition to that, it must contain "
"only numbers or decimal points, such as \"5GB\" or \"3.5GB\", but got {}GB."
.format(variable_memory_max_size))
if float(variable_memory_max_size[:-2]) > _DEVICE_APP_MEMORY_SIZE:
raise ValueError("For 'context.set_context', the argument 'variable_memory_max_size' should not be "
"greater than 31GB, but got {}GB.".format(variable_memory_max_size))
variable_memory_max_size_ = variable_memory_max_size[:-2] + " * 1024 * 1024 * 1024"
graph_memory_max_size = _DEVICE_APP_MEMORY_SIZE - int(variable_memory_max_size[:-2])
graph_memory_max_size_ = str(graph_memory_max_size) + " * 1024 * 1024 * 1024"
self.set_param(ms_ctx_param.variable_memory_max_size, variable_memory_max_size_)
self.set_param(ms_ctx_param._graph_memory_max_size, graph_memory_max_size_)
def set_max_device_memory(self, max_device_memory):
if not Validator.check_str_by_regular(max_device_memory, _RE_PATTERN):
raise ValueError("For 'context.set_context', the argument 'max_device_memory' should be in correct "
" format! It must be a string ending with 'GB', in addition to that, it must contain "
"only numbers or decimal points, such as \"5GB\" or \"3.5GB\", but got {}."
.format(max_device_memory))
max_device_memory_value = float(max_device_memory[:-2])
if max_device_memory_value == 0:
raise ValueError("For 'context.set_context', the argument 'max_device_memory' should not be \"0GB\".")
self.set_param(ms_ctx_param.max_device_memory, max_device_memory_value)
def set_mempool_block_size(self, mempool_block_size):
"""Set the block size of memory pool."""
global_jit_config = get_jit_config()
is_force_kbk = False
if global_jit_config:
is_force_kbk = global_jit_config.get('jit_level') == "O0" or global_jit_config.get('jit_level') == "O1"
if _get_mode() == GRAPH_MODE and not is_force_kbk:
logger.warning("Graph mode doesn't support to set parameter 'mempool_block_size' of context currently, "
"you can use context.set_context to set pynative mode or set jit_level=O0/O1.")
return
if not Validator.check_str_by_regular(mempool_block_size, _RE_PATTERN):
raise ValueError("For 'context.set_context', the argument 'mempool_block_size' should be in "
"correct format! Such as \"10GB\", "
"but got {}".format(mempool_block_size))
mempool_block_size_value = float(mempool_block_size[:-2])
if mempool_block_size_value < 1.0:
raise ValueError("For 'context.set_context', the argument 'mempool_block_size' should be "
"greater or equal to \"1GB\", "
"but got {}GB".format(float(mempool_block_size[:-2])))
self.set_param(ms_ctx_param.mempool_block_size, mempool_block_size_value)
def set_print_file_path(self, file_path):
"""Add timestamp suffix to file name. Sets print file path."""
print_file_path = os.path.realpath(file_path)
if os.path.isdir(print_file_path):
raise IOError("For 'context.set_context', the argument 'print_file_path' should be file path, "
"but got directory {}.".format(file_path))
if os.path.exists(print_file_path):
_path, _file_name = os.path.split(print_file_path)
path = _make_directory(_path)
file_name = _get_print_file_name(_file_name)
full_file_name = os.path.join(path, file_name)
else:
full_file_name = print_file_path
self.set_param(ms_ctx_param.print_file_path, full_file_name)
def set_env_config_path(self, env_config_path):
"""Check and set env_config_path."""
if not self._context_handle.enable_dump_ir():
raise ValueError("For 'context.set_context', the argument 'env_config_path' is not supported, please "
"enable ENABLE_DUMP_IR with '-D on' and recompile source firstly.")
env_config_path = os.path.realpath(env_config_path)
if not os.path.isfile(env_config_path):
raise ValueError("For 'context.set_context', the 'env_config_path' file %r is not exists, "
"please check whether 'env_config_path' is correct." % env_config_path)
try:
with open(env_config_path, 'r') as f:
json.load(f)
except (TypeError, ValueError) as exo:
raise ValueError(str(exo) + "\nFor 'context.set_context', open or load the 'env_config_path' file {} "
"failed, please check whether 'env_config_path' is json file and correct, "
"or may not have permission to read it.".format(env_config_path)) from exo
self.set_param(ms_ctx_param.env_config_path, env_config_path)
def set_runtime_num_threads(self, runtime_num_threads):
"""Check and set runtime_num_threads."""
if runtime_num_threads < 0:
raise ValueError("The num of thread must bigger than or equal to 0.")
self.set_param(ms_ctx_param.runtime_num_threads, runtime_num_threads)
def set_op_timeout(self, op_timeout):
"""Set the maximum duration of executing an operator in seconds."""
if op_timeout < 0:
raise ValueError("The num of op exe timeout must bigger than or equal to 0.")
self.set_param(ms_ctx_param.op_timeout, op_timeout)
def set_inter_op_parallel_num(self, inter_op_parallel_num):
"""Check and set inter_op_parallel_num."""
if inter_op_parallel_num < 0:
raise ValueError("The num of parallel thread must bigger than or equal to 0.")
self.set_param(ms_ctx_param.inter_op_parallel_num, inter_op_parallel_num)
setters = {
'mode': set_mode,
'save_graphs_path': set_save_graphs_path,
'device_target': set_device_target,
'aoe_tune_mode': set_aoe_tune_mode,
'device_id': set_device_id,
'max_call_depth': set_max_call_depth,
'profiling_options': set_profiling_options,
'variable_memory_max_size': set_variable_memory_max_size,
'max_device_memory': set_max_device_memory,
'mempool_block_size': set_mempool_block_size,
'print_file_path': set_print_file_path,
'env_config_path': set_env_config_path,
'inter_op_parallel_num': set_inter_op_parallel_num,
'runtime_num_threads': set_runtime_num_threads,
'memory_optimize_level': set_memory_optimize_level,
'exec_order': set_exec_order,
'op_timeout': set_op_timeout,
'memory_offload': set_memory_offload,
'deterministic': set_deterministic,
'ascend_config': set_ascend_config,
'jit_syntax_level': set_jit_syntax_level,
'debug_level': set_debug_level,
'gpu_config': set_gpu_config,
'aoe_config': set_aoe_config,
'jit_config': set_jit_config,
}
@property
def reserve_class_name_in_scope(self):
"""Get whether to save the network class name in the scope."""
return self._thread_local_info.reserve_class_name_in_scope
@reserve_class_name_in_scope.setter
def reserve_class_name_in_scope(self, reserve_class_name_in_scope):
"""Set whether to save the network class name in the scope."""
if not isinstance(reserve_class_name_in_scope, bool):
raise ValueError("For 'context.set_context', the type of the property 'reserve_class_name_in_scope' must "
"be bool, but got {}.".format(type(reserve_class_name_in_scope)))
self._thread_local_info.reserve_class_name_in_scope = reserve_class_name_in_scope
@property
def enable_ge(self):
return self._context_handle.get_backend_policy() == 'ge'
@property
def enable_debug_runtime(self):
return self._thread_local_info.debug_runtime
@enable_debug_runtime.setter
def enable_debug_runtime(self, enable):
thread_info = self._thread_local_info
thread_info.debug_runtime = enable
@property
def support_binary(self):
"""Whether support run .pyc or .so in graph mode."""
return self._support_binary
@support_binary.setter
def support_binary(self, support: bool):
if not isinstance(support, bool):
raise TypeError(f"The attribute 'support_binary' should be a bool, but got {type(support)}.")
self._support_binary = support
def _get_ascend_config_setter(self, ascend_key, trans_fn=None):
def _config_setter(ascend_value):
self.set_param(ms_ctx_param.__members__[ascend_key], trans_fn(ascend_value))
if trans_fn is None:
trans_fn = lambda x: x
return _config_setter
def _set_op_debug_option(self, option_value):
valid_order = {'oom'}
if not isinstance(option_value, str):
raise TypeError(f"For 'ascend_config', the type of 'op_debug_option' must be str, "
f"but got {type(option_value)}.")
if option_value not in valid_order:
raise ValueError(f"For 'ascend_config', the 'op_debug_option' supports being set to 'oom' currently, "
f"but got {option_value}.")
self.set_param(ms_ctx_param.op_debug_option, option_value)
def _set_op_precision_mode(self, ascend_value):
op_precision_path = ascend_value
real_path = os.path.realpath(op_precision_path)
if not os.path.exists(real_path):
raise ValueError(f"For 'ascend_config', the 'op_precision_mode' is invalid path, "
f"got '{op_precision_path}'.")
self.set_param(ms_ctx_param.op_precision_mode, ascend_value)
def _set_ge_options(self, ge_options):
"""Set ge options."""
for level, options in ge_options.items():
if level not in ['global', 'session']:
raise ValueError(f"For 'ascend_config', the key of ge_options must be one of "
f"('global', 'session'), but got {level}.")
if not isinstance(options, dict):
raise TypeError(f"For 'ge_options', the type of {level} options must be dict, "
f"but got {type(options)}. The error options: {options}.")
for key, value in options.items():
if not isinstance(key, str):
raise TypeError(f"For 'ge_options', the type of key and value must be str, "
f"but got {type(key)}. The error key is {key}.")
if not isinstance(value, str):
raise TypeError(f"For 'ge_options', the type of key and value must be str, "
f"but got {type(value)}. The error value is {value}")
options_str = json.dumps(ge_options)
self.set_param(ms_ctx_param.ge_options, options_str)
def _set_topo_order(self, topo_order):
"""
Set topo order.
Args:
topo_order (dict):
key: str, the name of the graph.
value: str, the topo order of the graph, should be one of 'dfs', 'bfs', 'rdfs'.
"""
valid_order = {'dfs', 'bfs', 'rdfs'}
if not isinstance(topo_order, dict):
raise TypeError(f"For 'ascend_config', the 'topo_order' should be a dict, "
f"got '{type(topo_order)}'.")
for k, v in topo_order.items():
if not isinstance(k, str):
raise TypeError("key {} is not a str".format(k))
if v not in valid_order:
raise ValueError("value {} should be one of {}.".format(v, valid_order))
options_str = json.dumps(topo_order)
self.set_param(ms_ctx_param.topo_order, options_str)
def _set_hccl_watchdog(self, flag):
"""set hccl watchdog"""
if not isinstance(flag, bool):
raise TypeError(f"For 'ascend_config', the type of 'hccl_watchdog' must be bool, but got {type(flag)}.")
self.set_param(ms_ctx_param.hccl_watchdog, flag)
def _set_need_ckpt(self, need_ckpt):
"""Set need ckpt flag"""
if not isinstance(need_ckpt, bool):
raise TypeError(f"For step num, the value type should be int, but got {type(need_ckpt)}, {need_ckpt}")
self.set_param(ms_ctx_param.need_ckpt, need_ckpt)
def _set_cur_step_num(self, step_num):
"""set current step num at every step begin"""
if not isinstance(step_num, int):
raise TypeError(f"For step num, the value type should be int, but got {type(step_num)}, {step_num}")
self.set_param(ms_ctx_param.cur_step_num, step_num)
def _set_save_checkpoint_steps(self, steps):
"""set save checkpoint steps before run"""
if not isinstance(steps, int):
raise TypeError(f"For step num, the value type should be int, but got {type(steps)}, {steps}")
self.set_param(ms_ctx_param.save_checkpoint_steps, steps)
def _set_last_triggered_step(self, step):
"""set last triggered save ckpt steps before run"""
if not isinstance(step, int):
raise TypeError(f"For step num, the value type should be int, but got {type(step)}, {step}")
self.set_param(ms_ctx_param.last_triggered_step, step)
def _set_speedup_config_path(self, speedup_config_path):
""""Check and set speedup config for auto parallel."""
if speedup_config_path is None or speedup_config_path == "":
return
speedup_config_real_path = os.path.realpath(speedup_config_path)
if not os.path.exists(speedup_config_real_path):
raise ValueError(f"For 'ascend_config', the path to parallel_speed_up_json: "
f"{speedup_config_real_path} does not exist, please check whether the "
f"'parallel_speed_up_json_path' is correct.")
try:
valid_option = {"recompute_comm_overlap": (ms_ctx_param.recompute_comm_overlap, bool),
"matmul_grad_comm_overlap": (ms_ctx_param.matmul_grad_comm_overlap, bool),
"enable_task_opt": (ms_ctx_param.enable_task_opt, bool),
"enable_grad_comm_opt": (ms_ctx_param.enable_grad_comm_opt, bool),
"recompute_allgather_overlap_fagrad":
(ms_ctx_param.recompute_allgather_overlap_fagrad, bool),
"interleaved_matmul_comm": (ms_ctx_param.interleaved_matmul_comm, bool),
"bias_add_comm_swap": (ms_ctx_param.bias_add_comm_swap, bool),
"enable_opt_shard_comm_opt": (ms_ctx_param.enable_opt_shard_comm_opt, bool),
"enable_begin_end_inline_opt": (ms_ctx_param.enable_begin_end_inline_opt, bool),
"enable_concat_eliminate_opt": (ms_ctx_param.enable_concat_eliminate_opt, bool),
"interleaved_layernorm_comm": (ms_ctx_param.interleaved_layernorm_comm, bool),
"enable_allreduce_slice_to_reducescatter":
(ms_ctx_param.enable_allreduce_slice_to_reducescatter, bool),
"enable_interleave_split_concat_branch":
(ms_ctx_param.enable_interleave_split_concat_branch, bool),
"enable_offloading_packed_experts": (ms_ctx_param.enable_offloading_packed_experts, bool),
"compute_communicate_fusion_level":
(ms_ctx_param.compute_communicate_fusion_level, int),
"enable_flash_attention_load_balance":
(ms_ctx_param.enable_flash_attention_load_balance, bool),
"dataset_broadcast_opt_level":
(ms_ctx_param.dataset_broadcast_opt_level, int)}
with open(speedup_config_real_path, 'r') as f:
speedup_config = json.load(f)
for key, value in speedup_config.items():
if not isinstance(key, str):
raise TypeError("key {} is not a str".format(key))
if key not in valid_option:
raise ValueError("key {} should be one of {}.".format(key, valid_option.keys()))
set_func, valid_type = valid_option.get(key)
if not isinstance(value, valid_type):
raise TypeError(f"The value type of {key} must be {valid_type}, "
f"but got value is {value} and type is {type(value)}.")
self.set_param(set_func, value)
except (TypeError, ValueError) as exo:
raise ValueError(str(exo) + "\nFor 'context.set_context', "
"open or load the 'speedup_config_path' file {} "
"failed, please check whether 'speedup_config_path' is json file and correct, "
"or may not have permission to read it.".format(speedup_config_real_path)) \
from exo
def _context():
"""
Get the global _context, if context is not created, create a new one.
Returns:
_Context, the global context in PyNative mode.
"""
global K_CONTEXT
if K_CONTEXT is None:
default_backend = 'debug'
try:
from mindspore import default_config
default_backend = default_config.__backend__
except ImportError:
logger.error("import default config fail")
K_CONTEXT = _Context()
K_CONTEXT.enable_debug_runtime = False
if default_backend == 'debug':
K_CONTEXT.enable_debug_runtime = True
default_backend = 'vm'
K_CONTEXT.set_backend_policy(default_backend)
return K_CONTEXT
[docs]@args_type_check(device_num=int, global_rank=int, gradients_mean=bool, gradient_fp32_sync=bool, parallel_mode=str,
auto_parallel_search_mode=str, search_mode=str, parameter_broadcast=bool, strategy_ckpt_load_file=str,
strategy_ckpt_save_file=str, full_batch=bool, enable_parallel_optimizer=bool, enable_alltoall=bool,
all_reduce_fusion_config=list, pipeline_stages=int, pipeline_segments=int,
pipeline_result_broadcast=bool, parallel_optimizer_config=dict,
pipeline_config=dict,
comm_fusion=dict, strategy_ckpt_config=dict, force_fp32_communication=bool)
def set_auto_parallel_context(**kwargs):
r"""
Set auto parallel context, only data parallel supported on CPU.
Note:
Attribute name is required for setting attributes.
If a program has tasks on different parallel modes, before setting a new parallel mode for the
next task, interface :func:`mindspore.reset_auto_parallel_context` should be called to reset
the configuration.
Setting or changing parallel modes must be called before creating any Initializer, otherwise,
it may have RuntimeError when compiling the network.
Some configurations are parallel mode specific, see the below table for details:
=========================== ===========================
Common AUTO_PARALLEL
=========================== ===========================
device_num gradient_fp32_sync
global_rank loss_repeated_mean
gradients_mean search_mode
parallel_mode parameter_broadcast
all_reduce_fusion_config strategy_ckpt_load_file
enable_parallel_optimizer strategy_ckpt_save_file
parallel_optimizer_config dataset_strategy
enable_alltoall pipeline_stages
pipeline_config auto_parallel_search_mode
force_fp32_communication pipeline_result_broadcast
\ comm_fusion
\ strategy_ckpt_config
\ group_ckpt_save_file
\ auto_pipeline
\ dump_local_norm
=========================== ===========================
Args:
device_num (int): Available device number, the value must be in [1, 4096]. Default: ``1`` .
global_rank (int): Global rank id, the value must be in [0, 4095]. Default: ``0`` .
gradients_mean (bool): Whether to perform mean operator after allreduce of gradients.
"stand_alone" do not support gradients_mean. Default: ``False`` .
gradient_fp32_sync (bool): Run allreduce of gradients in fp32. "stand_alone", "data_parallel"
and "hybrid_parallel" do not support gradient_fp32_sync. Default: ``True`` .
loss_repeated_mean (bool) - Indicates whether the mean operator is executed backwards when the
calculation is repeated. Default: ``True`` .
parallel_mode (str): There are five kinds of parallel modes, ``"stand_alone"`` , ``"data_parallel"`` ,
``"hybrid_parallel"`` , ``"semi_auto_parallel"`` and ``"auto_parallel"`` . Note the pynative mode
only supports the ``"stand_alone"`` and ``"data_parallel"`` mode. Default: ``"stand_alone"`` .
- stand_alone: Only one processor is working.
- data_parallel: Distributes the data across different processors.
- hybrid_parallel: Achieves data parallelism and model parallelism manually.
- semi_auto_parallel: Achieves data and model parallelism by setting parallel strategies.
- auto_parallel: Achieving parallelism automatically.
search_mode (str): There are three kinds of shard strategy search modes: ``"recursive_programming"`` ,
``"sharding_propagation"`` and ``"dynamic_programming"`` (Not recommended).
Default: ``"recursive_programming"`` .
- recursive_programming: Recursive programming search mode. In order to obtain optimal performance,
it is recommended that users set the batch size to be greater than or equal to the product of
the number of devices and the number of multi-copy parallelism.
- sharding_propagation: Propagate shardings from configured ops to non-configured ops.
- dynamic_programming: Dynamic programming search mode.
auto_parallel_search_mode (str): This is the old version of 'search_mode'. Here, remaining this attribute is
for forward compatibility, and this attribute will be deleted in a future MindSpore version.
parameter_broadcast (bool): Whether to broadcast parameters before training. Before training, in order to have
the same network initialization parameter values for all devices, broadcast the parameters
on device 0 to other devices. Parameter broadcasting in different parallel modes is different,
``data_parallel`` mode, all parameters are broadcast except for the parameter whose attribute
layerwise_parallel is ``True`` . ``Hybrid_parallel`` , ``semi_auto_parallel`` and
``auto_parallel mode`` , the segmented parameters do not participate in broadcasting.
Default: ``False`` .
strategy_ckpt_load_file (str): The path to load parallel strategy checkpoint. The parameter is not to be
recommended currently, it is better using 'strategy_ckpt_config' to replace it. Default: ``''``
strategy_ckpt_save_file (str): The path to save parallel strategy checkpoint. The parameter is not to be
recommended currently, it is better using 'strategy_ckpt_config' to replace it. Default: ``''``
full_batch (bool): If you load whole batch datasets in ``auto_parallel`` mode, this parameter
should be set as ``True`` . Default: ``False`` . The interface is not to be recommended
currently, it is better using 'dataset_strategy' to replace it.
dataset_strategy (Union[str, tuple]): Dataset sharding strategy. Default: ``"data_parallel"`` .
dataset_strategy="data_parallel" is equal to full_batch=False, dataset_strategy="full_batch" is
equal to full_batch=True. For execution mode is 'GRAPH_MODE' and dataset load into net by model
parallel strategy likes ds_stra ((1, 8), (1, 8)), it requires using
set_auto_parallel_context(dataset_strategy=ds_stra).
enable_parallel_optimizer (bool): This is a developing feature, which shards the weight update computation for
data parallel training in the benefit of time and memory saving. Currently, auto and semi auto
parallel mode support all optimizers in both Ascend and GPU. Data parallel mode only supports
`Lamb` and `AdamWeightDecay` in Ascend . Default: ``False`` .
force_fp32_communication (bool): A switch that determines whether reduce operators (AllReduce, ReduceScatter)
are forced to use the fp32 data type for communication during communication. True is the enable
switch. Default: ``False`` .
enable_alltoall (bool): A switch that allows AllToAll operators to be generated during communication. If its
value is ``False`` , there will be a combination of operators such as AllGather, Split and
Concat instead of AllToAll. Default: ``False`` .
all_reduce_fusion_config (list): Set allreduce fusion strategy by parameters indices. Only support ReduceOp.SUM
and HCCL_WORLD_GROUP/NCCL_WORLD_GROUP. No Default, if it is not set, the fusion is closed.
pipeline_stages (int): Set the stage information for pipeline parallel. This indicates how the devices are
distributed alone in the pipeline. The total devices will be divided into 'pipeline_stags'
stages.
Default: ``1`` .
pipeline_result_broadcast (bool): A switch that broadcast the last stage result to all other stage in pipeline
parallel inference. Default: ``False`` .
pipeline_config (dict): A dict contains the keys and values for setting the pipeline parallelism configuration.
It supports the following keys:
- pipeline_interleave(bool): Indicates whether to enable the interleaved execution mode.
- pipeline_scheduler(str): Indicates the scheduling mode for pipeline parallelism. Only support
``gpipe/1f1b``.
parallel_optimizer_config (dict): A dict contains the keys and values for setting the parallel optimizer
configure. The configure provides more detailed behavior control about parallel training
when parallel optimizer is enabled. The configure will be effective when we use
mindspore.set_auto_parallel_context(enable_parallel_optimizer=True).
It supports the following keys.
- gradient_accumulation_shard(bool): If ``true`` , the accumulation gradient parameters will be
sharded across the data parallel devices. This will
introduce additional communication(ReduceScatter) at
each step when accumulate the gradients, but saves a
lot of device memories, thus can make model be trained
with larger batch size. This configure is effective only
when the model runs on pipeline training or gradient
accumulation with data parallel. Default ``False`` .
- parallel_optimizer_threshold(int): Set the threshold of parallel optimizer. When parallel
optimizer is enabled, parameters with size smaller than this threshold will not be sharded
across the devices. Parameter size = shape[0] \* ... \* shape[n] \* size(dtype). Non-negative.
Unit: KB. Default: ``64`` .
- optimizer_weight_shard_size(int): Set the optimizer weight shard group size, if you want to
specific the maximum group size across devices when the parallel optimizer is enabled.
The numerical range can be (0, device_num]. If pipeline parallel is enabled, the numerical
range is (0, device_num/stage]. If the size of data parallel communication domain
of the parameter cannot be divided by `optimizer_weight_shard_size`, then the specified
communication group size will not take effect. Default value is ``-1`` , which means the
optimizer weight shard group size will be the size of data parallel group of each parameter.
comm_fusion (dict): A dict contains the types and configurations for setting the communication fusion. each
communication fusion config has two keys: "mode" and "config".
It supports following communication fusion types and configurations:
- openstate: Whether turn on the communication fusion or not. If `openstate` is ``True`` ,
turn on the communication fusion, otherwise, turn off the communication fusion.
Default: ``True`` .
- allreduce: If communication fusion type is `allreduce`. The `mode` contains: `auto`, `size`
and `index`. In `auto` mode, AllReduce fusion is configured by gradients size and the default
fusion threshold is `64` MB. In 'size' mode, AllReduce fusion is configured by gradients size
manually, and the fusion threshold must be larger than `0` MB. In `index` mode, it is same as
`all_reduce_fusion_config`.
- allgather: If communication fusion type is `allgather`. The `mode` contains: `auto`, `size`.
In `auto` mode, AllGather fusion is configured by gradients size, and the default fusion
threshold is `64` MB. In 'size' mode, AllGather fusion is configured by gradients size
manually, and the fusion threshold must be larger than `0` MB.
- reducescatter: If communication fusion type is `reducescatter`. The `mode` contains: `auto`
and `size`. Config is same as `allgather`.
strategy_ckpt_config (dict): A dict contains the configurations for setting the parallel strategy file. This
interface contains the functions of parameter `strategy_ckpt_load_file` and
`strategy_ckpt_save_file`, it is recommonded to use this parameter to replace those two
parameters.
It contains following configurations:
- load_file (str): The path to load parallel strategy checkpoint. If the file name extension is
`.json`, the file is loaded in JSON format. Otherwise, the file is loaded in ProtoBuf
format.
Default: ``''``
- save_file (str): The path to save parallel strategy checkpoint. If the file name extension is
`.json`, the file is saved in JSON format. Otherwise, the file is saved in ProtoBuf format.
Default: ``''``
- only_trainable_params (bool): Only save/load the strategy information for trainable parameter.
Default: ``True`` .
group_ckpt_save_file (str): The path to save parallel group checkpoint.
auto_pipeline (bool): Set the pipeline stage number to automatic. Its value will be selected between 1 and the
parameter `pipeline_stages`. This option requires the `parallel_mode` to be ``auto_parallel``
and the `search_mode` to be ``recursive_programming``. Default: ``False`` .
dump_local_norm (bool): Whether to dump local_norm value, when the `parallel_mode` is set to
``semi_auto_parallel`` or ``auto_parallel``.
Default: ``False`` .
Raises:
ValueError: If input key is not attribute in auto parallel context.
Examples:
>>> import mindspore as ms
>>> ms.set_auto_parallel_context(device_num=8)
>>> ms.set_auto_parallel_context(global_rank=0)
>>> ms.set_auto_parallel_context(gradients_mean=True)
>>> ms.set_auto_parallel_context(gradient_fp32_sync=False)
>>> ms.set_auto_parallel_context(parallel_mode="auto_parallel")
>>> ms.set_auto_parallel_context(search_mode="recursive_programming")
>>> ms.set_auto_parallel_context(auto_parallel_search_mode="recursive_programming")
>>> ms.set_auto_parallel_context(parameter_broadcast=False)
>>> ms.set_auto_parallel_context(strategy_ckpt_load_file="./strategy_stage1.ckpt")
>>> ms.set_auto_parallel_context(strategy_ckpt_save_file="./strategy_stage1.ckpt")
>>> ms.set_auto_parallel_context(dataset_strategy=((1, 8), (1, 8)))
>>> ms.set_auto_parallel_context(enable_parallel_optimizer=False)
>>> ms.set_auto_parallel_context(enable_alltoall=False)
>>> ms.set_auto_parallel_context(all_reduce_fusion_config=[8, 160])
>>> ms.set_auto_parallel_context(pipeline_stages=2)
>>> ms.set_auto_parallel_context(pipeline_stages=2, pipeline_result_broadcast=True)
>>> parallel_config = {"gradient_accumulation_shard": True, "parallel_optimizer_threshold": 24,
... "optimizer_weight_shard_size": 2}
>>> ms.set_auto_parallel_context(parallel_optimizer_config=parallel_config, enable_parallel_optimizer=True)
>>> config = {"allreduce": {"mode": "size", "config": 32}, "allgather": {"mode": "size", "config": 32}}
>>> ms.set_auto_parallel_context(comm_fusion=config)
>>> stra_ckpt_dict = {"load_file": "./stra0.ckpt", "save_file": "./stra1.ckpt", "only_trainable_params": False}
>>> ms.set_auto_parallel_context(strategy_ckpt_config=stra_ckpt_dict)
"""
_set_auto_parallel_context(**kwargs)
[docs]def get_auto_parallel_context(attr_key):
"""
Get auto parallel context attribute value according to the key.
Args:
attr_key (str): The key of the attribute.
Returns:
Returns attribute value according to the key.
Raises:
ValueError: If input key is not attribute in auto parallel context.
Examples:
>>> import mindspore as ms
>>> parallel_mode = ms.get_auto_parallel_context("parallel_mode")
>>> dataset_strategy = ms.get_auto_parallel_context("dataset_strategy")
"""
return _get_auto_parallel_context(attr_key)
[docs]def reset_auto_parallel_context():
"""
Reset auto parallel context attributes to the default values.
- device_num: 1.
- global_rank: 0.
- gradients_mean: False.
- gradient_fp32_sync: True.
- parallel_mode: 'stand_alone'.
- search_mode: 'recursive_programming'.
- auto_parallel_search_mode: 'recursive_programming'.
- parameter_broadcast: False.
- strategy_ckpt_load_file: ''.
- strategy_ckpt_save_file: ''.
- full_batch: False.
- enable_parallel_optimizer: False.
- force_fp32_communication: False.
- enable_alltoall: False.
- pipeline_stages: 1.
- pipeline_result_broadcast: False.
- fusion_threshold: 64.
- dump_local_norm: False.
- auto_pipeline: False.
Examples:
>>> import mindspore as ms
>>> ms.reset_auto_parallel_context()
"""
_reset_auto_parallel_context()
api.ms_compile_cache.clear()
[docs]@args_type_check(offload_config=dict)
def set_offload_context(offload_config):
r"""
Configure heterogeneous training detailed parameters to adjust the offload strategy.
Note:
The offload configuration is only used if the memory offload feature is enabled
via mindspore.set_context(memory_offload="ON"), and the memory_optimize_level must be set to O0. On the Ascend
hardware platform, the graph compilation level must be O0.
Args:
offload_config (dict): A dict contains the keys and values for setting the offload context
configure.It supports the following keys.
- offload_path (str): The path of offload, relative paths are supported. Default: ``"./offload"``.
- offload_cpu_size (str): The cpu memory size for offload. The format is "xxGB".
- offload_disk_size (str): The disk size for offload. The format is "xxGB"
- hbm_ratio (float): The ratio that can be used based on the maximum device memory.
The range is (0,1], Default: ``1.0``.
- cpu_ratio (float): The ratio that can be used based on the maximum host memory.
The range is (0,1], Default: ``1.0``.
- enable_pinned_mem (bool): The flag of whether enabling Pinned Memory. Default: ``True``.
- enable_aio (bool): The flag of whether enabling aio. Default: ``True``.
- aio_block_size (str): The size of aio block. The format is "xxGB".
- aio_queue_depth (int): The depth of aio queue.
- offload_param (str): The param for offload destination, cpu or disk, Default: ``""``.
- offload_checkpoint (str): The checkpoint for offload destination, only valid if recompute is turned on,
cpu or disk, Default: ``""``.
- auto_offload (bool): The flag of whether auto offload. Default: ``True``.
- host_mem_block_size (str): The memory block size of host memory pool. The format is "xxGB"
Raises:
ValueError: If input key is not attribute in auto parallel context.
Examples:
>>> from mindspore import context
>>> context.set_offload_context(offload_config={"offload_param":"cpu"})
"""
_set_offload_context(offload_config)
[docs]def get_offload_context():
"""
Gets the offload configuration parameters. Configure through interface mindspore.set_offload_context().
If the user is not set, the default configuration is obtained.
Returns:
Dict, heterogeneous training offload detailed configuration parameters.
Examples:
>>> from mindspore import context
>>> offload_config = context.get_offload_context()
"""
return _get_offload_context()
def _check_target_specific_cfgs(device, arg_key):
"""Checking whether a config is suitable for a specified device"""
device_cfgs = {
'enable_graph_kernel': ['Ascend', 'GPU', 'CPU'],
'graph_kernel_flags': ['Ascend', 'GPU', 'CPU'],
'enable_reduce_precision': ['Ascend'],
'print_file_path': ['Ascend'],
'variable_memory_max_size': ['Ascend'],
'max_device_memory': ['Ascend', 'GPU'],
'mempool_block_size': ['GPU', 'Ascend'],
'disable_format_transform': ['GPU'],
'ascend_config': ['Ascend'],
'gpu_config': ['GPU'],
}
# configs not in map device_cfgs are supposed to be suitable for all devices
if arg_key not in device_cfgs:
return True
supported_devices = device_cfgs[arg_key]
if device in supported_devices:
return True
logger.warning(f"For 'context.set_context', when set the argument '{arg_key}', "
f"the argument 'device_target' only supports devices in '{supported_devices}', "
f"but got '{device}', ignore it.")
return False
def _check_ascend_device_context_initialized(device_target, settings):
if device_target == 'Ascend' and is_initialized(device_target):
for key, _ in settings.items():
if key in ('ascend_config', 'deterministic', 'jit_compile', 'exception_dump', 'device_id'):
logger.warning(f"For 'context.set_context' in Ascend backend, the backend is already initialized, "
"please set it before the definition of any Tensor and Parameter, and the "
"instantiation and execution of any operation and net, otherwise the settings may not "
"take effect. ")
break
def _check_key(key):
if key in ('precision_mode', 'jit_compile', 'atomic_clean_policy', 'matmul_allow_hf32', 'conv_allow_hf32',
'op_precision_mode', 'host_scheduling_max_threshold', 'ge_options', 'op_debug_option'):
raise ValueError(f"Please set '{key}' through parameter ascend_config")
[docs]@args_type_check(mode=int, precompile_only=bool, device_target=str, device_id=int, save_graphs=(bool, int),
save_graphs_path=str, enable_dump=bool, aoe_tune_mode=str, aoe_config=dict,
save_dump_path=str, enable_reduce_precision=bool, variable_memory_max_size=str,
enable_auto_mixed_precision=bool, inter_op_parallel_num=int,
enable_graph_kernel=bool, reserve_class_name_in_scope=bool, check_bprop=bool,
max_device_memory=str, print_file_path=str, max_call_depth=int, env_config_path=str,
graph_kernel_flags=str, save_compile_cache=bool, runtime_num_threads=int, load_compile_cache=bool,
grad_for_scalar=bool, pynative_synchronize=bool, mempool_block_size=str, disable_format_transform=bool,
op_timeout=int, deterministic=str, ascend_config=dict, jit_syntax_level=int, debug_level=int,
jit_enable_inplace_ops=bool, gpu_config=dict, jit_config=dict, enable_compile_cache=bool)
def set_context(**kwargs):
"""
Set context for running environment.
Context should be configured before running your program. If there is no configuration,
it will be automatically set according to the device target by default.
Note:
Attribute name is required for setting attributes.
The mode is not recommended to be changed after net was initialized because the implementations of some
operations are different in graph mode and pynative mode. Default: ``PYNATIVE_MODE`` .
Some configurations are device specific, see the below table for details:
+-------------------------+------------------------------+----------------------------+
| Function Classification | Configuration Parameters | Hardware Platform Support|
+=========================+==============================+============================+
| System Configuration | device_id | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | device_target | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | max_device_memory | GPU/Ascend |
| +------------------------------+----------------------------+
| | variable_memory_max_size | Ascend |
| +------------------------------+----------------------------+
| | mempool_block_size | GPU/Ascend |
| +------------------------------+----------------------------+
| | op_timeout | Ascend |
+-------------------------+------------------------------+----------------------------+
| Debug Configuration | save_graphs | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | save_graphs_path | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | enable_dump | Ascend |
| +------------------------------+----------------------------+
| | save_dump_path | Ascend |
| +------------------------------+----------------------------+
| | deterministic | Ascend |
| +------------------------------+----------------------------+
| | print_file_path | Ascend |
| +------------------------------+----------------------------+
| | env_config_path | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | precompile_only | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | reserve_class_name_in_scope | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | pynative_synchronize | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | debug_level | CPU/GPU/Ascend |
+-------------------------+------------------------------+----------------------------+
| Executive Control | mode | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | enable_graph_kernel | Ascend/GPU |
| +------------------------------+----------------------------+
| | graph_kernel_flags | Ascend/GPU |
| +------------------------------+----------------------------+
| | enable_reduce_precision | Ascend |
| +------------------------------+----------------------------+
| | aoe_tune_mode | Ascend |
| +------------------------------+----------------------------+
| | aoe_config | Ascend |
| +------------------------------+----------------------------+
| | check_bprop | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | max_call_depth | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | grad_for_scalar | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | enable_compile_cache | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | inter_op_parallel_num | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | runtime_num_threads | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | compile_cache_path | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | disable_format_transform | GPU |
| +------------------------------+----------------------------+
| | support_binary | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | memory_optimize_level | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | memory_offload | GPU/Ascend |
| +------------------------------+----------------------------+
| | ascend_config | Ascend |
| +------------------------------+----------------------------+
| | jit_syntax_level | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | gpu_config | GPU |
| +------------------------------+----------------------------+
| | jit_config | CPU/GPU/Ascend |
| +------------------------------+----------------------------+
| | exec_order | Ascend |
+-------------------------+------------------------------+----------------------------+
Args:
device_id (int): ID of the target device, the value must be in [0, device_num_per_host-1],
while device_num_per_host should be no more than 4096. Default: ``0`` .
device_target (str): The target device to run, support "Ascend", "GPU", and "CPU".
If device target is not set, the version of MindSpore package is used.
max_device_memory (str): Set the maximum memory available for devices. The format is "xxGB".
Default: ``" 1024GB"`` . The actual used memory size is the minimum of the available memory of the device
and max_device_memory. 'max_device_memory' should be set before the program runs. When virtual memory is
enabled, a too small 'max_device_memory' will cause frequent defragmentation, affecting performance.
variable_memory_max_size (str): This parameter is deprecated, and will be removed in a future version.
Please use parameter 'max_device_memory' instead.
mempool_block_size (str): It takes effect when virtual memory is turned off, set the size of the memory pool
block for devices. The format is "xxGB". Default: ``"1GB"`` . Minimum size is "1G". The actual used memory
block size is the minimum of the available memory of the device and mempool_block_size. When there is
enough memory, the memory will be expanded by this value.
op_timeout (int): Set the maximum duration of executing an operator in seconds.
If the execution time exceeds this value, system will terminate the task.
0 means endless wait. The defaults for AI Core and AICPU operators vary on different hardware.
For more information,
please refer to `Ascend Community document about aclrtSetOpExecuteTimeOut
<https://www.hiascend.com/document/detail/en/CANNCommunityEdition/600alphaX/infacldevg/aclcppdevg/aclcppdevg_03_0069.html>`_.
Default: ``900`` .
save_graphs (bool or int): Whether to save intermediate compilation graphs. Default: ``0`` .
Available values are:
- False or 0: disable saving of intermediate compilation graphs.
- 1: some intermediate files will be generated during graph compilation.
- True or 2: Generate more ir files related to backend process.
- 3: Generate visualization computing graphs and detailed frontend ir graphs.
When the network structure is complex, setting `save_graphs` attribute to ``2`` or ``3`` may take too long.
If you need quick problem locating, you can switch to ``1`` first.
When the `save_graphs` attribute is set as ``True`` , ``1`` , ``2`` or ``3`` , attribute of
`save_graphs_path` is used to set the intermediate compilation graph storage path. By default, the graphs
are saved in the current directory.
save_graphs_path (str): Path to save graphs. Default: ``"."``.
If the specified directory does not exist, the system will automatically create the directory.
During distributed training, graphs will be saved to the directory of
`save_graphs_path/rank_${rank_id}/`. `rank_id` is the ID of the current device in the cluster.
deterministic (str): Whether to enable op run in deterministic mode. The value must be in the
range of ['ON', 'OFF'], and the default value is ``'OFF'`` .
- "ON": Enable operator deterministic running mode.
- "OFF": Disable operator deterministic running mode.
When deterministic mode is on, model ops will be deterministic in Ascend. This means that if op run
multiple times with the same inputs on the same hardware, it will have the exact same outputs each time.
This is useful for debugging models.
enable_dump (bool): This parameters is deprecated, and will be deleted in the next version.
save_dump_path (str): This parameters is deprecated, and will be deleted in the next version.
print_file_path (str): The path of saving print data. If this parameter is set, print data is saved to
a file by default, and print_file_path is not set, the screen will be displayed.
If the saved file already exists, the timestamp suffix will be added to the file. Saving data to a file
solves the problem of data loss in screen printing when a large amount of data is generated.
If it is not set, an error will be reported: prompt to set the upper absolute path.
When print data to file, the total output bytes of single print must be less then 2GB(limited by
protobuf).
env_config_path (str): Config path for DFX.
Through mindspore.set_context(env_config_path="./mindspore_config.json")
configure RDR:
- enable: controls whether the RDR is enabled to collect the key data during training and
save key data in the fault scenario. When set to ``true`` , the RDR will be turned on.
When set to ``false`` , the RDR will be turned off.
- mode: sets the mode of RDR on exporting data. When set to ``1`` , the RDR only exports data
in the fault scenario. When set to ``2`` , the RDR exports data in the fault scenario and the
normal end scenario. Default: ``1`` .
- path: sets the path where RDR saves data. The current path must be absolute.
Memory reuse:
- mem_Reuse: controls whether the memory reuse function is turned on. When set to ``True`` ,
the memory reuse function is turned on. When set to ``False`` , the memory reuse function is turned off.
precompile_only (bool): Whether to only precompile the network. Default: ``False`` .
If set to ``True`` , the network will only be compiled, not executed.
reserve_class_name_in_scope (bool) : Whether to save the network class name in the scope. Default: ``True`` .
Each node has a scope. A scope of a subnode is the name of its parent node. If reserve_class_name_in_scope
is set to ``True`` , the class name will be saved after keyword 'net-' in the scope.
For example:
Default/net-Net1/net-Net2 (reserve_class_name_in_scope=True)
Default/net/net (reserve_class_name_in_scope=False)
pynative_synchronize (bool): Whether to enable synchronous execution of the device in PyNative mode.
Default: ``False`` . When the value is set to ``False`` , the operator is executed asynchronously on the
device. When an error occurs in the execution of the operator, the specific error script code location
cannot be located, when the value is set to ``True`` , the operator is executed synchronously on the
device. It will reduce the execution performance of the program. At this time, when an error occurs in the
execution of the operator, the location of the error script code can be located according to the call stack
of the error.
mode (int): Running in GRAPH_MODE(0) or PYNATIVE_MODE(1).
Both modes support all backends. Default: ``PYNATIVE_MODE`` .
enable_graph_kernel (bool): Whether to enable graph kernel fusion to optimize network execution performance.
Default: ``False`` .
Indicates whether to enable image-computing convergence to optimize network execution performance.
If enable_graph_kernel is set to ``True`` , acceleration can be enabled.
For details of graph kernel fusion, please check
`Enabling Graph Kernel Fusion
<https://www.mindspore.cn/docs/en/r2.4.1/model_train/optimize/graph_fusion_engine.html>`_.
graph_kernel_flags (str):
Optimization options of graph kernel fusion, and the priority is higher when it conflicts
with enable_graph_kernel. Only for experienced users.
For example,
.. code-block::
mindspore.set_context(graph_kernel_flags="--opt_level=2 --dump_as_text")
Some general options:
- opt_level: Set the optimization level.
Default: ``2`` . Graph kernel fusion can be enabled equivalently by setting opt_level greater than 0.
Available values are:
- 0: disables graph kernel fusion;
- 1: enables the basic fusion of operators;
- 2: includes all optimizations of level 1,
and turns on more optimizations such as CSE, arithmetic simplification and so on;
- 3: includes all optimizations of level 2, and turns on more optimizations such as SitchingFusion,
ParallelFusion and so on. Optimizations of this level are radical and unstable in some scenarios.
Be caution when using this level.
- dump_as_text: dumps detail info as text files. Default: ``False`` .
- enable_cluster_ops: Add user-specified operator to the set of operators involved in fusion. For example,
by setting ``--enable_cluster_ops=MatMul``, MatMul operator can be included in the fusion process.
- enable_pass/disable_pass: Enable/disable user-specified custom fusion passes. See details in
`Custom Fusion Pass
<https://www.mindspore.cn/docs/en/r2.4.1/model_train/custom_program/fusion_pass.html>`_.
enable_reduce_precision (bool): Whether to enable precision reduction.
If the operator does not support the user-specified precision, the precision will
be changed automatically. Default: ``True`` .
aoe_tune_mode (str): AOE tuning mode setting, which is not set by default.
When set to ``"online"`` , the tuning in online function is turned on.
When set to ``"offline"`` , ge graph will be save for offline tuning.
aoe_config (dict): Set the parameters specific to Ascend Optimization Engine. It is not set by default.
- job_type (str): Mode type setting, default value is ``"2"``.
- ``"1"``: subgraph tuning;
- ``"2"``: operator tuning.
check_bprop (bool): Whether to check back propagation nodes. The checking ensures that the shape and dtype
of back propagation node outputs is the same as input parameters. Default: ``False`` .
max_call_depth (int): Specify the maximum depth of function call. Must be positive integer. Default: ``1000`` .
The max_call_depth parameter needs to be set when the nested call is too deep or the number
of subgraphs is too large. If max_call_depth is set larger than before, the system max stack depth should be
set larger too, otherwise a `core dumped` exception may be raised because of system stack overflow.
grad_for_scalar (bool): Whether to get gradient for scalar. Default: ``False`` .
When grad_for_scalar is set to ``True`` , the function's scalar input can be derived.
The default value is ``False`` . Because the back-end does not support scaling operations currently,
this interface only supports simple operations that can be deduced by the front-end.
enable_compile_cache (bool): Whether to save or load the cache of the graph compiled by front-end.
After enable_compile_cache is set to ``True`` , during the first execution, a hardware-independent
compilation cache is generated and exported to a MINDIR file. When the network is executed again,
if enable_compile_cache is still set to ``True`` and the network scripts are not changed,
the compile cache is loaded. Note that only limited automatic detection for the changes of
python scripts is supported by now, which means that there is a correctness risk. Default: ``False`` .
Currently, do not support the graph which is larger than 2G after compiled.
This is an experimental prototype that is subject to change and/or deletion.
compile_cache_path (str): Path to save the compile cache. Default: ``"."``.
If the specified directory does not exist, the system will automatically create the directory.
The cache will be saved to the directory of `compile_cache_path/rank_${rank_id}/`. The `rank_id` is
the ID of the current device in the cluster.
inter_op_parallel_num(int): The thread number of op parallel at the same time. Default value is ``0`` ,
which means use the default num.
runtime_num_threads(int): The thread pool number of cpu kernel used in runtime,
which must bigger than or equal to 0. Default value is ``30`` , if you run many processes at
the same time, you should set the value smaller to avoid thread contention. If set runtime_num_threads to 1,
the runtime asynchronous pipeline capability cannot be enabled, which may affect performance.
disable_format_transform (bool): Whether to disable the automatic format transform function from NCHW to NHWC.
When the network training performance of fp16 is worse than fp32, `disable_format_transform` can be set to
``True`` to try to improve training performance. Default: ``False`` .
support_binary (bool): Whether to support run .pyc or .so in graph mode. If want to support run .so or .pyc
in graph mode, coulde set 'support_binary' to be ``True`` , and run once .py file. It would save the source
of the interfaces would be compiled by MindSpore to the interfaces definition .py file that should be
guaranteed to be writable. Then compile the .py file to the .pyc or .so file, and could run in Graph mode.
memory_optimize_level (str): The memory optimize level.
On Ascend hardware platform, default: ``O1``, on other hardware platforms, default: ``O0``.
The value must be in ['O0', 'O1'].
- O0: priority performance option, disable SOMAS (Safe Optimized Memory Allocation Solver)
and some other memory optimizations.
- O1: priority memory option, enable SOMAS and some other memory optimizations.
memory_offload (str): Whether to enable the memory offload function. When it is enabled, the idle data will be
temporarily copied to the host side in the case of insufficient device memory. The value must be in the
range of ['ON', 'OFF'], and the default value is ``'OFF'`` .
- ON: Enable the memory Offload function. On Ascend hardware platform, this parameter does not take effect
when the graph compilation level is not 'O0'; This parameter does not take effect when
memory_optimize_level is set 'O1'.
- OFF: Turn off the memory Offload function.
ascend_config (dict): Set the parameters specific to Ascend hardware platform. It is not set by default.
The default value of `precision_mode`, `jit_compile` and
`atomic_clean_policy` are experimental parameters, may change in the future.
- precision_mode (str): Mixed precision mode setting, and the default value of inference network
is ``force_fp16`` . The value range is as follows:
- force_fp16: When the operator supports both float16 and float32, select float16 directly.
- allow_fp32_to_fp16: For cube operators, use the float16. For vector operators,
prefer to keep the origin dtype, if the operator in model can support float32,
it will keep original dtype, otherwise it will reduce to float16.
- allow_mix_precision: Automatic mixing precision, facing the whole network operator, according
to the built-in optimization strategy, automatically reduces the precision of some operators
to float16 or bfloat16.
- must_keep_origin_dtype: Keep the accuracy of the original drawing.
- force_fp32: When the input of the matrix calculation operator is float16 and the output supports
float16 and float32, output is forced to float32.
- allow_fp32_to_bf16: For cube operators, use the bfloat16. For vector operators,
prefer to keep the origin dtype, if the operator in model can support float32,
it will keep original dtype, otherwise it will reduce to bfloat16.
- allow_mix_precision_fp16: Automatic mixing precision, facing the whole network operator, automatically
reduces the precision of some operators to float16 according to the built-in optimization strategy.
- allow_mix_precision_bf16: Automatic mixing precision, facing the whole network operator, according to
the built-in optimization strategy, automatically reduces the precision of some operators to bfloat16.
- jit_compile (bool): Whether to select online compilation. When set to 'True', online compilation is
prioritized. When set to 'False', compiled operator binary files are prioritized to improve compilation
performance. The default settings are online compilation for static shape, and compiled operator binary
files for dynamic shape.
- atomic_clean_policy (int): The policy for cleaning memory occupied by atomic operators in the network.
Default: ``1`` .
- 0: The memory occupied by all atomic operators in the network is cleaned centrally.
- 1: Memory is not cleaned centrally and each atomic operator in the network is cleaned separately.
When the memory of the network exceeds the limit, you may try this cleaning policy, but it may cause
performance loss.
- matmul_allow_hf32 (bool): Whether to convert FP32 to HF32 for Matmul operators. Default value: ``False``.
This is an experimental prototype that is subject to change and/or deletion.
For detailed information, please refer to `Ascend community <https://www.hiascend.com/>`_ .
- conv_allow_hf32 (bool): Whether to convert FP32 to HF32 for Conv operators. Default value: ``True``.
This is an experimental prototype that is subject to change and/or deletion.
For detailed information, please refer to `Ascend community <https://www.hiascend.com/>`_ .
- exception_dump (str): Enable exception dump for Ascend operators, providing the input and output data for
failing Ascend operators. The value can be ``"0"`` , ``"1"`` and ``"2"``. For ``"0"`` , exception dump is
turned off; for ``"1"``, all inputs and outputs will be dumped for AICore exception operators;
for ``"2"``, inputs will be dumped for AICore exception operators, reducing the saved information
but improving performance. Default: ``"2"`` .
- op_precision_mode (str): Path to config file of op precision mode. For detailed information, please refer
to `Ascend community <https://www.hiascend.com/>`_ .
- op_debug_option (str): Enable debugging options for Ascend operators, default not enabled.
The value currently only supports being set to ``"oom"``.
- ``"oom"``: When there is a memory out of bounds during the execution of an operator,
AscendCL will return an error code of ``EZ9999``.
- ge_options (dict): Set options for CANN. The options are divided into two categories: global and session.
This is an experimental prototype that is subject to change and/or deletion.
For detailed information, please refer to `Ascend community <https://www.hiascend.com/document/detail/zh/canncommercial/70RC1/inferapplicationdev/graphdevg/atlasgeapi_07_0119.html>`_ .
The configuration options in `ge_options` may be duplicated with the options in `ascend_config`. If the
same configuration options are set in both `ascend_config` and `ge_options`, the one set in `ge_options`
shall prevail.
- global (dict): Set global options.
- session (dict): Set session options.
- parallel_speed_up_json_path(Union[str, None]): The path to the parallel speed up json file, configuration
can refer to `parallel_speed_up.json
<https://gitee.com/mindspore/mindspore/blob/v2.4.1/config/parallel_speed_up.json>`_ .
If its value is None or '', it does not take effect. Default None.
- recompute_comm_overlap (bool): Enable overlap between recompute ops and communication ops if True.
Default: False.
- matmul_grad_comm_overlap (bool): Enable overlap between dw matmul and
tensor parallel communication ops if True. Default: False.
- recompute_allgather_overlap_fagrad (bool): Enable overlap between duplicated allgather by recomputing
in sequence parallel and flashattentionscoregrad ops if True. Default: False.
- enable_task_opt (bool): Enable communication fusion to optimize the number of communication operator
tasks if True.
Default: False.
- enable_grad_comm_opt (bool): Enable overlap between dx ops and data parallel communication ops if True.
Currently, do not support
`LazyInline <https://www.mindspore.cn/docs/en/r2.4.1/api_python/mindspore/mindspore.lazy_inline.html>`
Default: False.
- enable_opt_shard_comm_opt (bool): Enable overlap between forward ops
and optimizer parallel allgather communication if True. Currently, do not support
`LazyInline <https://www.mindspore.cn/docs/en/r2.4.1/api_python/mindspore/mindspore.lazy_inline.html>`
Default: False.
- compute_communicate_fusion_level (int): Enable the fusion between compute and communicate.
Default: ``0``. Note: This function must be used with Ascend Training Solution 24.0.RC2 or later.
- 0: Disable fusion.
- 1: Apply fusion to forward nodes.
- 2: Apply fusion to backward nodes.
- 3: Apply fusion to all nodes.
- dataset_broadcast_opt_level (int): Optimize the scenario that the dataset repeated reading. Only
support O0/O1 jit level. It doesn't work in O2 mode. Default: ``0``.
- 0: Disable this optimize.
- 1: Optimize dataset reader between pipeline stage.
- 2: Optimize dataset reader within pipeline stage.
- 3: Optimize dataset reader with all scenes.
- bias_add_comm_swap (bool): Enable node execution order swap communication operators and add operators
if ``True``. Only 1-dimension bias node is supported. Default: ``False``.
- enable_allreduce_slice_to_reducescatter (bool): Enable allreduce optimization. In the scenario where
the batchmatmul model introduces allreduce in parallel, if the subsequent nodes are stridedslice
operator with model parallel, allreduce will be optimized as reducescatter according to the identified
patterns. Typical used in MoE module with groupwise alltoall. Default: ``False``.
- enable_interleave_split_concat_branch (bool): Enable communication computation parallel optimization
for branches formed by split and concat operators with ``enable_interleave`` attribute. It is typical
used in MoE parallel scenario. After splitting the input data, each slice of data is processed by the
MoE module, and then the branch results are concatenated. When the optimization is enable,
communication and computation will be executed in parallel between branches. Default: ``False``.
- host_scheduling_max_threshold(int): The max threshold to control whether the dynamic shape process is
used when run the static graph, the default value is 0. When the number of operations in the static graph
is less than the max threshold, this graph will be executed in dynamic shape process. In large model
scenarios, this approach can save stream resources. If the number of operations in the static graph is
greater than the maximum threshold, this graph will be executed in original static process.
jit_syntax_level (int): Set JIT syntax level for graph compiling, triggered by GRAPH_MODE and @jit decorator.
The value must be ``STRICT`` or ``LAX`` . Default: ``LAX`` . All levels support all backends.
- ``STRICT`` : Only basic syntax is supported, and execution performance is optimal. Can be used for MindIR
load and export.
- ``LAX`` : Compatible with all Python syntax as much as possible. However, execution performance may be
affected and not optimal. Cannot be used for MindIR load and export due to some syntax that may not be
able to be exported.
debug_level (int): Set config for debugging. Default value: ``RELEASE``.
- ``RELEASE``: Used for normally running, and some debug information will be discard to get a better
compiling performance.
- ``DEBUG``: Used for debugging when errors occur, more information will be record in compiling process.
gpu_config (dict): Set the parameters specific to gpu hardware platform. It is not set by default.
Currently, only setting `conv_fprop_algo` and `conv_dgrad_algo` and `conv_wgrad_algo` and `conv_allow_tf32`
and `matmul_allow_tf32` are supported on GPU hardware platform.
- conv_fprop_algo (str): Specifies convolution forward algorithm and the default value is 'normal',
The value range is as follows:
- normal: Use the heuristic search algorithm.
- performance: Use the trial search algorithm.
- implicit_gemm: This algorithm expresses the convolution as a matrix product without actually explicitly
forming the matrix that holds the input tensor data.
- implicit_precomp_gemm: This algorithm expresses convolution as a matrix product without actually
explicitly forming the matrix that holds the input tensor data, but still needs some memory workspace to
precompute some indices in order to facilitate the implicit construction of the matrix that holds the
input tensor data.
- gemm: This algorithm expresses the convolution as an explicit matrix product. A significant memory
workspace is needed to store the matrix that holds the input tensor data.
- direct: This algorithm expresses the convolution as a direct convolution (for example, without
implicitly or explicitly doing a matrix multiplication).
- fft: This algorithm uses the Fast-Fourier Transform approach to compute the convolution. A significant
memory workspace is needed to store intermediate results.
- fft_tiling: This algorithm uses the Fast-Fourier Transform approach but splits the inputs into tiles.
A significant memory workspace is needed to store intermediate results but less than fft algorithm for
large size images.
- winograd: This algorithm uses the Winograd Transform approach to compute the convolution. A reasonably
sized workspace is needed to store intermediate results.
- winograd_nonfused: This algorithm uses the Winograd Transform approach to compute the convolution. A
significant workspace may be needed to store intermediate results.
- conv_dgrad_algo (str): Specifies convolution data grad algorithm and the default value is 'normal',
The value range is as follows:
- normal: Use the heuristic search algorithm.
- performance: Use the trial search algorithm.
- algo_0: This algorithm expresses the convolution as a sum of matrix products without actually explicitly
forming the matrix that holds the input tensor data. The sum is done using the atomic add operation,
thus the results are non-deterministic.
- algo_1: This algorithm expresses the convolution as a matrix product without actually explicitly forming
the matrix that holds the input tensor data. The results are deterministic.
- fft: This algorithm uses a Fast-Fourier Transform approach to compute the convolution. A significant
memory workspace is needed to store intermediate results. The results are deterministic.
- fft_tiling: This algorithm uses the Fast-Fourier Transform approach but splits the inputs into tiles.
A significant memory workspace is needed to store intermediate results but less than fft for large size
images. The results are deterministic.
- winograd: This algorithm uses the Winograd Transform approach to compute the convolution. A reasonably
sized workspace is needed to store intermediate results. The results are deterministic.
- winograd_nonfused: This algorithm uses the Winograd Transform approach to compute the convolution.
A significant workspace may be needed to store intermediate results. The results are deterministic.
- conv_wgrad_algo (str): Specifies convolution filter grad algorithm and the default value is 'normal',
The value range is as follows:
- normal: Use the heuristic search algorithm.
- performance: Use the trial search algorithm.
- algo_0: This algorithm expresses the convolution as a sum of matrix products without actually explicitly
forming the matrix that holds the input tensor data. The sum is done using the atomic add operation,
thus the results are non-deterministic.
- algo_1: This algorithm expresses the convolution as a matrix product without actually explicitly forming
the matrix that holds the input tensor data. The results are deterministic.
- fft: This algorithm uses a Fast-Fourier Transform approach to compute the convolution. A significant
memory workspace is needed to store intermediate results. The results are deterministic.
- algo_3: This algorithm is similar to algo_0 but uses some small workspace to precompute some indices.
The results are also non-deterministic.
- winograd_nonfused: This algorithm uses the Winograd Transform approach to compute the convolution.
A significant workspace may be needed to store intermediate results. The results are deterministic.
- fft_tiling: This algorithm uses the Fast-Fourier Transform approach but splits the inputs into tiles.
A significant memory workspace is needed to store intermediate results but less than fft for large size
images. The results are deterministic.
- conv_allow_tf32 (bool): The flag below controls to allow Tensor core TF32 computation on CUDNN and the
default value is ``True``.
- matmul_allow_tf32 (bool): The flag below controls to allow Tensor core TF32 computation on CUBLAS and the
default value is ``False``.
jit_config (dict): Set the global jit config for compile, take effect in network defined in Cell or jit
decorators. It is not set by default.
The setting in context is the global jit config, while JitConfig is the local network's jit config.
When both exist simultaneously, the global jit config will not overwrite the local network's jit config.
- jit_level (str): Used to control the compilation optimization level. Default: ``""`` , The framework
automatically selects the execution method based on product, Altas training product is O2, and all other
products are O0. In addition, The option of the dynamic shape must be O0 or O1, O2 is not supported.
The value range is as follows:
- ``"O0"``: Except for optimizations that may affect functionality, all other optimizations are turned
off, adopt KernelByKernel execution mode.
- ``"O1"``: Using commonly used optimizations and automatic operator fusion optimizations,
adopt KernelByKernel execution mode. This optimization level is experimental and is being improved.
- ``"O2"``: Ultimate performance optimization, adopt Sink execution mode.
- infer_boost (str): Used to control the infer mode. Default: ``"off"`` . The value range is as follows:
- ``"on"``: Enable infer mode, get better infer performance.
- ``"off"``: Disable infer mode, use forward to infer, performance is not good.
exec_order (str): Set the sorting method for operator execution in GRAPH_MODE Currently, only three sorting
methods are supported: bfs and gpto, and the default method is bfs.
- ``"bfs"``: The default sorting method, breadth priority, good communication masking, relatively good
performance.
- ``"dfs"``: An optional sorting method, depth-first sorting. The performance is relatively worse than that
of bfs execution order, but it occupies less memory. It is recommended to try dfs in scenarios where other
execution orders run out of memory (OOM).
- ``"gpto"``: An optional sorting method. This method combines multiple execution orders and selects a
method with relatively good performance. There may be some performance gains in scenarios with multiple
replicas running in parallel.
Raises:
ValueError: If input key is not an attribute in context.
Examples:
>>> import mindspore as ms
>>> ms.set_context(mode=ms.PYNATIVE_MODE)
>>> ms.set_context(precompile_only=True)
>>> ms.set_context(device_target="Ascend")
>>> ms.set_context(device_id=0)
>>> ms.set_context(save_graphs=True, save_graphs_path="./model.ms")
>>> ms.set_context(enable_reduce_precision=True)
>>> ms.set_context(enable_graph_kernel=True)
>>> ms.set_context(graph_kernel_flags="--opt_level=2 --dump_as_text")
>>> ms.set_context(reserve_class_name_in_scope=True)
>>> ms.set_context(variable_memory_max_size="6GB")
>>> ms.set_context(aoe_tune_mode="online")
>>> ms.set_context(aoe_config={"job_type": "2"})
>>> ms.set_context(check_bprop=True)
>>> ms.set_context(max_device_memory="3.5GB")
>>> ms.set_context(mempool_block_size="1GB")
>>> ms.set_context(print_file_path="print.pb")
>>> ms.set_context(max_call_depth=80)
>>> ms.set_context(env_config_path="./env_config.json")
>>> ms.set_context(grad_for_scalar=True)
>>> ms.set_context(enable_compile_cache=True, compile_cache_path="./cache.ms")
>>> ms.set_context(pynative_synchronize=True)
>>> ms.set_context(runtime_num_threads=10)
>>> ms.set_context(inter_op_parallel_num=4)
>>> ms.set_context(disable_format_transform=True)
>>> ms.set_context(memory_optimize_level='O0')
>>> ms.set_context(memory_offload='ON')
>>> ms.set_context(deterministic='ON')
>>> ms.set_context(ascend_config={"precision_mode": "force_fp16", "jit_compile": True,
... "atomic_clean_policy": 1, "op_precision_mode": "./op_precision_config_file",
... "op_debug_option": "oom",
... "ge_options": {"global": {"ge.opSelectImplmode": "high_precision"},
... "session": {"ge.exec.atomicCleanPolicy": "0"}}})
>>> ms.set_context(jit_syntax_level=ms.STRICT)
>>> ms.set_context(debug_level=ms.context.DEBUG)
>>> ms.set_context(gpu_config={"conv_fprop_algo": "performance", "conv_allow_tf32": True,
... "matmul_allow_tf32": True})
>>> ms.set_context(jit_config={"jit_level": "O0"})
>>> ms.set_context(exec_order="gpto")
"""
ctx = _context()
# set device target first
if 'device_target' in kwargs:
ctx.set_device_target(kwargs['device_target'])
device = ctx.get_param(ms_ctx_param.device_target)
_check_ascend_device_context_initialized(device, kwargs)
for key, value in kwargs.items():
if key in ('enable_sparse', 'auto_tune_mode'):
logger.warning(f"For 'context.set_context', '{key}' parameter is deprecated, "
"and will be removed in the next version.")
continue
if key in ('enable_auto_mixed_precision', 'enable_dump', 'save_dump_path'):
logger.warning(f"For 'context.set_context', '{key}' parameter is deprecated. "
"For details, please see the interface parameter API comments")
continue
_check_key(key)
if key == 'save_graphs':
if value is True:
value = 2
if value is False:
value = 0
if value > 3:
raise ValueError(f"value for save_graphs should be 0-3 but got '{value}'")
if key == 'jit_syntax_level' and value not in (STRICT, COMPATIBLE, LAX):
raise ValueError(f"For 'jit_syntax_level', the value should be context.STRICT"
f" or context.LAX, but got {value}.")
if key == 'debug_level' and value not in (RELEASE, DEBUG):
raise ValueError(f"For 'debug_level', the value should be context.DEBUG"
f" or context.RELEASE, but got {value}.")
if key == 'enable_compile_cache':
setattr(ctx, key, value)
ctx.set_param(ms_ctx_param.__members__[key], int(value))
continue
if not _check_target_specific_cfgs(device, key):
continue
if key in ctx.setters:
ctx.setters[key](ctx, value)
continue
if hasattr(ctx, key):
setattr(ctx, key, value)
continue
# enum variables beginning with '_' are for internal use
if key in ms_ctx_param.__members__ and key[0] != '_':
ctx.set_param(ms_ctx_param.__members__[key], value)
continue
raise ValueError(f"For 'context.set_context', the keyword argument {key} is not recognized! For detailed "
f"usage of 'set_context', please refer to the Mindspore official website.")
[docs]def get_context(attr_key):
"""
Get context attribute value according to the input key.
If some attributes are not set, they will be automatically obtained.
Args:
attr_key (str): The key of the attribute.
Returns:
Object, The value of given attribute key.
Raises:
ValueError: If input key is not an attribute in context.
Examples:
>>> import mindspore as ms
>>> ms.get_context("device_target")
>>> ms.get_context("device_id")
"""
ctx = _context()
device = ctx.get_param(ms_ctx_param.device_target)
_ = _check_target_specific_cfgs(device, attr_key)
if hasattr(ctx, attr_key):
return getattr(ctx, attr_key)
# enum variables beginning with '_' are for internal use
if attr_key in ms_ctx_param.__members__ and attr_key[0] != '_':
return ctx.get_param(ms_ctx_param.__members__[attr_key])
raise ValueError(f"For 'context.get_context', the argument {attr_key} is not recognized! For detailed "
f"usage of 'get_context', please refer to the Mindspore official website.")
def _get_mode():
"""
Get execution mode. Only for internal using.
Returns:
Object: The Value of execution mode.
"""
ctx = _context()
return ctx.get_mode()
def get_jit_config():
"""
Get global jit config.
Returns:
Object: The Value of jit config.
"""
ctx = _context()
return ctx.get_jit_config()
[docs]class ParallelMode:
"""
Parallel mode options.
There are five kinds of parallel modes, ``STAND_ALONE``, ``DATA_PARALLEL``,
``HYBRID_PARALLEL``, ``SEMI_AUTO_PARALLEL`` and ``AUTO_PARALLEL``. Default: ``STAND_ALONE``.
- ``STAND_ALONE``: Only one processor is working.
- ``DATA_PARALLEL``: Distributes the data across different processors.
- ``HYBRID_PARALLEL``: Achieves data parallelism and model parallelism manually.
- ``SEMI_AUTO_PARALLEL``: Achieves data parallelism and model parallelism by setting parallel strategies.
- ``AUTO_PARALLEL``: Achieves parallelism automatically.
``MODE_LIST``: The list of all supported parallel modes.
"""
STAND_ALONE = "stand_alone"
DATA_PARALLEL = "data_parallel"
HYBRID_PARALLEL = "hybrid_parallel"
SEMI_AUTO_PARALLEL = "semi_auto_parallel"
AUTO_PARALLEL = "auto_parallel"
MODE_LIST = [STAND_ALONE, DATA_PARALLEL, HYBRID_PARALLEL, SEMI_AUTO_PARALLEL, AUTO_PARALLEL]
[docs]@args_type_check(enable_ps=bool)
def set_ps_context(**kwargs):
"""
Set parameter server training mode context.
Note:
Parameter server mode is only supported in graph mode.
Some other environment variables should also be set for parameter server training mode.
These environment variables are listed below:
- MS_SERVER_NUM: Server number
- MS_WORKER_NUM: Worker number
- MS_SCHED_HOST: Scheduler IP address
- MS_SCHED_PORT: Scheduler port
- MS_ROLE: The role of this process:
- MS_SCHED: represents the scheduler,
- MS_WORKER: represents the worker,
- MS_PSERVER/MS_SERVER: represents the Server
Args:
enable_ps (bool): Whether to enable parameter server training mode.
Only after enable_ps is set True, the environment variables will be effective.
Default: ``False`` .
config_file_path (string): Configuration file path used by recovery, parameter server training mode only
supports Server disaster recovery currently. Default: ``''`` .
scheduler_manage_port (int): Scheduler manage port used to scale out/in. Default: ``11202`` .
enable_ssl (bool): Set PS SSL mode enabled or disabled. Default: ``False`` .
client_password (str): Password to decrypt the secret key stored in the client certificate. Default: ``''`` .
server_password (str): Password to decrypt the secret key stored in the server certificate. Default: ``''`` .
Raises:
ValueError: If input key is not the attribute in parameter server training mode context.
Examples:
>>> import mindspore as ms
>>> ms.set_ps_context(enable_ps=True, enable_ssl=True, client_password='123456', server_password='123456')
"""
_set_ps_context(**kwargs)
[docs]def get_ps_context(attr_key):
"""
Get parameter server training mode context attribute value according to the key.
Args:
attr_key (str): The key of the attribute:
- enable_ps (bool): Whether to enable parameter server training mode. Default: ``False`` .
- config_file_path (string): Configuration file path used by recovery, parameter server training mode only
supports Server disaster recovery currently. Default: ``''`` .
- scheduler_manage_port (int): Scheduler manage port used to scale out/in. Default: ``11202`` .
- enable_ssl (bool): Set PS SSL mode enabled or disabled. Default: ``False`` .
- client_password (str): Password to decrypt the secret key stored in the client certificate.
Default: ``''`` .
- server_password (str): Password to decrypt the secret key stored in the server certificate.
Default: ``''`` .
Returns:
Returns attribute value according to the key.
Raises:
ValueError: If input key is not attribute in auto parallel context.
Examples:
>>> import mindspore as ms
>>> ms.get_ps_context("enable_ps")
"""
return _get_ps_context(attr_key)
[docs]def reset_ps_context():
"""
Reset parameter server training mode context attributes to the default values.
Meaning of each field and its default value refer to :func:`mindspore.set_ps_context`.
Examples:
>>> import mindspore as ms
>>> ms.reset_ps_context()
"""
_reset_ps_context()
_hccl_connect_timeout = '600'
def _init_parallel_env():
"""Set hccl connect timeout."""
if 'HCCL_CONNECT_TIMEOUT' not in os.environ:
os.environ['HCCL_CONNECT_TIMEOUT'] = _hccl_connect_timeout
_init_parallel_env()