Environment Variables

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MindSpore environment variables are as follows:

Data Processing

Environment Variable

Function

Type

Value Range

Description

DATASET_ENABLE_NUMA

Determines whether to enable numa feature for dataset module. Most of time this configuration can improve performance on distribute scenario.

String

True: Enables the numa feature for dataset module.

This variable is used together with libnuma.so.

MS_CACHE_HOST

Specifies the IP address of the host where the cache server is located when the cache function is enabled.

String

IP address of the host where the cache server is located.

This variable is used together with MS_CACHE_PORT.

MS_CACHE_PORT

Specifies the port number of the host where the cache server is located when the cache function is enabled.

String

Port number of the host where the cache server is located.

This variable is used together with MS_CACHE_HOST.

MS_DATASET_SINK_QUEUE

Specifies the size of data queue in sink mode.

Integer

1~128: Valid range of queue size.

MS_ENABLE_NUMA

Whether to enable numa feature in global context to improve end-to-end performance.

String

True: Enables the numa feature in global context.

OPTIMIZE

Determines whether to optimize the pipeline tree for dataset during data processing. This variable can improve the data processing efficiency in the data processing operator fusion scenario.

String

true: enables pipeline tree optimization.

false: disables pipeline tree optimization.

For more information, see Single-Node Data Cache and Optimizing the Data Processing.

Graph Compilation

Environment Variable

Function

Type

Value Range

Description

MS_DEV_JIT_SYNTAX_LEVEL

Specify the syntax support level of static graph mode.

Integer

0: Specify the syntax support level of static graph mode as STRICT level. Only basic syntaxes is supported, and execution performance is optimal. Can be used for MindIR load and export.

2: Specify the syntax support level of static graph mode as LAX level. More complex syntaxes are supported, compatible with all Python syntax as much as possible. Cannot be used for MindIR load and export due to some syntax that may not be able to be exported.

MS_JIT_MODULES

Specify which modules in static graph mode require JIT static compilation, and their functions and methods will be compiled into static calculation graphs.

String

The module name, corresponding to the name of the imported top-level module. If there are more than one, separate them with commas. For example, export MS_JIT_MODULES=mindflow,mindyolo.

By default, modules other than third-party libraries will be perform JIT static compilation, and MindSpore suites such as mindflow and mindyolo will not be treated as third-party libraries. See Calling the Third-party Libraries for more details. If there is a module similar to MindSpore suites, which contains nn.Cell, @ms.jit decorated functions or functions to be compiled into static calculation graphs, you can configure the environment variable, so that the module will be perform JIT static compilation instead of being treated as third-party library.

MS_JIT_IGNORE_MODULES

Specify which modules are treated as third-party libraries in static graph mode without JIT static compilation. Their functions and methods will be interpreted and executed.

String

The module name, corresponding to the name of the imported top-level module. If there are more than one, separate them with commas. For example, export MS_JIT_IGNORE_MODULES=numpy,scipy.

Static graph mode can automatically recognize third-party libraries, and generally there is no need to set this environment variable for recognizable third-party libraries such as NumPy and Scipy. If MS_JIT_IGNORE_MODULES and MS_JIT_MODULES specify the same module name at the same time, the former takes effect and the latter does not.

MS_DEV_FALLBACK_DUMP_NODE

Print syntax expressions supported by Static Graph Syntax Enhancement in the code.

Integer

1: Enable printing.

No setting or other value: Disable printing.

MS_JIT

Specify whether to use just-in-time compilation.

Integer

0: Do not use just-in-time compilation, and the network script is executed directly in dynamic graph (PyNative) mode.

No setting or other value: Determine whether to execute static graph (Graph) mode or dynamic graph (PyNative) mode according to the network script.

MS_DEV_FORCE_USE_COMPILE_CACHE

Specify whether to use the compilation cache directly without checking whether the network script has been modified.

Integer

1: Do not check whether the network script has been modified, directly use the compilation cache. It is recommended to only use it during debugging. For example, the network script only adds print statements for printing and debugging.

No setting or other value: Detect changes in network scripts, and only use the compilation cache when the network scripts have not been modified.

MS_DEV_SIDE_EFFECT_LOAD_ELIM

Optimize redundant memory copy operations.

Integer

0: Do not do video memory optimization, occupy the most video memory.

1: Conservatively do some memory optimization.

2: Under the premise of losing a certain amount of compilation performance, optimize the video memory as much as possible.

3: The accuracy of the network is not guaranteed, and the memory consumption is minimal.

Default: 1

MS_DEV_SAVE_GRAPHS

Specify whether to save IR files.

Integer

0: Disable saving IR files.

1: Some intermediate files will be generated during graph compilation.

2: Based on level1, generate more IR files related to backend process.

3: Based on level2, generate visualization computing graphs and detailed frontend IR graphs.

MS_DEV_SAVE_GRAPHS_PATH

Specify path to save IR files.

String

Path to save IR files.

MS_DEV_DUMP_IR_FORMAT

Configure what information is displayed in IR graphs.

Integer

0: Except for the return node, only the operator and inputs of the node are displayed, and the detailed information of subgraph is simplified.

1: Display all information except debug info and scope.

2 or not set: Display all information.

MS_DEV_DUMP_IR_INTERVAL

Set to save an IR file every few IR files to reduce the number of IR files.

Integer

1 or not set: Save all IR files.

Other values: Save IR files at specified intervals.

When this environment variable is enabled together with MS_DEV_DUMP_IR_PASSES, the rules of MS_DEV_DUMP_IR_PASSES take priority, and this environment variable will not take effect.

MS_DEV_DUMP_IR_PASSES

Specify which IR files to save based on the file name.

String

Pass’s name of part of its name. If there are multiple, use commas to separate them. For example, export MS_DEV_DUMP_IR_PASSES=recompute,renormalize.

When setting this environment variable, regardless of the value of MS_DEV_SAVE_GRAPHS, detailed frontend IR files will be filtered and printed.

MS_JIT_DISPLAY_PROGRESS

Specify whether to print compilation progress information.

Integer

1: Print main compilation progress information.

No setting or other value: Do not print compilation progress information.

MS_KERNEL_LAUNCH_SKIP

Specifies the kernel or subgraph to skip during execution.

String

ALL or all: skip the execution of all kernels and subgraphs

kernel name (such as ReLU) : skip the execution of all ReLU kernels

subgraph name (such as kernel_graph_1) : skip the execution of subgraph kernel_graph_1, used for subgraph sink mode

MS_PYNATIVE_GE

Whether GE is executed in PyNative mode.

Integer

0: GE is not executed.

1: GE is executed.

Default: 0

Experimental environment variable.

GC_COLLECT_IN_CELL

Whether to perform garbage collection on unused Cell objects

Integer

1: Perform garbage collection on unused Cell objects

No setting or other value: not calling the garbage collection

MS_DEV_USE_PY_BPROP

The op which set by environment will use python bprop instead of cpp expander bprop

String

Op name, can set more than one name, split by ‘,’

Experimental environment variable. It will run fail when python bprop does not exist

MS_DEV_DISABLE_BPROP_CACHE

Disable to use bprop’s graph cache

String

‘on’, indicating that disable to use bprop’s graph cache

Experimental environment variable. When set env on, it will slow down building bprop’s graph

MS_DEV_DISABLE_TRACE

Disable trace function

String

‘on’, indicating that disable trace function

Experimental environment variable.

MS_ENABLE_IO_REUSE

Turn on the graph input/output memory multiplexing flag

Integer

1: Enable this function.

0: not enabled.

Default value: 0

Ascend AI processor environment GE process use only.

MS_DISABLE_REF_MODE

Forcibly setting to turn off ref mode

Integer

0: Does not turn off ref mode.

1: Forcibly turn off ref mode.

Default value: 0.

This environment variable will be removed subsequently and is not recommended.

Ascend AI processor environment GE process use only.

MS_DEV_BOOST_INFER

Compile optimization switch for graph compilation. This switch accelerates the type inference module to speed up network compilation.

Integer

0: Disables the optimization.

1: Enables the optimization.

Default: 0

Experimental environment variable.

Dump Debugging

Environment Variable

Function

Type

Value Range

Description

MINDSPORE_DUMP_CONFIG

Specify the path of the configuration file that the cloud-side Dump or the device-side Dump depends on.

String

File path, which can be a relative path or an absolute path.

MS_DIAGNOSTIC_DATA_PATH

When the cloud-side Dump is enabled, if the path field is not set or set to an empty string in the Dump configuration file, then $MS_DIAGNOSTIC_DATA_PATH /debug_dump is regarded as path. If the `path field in configuration file is not empty, it is still used as the path to save Dump data.

String

File path, only absolute path is supported.

This variable is used together with MINDSPORE_DUMP_CONFIG.

MS_DEV_DUMP_BPROP

Dump bprop ir file in current path

String

‘on’, indicating that dump bprop ir file in current path

Experimental environment variable.

MS_DEV_DUMP_PACK

Dump trace ir file in current path

String

‘on’, indicating that dump trace ir file in current path

Experimental environment variable.

ENABLE_MS_DEBUGGER

Determines whether to enable Debugger during training.

Boolean

1: enables Debugger.

0: disables Debugger.

This variable is used together with MS_DEBUGGER_HOST and MS_DEBUGGER_PORT.

MS_DEBUGGER_HOST

Specifies the IP of the MindSpore Insight Debugger Server.

String

IP address of the host where the MindSpore Insight Debugger Server is located.

This variable is used together with ENABLE_MS_DEBUGGER=1 and MS_DEBUGGER_PORT.

MS_DEBUGGER_PARTIAL_MEM

Determines whether to enable partial memory overcommitment. (Memory overcommitment is disabled only for nodes selected on Debugger.)

Boolean

1: enables memory overcommitment for nodes selected on Debugger.

0: disables memory overcommitment for nodes selected on Debugger.

MS_DEBUGGER_PORT

Specifies the port for connecting to the MindSpore Insight Debugger Server.

Integer

Port number ranges from 1 to 65536.

This variable is used together with ENABLE_MS_DEBUGGER=1 and MS_DEBUGGER_HOST.

MS_OM_PATH

Specifies the save path for the file analyze_fail.ir/*.npy which is dumped if task exception or a compiling graph error occurred. The file will be saved to the path of the_specified_directory /rank_${rank_id}/om/.

String

File path, which can be a relative path or an absolute path.

For more information, see Using Dump in the Graph Mode and Debugger.

Distributed Parallel

Environment Variable

Function

Type

Value Range

Description

RANK_ID

Specifies the logical ID of the Ascend AI Processor called during deep learning.

Integer

The value ranges from 0 to 7. When multiple servers are running concurrently, DEVICE_ID`s in different servers may be the same. RANK_ID can be used to avoid this problem. `RANK_ID = SERVER_ID * DEVICE_NUM + DEVICE_ID, and DEVICE_ID indicates the sequence number of the Ascend AI processor of the current host.

RANK_SIZE

Specifies the number of Ascend AI Processors to be called during deep learning.

Note: When the Ascend AI Processor is used, specified by user when a distributed case is executed.

Integer

The number of Ascend AI Processors to be called ranges from 1 to 8.

This variable is used together with RANK_TABLE_FILE

RANK_TABLE_FILE or MINDSPORE_HCCL_CONFIG_PATH

Specifies the file to which a path points, including device_ip corresponding to multiple Ascend AI Processor device_id.

Note: When the Ascend AI Processor is used, specified by user when a distributed case is executed.

String

File path, which can be a relative path or an absolute path.

This variable is used together with RANK_SIZE.

MS_COMM_COMPILER_OPT

Specifies the maximum number of communication operators that can be replaced by corresponding communication subgraph during Ascend backend compilation in graph mode.

Note: When the Ascend AI Processor is used, specified by user when a distributed case is executed.

Integer

-1 or an positive integer: communication subgraph extraction and reuse is enabled. -1 means that default value will be used. A positive integer means that the user specified value will be used.

Do not set or set other values:: communication subgraph extraction and reuse is turned off.

DEVICE_ID

The ID of the Ascend AI processor, which is the Device’s serial number on the AI server.

Integer

The ID of the Rise AI processor, value range: [0, number of actual Devices-1].

MS_ROLE

Specifies the role of this process.

String

MS_SCHED: represents the Scheduler process, a training task starts only one Scheduler, which is responsible for networking, disaster recovery, etc., and does not execute the training code.

MS_WORKER: represents the Worker process, which generally sets up the distributed training process for this role.

MS_PSERVER: represents the Parameter Server process, and this role is only valid in Parameter Server mode. Please refer to Parameter Server mode .

The Worker and Parameter Server processes register with the Scheduler process to complete the networking.

MS_SCHED_HOST

Specifies the IP address of the Scheduler.

String

Legal IP address.

The current version does not support IPv6 addresses.

MS_SCHED_PORT

Specifies the Scheduler binding port number.

Integer

Port number in the range of 1024 to 65535.

MS_NODE_ID

Specifies the ID of this process, unique within the cluster.

String

Represents the unique ID of this process, which is automatically generated by MindSpore by default.

MS_NODE_ID needs to be set in the following cases. Normally it does not need to be set and is automatically generated by MindSpore:

Enable Disaster Recovery Scenario: Disaster recovery requires obtaining the current process ID and thus re-registering with the Scheduler.

Enable GLOG log redirection scenario: In order to ensure that the logs of each training process are saved independently, it is necessary to set the process ID, which is used as the log saving path suffix.

Specify process rank id scenario: users can specify the rank id of this process by setting MS_NODE_ID to some integer.

MS_WORKER_NUM

Specifies the number of processes with the role MS_WORKER.

Integer

Integers greater than 0.

The number of Worker processes started by the user should be equal to the value of this environment variable. If it is less than this value, the networking fails; if it is greater than this value, the Scheduler process will complete the networking according to the order of Worker registration, and the redundant Worker processes will fail to start.

MS_SERVER_NUM

Specifies the number of processes with the role MS_PSERVER.

Integer

Integers greater than 0.

The setting is only required in Parameter Server training mode.

MS_ENABLE_RECOVERY

Turn on disaster tolerance.

Integer

1 for on, 0 for off. The default is 0.

MS_RECOVERY_PATH

Persistent path folder.

String

Legal user directory.

The Worker and Scheduler processes perform the necessary persistence during execution, such as node information for restoring the grouping and training the intermediate state of the service, and are saved via files.

MS_HCCL_CM_INIT

Whether to use the CM method to initialize the HCCL.

Integer

1 for using the method, 0 for not using. The default is 0.

This environment variable is only recommended to be turned on for Ascend hardware platforms with a large number of communication domains. Turning on this environment variable reduces the memory footprint of the HCCL collection communication libraries, and the training tasks are executed in the same way as the rank table startup.

GROUP_INFO_FILE

Specify communication group information storage path

String

Communication group information file path, supporting relative path and absolute path.

MS_SIMULATION_LEVEL

Specify simulation compilation level.

Integer

0: Only the hardware independent compilation is processed; 1: the hardware related compilation is also processed.The default simulation compilation is turned off.

This environment variable is mainly used to simulate the compilation of a specific rank card in distributed training, and requires the combination of RANK_SIZE and RANK_ID.

DUMP_PARALLEL_INFO

Enable dump parallel-related communication information in auto-parallel/semi-automatic parallelism mode. The dump path can be set by set_context(save_graphs_path=”path/to/parallel_info_files”)

Integer

1: Enable dump parallel information.

No setting or other value: Disable printing.

The JSON file saved by each card contains the following fields:

hccl_algo: Ensemble communication algorithm.

op_name: The name of the communication operator.

op_type: The type of communication operator.

shape: The shape information of the communication operator.

data_type: The data type of the communication operator.

global_rank_id: the global rank number.

comm_group_name: the communication domain name of the communication operator.

comm_group_rank_ids: The communication domain of the communication operator.

src_rank: The rank_id of peer operator of the Receive operator.

dest_rank: The rank_id of peer opposite of the Send operator.

sr_tag: The identity ID of different send-receive pairs when src and dest are the same.

See Dynamic Cluster for more details about Dynamic Cluster.

Operators Compile

Environment Variable

Function

Type

Value Range

Description

MS_BUILD_PROCESS_NUM

Specifies the number of parallel operator build processes during Ascend backend compilation.

Integer

The number of parallel operator build processes ranges from 1 to 24.

MS_COMPILER_CACHE_ENABLE

Specifies whether to save or load the compile cache. The function is the same as the enable_compile_cache in MindSpore context.

Note: This environment variable has lower precedence than the context enable_compile_cache.

Integer

0: Disable the compile cache

1: Enable the compile cache

If it is used together with MS_COMPILER_CACHE_PATH, the directory for storing the cache files is ${MS_COMPILER_CACHE_PATH} /rank_${RANK_ID} /graph_cache/. RANK_ID is the unique ID for multi-cards training, the single card scenario defaults to RANK_ID=0.

MS_COMPILER_CACHE_PATH

MindSpore compile cache directory and save the graph or operator cache files like graph_cache, kernel_meta, somas_meta.

String

File path, which can be a relative path or an absolute path.

MS_COMPILER_OP_LEVEL

Enable debug function and generate the TBE instruction mapping file during Ascend backend compilation.

Note: Only Ascend backend.

Integer

The value of compiler op level should be one of [0, 1, 2, 3, 4].

0: Turn off op debug and delete op compile cache files

1: Turn on debug, generate the *.cce and *_loc.json

2: Turn on debug, generate the *.cce and *_loc.json files and turn off the compile optimization switch (The CCEC compiler option is set to -O0-g) at the same time

3: Turn off op debug (default)

4: Turn off op debug, generate the *.cce and *_loc.json files, generate UB fusion calculation description files ({$kernel_name}_compute.json) for fusion ops

When an AICore Error occurs, if you need to save the cce file of ops, you can set the MS_COMPILER_OP_LEVEL to 1 or 2

MS_DEV_DISABLE_PREBUILD

Turn off operator prebuild processes during Ascend backend compilation. The prebuild processing may fix the attr fusion_type of the operate, and then affect the operator fusion. If the performance of fusion operator can not meet the expectations, try to turn on this environment variable to verify if there is the performance problem of fusion operator.

Boolean

true: turn off prebuild

false: enable prebuild

MINDSPORE_OP_INFO_PATH

Specify the path to the operator library load file

string

Absolute path of the file

Default: No setting.

Inference only

MS_ASCEND_CHECK_OVERFLOW_MODE

Setting the output mode of floating-point calculation results

String

SATURATION_MODE: Saturation mode.

INFNAN_MODE: INF/NAN mode.

Default value: INFNAN_MODE.

Saturation mode: Saturates to floating-point extremes (+-MAX) when computation overflows.

INF/NAN mode: Follows the IEEE 754 standard and outputs INF/NAN calculations as defined.

Atlas A2 training series use only.

For more information, see FAQ.

Log

Environment Variable

Function

Type

Value Range

Description

GLOG_log_dir

Specifies the log level.

String

File path, which can be a relative path or an absolute path.

This variable is used together with GLOG_logtostderr

If the value of GLOG_logtostderr is 0, this variable must be set

If GLOG_log_dir is specified and the value of GLOG_logtostderr is 1, the logs are output to the screen and not to the file

The log saving path is: specified path/rank_${rank_id}/logs/. Under non-distributed training scenario, rank_id is 0, while under distributed training scenario, rank_id is the ID of the current device in the cluster

C++ and Python logs are output to different files. The C++ logs follow the GLOG log file naming rules. In this case mindspore.machine name. user name.log.log level.timestamp.Process ID, the Python log file name is mindspore.log.process ID.

GLOG_log_dir can only contain upper and lower case letters, numbers, “-”, “_”, “/” characters, etc.

GLOG_max_log_size

Control the size of the MindSpore C++ module log file. You can change the default maximum value of the log file with this environment variable

Integer

Positive integer. Default value: 50MB

If the current written log file exceeds the maximum value, the new output log content is written to a new log file

GLOG_logtostderr

Specifies the log output mode.

Integer

1: logs are output to the screen

0: logs are output to a file

Default: 1

This variable is used together with GLOG_log_dir

GLOG_stderrthreshold

The log module will print logs to the screen when these logs are output to a file. This environment variable is used to control the log level printed to the screen in this scenario.

Integer

0-DEBUG

1-INFO

2-WARNING

3-ERROR

4-CRITICAL

Default: 2

GLOG_v

Specifies the log level.

Integer

0-DEBUG

1-INFO

2-WARNING

3-ERROR, indicating that the program execution error, output error log, and the program may not terminate

4-CRITICAL, indicating that the execution of the program is abnormal, and the program may not terminate

Default: 2.

After a log level is specified, output log messages greater than or equal to that level

logger_backupCount

Controls the number of mindspore Python module log files.

Integer

Default: 30

logger_maxBytes

Controls the size of the mindspore Python module log file.

Integer

Default: 52428800 bytes

MS_SUBMODULE_LOG_v

Specifies log levels of C++ sub modules of MindSpore.

Dict {String:Integer…}

0-DEBUG

1-INFO

2-WARNING

3-ERROR

The assignment way is:MS_SUBMODULE_LOG_v=”{SubModule1:LogLevel1,SubModule2:LogLevel2,…}”

The log level of the specified sub-module will override the setting of GLOG_v in this module, where the log level of the sub-module LogLevel has the same meaning as that of GLOG_v. For a detailed list of MindSpore sub-modules, see sub-module_names.

For example, you can set the log level of PARSER and ANALYZER modules to WARNING and the log level of other modules to INFO by GLOG_v=1 MS_SUBMODULE_LOG_v=”{PARSER:2,ANALYZER:2}”.

GLOG_logfile_mode

The GLOG environment variable used to control the permissions of the GLOG log files in MindSpore

octal number

Refer to the numerical representation of the Linux file permission setting, default value: 0640 (value taken)

MS_RDR_ENABLE

Determines whether to enable running data recorder (RDR). If a running exception occurs in MindSpore, the pre-recorded data in MindSpore is automatically exported to assist in locating the cause of the running exception.

Integer

1:enables RDR

0:disables RDR

This variable is used together with MS_RDR_MODE and MS_RDR_PATH.

MS_RDR_MODE

Determines the exporting mode of running data recorder (RDR).

Integer

1:export data when training process terminates in exceptional scenario

2:export data when training process terminates in both exceptional scenario and normal scenario.

Default: 1.

This variable is used together with MS_RDR_ENABLE=1.

MS_RDR_PATH

Specifies the system path for storing the data recorded by running data recorder (RDR).

String

Directory path, which should be an absolute path.

This variable is used together with MS_RDR_ENABLE=1. The final directory for recording data is ${MS_RDR_PATH} /rank_${RANK_ID}/rdr/. RANK_ID is the unique ID for multi-cards training, the single card scenario defaults to RANK_ID=0.

MS_EXCEPTION_DISPLAY_LEVEL

Control the display level of exception information

Integer

0: display exception information related to model developers and framework developers

1: display exception information related to model developers

Default: 0

Note: glog does not support log file wrapping. If you need to control the log file occupation of disk space, you can use the log file management tool provided by the operating system, for example: logrotate for Linux. Please set the log environment variables before import mindspore .

For more detailed information about RDR, refer to Running Data Recorder .

Feature Value Detection

Environment Variable

Function

Type

Value

Description

NPU_ASD_ENABLE

Whether to enable feature value detection function

Integer

0: Disable feature value detection function

1: Enable feature value detection function

Currently, this feature only supports Atlas A2 training series products, and only detects abnormal feature value that occur during the training of Transformer class models with bfloat16 data type

NPU_ASD_UPPER_THRESH

Controls the absolute numerical threshold for detection

String

The format is a pair of integers, where the first element controls the first-level absolute numerical threshold, and the second element controls the second-level absolute numerical threshold

Decreasing the threshold can detect smaller fluctuations of abnormal data, increasing the detection rate, while increasing the threshold has the opposite effect

By default, if this environment variable is not configured, NPU_ASD_UPPER_THRESH=1000000,10000

NPU_ASD_SIGMA_THRESH

Controls the relative numerical threshold for detection

String

The format is a pair of integers, where the first element controls the first-level relative numerical threshold, and the second element controls the second-level relative numerical threshold

Decreasing the threshold can detect smaller fluctuations of abnormal data, increasing the detection rate, while increasing the threshold has the opposite effect

By default, if this environment variable is not configured, NPU_ASD_SIGMA_THRESH=100000,5000

For more information on feature value detection, see Feature Value Detection.

Third-party Library

Environment Variable

Function

Type

Value Range

Description

OPTION_PROTO_LIB_PATH

Specifies the RPOTO dependent library path.

String

File path, which can be a relative path or an absolute path.

PROTOCOL_BUFFERS_PYTHON_IMPLEMENTATION

Choose which language to use for the Protocol Buffers back-end implementation

String

“cpp”: implementation using c++ backend

“python”: implementation using python back-end

No setting or other value: implementation using python backend

ASCEND_OPP_PATH

OPP package installation path

String

Absolute path for OPP package installation

Required for Ascend AI processor environments only; the environment generally provided to the user is already configured and need not be concerned.

ASCEND_AICPU_PATH

AICPU package installation path

String

Absolute path of the AICPU package installation

Required for Ascend AI processor environments only; the environment generally provided to the user is already configured and need not be concerned.

ASCEND_CUSTOM_OPP_PATH

the installation path of the custom operator package

String

the absolute path of custom operator package installation

Required for Ascend AI processor environments only; the environment generally provided to the user is already configured and need not be concerned.

ASCEND_TOOLKIT_PATH

TOOLKIT package installation path

String

the absolute path of custom operator package installation

Required for Ascend AI processor environments only; the environment generally provided to the user is already configured and need not be concerned.

CUDA_HOME

CUDA installation path

String

Absolute path for CUDA package installation

Required for GPU environment only, generally no need to set. If multiple versions of CUDA are installed in the GPU environment, it is recommended to configure this environment variable in order to avoid confusion.

CANN

For more information about CANN’s environment variables, see Ascend community . Please set the environment variables for CANN before import mindspore .

Environment Variable

Function

Type

Value Range

Description

MS_FORMAT_MODE

Set the default preferred format for Ascend GE processes, with the entire network set to ND format

Integer

1: The operator prioritizes the ND format.

0: The operator prioritizes private formats.

Default value: 1

This environment variable affects the choice of format for the operator, which has an impact on network execution performance and memory usage, and can be tested by setting this option to get a better choice of operator format in terms of performance and memory.

Ascend AI processor environment GE processes only.