public static final class ConfigProto.Builder extends com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder> implements ConfigProtoOrBuilder
Session configuration parameters. The system picks appropriate values for fields that are not set.Protobuf type
tensorflow.ConfigProto| Modifier and Type | Method and Description |
|---|---|
ConfigProto.Builder |
addAllDeviceFilters(java.lang.Iterable<java.lang.String> values)
When any filters are present sessions will ignore all devices which do not
match the filters.
|
ConfigProto.Builder |
addAllSessionInterOpThreadPool(java.lang.Iterable<? extends ThreadPoolOptionProto> values)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
addDeviceFilters(java.lang.String value)
When any filters are present sessions will ignore all devices which do not
match the filters.
|
ConfigProto.Builder |
addDeviceFiltersBytes(com.google.protobuf.ByteString value)
When any filters are present sessions will ignore all devices which do not
match the filters.
|
ConfigProto.Builder |
addRepeatedField(com.google.protobuf.Descriptors.FieldDescriptor field,
java.lang.Object value) |
ConfigProto.Builder |
addSessionInterOpThreadPool(int index,
ThreadPoolOptionProto.Builder builderForValue)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
addSessionInterOpThreadPool(int index,
ThreadPoolOptionProto value)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
addSessionInterOpThreadPool(ThreadPoolOptionProto.Builder builderForValue)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
addSessionInterOpThreadPool(ThreadPoolOptionProto value)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ThreadPoolOptionProto.Builder |
addSessionInterOpThreadPoolBuilder()
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ThreadPoolOptionProto.Builder |
addSessionInterOpThreadPoolBuilder(int index)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto |
build() |
ConfigProto |
buildPartial() |
ConfigProto.Builder |
clear() |
ConfigProto.Builder |
clearAllowSoftPlacement()
Whether soft placement is allowed.
|
ConfigProto.Builder |
clearClusterDef()
Optional list of all workers to use in this session.
|
ConfigProto.Builder |
clearDeviceCount() |
ConfigProto.Builder |
clearDeviceFilters()
When any filters are present sessions will ignore all devices which do not
match the filters.
|
ConfigProto.Builder |
clearExperimental()
.tensorflow.ConfigProto.Experimental experimental = 16; |
ConfigProto.Builder |
clearField(com.google.protobuf.Descriptors.FieldDescriptor field) |
ConfigProto.Builder |
clearGpuOptions()
Options that apply to all GPUs.
|
ConfigProto.Builder |
clearGraphOptions()
Options that apply to all graphs.
|
ConfigProto.Builder |
clearInterOpParallelismThreads()
Nodes that perform blocking operations are enqueued on a pool of
inter_op_parallelism_threads available in each process.
|
ConfigProto.Builder |
clearIntraOpParallelismThreads()
The execution of an individual op (for some op types) can be
parallelized on a pool of intra_op_parallelism_threads.
|
ConfigProto.Builder |
clearIsolateSessionState()
If true, any resources such as Variables used in the session will not be
shared with other sessions.
|
ConfigProto.Builder |
clearLogDevicePlacement()
Whether device placements should be logged.
|
ConfigProto.Builder |
clearOneof(com.google.protobuf.Descriptors.OneofDescriptor oneof) |
ConfigProto.Builder |
clearOperationTimeoutInMs()
Global timeout for all blocking operations in this session.
|
ConfigProto.Builder |
clearPlacementPeriod()
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).
|
ConfigProto.Builder |
clearRpcOptions()
Options that apply when this session uses the distributed runtime.
|
ConfigProto.Builder |
clearSessionInterOpThreadPool()
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
clearUsePerSessionThreads()
If true, use a new set of threads for this session rather than the global
pool of threads.
|
ConfigProto.Builder |
clone() |
boolean |
containsDeviceCount(java.lang.String key)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
boolean |
getAllowSoftPlacement()
Whether soft placement is allowed.
|
ClusterDef |
getClusterDef()
Optional list of all workers to use in this session.
|
ClusterDef.Builder |
getClusterDefBuilder()
Optional list of all workers to use in this session.
|
ClusterDefOrBuilder |
getClusterDefOrBuilder()
Optional list of all workers to use in this session.
|
ConfigProto |
getDefaultInstanceForType() |
static com.google.protobuf.Descriptors.Descriptor |
getDescriptor() |
com.google.protobuf.Descriptors.Descriptor |
getDescriptorForType() |
java.util.Map<java.lang.String,java.lang.Integer> |
getDeviceCount()
Deprecated.
|
int |
getDeviceCountCount()
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
java.util.Map<java.lang.String,java.lang.Integer> |
getDeviceCountMap()
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
int |
getDeviceCountOrDefault(java.lang.String key,
int defaultValue)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
int |
getDeviceCountOrThrow(java.lang.String key)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
java.lang.String |
getDeviceFilters(int index)
When any filters are present sessions will ignore all devices which do not
match the filters.
|
com.google.protobuf.ByteString |
getDeviceFiltersBytes(int index)
When any filters are present sessions will ignore all devices which do not
match the filters.
|
int |
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.Experimental.Builder |
getExperimentalBuilder()
.tensorflow.ConfigProto.Experimental experimental = 16; |
ConfigProto.ExperimentalOrBuilder |
getExperimentalOrBuilder()
.tensorflow.ConfigProto.Experimental experimental = 16; |
GPUOptions |
getGpuOptions()
Options that apply to all GPUs.
|
GPUOptions.Builder |
getGpuOptionsBuilder()
Options that apply to all GPUs.
|
GPUOptionsOrBuilder |
getGpuOptionsOrBuilder()
Options that apply to all GPUs.
|
GraphOptions |
getGraphOptions()
Options that apply to all graphs.
|
GraphOptions.Builder |
getGraphOptionsBuilder()
Options that apply to all graphs.
|
GraphOptionsOrBuilder |
getGraphOptionsOrBuilder()
Options that apply to all graphs.
|
int |
getInterOpParallelismThreads()
Nodes that perform blocking operations are enqueued on a pool of
inter_op_parallelism_threads available in each process.
|
int |
getIntraOpParallelismThreads()
The execution of an individual op (for some op types) can be
parallelized on a pool of intra_op_parallelism_threads.
|
boolean |
getIsolateSessionState()
If true, any resources such as Variables used in the session will not be
shared with other sessions.
|
boolean |
getLogDevicePlacement()
Whether device placements should be logged.
|
java.util.Map<java.lang.String,java.lang.Integer> |
getMutableDeviceCount()
Deprecated.
|
long |
getOperationTimeoutInMs()
Global timeout for all blocking operations in this session.
|
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).
|
RPCOptions |
getRpcOptions()
Options that apply when this session uses the distributed runtime.
|
RPCOptions.Builder |
getRpcOptionsBuilder()
Options that apply when this session uses the distributed runtime.
|
RPCOptionsOrBuilder |
getRpcOptionsOrBuilder()
Options that apply when this session uses the distributed runtime.
|
ThreadPoolOptionProto |
getSessionInterOpThreadPool(int index)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ThreadPoolOptionProto.Builder |
getSessionInterOpThreadPoolBuilder(int index)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
java.util.List<ThreadPoolOptionProto.Builder> |
getSessionInterOpThreadPoolBuilderList()
This option is experimental - it may be replaced with a different mechanism
in the future.
|
int |
getSessionInterOpThreadPoolCount()
This option is experimental - it may be replaced with a different mechanism
in the future.
|
java.util.List<ThreadPoolOptionProto> |
getSessionInterOpThreadPoolList()
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ThreadPoolOptionProtoOrBuilder |
getSessionInterOpThreadPoolOrBuilder(int index)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
java.util.List<? extends ThreadPoolOptionProtoOrBuilder> |
getSessionInterOpThreadPoolOrBuilderList()
This option is experimental - it may be replaced with a different mechanism
in the future.
|
boolean |
getUsePerSessionThreads()
If true, use a new set of threads for this session rather than the global
pool of threads.
|
boolean |
hasClusterDef()
Optional list of all workers to use in this session.
|
boolean |
hasExperimental()
.tensorflow.ConfigProto.Experimental experimental = 16; |
boolean |
hasGpuOptions()
Options that apply to all GPUs.
|
boolean |
hasGraphOptions()
Options that apply to all graphs.
|
boolean |
hasRpcOptions()
Options that apply when this session uses the distributed runtime.
|
protected com.google.protobuf.GeneratedMessageV3.FieldAccessorTable |
internalGetFieldAccessorTable() |
protected com.google.protobuf.MapField |
internalGetMapField(int number) |
protected com.google.protobuf.MapField |
internalGetMutableMapField(int number) |
boolean |
isInitialized() |
ConfigProto.Builder |
mergeClusterDef(ClusterDef value)
Optional list of all workers to use in this session.
|
ConfigProto.Builder |
mergeExperimental(ConfigProto.Experimental value)
.tensorflow.ConfigProto.Experimental experimental = 16; |
ConfigProto.Builder |
mergeFrom(com.google.protobuf.CodedInputStream input,
com.google.protobuf.ExtensionRegistryLite extensionRegistry) |
ConfigProto.Builder |
mergeFrom(ConfigProto other) |
ConfigProto.Builder |
mergeFrom(com.google.protobuf.Message other) |
ConfigProto.Builder |
mergeGpuOptions(GPUOptions value)
Options that apply to all GPUs.
|
ConfigProto.Builder |
mergeGraphOptions(GraphOptions value)
Options that apply to all graphs.
|
ConfigProto.Builder |
mergeRpcOptions(RPCOptions value)
Options that apply when this session uses the distributed runtime.
|
ConfigProto.Builder |
mergeUnknownFields(com.google.protobuf.UnknownFieldSet unknownFields) |
ConfigProto.Builder |
putAllDeviceCount(java.util.Map<java.lang.String,java.lang.Integer> values)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
ConfigProto.Builder |
putDeviceCount(java.lang.String key,
int value)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
ConfigProto.Builder |
removeDeviceCount(java.lang.String key)
Map from device type name (e.g., "CPU" or "GPU" ) to maximum
number of devices of that type to use.
|
ConfigProto.Builder |
removeSessionInterOpThreadPool(int index)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
setAllowSoftPlacement(boolean value)
Whether soft placement is allowed.
|
ConfigProto.Builder |
setClusterDef(ClusterDef.Builder builderForValue)
Optional list of all workers to use in this session.
|
ConfigProto.Builder |
setClusterDef(ClusterDef value)
Optional list of all workers to use in this session.
|
ConfigProto.Builder |
setDeviceFilters(int index,
java.lang.String value)
When any filters are present sessions will ignore all devices which do not
match the filters.
|
ConfigProto.Builder |
setExperimental(ConfigProto.Experimental.Builder builderForValue)
.tensorflow.ConfigProto.Experimental experimental = 16; |
ConfigProto.Builder |
setExperimental(ConfigProto.Experimental value)
.tensorflow.ConfigProto.Experimental experimental = 16; |
ConfigProto.Builder |
setField(com.google.protobuf.Descriptors.FieldDescriptor field,
java.lang.Object value) |
ConfigProto.Builder |
setGpuOptions(GPUOptions.Builder builderForValue)
Options that apply to all GPUs.
|
ConfigProto.Builder |
setGpuOptions(GPUOptions value)
Options that apply to all GPUs.
|
ConfigProto.Builder |
setGraphOptions(GraphOptions.Builder builderForValue)
Options that apply to all graphs.
|
ConfigProto.Builder |
setGraphOptions(GraphOptions value)
Options that apply to all graphs.
|
ConfigProto.Builder |
setInterOpParallelismThreads(int value)
Nodes that perform blocking operations are enqueued on a pool of
inter_op_parallelism_threads available in each process.
|
ConfigProto.Builder |
setIntraOpParallelismThreads(int value)
The execution of an individual op (for some op types) can be
parallelized on a pool of intra_op_parallelism_threads.
|
ConfigProto.Builder |
setIsolateSessionState(boolean value)
If true, any resources such as Variables used in the session will not be
shared with other sessions.
|
ConfigProto.Builder |
setLogDevicePlacement(boolean value)
Whether device placements should be logged.
|
ConfigProto.Builder |
setOperationTimeoutInMs(long value)
Global timeout for all blocking operations in this session.
|
ConfigProto.Builder |
setPlacementPeriod(int value)
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).
|
ConfigProto.Builder |
setRepeatedField(com.google.protobuf.Descriptors.FieldDescriptor field,
int index,
java.lang.Object value) |
ConfigProto.Builder |
setRpcOptions(RPCOptions.Builder builderForValue)
Options that apply when this session uses the distributed runtime.
|
ConfigProto.Builder |
setRpcOptions(RPCOptions value)
Options that apply when this session uses the distributed runtime.
|
ConfigProto.Builder |
setSessionInterOpThreadPool(int index,
ThreadPoolOptionProto.Builder builderForValue)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
setSessionInterOpThreadPool(int index,
ThreadPoolOptionProto value)
This option is experimental - it may be replaced with a different mechanism
in the future.
|
ConfigProto.Builder |
setUnknownFields(com.google.protobuf.UnknownFieldSet unknownFields) |
ConfigProto.Builder |
setUsePerSessionThreads(boolean value)
If true, use a new set of threads for this session rather than the global
pool of threads.
|
getAllFields, getField, getFieldBuilder, getOneofFieldDescriptor, getParentForChildren, getRepeatedField, getRepeatedFieldBuilder, getRepeatedFieldCount, getUnknownFields, hasField, hasOneof, isClean, markClean, newBuilderForField, onBuilt, onChanged, setUnknownFieldsProto3findInitializationErrors, getInitializationErrorString, internalMergeFrom, mergeDelimitedFrom, mergeDelimitedFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, mergeFrom, newUninitializedMessageException, toStringaddAll, addAll, mergeFrom, newUninitializedMessageExceptionequals, finalize, getClass, hashCode, notify, notifyAll, wait, wait, waitpublic static final com.google.protobuf.Descriptors.Descriptor getDescriptor()
protected com.google.protobuf.MapField internalGetMapField(int number)
internalGetMapField in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>protected com.google.protobuf.MapField internalGetMutableMapField(int number)
internalGetMutableMapField in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>protected com.google.protobuf.GeneratedMessageV3.FieldAccessorTable internalGetFieldAccessorTable()
internalGetFieldAccessorTable in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder clear()
clear in interface com.google.protobuf.Message.Builderclear in interface com.google.protobuf.MessageLite.Builderclear in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public com.google.protobuf.Descriptors.Descriptor getDescriptorForType()
getDescriptorForType in interface com.google.protobuf.Message.BuildergetDescriptorForType in interface com.google.protobuf.MessageOrBuildergetDescriptorForType in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto getDefaultInstanceForType()
getDefaultInstanceForType in interface com.google.protobuf.MessageLiteOrBuildergetDefaultInstanceForType in interface com.google.protobuf.MessageOrBuilderpublic ConfigProto build()
build in interface com.google.protobuf.Message.Builderbuild in interface com.google.protobuf.MessageLite.Builderpublic ConfigProto buildPartial()
buildPartial in interface com.google.protobuf.Message.BuilderbuildPartial in interface com.google.protobuf.MessageLite.Builderpublic ConfigProto.Builder clone()
clone in interface com.google.protobuf.Message.Builderclone in interface com.google.protobuf.MessageLite.Builderclone in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder setField(com.google.protobuf.Descriptors.FieldDescriptor field, java.lang.Object value)
setField in interface com.google.protobuf.Message.BuildersetField in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder clearField(com.google.protobuf.Descriptors.FieldDescriptor field)
clearField in interface com.google.protobuf.Message.BuilderclearField in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder clearOneof(com.google.protobuf.Descriptors.OneofDescriptor oneof)
clearOneof in interface com.google.protobuf.Message.BuilderclearOneof in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder setRepeatedField(com.google.protobuf.Descriptors.FieldDescriptor field, int index, java.lang.Object value)
setRepeatedField in interface com.google.protobuf.Message.BuildersetRepeatedField in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder addRepeatedField(com.google.protobuf.Descriptors.FieldDescriptor field, java.lang.Object value)
addRepeatedField in interface com.google.protobuf.Message.BuilderaddRepeatedField in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder mergeFrom(com.google.protobuf.Message other)
mergeFrom in interface com.google.protobuf.Message.BuildermergeFrom in class com.google.protobuf.AbstractMessage.Builder<ConfigProto.Builder>public ConfigProto.Builder mergeFrom(ConfigProto other)
public final boolean isInitialized()
isInitialized in interface com.google.protobuf.MessageLiteOrBuilderisInitialized in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public ConfigProto.Builder mergeFrom(com.google.protobuf.CodedInputStream input, com.google.protobuf.ExtensionRegistryLite extensionRegistry) throws java.io.IOException
mergeFrom in interface com.google.protobuf.Message.BuildermergeFrom in interface com.google.protobuf.MessageLite.BuildermergeFrom in class com.google.protobuf.AbstractMessage.Builder<ConfigProto.Builder>java.io.IOExceptionpublic int getDeviceCountCount()
ConfigProtoOrBuilderMap 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;getDeviceCountCount in interface ConfigProtoOrBuilderpublic boolean containsDeviceCount(java.lang.String key)
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;containsDeviceCount in interface ConfigProtoOrBuilder@Deprecated public java.util.Map<java.lang.String,java.lang.Integer> getDeviceCount()
getDeviceCountMap() instead.getDeviceCount in interface ConfigProtoOrBuilderpublic java.util.Map<java.lang.String,java.lang.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;getDeviceCountMap in interface ConfigProtoOrBuilderpublic int getDeviceCountOrDefault(java.lang.String key,
int defaultValue)
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;getDeviceCountOrDefault in interface ConfigProtoOrBuilderpublic int getDeviceCountOrThrow(java.lang.String key)
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;getDeviceCountOrThrow in interface ConfigProtoOrBuilderpublic ConfigProto.Builder clearDeviceCount()
public ConfigProto.Builder removeDeviceCount(java.lang.String key)
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;@Deprecated public java.util.Map<java.lang.String,java.lang.Integer> getMutableDeviceCount()
public ConfigProto.Builder putDeviceCount(java.lang.String key, int value)
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 ConfigProto.Builder putAllDeviceCount(java.util.Map<java.lang.String,java.lang.Integer> values)
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 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.
int32 intra_op_parallelism_threads = 2;getIntraOpParallelismThreads in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setIntraOpParallelismThreads(int value)
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.
int32 intra_op_parallelism_threads = 2;value - The intraOpParallelismThreads to set.public ConfigProto.Builder clearIntraOpParallelismThreads()
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.
int32 intra_op_parallelism_threads = 2;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. 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;getInterOpParallelismThreads in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setInterOpParallelismThreads(int value)
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. 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;value - The interOpParallelismThreads to set.public ConfigProto.Builder clearInterOpParallelismThreads()
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. 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 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;getUsePerSessionThreads in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setUsePerSessionThreads(boolean value)
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;value - The usePerSessionThreads to set.public ConfigProto.Builder clearUsePerSessionThreads()
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 java.util.List<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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;getSessionInterOpThreadPoolList in interface ConfigProtoOrBuilderpublic 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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;getSessionInterOpThreadPoolCount in interface ConfigProtoOrBuilderpublic ThreadPoolOptionProto getSessionInterOpThreadPool(int index)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;getSessionInterOpThreadPool in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setSessionInterOpThreadPool(int index, ThreadPoolOptionProto value)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder setSessionInterOpThreadPool(int index, ThreadPoolOptionProto.Builder builderForValue)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder addSessionInterOpThreadPool(ThreadPoolOptionProto value)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder addSessionInterOpThreadPool(int index, ThreadPoolOptionProto value)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder addSessionInterOpThreadPool(ThreadPoolOptionProto.Builder builderForValue)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder addSessionInterOpThreadPool(int index, ThreadPoolOptionProto.Builder builderForValue)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder addAllSessionInterOpThreadPool(java.lang.Iterable<? extends ThreadPoolOptionProto> values)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder clearSessionInterOpThreadPool()
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ConfigProto.Builder removeSessionInterOpThreadPool(int index)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ThreadPoolOptionProto.Builder getSessionInterOpThreadPoolBuilder(int index)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ThreadPoolOptionProtoOrBuilder getSessionInterOpThreadPoolOrBuilder(int index)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;getSessionInterOpThreadPoolOrBuilder in interface ConfigProtoOrBuilderpublic java.util.List<? extends 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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;getSessionInterOpThreadPoolOrBuilderList in interface ConfigProtoOrBuilderpublic ThreadPoolOptionProto.Builder addSessionInterOpThreadPoolBuilder()
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public ThreadPoolOptionProto.Builder addSessionInterOpThreadPoolBuilder(int index)
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;public java.util.List<ThreadPoolOptionProto.Builder> getSessionInterOpThreadPoolBuilderList()
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.
repeated .tensorflow.ThreadPoolOptionProto session_inter_op_thread_pool = 12;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 placement_period = 3;getPlacementPeriod in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setPlacementPeriod(int value)
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 placement_period = 3;value - The placementPeriod to set.public ConfigProto.Builder clearPlacementPeriod()
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 placement_period = 3;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;getDeviceFiltersList in interface ConfigProtoOrBuilderpublic 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;getDeviceFiltersCount in interface ConfigProtoOrBuilderpublic java.lang.String getDeviceFilters(int index)
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;getDeviceFilters in interface ConfigProtoOrBuilderindex - The index of the element to return.public com.google.protobuf.ByteString getDeviceFiltersBytes(int index)
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;getDeviceFiltersBytes in interface ConfigProtoOrBuilderindex - The index of the value to return.public ConfigProto.Builder setDeviceFilters(int index, java.lang.String value)
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;index - The index to set the value at.value - The deviceFilters to set.public ConfigProto.Builder addDeviceFilters(java.lang.String value)
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;value - The deviceFilters to add.public ConfigProto.Builder addAllDeviceFilters(java.lang.Iterable<java.lang.String> values)
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;values - The deviceFilters to add.public ConfigProto.Builder clearDeviceFilters()
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.Builder addDeviceFiltersBytes(com.google.protobuf.ByteString value)
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;value - The bytes of the deviceFilters to add.public boolean hasGpuOptions()
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;hasGpuOptions in interface ConfigProtoOrBuilderpublic GPUOptions getGpuOptions()
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;getGpuOptions in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setGpuOptions(GPUOptions value)
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;public ConfigProto.Builder setGpuOptions(GPUOptions.Builder builderForValue)
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;public ConfigProto.Builder mergeGpuOptions(GPUOptions value)
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;public ConfigProto.Builder clearGpuOptions()
Options that apply to all GPUs.
.tensorflow.GPUOptions gpu_options = 6;public GPUOptions.Builder getGpuOptionsBuilder()
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;getGpuOptionsOrBuilder in interface ConfigProtoOrBuilderpublic 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;getAllowSoftPlacement in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setAllowSoftPlacement(boolean value)
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;value - The allowSoftPlacement to set.public ConfigProto.Builder clearAllowSoftPlacement()
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 boolean getLogDevicePlacement()
Whether device placements should be logged.
bool log_device_placement = 8;getLogDevicePlacement in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setLogDevicePlacement(boolean value)
Whether device placements should be logged.
bool log_device_placement = 8;value - The logDevicePlacement to set.public ConfigProto.Builder clearLogDevicePlacement()
Whether device placements should be logged.
bool log_device_placement = 8;public boolean hasGraphOptions()
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;hasGraphOptions in interface ConfigProtoOrBuilderpublic GraphOptions getGraphOptions()
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;getGraphOptions in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setGraphOptions(GraphOptions value)
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;public ConfigProto.Builder setGraphOptions(GraphOptions.Builder builderForValue)
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;public ConfigProto.Builder mergeGraphOptions(GraphOptions value)
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;public ConfigProto.Builder clearGraphOptions()
Options that apply to all graphs.
.tensorflow.GraphOptions graph_options = 10;public GraphOptions.Builder getGraphOptionsBuilder()
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;getGraphOptionsOrBuilder in interface ConfigProtoOrBuilderpublic 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;getOperationTimeoutInMs in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setOperationTimeoutInMs(long value)
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;value - The operationTimeoutInMs to set.public ConfigProto.Builder clearOperationTimeoutInMs()
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;public boolean hasRpcOptions()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;hasRpcOptions in interface ConfigProtoOrBuilderpublic RPCOptions getRpcOptions()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;getRpcOptions in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setRpcOptions(RPCOptions value)
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;public ConfigProto.Builder setRpcOptions(RPCOptions.Builder builderForValue)
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;public ConfigProto.Builder mergeRpcOptions(RPCOptions value)
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;public ConfigProto.Builder clearRpcOptions()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;public RPCOptions.Builder getRpcOptionsBuilder()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;public RPCOptionsOrBuilder getRpcOptionsOrBuilder()
Options that apply when this session uses the distributed runtime.
.tensorflow.RPCOptions rpc_options = 13;getRpcOptionsOrBuilder in interface ConfigProtoOrBuilderpublic boolean hasClusterDef()
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;hasClusterDef in interface ConfigProtoOrBuilderpublic ClusterDef getClusterDef()
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;getClusterDef in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setClusterDef(ClusterDef value)
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;public ConfigProto.Builder setClusterDef(ClusterDef.Builder builderForValue)
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;public ConfigProto.Builder mergeClusterDef(ClusterDef value)
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;public ConfigProto.Builder clearClusterDef()
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;public ClusterDef.Builder getClusterDefBuilder()
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;public ClusterDefOrBuilder getClusterDefOrBuilder()
Optional list of all workers to use in this session.
.tensorflow.ClusterDef cluster_def = 14;getClusterDefOrBuilder in interface ConfigProtoOrBuilderpublic boolean getIsolateSessionState()
If true, any resources such as Variables used in the session will not be shared with other sessions.
bool isolate_session_state = 15;getIsolateSessionState in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setIsolateSessionState(boolean value)
If true, any resources such as Variables used in the session will not be shared with other sessions.
bool isolate_session_state = 15;value - The isolateSessionState to set.public ConfigProto.Builder clearIsolateSessionState()
If true, any resources such as Variables used in the session will not be shared with other sessions.
bool isolate_session_state = 15;public boolean hasExperimental()
.tensorflow.ConfigProto.Experimental experimental = 16;hasExperimental in interface ConfigProtoOrBuilderpublic ConfigProto.Experimental getExperimental()
.tensorflow.ConfigProto.Experimental experimental = 16;getExperimental in interface ConfigProtoOrBuilderpublic ConfigProto.Builder setExperimental(ConfigProto.Experimental value)
.tensorflow.ConfigProto.Experimental experimental = 16;public ConfigProto.Builder setExperimental(ConfigProto.Experimental.Builder builderForValue)
.tensorflow.ConfigProto.Experimental experimental = 16;public ConfigProto.Builder mergeExperimental(ConfigProto.Experimental value)
.tensorflow.ConfigProto.Experimental experimental = 16;public ConfigProto.Builder clearExperimental()
.tensorflow.ConfigProto.Experimental experimental = 16;public ConfigProto.Experimental.Builder getExperimentalBuilder()
.tensorflow.ConfigProto.Experimental experimental = 16;public ConfigProto.ExperimentalOrBuilder getExperimentalOrBuilder()
.tensorflow.ConfigProto.Experimental experimental = 16;getExperimentalOrBuilder in interface ConfigProtoOrBuilderpublic final ConfigProto.Builder setUnknownFields(com.google.protobuf.UnknownFieldSet unknownFields)
setUnknownFields in interface com.google.protobuf.Message.BuildersetUnknownFields in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>public final ConfigProto.Builder mergeUnknownFields(com.google.protobuf.UnknownFieldSet unknownFields)
mergeUnknownFields in interface com.google.protobuf.Message.BuildermergeUnknownFields in class com.google.protobuf.GeneratedMessageV3.Builder<ConfigProto.Builder>