GPUOptions.Experimental.VirtualDevicesOrBuilder

interface statique publique GPUOptions.Experimental.VirtualDevicesOrBuilder
Sous-classes indirectes connues

Méthodes publiques

flotteur abstrait
getMemoryLimitMb (index int)
 Per "virtual" device memory limit, in MB.
abstrait entier
getMemoryLimitMbCount ()
 Per "virtual" device memory limit, in MB.
Liste abstraite<Float>
getMemoryLimitMbList ()
 Per "virtual" device memory limit, in MB.
abstrait entier
getPriority (index entier)
 Priority values to use with the virtual devices.
abstrait entier
getPriorityCount ()
 Priority values to use with the virtual devices.
Liste abstraite<Integer>
getPriorityList ()
 Priority values to use with the virtual devices.

Méthodes publiques

public abstrait float getMemoryLimitMb (index int)

 Per "virtual" device memory limit, in MB. The number of elements in
 the list is the number of virtual devices to create on the
 corresponding visible GPU (see "virtual_devices" below).
 If empty, it will create single virtual device taking all available
 memory from the device.
 For the concept of "visible" and "virtual" GPU, see the comments for
 "visible_device_list" above for more information.
 
repeated float memory_limit_mb = 1;

public abstrait int getMemoryLimitMbCount ()

 Per "virtual" device memory limit, in MB. The number of elements in
 the list is the number of virtual devices to create on the
 corresponding visible GPU (see "virtual_devices" below).
 If empty, it will create single virtual device taking all available
 memory from the device.
 For the concept of "visible" and "virtual" GPU, see the comments for
 "visible_device_list" above for more information.
 
repeated float memory_limit_mb = 1;

liste abstraite publique<Float> getMemoryLimitMbList ()

 Per "virtual" device memory limit, in MB. The number of elements in
 the list is the number of virtual devices to create on the
 corresponding visible GPU (see "virtual_devices" below).
 If empty, it will create single virtual device taking all available
 memory from the device.
 For the concept of "visible" and "virtual" GPU, see the comments for
 "visible_device_list" above for more information.
 
repeated float memory_limit_mb = 1;

public abstrait int getPriority (int index)

 Priority values to use with the virtual devices. Use the cuda function
 cudaDeviceGetStreamPriorityRange to query for valid range of values for
 priority.
 On a P4000 GPU with cuda 10.1, the priority range reported was 0 for
 least priority and -1 for greatest priority.
 If this field is not specified, then the virtual devices will be
 created with the default. If this field has values set, then the size
 of this must match with the above memory_limit_mb.
 
repeated int32 priority = 2;

public abstrait int getPriorityCount ()

 Priority values to use with the virtual devices. Use the cuda function
 cudaDeviceGetStreamPriorityRange to query for valid range of values for
 priority.
 On a P4000 GPU with cuda 10.1, the priority range reported was 0 for
 least priority and -1 for greatest priority.
 If this field is not specified, then the virtual devices will be
 created with the default. If this field has values set, then the size
 of this must match with the above memory_limit_mb.
 
repeated int32 priority = 2;

liste abstraite publique<Integer> getPriorityList ()

 Priority values to use with the virtual devices. Use the cuda function
 cudaDeviceGetStreamPriorityRange to query for valid range of values for
 priority.
 On a P4000 GPU with cuda 10.1, the priority range reported was 0 for
 least priority and -1 for greatest priority.
 If this field is not specified, then the virtual devices will be
 created with the default. If this field has values set, then the size
 of this must match with the above memory_limit_mb.
 
repeated int32 priority = 2;