extensions/arm/cl_arm_get_core_id.txt - external/github.com/KhronosGroup/OpenCL-Registry - Git at Google

 Name

     ARM_core_id

 Name Strings

     cl_arm_core_id

 Contributors

     Robert Elliott, ARM Ltd. (robert.elliott 'at' arm.com)
     Hui Chen, ARM Ltd.       (hui.chen 'at' arm.com)
     Kevin Petit, ARM Ltd.    (kevin.petit 'at' arm.com)

 Contacts

     Kevin Petit, ARM Ltd. (kevin.petit 'at' arm.com)

 Status

     Shipping.

 Version

     Revision: #2, Feb 26th, 2018

 Number

     OpenCL Extension #26

 Dependencies

     Requires OpenCL version 1.2 or later.

 Overview

     This extension provides a built-in function which returns a unique ID
     for the compute unit that a work-group is running on.  This value is
     uniform for a work-group.

     This value can be used for a core-specific cache or atomic pool where the
     storage is required to be in global memory and persistent (but not ordered)
     between work-groups.  This does not provide any additional ordering on top
     of the existing guarantees between workgroups, nor does it provide any
     guarantee of concurrent execution.

     The IDs for the compute units may not be consecutive and applications must
     make sure they allocate enough memory to accommodate all the compute units
     present on the device.  A device info query allows the application to
     know the IDs associated with the compute units on a given device.

     The extension string cl_arm_core_id is returned for devices and platforms
     which support this extension.

 Glossary

     No new terminology is introduced by this extension.

 New Types

     None

 New Procedures and Functions

     Device Info query

       CL_DEVICE_COMPUTE_UNITS_BITFIELD_ARM (return type cl_ulong) returns a
       bitfield where each bit set represents the presence of compute unit whose
       ID is the bit position.  The highest ID for any compute unit on the device
       is the position of the most significant bit set.  The total number of
       elements an application should allocate in an array indexed by core IDs is
       thus given by:

         ALLOC = sizeof(cl_ulong) * 8 - CLZ(CL_DEVICE_COMPUTE_UNITS_BITFIELD_ARM)

     Built-in Function

       uint arm_get_core_id( void )

     Description

       Returns the compute unit id as a uint, in the range [0;ALLOC-1]

     Example

       // Host code, size pool based on required_instance_size * ALLOC
       size_t required_instance_size = 1024;
       cl_mem core_pool = clCreateBuffer(context,
                                         CL_MEM_READ_WRITE,
                                         required_instance_size * ALLOC, NULL, NULL);

       // Device/Kernel code, select memory instance
       kernel void test( global char *per_core_pool, global char *input, uint required_instance_size  )
       {
         global char *core_pool_instance = per_core_pool[ arm_get_core_id() * required_instance_size ];
         ...
       }

 New Tokens

     OpenCL kernel code Now has access to:

       #pragma OPENCL EXTENSION cl_arm_core_id : enable
       The preprocessor macro cl_arm_core_id is also present

 Revision History

     Revision: #1, Apr  2nd, 2013 - Initial revision
     Revision: #2, Feb 26th, 2018 - Added support for sparsely allocated compute
                                    unit IDs.
	Name

	ARM_core_id

	Name Strings

	cl_arm_core_id

	Contributors

	Robert Elliott, ARM Ltd. (robert.elliott 'at' arm.com)
	Hui Chen, ARM Ltd. (hui.chen 'at' arm.com)
	Kevin Petit, ARM Ltd. (kevin.petit 'at' arm.com)

	Contacts

	Kevin Petit, ARM Ltd. (kevin.petit 'at' arm.com)

	Status

	Shipping.

	Version

	Revision: #2, Feb 26th, 2018

	Number

	OpenCL Extension #26

	Dependencies

	Requires OpenCL version 1.2 or later.

	Overview

	This extension provides a built-in function which returns a unique ID
	for the compute unit that a work-group is running on. This value is
	uniform for a work-group.

	This value can be used for a core-specific cache or atomic pool where the
	storage is required to be in global memory and persistent (but not ordered)
	between work-groups. This does not provide any additional ordering on top
	of the existing guarantees between workgroups, nor does it provide any
	guarantee of concurrent execution.

	The IDs for the compute units may not be consecutive and applications must
	make sure they allocate enough memory to accommodate all the compute units
	present on the device. A device info query allows the application to
	know the IDs associated with the compute units on a given device.

	The extension string cl_arm_core_id is returned for devices and platforms
	which support this extension.

	Glossary

	No new terminology is introduced by this extension.

	New Types

	None

	New Procedures and Functions

	Device Info query

	CL_DEVICE_COMPUTE_UNITS_BITFIELD_ARM (return type cl_ulong) returns a
	bitfield where each bit set represents the presence of compute unit whose
	ID is the bit position. The highest ID for any compute unit on the device
	is the position of the most significant bit set. The total number of
	elements an application should allocate in an array indexed by core IDs is
	thus given by:

	ALLOC = sizeof(cl_ulong) * 8 - CLZ(CL_DEVICE_COMPUTE_UNITS_BITFIELD_ARM)

	Built-in Function

	uint arm_get_core_id( void )

	Description

	Returns the compute unit id as a uint, in the range [0;ALLOC-1]

	Example

	// Host code, size pool based on required_instance_size * ALLOC
	size_t required_instance_size = 1024;
	cl_mem core_pool = clCreateBuffer(context,
	CL_MEM_READ_WRITE,
	required_instance_size * ALLOC, NULL, NULL);

	// Device/Kernel code, select memory instance
	kernel void test( global char per_core_pool, global char input, uint required_instance_size )
	{
	global char core_pool_instance = per_core_pool[ arm_get_core_id() required_instance_size ];
	...
	}

	New Tokens

	OpenCL kernel code Now has access to:

	#pragma OPENCL EXTENSION cl_arm_core_id : enable
	The preprocessor macro cl_arm_core_id is also present

	Revision History

	Revision: #1, Apr 2nd, 2013 - Initial revision
	Revision: #2, Feb 26th, 2018 - Added support for sparsely allocated compute
	unit IDs.