ConfigProto de clase final pública
Session configuration parameters. The system picks appropriate values for fields that are not set.Protobuf tipo
tensorflow.ConfigProto
Clases anidadas
clase | ConfigProto.Builder | Session configuration parameters. | |
clase | ConfigProto.Experimental | Everything inside Experimental is subject to change and is not subject to API stability guarantees in https://www.tensorflow.org/guide/version_compat. | |
interfaz | ConfigProto.ExperimentalOrBuilder |
Constantes
Métodos públicos
booleano | containsDeviceCount (clave de cadena) Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. |
booleano | es igual a (Objeto obj) |
booleano | getAllowSoftPlacement () Whether soft placement is allowed. |
ClusterDef | getClusterDef () Optional list of all workers to use in this session. |
ClusterDefOrBuilder | getClusterDefOrBuilder () Optional list of all workers to use in this session. |
ConfigProto estático | |
ConfigProto | |
com.google.protobuf.Descriptors.Descriptor estático final | |
Mapa <Cadena, Entero> | getDeviceCount () En su lugar, utilice getDeviceCountMap() . |
En t | getDeviceCountCount () Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. |
Mapa <Cadena, Entero> | getDeviceCountMap () Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. |
En t | getDeviceCountOrDefault (clave de cadena, int valor predeterminado) Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. |
En t | getDeviceCountOrThrow (clave de cadena) Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. |
Cuerda | getDeviceFilters (índice int) When any filters are present sessions will ignore all devices which do not match the filters. |
com.google.protobuf.ByteString | getDeviceFiltersBytes (índice int) When any filters are present sessions will ignore all devices which do not match the filters. |
En t | getDeviceFiltersCount () When any filters are present sessions will ignore all devices which do not match the filters. |
com.google.protobuf.ProtocolStringList | getDeviceFiltersList () When any filters are present sessions will ignore all devices which do not match the filters. |
ConfigProto.Experimental | getExperimental () .tensorflow.ConfigProto.Experimental experimental = 16; |
ConfigProto.ExperimentalOrBuilder | getExperimentalOrBuilder () .tensorflow.ConfigProto.Experimental experimental = 16; |
Opciones de GPU | getGpuOptions () Options that apply to all GPUs. |
GPUOptionsOrBuilder | getGpuOptionsOrBuilder () Options that apply to all GPUs. |
GraphOptions | getGraphOptions () Options that apply to all graphs. |
GraphOptionsOrBuilder | getGraphOptionsOrBuilder () Options that apply to all graphs. |
En t | getInterOpParallelismThreads () Nodes that perform blocking operations are enqueued on a pool of inter_op_parallelism_threads available in each process. |
En t | getIntraOpParallelismThreads () The execution of an individual op (for some op types) can be parallelized on a pool of intra_op_parallelism_threads. |
booleano | getIsolateSessionState () If true, any resources such as Variables used in the session will not be shared with other sessions. |
booleano | getLogDevicePlacement () Whether device placements should be logged. |
largo | getOperationTimeoutInMs () Global timeout for all blocking operations in this session. |
En t | getPlacementPeriod () Assignment of Nodes to Devices is recomputed every placement_period steps until the system warms up (at which point the recomputation typically slows down automatically). |
RPCOpciones | getRpcOptions () Options that apply when this session uses the distributed runtime. |
RPCOptionsOrBuilder | getRpcOptionsOrBuilder () Options that apply when this session uses the distributed runtime. |
En t | |
ThreadPoolOptionProto | getSessionInterOpThreadPool (índice int) This option is experimental - it may be replaced with a different mechanism in the future. |
En t | getSessionInterOpThreadPoolCount () This option is experimental - it may be replaced with a different mechanism in the future. |
Lista < ThreadPoolOptionProto > | getSessionInterOpThreadPoolList () This option is experimental - it may be replaced with a different mechanism in the future. |
ThreadPoolOptionProtoOrBuilder | getSessionInterOpThreadPoolOrBuilder (índice int) This option is experimental - it may be replaced with a different mechanism in the future. |
Lista <? extiende ThreadPoolOptionProtoOrBuilder > | getSessionInterOpThreadPoolOrBuilderList () This option is experimental - it may be replaced with a different mechanism in the future. |
booleano | getShareClusterDevicesInSession () When true, WorkerSessions are created with device attributes from the full cluster. |
final com.google.protobuf.UnknownFieldSet | |
booleano | getUsePerSessionThreads () If true, use a new set of threads for this session rather than the global pool of threads. |
booleano | hasClusterDef () Optional list of all workers to use in this session. |
booleano | hasExperimental () .tensorflow.ConfigProto.Experimental experimental = 16; |
booleano | hasGpuOptions () Options that apply to all GPUs. |
booleano | hasGraphOptions () Options that apply to all graphs. |
booleano | hasRpcOptions () Options that apply when this session uses the distributed runtime. |
En t | hashCode () |
booleano final | |
ConfigProto.Builder estático | newBuilder () |
ConfigProto.Builder estático | newBuilder (prototipo ConfigProto ) |
ConfigProto.Builder | |
ConfigProto estático | parseDelimitedFrom (entrada InputStream) |
ConfigProto estático | parseDelimitedFrom (entrada InputStream, com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
ConfigProto estático | parseFrom (datos ByteBuffer, com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
ConfigProto estático | parseFrom (entrada com.google.protobuf.CodedInputStream) |
ConfigProto estático | parseFrom (byte [] datos, com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
ConfigProto estático | parseFrom (datos ByteBuffer) |
ConfigProto estático | parseFrom (entrada com.google.protobuf.CodedInputStream, com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
ConfigProto estático | parseFrom (datos com.google.protobuf.ByteString) |
ConfigProto estático | parseFrom (entrada InputStream, com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
ConfigProto estático | parseFrom (datos com.google.protobuf.ByteString, com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
estático | analizador () |
ConfigProto.Builder | toBuilder () |
vacío | writeTo (salida de com.google.protobuf.CodedOutputStream) |
Métodos heredados
Constantes
public static final int ALLOW_SOFT_PLACEMENT_FIELD_NUMBER
Valor constante: 7
público estático final int CLUSTER_DEF_FIELD_NUMBER
Valor constante: 14
public static final int DEVICE_COUNT_FIELD_NUMBER
Valor constante: 1
public static final int DEVICE_FILTERS_FIELD_NUMBER
Valor constante: 4
public static final int EXPERIMENTAL_FIELD_NUMBER
Valor constante: 16
public static final int GPU_OPTIONS_FIELD_NUMBER
Valor constante: 6
público estático final int GRAPH_OPTIONS_FIELD_NUMBER
Valor constante: 10
público estático final int INTER_OP_PARALLELISM_THREADS_FIELD_NUMBER
Valor constante: 5
público estático final int INTRA_OP_PARALLELISM_THREADS_FIELD_NUMBER
Valor constante: 2
público estático final int ISOLATE_SESSION_STATE_FIELD_NUMBER
Valor constante: 15
público estático final int LOG_DEVICE_PLACEMENT_FIELD_NUMBER
Valor constante: 8
public static final int OPERATION_TIMEOUT_IN_MS_FIELD_NUMBER
Valor constante: 11
public static final int PLACEMENT_PERIOD_FIELD_NUMBER
Valor constante: 3
public static final int RPC_OPTIONS_FIELD_NUMBER
Valor constante: 13
public static final int SESSION_INTER_OP_THREAD_POOL_FIELD_NUMBER
Valor constante: 12
público estático final int SHARE_CLUSTER_DEVICES_IN_SESSION_FIELD_NUMBER
Valor constante: 17
público estático final int USE_PER_SESSION_THREADS_FIELD_NUMBER
Valor constante: 9
Métodos públicos
public boolean containsDeviceCount (clave de cadena)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. If a particular device type is not found in the map, the system picks an appropriate number.
map<string, int32> device_count = 1;
public boolean es igual a (Object obj)
public boolean getAllowSoftPlacement ()
Whether soft placement is allowed. If allow_soft_placement is true, an op will be placed on CPU if 1. there's no GPU implementation for the OP or 2. no GPU devices are known or registered or 3. need to co-locate with reftype input(s) which are from CPU.
bool allow_soft_placement = 7;
public ClusterDef getClusterDef ()
Optional list of all workers to use in this session..tensorflow.ClusterDef
.tensorflow.ClusterDef cluster_def = 14;
public ClusterDefOrBuilder getClusterDefOrBuilder ()
Optional list of all workers to use in this session..tensorflow.ClusterDef
.tensorflow.ClusterDef cluster_def = 14;
público estático final com.google.protobuf.Descriptors.Descriptor getDescriptor ()
public int getDeviceCountCount ()
Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. If a particular device type is not found in the map, the system picks an appropriate number.
map<string, int32> device_count = 1;
public Map <String, Integer> getDeviceCountMap ()
Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. If a particular device type is not found in the map, the system picks an appropriate number.
map<string, int32> device_count = 1;
public int getDeviceCountOrDefault (clave de cadena, int valor predeterminado)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. If a particular device type is not found in the map, the system picks an appropriate number.
map<string, int32> device_count = 1;
public int getDeviceCountOrThrow (clave de cadena)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum number of devices of that type to use. If a particular device type is not found in the map, the system picks an appropriate number.
map<string, int32> device_count = 1;
public String getDeviceFilters (índice int)
When any filters are present sessions will ignore all devices which do not match the filters. Each filter can be partially specified, e.g. "/job:ps" "/job:worker/replica:3", etc.
repeated string device_filters = 4;
public com.google.protobuf.ByteString getDeviceFiltersBytes (índice int)
When any filters are present sessions will ignore all devices which do not match the filters. Each filter can be partially specified, e.g. "/job:ps" "/job:worker/replica:3", etc.
repeated string device_filters = 4;
public int getDeviceFiltersCount ()
When any filters are present sessions will ignore all devices which do not match the filters. Each filter can be partially specified, e.g. "/job:ps" "/job:worker/replica:3", etc.
repeated string device_filters = 4;
public com.google.protobuf.ProtocolStringList getDeviceFiltersList ()
When any filters are present sessions will ignore all devices which do not match the filters. Each filter can be partially specified, e.g. "/job:ps" "/job:worker/replica:3", etc.
repeated string device_filters = 4;
public ConfigProto.Experimental getExperimental ()
.tensorflow.ConfigProto.Experimental experimental = 16;
public ConfigProto.ExperimentalOrBuilder getExperimentalOrBuilder ()
.tensorflow.ConfigProto.Experimental experimental = 16;
public GPUOptions getGpuOptions ()
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;
public GPUOptionsOrBuilder getGpuOptionsOrBuilder ()
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;
public GraphOptions getGraphOptions ()
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;
public GraphOptionsOrBuilder getGraphOptionsOrBuilder ()
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;
public int getInterOpParallelismThreads ()
Nodes that perform blocking operations are enqueued on a pool of inter_op_parallelism_threads available in each process. 0 means the system picks an appropriate number. Negative means all operations are performed in caller's thread. Note that the first Session created in the process sets the number of threads for all future sessions unless use_per_session_threads is true or session_inter_op_thread_pool is configured.
int32 inter_op_parallelism_threads = 5;
public int getIntraOpParallelismThreads ()
The execution of an individual op (for some op types) can be parallelized on a pool of intra_op_parallelism_threads. 0 means the system picks an appropriate number. If you create an ordinary session, e.g., from Python or C++, then there is exactly one intra op thread pool per process. The first session created determines the number of threads in this pool. All subsequent sessions reuse/share this one global pool. There are notable exceptions to the default behavior describe above: 1. There is an environment variable for overriding this thread pool, named TF_OVERRIDE_GLOBAL_THREADPOOL. 2. When connecting to a server, such as a remote `tf.train.Server` instance, then this option will be ignored altogether.
int32 intra_op_parallelism_threads = 2;
public boolean getIsolateSessionState ()
If true, any resources such as Variables used in the session will not be shared with other sessions. However, when clusterspec propagation is enabled, this field is ignored and sessions are always isolated.
bool isolate_session_state = 15;
public boolean getLogDevicePlacement ()
Whether device placements should be logged.
bool log_device_placement = 8;
public long getOperationTimeoutInMs ()
Global timeout for all blocking operations in this session. If non-zero, and not overridden on a per-operation basis, this value will be used as the deadline for all blocking operations.
int64 operation_timeout_in_ms = 11;
público getParserForType ()
public int getPlacementPeriod ()
Assignment of Nodes to Devices is recomputed every placement_period steps until the system warms up (at which point the recomputation typically slows down automatically).int32
int32 placement_period = 3;
public RPCOptions getRpcOptions ()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;
RPCOptionsOrBuilder público getRpcOptionsOrBuilder ()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;
public int getSerializedSize ()
public ThreadPoolOptionProto getSessionInterOpThreadPool (índice int)
This option is experimental - it may be replaced with a different mechanism in the future. Configures session thread pools. If this is configured, then RunOptions for a Run call can select the thread pool to use. The intended use is for when some session invocations need to run in a background pool limited to a small number of threads: - For example, a session may be configured to have one large pool (for regular compute) and one small pool (for periodic, low priority work); using the small pool is currently the mechanism for limiting the inter-op parallelism of the low priority work. Note that it does not limit the parallelism of work spawned by a single op kernel implementation. - Using this setting is normally not needed in training, but may help some serving use cases. - It is also generally recommended to set the global_name field of this proto, to avoid creating multiple large pools. It is typically better to run the non-low-priority work, even across sessions, in a single large pool..tensorflow.ThreadPoolOptionProto
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;
public int getSessionInterOpThreadPoolCount ()
This option is experimental - it may be replaced with a different mechanism in the future. Configures session thread pools. If this is configured, then RunOptions for a Run call can select the thread pool to use. The intended use is for when some session invocations need to run in a background pool limited to a small number of threads: - For example, a session may be configured to have one large pool (for regular compute) and one small pool (for periodic, low priority work); using the small pool is currently the mechanism for limiting the inter-op parallelism of the low priority work. Note that it does not limit the parallelism of work spawned by a single op kernel implementation. - Using this setting is normally not needed in training, but may help some serving use cases. - It is also generally recommended to set the global_name field of this proto, to avoid creating multiple large pools. It is typically better to run the non-low-priority work, even across sessions, in a single large pool..tensorflow.ThreadPoolOptionProto
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;
Lista pública < ThreadPoolOptionProto > getSessionInterOpThreadPoolList ()
This option is experimental - it may be replaced with a different mechanism in the future. Configures session thread pools. If this is configured, then RunOptions for a Run call can select the thread pool to use. The intended use is for when some session invocations need to run in a background pool limited to a small number of threads: - For example, a session may be configured to have one large pool (for regular compute) and one small pool (for periodic, low priority work); using the small pool is currently the mechanism for limiting the inter-op parallelism of the low priority work. Note that it does not limit the parallelism of work spawned by a single op kernel implementation. - Using this setting is normally not needed in training, but may help some serving use cases. - It is also generally recommended to set the global_name field of this proto, to avoid creating multiple large pools. It is typically better to run the non-low-priority work, even across sessions, in a single large pool..tensorflow.ThreadPoolOptionProto
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;
public ThreadPoolOptionProtoOrBuilder getSessionInterOpThreadPoolOrBuilder (índice int)
This option is experimental - it may be replaced with a different mechanism in the future. Configures session thread pools. If this is configured, then RunOptions for a Run call can select the thread pool to use. The intended use is for when some session invocations need to run in a background pool limited to a small number of threads: - For example, a session may be configured to have one large pool (for regular compute) and one small pool (for periodic, low priority work); using the small pool is currently the mechanism for limiting the inter-op parallelism of the low priority work. Note that it does not limit the parallelism of work spawned by a single op kernel implementation. - Using this setting is normally not needed in training, but may help some serving use cases. - It is also generally recommended to set the global_name field of this proto, to avoid creating multiple large pools. It is typically better to run the non-low-priority work, even across sessions, in a single large pool..tensorflow.ThreadPoolOptionProto
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;
Lista pública <? extiende ThreadPoolOptionProtoOrBuilder > getSessionInterOpThreadPoolOrBuilderList ()
This option is experimental - it may be replaced with a different mechanism in the future. Configures session thread pools. If this is configured, then RunOptions for a Run call can select the thread pool to use. The intended use is for when some session invocations need to run in a background pool limited to a small number of threads: - For example, a session may be configured to have one large pool (for regular compute) and one small pool (for periodic, low priority work); using the small pool is currently the mechanism for limiting the inter-op parallelism of the low priority work. Note that it does not limit the parallelism of work spawned by a single op kernel implementation. - Using this setting is normally not needed in training, but may help some serving use cases. - It is also generally recommended to set the global_name field of this proto, to avoid creating multiple large pools. It is typically better to run the non-low-priority work, even across sessions, in a single large pool..tensorflow.ThreadPoolOptionProto
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;
public boolean getShareClusterDevicesInSession ()
When true, WorkerSessions are created with device attributes from the full cluster. This is helpful when a worker wants to partition a graph (for example during a PartitionedCallOp).
bool share_cluster_devices_in_session = 17;
public final com.google.protobuf.UnknownFieldSet getUnknownFields ()
public boolean getUsePerSessionThreads ()
If true, use a new set of threads for this session rather than the global pool of threads. Only supported by direct sessions. If false, use the global threads created by the first session, or the per-session thread pools configured by session_inter_op_thread_pool. This option is deprecated. The same effect can be achieved by setting session_inter_op_thread_pool to have one element, whose num_threads equals inter_op_parallelism_threads.
bool use_per_session_threads = 9;
public boolean hasClusterDef ()
Optional list of all workers to use in this session..tensorflow.ClusterDef
.tensorflow.ClusterDef cluster_def = 14;
public boolean hasExperimental ()
.tensorflow.ConfigProto.Experimental experimental = 16;
public boolean hasGpuOptions ()
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;
public boolean hasGraphOptions ()
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;
public boolean hasRpcOptions ()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;
public int hashCode ()
public final boolean isInitialized ()
ConfigProto estática pública parseDelimitedFrom (entrada InputStream, com.google.protobuf.ExtensionRegistryLite extensionRegistry)
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IOException |
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Public static ConfigProto parseFrom (ByteBuffer data, com.google.protobuf.ExtensionRegistryLite extensionRegistry)
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InvalidProtocolBufferException |
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ConfigProto estática pública parseFrom (entrada com.google.protobuf.CodedInputStream)
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IOException |
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Public static ConfigProto parseFrom (byte [] datos, com.google.protobuf.ExtensionRegistryLite extensionRegistry)
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InvalidProtocolBufferException |
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ConfigProto estática pública parseFrom (entrada com.google.protobuf.CodedInputStream, com.google.protobuf.ExtensionRegistryLite extensionRegistry)
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IOException |
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ConfigProto estática pública parseFrom (datos de com.google.protobuf.ByteString)
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InvalidProtocolBufferException |
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ConfigProto estática pública parseFrom (entrada InputStream, com.google.protobuf.ExtensionRegistryLite extensionRegistry)
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IOException |
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ConfigProto estática pública parseFrom (datos de com.google.protobuf.ByteString, com.google.protobuf.ExtensionRegistryLite extensionRegistry)
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InvalidProtocolBufferException |
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público estático analizador ()
public void writeTo (salida de com.google.protobuf.CodedOutputStream)
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IOException |
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