Core API¶
oneAPI Level Zero Specification - Version 1.2.13
Common¶
Enumerations
Structures
Common Enums¶
ze_result_t¶
-
enum
ze_result_t
¶ Defines Return/Error codes.
Values:
-
ZE_RESULT_SUCCESS
= 0¶ [Core] success
-
ZE_RESULT_NOT_READY
= 1¶ [Core] synchronization primitive not signaled
-
ZE_RESULT_ERROR_DEVICE_LOST
= 0x70000001¶ [Core] device hung, reset, was removed, or driver update occurred
-
ZE_RESULT_ERROR_OUT_OF_HOST_MEMORY
= 0x70000002¶ [Core] insufficient host memory to satisfy call
-
ZE_RESULT_ERROR_OUT_OF_DEVICE_MEMORY
= 0x70000003¶ [Core] insufficient device memory to satisfy call
-
ZE_RESULT_ERROR_MODULE_BUILD_FAILURE
= 0x70000004¶ [Core] error occurred when building module, see build log for details
-
ZE_RESULT_ERROR_MODULE_LINK_FAILURE
= 0x70000005¶ [Core] error occurred when linking modules, see build log for details
-
ZE_RESULT_ERROR_DEVICE_REQUIRES_RESET
= 0x70000006¶ [Core] device requires a reset
-
ZE_RESULT_ERROR_DEVICE_IN_LOW_POWER_STATE
= 0x70000007¶ [Core] device currently in low power state
-
ZE_RESULT_ERROR_INSUFFICIENT_PERMISSIONS
= 0x70010000¶ [Sysman] access denied due to permission level
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ZE_RESULT_ERROR_NOT_AVAILABLE
= 0x70010001¶ [Sysman] resource already in use and simultaneous access not allowed or resource was removed
-
ZE_RESULT_ERROR_DEPENDENCY_UNAVAILABLE
= 0x70020000¶ [Tools] external required dependency is unavailable or missing
-
ZE_RESULT_ERROR_UNINITIALIZED
= 0x78000001¶ [Validation] driver is not initialized
-
ZE_RESULT_ERROR_UNSUPPORTED_VERSION
= 0x78000002¶ [Validation] generic error code for unsupported versions
-
ZE_RESULT_ERROR_UNSUPPORTED_FEATURE
= 0x78000003¶ [Validation] generic error code for unsupported features
-
ZE_RESULT_ERROR_INVALID_ARGUMENT
= 0x78000004¶ [Validation] generic error code for invalid arguments
-
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
= 0x78000005¶ [Validation] handle argument is not valid
-
ZE_RESULT_ERROR_HANDLE_OBJECT_IN_USE
= 0x78000006¶ [Validation] object pointed to by handle still in-use by device
-
ZE_RESULT_ERROR_INVALID_NULL_POINTER
= 0x78000007¶ [Validation] pointer argument may not be nullptr
-
ZE_RESULT_ERROR_INVALID_SIZE
= 0x78000008¶ [Validation] size argument is invalid (e.g., must not be zero)
-
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
= 0x78000009¶ [Validation] size argument is not supported by the device (e.g., too large)
-
ZE_RESULT_ERROR_UNSUPPORTED_ALIGNMENT
= 0x7800000a¶ too small)
[Validation] alignment argument is not supported by the device (e.g.,
-
ZE_RESULT_ERROR_INVALID_SYNCHRONIZATION_OBJECT
= 0x7800000b¶ [Validation] synchronization object in invalid state
-
ZE_RESULT_ERROR_INVALID_ENUMERATION
= 0x7800000c¶ [Validation] enumerator argument is not valid
-
ZE_RESULT_ERROR_UNSUPPORTED_ENUMERATION
= 0x7800000d¶ [Validation] enumerator argument is not supported by the device
-
ZE_RESULT_ERROR_UNSUPPORTED_IMAGE_FORMAT
= 0x7800000e¶ [Validation] image format is not supported by the device
-
ZE_RESULT_ERROR_INVALID_NATIVE_BINARY
= 0x7800000f¶ [Validation] native binary is not supported by the device
-
ZE_RESULT_ERROR_INVALID_GLOBAL_NAME
= 0x78000010¶ [Validation] global variable is not found in the module
-
ZE_RESULT_ERROR_INVALID_KERNEL_NAME
= 0x78000011¶ [Validation] kernel name is not found in the module
-
ZE_RESULT_ERROR_INVALID_FUNCTION_NAME
= 0x78000012¶ [Validation] function name is not found in the module
-
ZE_RESULT_ERROR_INVALID_GROUP_SIZE_DIMENSION
= 0x78000013¶ device
[Validation] group size dimension is not valid for the kernel or
-
ZE_RESULT_ERROR_INVALID_GLOBAL_WIDTH_DIMENSION
= 0x78000014¶ device
[Validation] global width dimension is not valid for the kernel or
-
ZE_RESULT_ERROR_INVALID_KERNEL_ARGUMENT_INDEX
= 0x78000015¶ [Validation] kernel argument index is not valid for kernel
-
ZE_RESULT_ERROR_INVALID_KERNEL_ARGUMENT_SIZE
= 0x78000016¶ [Validation] kernel argument size does not match kernel
-
ZE_RESULT_ERROR_INVALID_KERNEL_ATTRIBUTE_VALUE
= 0x78000017¶ device
[Validation] value of kernel attribute is not valid for the kernel or
-
ZE_RESULT_ERROR_INVALID_MODULE_UNLINKED
= 0x78000018¶ be created from it.
[Validation] module with imports needs to be linked before kernels can
-
ZE_RESULT_ERROR_INVALID_COMMAND_LIST_TYPE
= 0x78000019¶ [Validation] command list type does not match command queue type
-
ZE_RESULT_ERROR_OVERLAPPING_REGIONS
= 0x7800001a¶ memory
[Validation] copy operations do not support overlapping regions of
-
ZE_RESULT_ERROR_UNKNOWN
= 0x7ffffffe¶ [Core] unknown or internal error
-
ZE_RESULT_FORCE_UINT32
= 0x7fffffff¶
-
ze_structure_type_t¶
-
enum
ze_structure_type_t
¶ Defines structure types.
Values:
-
ZE_STRUCTURE_TYPE_DRIVER_PROPERTIES
= 0x1¶
-
ZE_STRUCTURE_TYPE_DRIVER_IPC_PROPERTIES
= 0x2¶
-
ZE_STRUCTURE_TYPE_DEVICE_PROPERTIES
= 0x3¶
-
ZE_STRUCTURE_TYPE_DEVICE_COMPUTE_PROPERTIES
= 0x4¶
-
ZE_STRUCTURE_TYPE_DEVICE_MODULE_PROPERTIES
= 0x5¶
-
ZE_STRUCTURE_TYPE_COMMAND_QUEUE_GROUP_PROPERTIES
= 0x6¶
-
ZE_STRUCTURE_TYPE_DEVICE_MEMORY_PROPERTIES
= 0x7¶
-
ZE_STRUCTURE_TYPE_DEVICE_MEMORY_ACCESS_PROPERTIES
= 0x8¶
-
ZE_STRUCTURE_TYPE_DEVICE_CACHE_PROPERTIES
= 0x9¶
-
ZE_STRUCTURE_TYPE_DEVICE_IMAGE_PROPERTIES
= 0xa¶
-
ZE_STRUCTURE_TYPE_DEVICE_P2P_PROPERTIES
= 0xb¶
-
ZE_STRUCTURE_TYPE_DEVICE_EXTERNAL_MEMORY_PROPERTIES
= 0xc¶
-
ZE_STRUCTURE_TYPE_CONTEXT_DESC
= 0xd¶
-
ZE_STRUCTURE_TYPE_COMMAND_QUEUE_DESC
= 0xe¶
-
ZE_STRUCTURE_TYPE_COMMAND_LIST_DESC
= 0xf¶
-
ZE_STRUCTURE_TYPE_EVENT_POOL_DESC
= 0x10¶
-
ZE_STRUCTURE_TYPE_EVENT_DESC
= 0x11¶
-
ZE_STRUCTURE_TYPE_FENCE_DESC
= 0x12¶
-
ZE_STRUCTURE_TYPE_IMAGE_DESC
= 0x13¶
-
ZE_STRUCTURE_TYPE_IMAGE_PROPERTIES
= 0x14¶
-
ZE_STRUCTURE_TYPE_DEVICE_MEM_ALLOC_DESC
= 0x15¶
-
ZE_STRUCTURE_TYPE_HOST_MEM_ALLOC_DESC
= 0x16¶
-
ZE_STRUCTURE_TYPE_MEMORY_ALLOCATION_PROPERTIES
= 0x17¶
-
ZE_STRUCTURE_TYPE_EXTERNAL_MEMORY_EXPORT_DESC
= 0x18¶
-
ZE_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMPORT_FD
= 0x19¶
-
ZE_STRUCTURE_TYPE_EXTERNAL_MEMORY_EXPORT_FD
= 0x1a¶
-
ZE_STRUCTURE_TYPE_MODULE_DESC
= 0x1b¶
-
ZE_STRUCTURE_TYPE_MODULE_PROPERTIES
= 0x1c¶
-
ZE_STRUCTURE_TYPE_KERNEL_DESC
= 0x1d¶
-
ZE_STRUCTURE_TYPE_KERNEL_PROPERTIES
= 0x1e¶
-
ZE_STRUCTURE_TYPE_SAMPLER_DESC
= 0x1f¶
-
ZE_STRUCTURE_TYPE_PHYSICAL_MEM_DESC
= 0x20¶
-
ZE_STRUCTURE_TYPE_KERNEL_PREFERRED_GROUP_SIZE_PROPERTIES
= 0x21¶
-
ZE_STRUCTURE_TYPE_EXTERNAL_MEMORY_IMPORT_WIN32
= 0x22¶
-
ZE_STRUCTURE_TYPE_EXTERNAL_MEMORY_EXPORT_WIN32
= 0x23¶
-
ZE_STRUCTURE_TYPE_DEVICE_RAYTRACING_EXT_PROPERTIES
= 0x00010001¶
-
ZE_STRUCTURE_TYPE_RAYTRACING_MEM_ALLOC_EXT_DESC
= 0x10002¶
-
ZE_STRUCTURE_TYPE_FLOAT_ATOMIC_EXT_PROPERTIES
= 0x10003¶
-
ZE_STRUCTURE_TYPE_CACHE_RESERVATION_EXT_DESC
= 0x10004¶
-
ZE_STRUCTURE_TYPE_RELAXED_ALLOCATION_LIMITS_EXP_DESC
= 0x00020001¶
-
ZE_STRUCTURE_TYPE_MODULE_PROGRAM_EXP_DESC
= 0x00020002¶
-
ZE_STRUCTURE_TYPE_SCHEDULING_HINT_EXP_PROPERTIES
= 0x00020003¶
-
ZE_STRUCTURE_TYPE_SCHEDULING_HINT_EXP_DESC
= 0x00020004¶
-
ZE_STRUCTURE_TYPE_IMAGE_VIEW_PLANAR_EXP_DESC
= 0x00020005¶
-
ZE_STRUCTURE_TYPE_DEVICE_PROPERTIES_1_2
= 0x20006¶
-
ZE_STRUCTURE_TYPE_FORCE_UINT32
= 0x7fffffff¶
-
ze_external_memory_type_flags_t¶
-
enum
ze_external_memory_type_flag_t
¶ Values:
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_OPAQUE_FD
= ZE_BIT(0)¶ an opaque POSIX file descriptor handle
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_DMA_BUF
= ZE_BIT(1)¶ a file descriptor handle for a Linux dma_buf
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_OPAQUE_WIN32
= ZE_BIT(2)¶ an NT handle
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ZE_EXTERNAL_MEMORY_TYPE_FLAG_OPAQUE_WIN32_KMT
= ZE_BIT(3)¶ a global share (KMT) handle
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_D3D11_TEXTURE
= ZE_BIT(4)¶ an NT handle referring to a Direct3D 10 or 11 texture resource
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_D3D11_TEXTURE_KMT
= ZE_BIT(5)¶ resource
a global share (KMT) handle referring to a Direct3D 10 or 11 texture
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_D3D12_HEAP
= ZE_BIT(6)¶ an NT handle referring to a Direct3D 12 heap resource
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_D3D12_RESOURCE
= ZE_BIT(7)¶ an NT handle referring to a Direct3D 12 committed resource
-
ZE_EXTERNAL_MEMORY_TYPE_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Common Structures¶
ze_ipc_mem_handle_t¶
ze_ipc_event_pool_handle_t¶
ze_base_properties_t¶
-
struct
ze_base_properties_t
¶ Base for all properties types.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_structure_type_t
ze_base_desc_t¶
-
struct
ze_base_desc_t
¶ Base for all descriptor types.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_structure_type_t
Driver¶
Functions
Enumerations
Structures
Driver Functions¶
zeInit¶
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ZE_APIEXPORT ze_result_t ZE_APICALL
zeInit
(ze_init_flags_t flags)¶ Initialize the ‘oneAPI’ driver(s)
- Parameters
flags
: [in] initialization flags. must be 0 (default) or a combination of ze_init_flag_t.
The application must call this function before calling any other function.
If this function is not called then all other functions will return ZE_RESULT_ERROR_UNINITIALIZED.
Only one instance of each driver will be initialized per process.
The application may call this function multiple times with different flags or environment variables enabled.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe for scenarios where multiple libraries may initialize the driver(s) simultaneously.
zeDriverGet¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDriverGet
(uint32_t *pCount, ze_driver_handle_t *phDrivers)¶ Retrieves driver instances.
- Parameters
pCount
: [in,out] pointer to the number of driver instances. if count is zero, then the loader shall update the value with the total number of drivers available. if count is greater than the number of drivers available, then the loader shall update the value with the correct number of drivers available.phDrivers
: [in,out][optional][range(0, *pCount)] array of driver instance handles. if count is less than the number of drivers available, then the loader shall only retrieve that number of drivers.
A driver represents a collection of physical devices.
Multiple calls to this function will return identical driver handles, in the same order.
The application may pass nullptr for pDrivers when only querying the number of drivers.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetPlatformIDs
- Return
zeDriverGetApiVersion¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDriverGetApiVersion
(ze_driver_handle_t hDriver, ze_api_version_t *version)¶ Returns the API version supported by the specified driver.
- Parameters
hDriver
: [in] handle of the driver instanceversion
: [out] api version
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == version
zeDriverGetProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDriverGetProperties
(ze_driver_handle_t hDriver, ze_driver_properties_t *pDriverProperties)¶ Retrieves properties of the driver.
- Parameters
hDriver
: [in] handle of the driver instancepDriverProperties
: [in,out] query result for driver properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetPlatformInfo
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pDriverProperties
zeDriverGetIpcProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDriverGetIpcProperties
(ze_driver_handle_t hDriver, ze_driver_ipc_properties_t *pIpcProperties)¶ Retrieves IPC attributes of the driver.
- Parameters
hDriver
: [in] handle of the driver instancepIpcProperties
: [in,out] query result for IPC properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pIpcProperties
zeDriverGetExtensionProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDriverGetExtensionProperties
(ze_driver_handle_t hDriver, uint32_t *pCount, ze_driver_extension_properties_t *pExtensionProperties)¶ Retrieves extension properties.
- Parameters
hDriver
: [in] handle of the driver instancepCount
: [in,out] pointer to the number of extension properties. if count is zero, then the driver shall update the value with the total number of extension properties available. if count is greater than the number of extension properties available, then the driver shall update the value with the correct number of extension properties available.pExtensionProperties
: [in,out][optional][range(0, *pCount)] array of query results for extension properties. if count is less than the number of extension properties available, then driver shall only retrieve that number of extension properties.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkEnumerateInstanceExtensionProperties
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeDriverGetExtensionFunctionAddress¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDriverGetExtensionFunctionAddress
(ze_driver_handle_t hDriver, const char *name, void **ppFunctionAddress)¶ Retrieves function pointer for vendor-specific or experimental extensions.
- Parameters
hDriver
: [in] handle of the driver instancename
: [in] extension function nameppFunctionAddress
: [out] pointer to function pointer
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == name
nullptr == ppFunctionAddress
Driver Enums¶
ze_init_flags_t¶
ze_api_version_t¶
-
enum
ze_api_version_t
¶ Supported API versions.
API versions contain major and minor attributes, use ZE_MAJOR_VERSION and ZE_MINOR_VERSION
Values:
-
ZE_API_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_API_VERSION_1_1
= ZE_MAKE_VERSION(1, 1)¶ version 1.1
-
ZE_API_VERSION_1_2
= ZE_MAKE_VERSION(1, 2)¶ version 1.2
-
ZE_API_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 2)¶ latest known version
-
ZE_API_VERSION_FORCE_UINT32
= 0x7fffffff¶
ze_ipc_property_flags_t¶
-
enum
ze_ipc_property_flag_t
¶ Values:
-
ZE_IPC_PROPERTY_FLAG_MEMORY
= ZE_BIT(0)¶ Supports passing memory allocations between processes. See zeMemGetIpcHandle.
-
ZE_IPC_PROPERTY_FLAG_EVENT_POOL
= ZE_BIT(1)¶ Supports passing event pools between processes. See zeEventPoolGetIpcHandle.
-
ZE_IPC_PROPERTY_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Driver Structures¶
ze_driver_uuid_t¶
ze_driver_properties_t¶
-
struct
ze_driver_properties_t
¶ Driver properties queried using zeDriverGetProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_driver_uuid_t
uuid
¶ [out] universal unique identifier.
-
uint32_t
driverVersion
¶ [out] driver version The driver version is a non-zero, monotonically increasing value where higher values always indicate a more recent version.
-
ze_structure_type_t
ze_driver_ipc_properties_t¶
-
struct
ze_driver_ipc_properties_t
¶ IPC properties queried using zeDriverGetIpcProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_ipc_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_ipc_property_flag_t
-
ze_structure_type_t
ze_driver_extension_properties_t¶
-
struct
ze_driver_extension_properties_t
¶ Extension properties queried using zeDriverGetExtensionProperties.
Device¶
Functions
Enumerations
Structures
Device Functions¶
zeDeviceGet¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGet
(ze_driver_handle_t hDriver, uint32_t *pCount, ze_device_handle_t *phDevices)¶ Retrieves devices within a driver.
- Parameters
hDriver
: [in] handle of the driver instancepCount
: [in,out] pointer to the number of devices. if count is zero, then the driver shall update the value with the total number of devices available. if count is greater than the number of devices available, then the driver shall update the value with the correct number of devices available.phDevices
: [in,out][optional][range(0, *pCount)] array of handle of devices. if count is less than the number of devices available, then driver shall only retrieve that number of devices.
Multiple calls to this function will return identical device handles, in the same order.
The number and order of handles returned from this function is affected by the ::ZE_AFFINITY_MASK and ::ZE_ENABLE_PCI_ID_DEVICE_ORDER environment variables.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeDeviceGetSubDevices¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetSubDevices
(ze_device_handle_t hDevice, uint32_t *pCount, ze_device_handle_t *phSubdevices)¶ Retrieves a sub-device from a device.
- Parameters
hDevice
: [in] handle of the device objectpCount
: [in,out] pointer to the number of sub-devices. if count is zero, then the driver shall update the value with the total number of sub-devices available. if count is greater than the number of sub-devices available, then the driver shall update the value with the correct number of sub-devices available.phSubdevices
: [in,out][optional][range(0, *pCount)] array of handle of sub-devices. if count is less than the number of sub-devices available, then driver shall only retrieve that number of sub-devices.
Multiple calls to this function will return identical device handles, in the same order.
The number of handles returned from this function is affected by the ::ZE_AFFINITY_MASK environment variable.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clCreateSubDevices
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeDeviceGetProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetProperties
(ze_device_handle_t hDevice, ze_device_properties_t *pDeviceProperties)¶ Retrieves properties of the device.
- Parameters
hDevice
: [in] handle of the devicepDeviceProperties
: [in,out] query result for device properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetDeviceInfo
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pDeviceProperties
zeDeviceGetComputeProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetComputeProperties
(ze_device_handle_t hDevice, ze_device_compute_properties_t *pComputeProperties)¶ Retrieves compute properties of the device.
- Parameters
hDevice
: [in] handle of the devicepComputeProperties
: [in,out] query result for compute properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetDeviceInfo
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pComputeProperties
zeDeviceGetModuleProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetModuleProperties
(ze_device_handle_t hDevice, ze_device_module_properties_t *pModuleProperties)¶ Retrieves module properties of the device.
- Parameters
hDevice
: [in] handle of the devicepModuleProperties
: [in,out] query result for module properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pModuleProperties
zeDeviceGetCommandQueueGroupProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetCommandQueueGroupProperties
(ze_device_handle_t hDevice, uint32_t *pCount, ze_command_queue_group_properties_t *pCommandQueueGroupProperties)¶ Retrieves command queue group properties of the device.
- Parameters
hDevice
: [in] handle of the devicepCount
: [in,out] pointer to the number of command queue group properties. if count is zero, then the driver shall update the value with the total number of command queue group properties available. if count is greater than the number of command queue group properties available, then the driver shall update the value with the correct number of command queue group properties available.pCommandQueueGroupProperties
: [in,out][optional][range(0, *pCount)] array of query results for command queue group properties. if count is less than the number of command queue group properties available, then driver shall only retrieve that number of command queue group properties.
Properties are reported for each physical command queue type supported by the device.
Multiple calls to this function will return properties in the same order.
The order in which the properties are returned defines the command queue group’s ordinal.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkGetPhysicalDeviceQueueFamilyProperties
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeDeviceGetMemoryProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetMemoryProperties
(ze_device_handle_t hDevice, uint32_t *pCount, ze_device_memory_properties_t *pMemProperties)¶ Retrieves local memory properties of the device.
- Parameters
hDevice
: [in] handle of the devicepCount
: [in,out] pointer to the number of memory properties. if count is zero, then the driver shall update the value with the total number of memory properties available. if count is greater than the number of memory properties available, then the driver shall update the value with the correct number of memory properties available.pMemProperties
: [in,out][optional][range(0, *pCount)] array of query results for memory properties. if count is less than the number of memory properties available, then driver shall only retrieve that number of memory properties.
Properties are reported for each physical memory type supported by the device.
Multiple calls to this function will return properties in the same order.
The order in which the properties are returned defines the device’s local memory ordinal.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetDeviceInfo
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeDeviceGetMemoryAccessProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetMemoryAccessProperties
(ze_device_handle_t hDevice, ze_device_memory_access_properties_t *pMemAccessProperties)¶ Retrieves memory access properties of the device.
- Parameters
hDevice
: [in] handle of the devicepMemAccessProperties
: [in,out] query result for memory access properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetDeviceInfo
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pMemAccessProperties
zeDeviceGetCacheProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetCacheProperties
(ze_device_handle_t hDevice, uint32_t *pCount, ze_device_cache_properties_t *pCacheProperties)¶ Retrieves cache properties of the device.
- Parameters
hDevice
: [in] handle of the devicepCount
: [in,out] pointer to the number of cache properties. if count is zero, then the driver shall update the value with the total number of cache properties available. if count is greater than the number of cache properties available, then the driver shall update the value with the correct number of cache properties available.pCacheProperties
: [in,out][optional][range(0, *pCount)] array of query results for cache properties. if count is less than the number of cache properties available, then driver shall only retrieve that number of cache properties.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetDeviceInfo
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeDeviceGetImageProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetImageProperties
(ze_device_handle_t hDevice, ze_device_image_properties_t *pImageProperties)¶ Retrieves image properties of the device.
- Parameters
hDevice
: [in] handle of the devicepImageProperties
: [in,out] query result for image properties
See zeImageGetProperties for format-specific capabilities.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pImageProperties
zeDeviceGetExternalMemoryProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetExternalMemoryProperties
(ze_device_handle_t hDevice, ze_device_external_memory_properties_t *pExternalMemoryProperties)¶ Retrieves external memory import and export of the device.
- Parameters
hDevice
: [in] handle of the devicepExternalMemoryProperties
: [in,out] query result for external memory properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pExternalMemoryProperties
zeDeviceGetP2PProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetP2PProperties
(ze_device_handle_t hDevice, ze_device_handle_t hPeerDevice, ze_device_p2p_properties_t *pP2PProperties)¶ Retrieves peer-to-peer properties between one device and a peer devices.
- Parameters
hDevice
: [in] handle of the device performing the accesshPeerDevice
: [in] handle of the peer device with the allocationpP2PProperties
: [in,out] Peer-to-Peer properties between source and peer device
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
nullptr == hPeerDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pP2PProperties
zeDeviceCanAccessPeer¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceCanAccessPeer
(ze_device_handle_t hDevice, ze_device_handle_t hPeerDevice, ze_bool_t *value)¶ Queries if one device can directly access peer device allocations.
- Parameters
hDevice
: [in] handle of the device performing the accesshPeerDevice
: [in] handle of the peer device with the allocationvalue
: [out] returned access capability
Any device can access any other device within a node through a scale-up fabric.
The following are conditions for CanAccessPeer query.
If both device and peer device are the same then return true.
If both sub-device and peer sub-device are the same then return true.
If both are sub-devices and share the same parent device then return true.
If both device and remote device are connected by a direct or indirect scale-up fabric or over PCIe (same root complex or shared PCIe switch) then true.
If both sub-device and remote parent device (and vice-versa) are connected by a direct or indirect scale-up fabric or over PCIe (same root complex or shared PCIe switch) then true.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
nullptr == hPeerDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == value
zeDeviceGetStatus¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetStatus
(ze_device_handle_t hDevice)¶ Returns current status of the device.
- Parameters
hDevice
: [in] handle of the device
Once a device is reset, this call will update the OS handle attached to the device handle.
The application may call this function from simultaneous threads with the same device handle.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
Device is available for use.
Device is lost; must be reset for use.
zeDeviceGetGlobalTimestamps¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceGetGlobalTimestamps
(ze_device_handle_t hDevice, uint64_t *hostTimestamp, uint64_t *deviceTimestamp)¶ Returns synchronized Host and device global timestamps.
- Parameters
hDevice
: [in] handle of the devicehostTimestamp
: [out] value of the Host’s global timestamp that correlates with the Device’s global timestamp valuedeviceTimestamp
: [out] value of the Device’s global timestamp that correlates with the Host’s global timestamp value
The application may call this function from simultaneous threads with the same device handle.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == hostTimestamp
nullptr == deviceTimestamp
Device Enums¶
ze_device_type_t¶
-
enum
ze_device_type_t
¶ Supported device types.
Values:
-
ZE_DEVICE_TYPE_GPU
= 1¶ Graphics Processing Unit.
-
ZE_DEVICE_TYPE_CPU
= 2¶ Central Processing Unit.
-
ZE_DEVICE_TYPE_FPGA
= 3¶ Field Programmable Gate Array.
-
ZE_DEVICE_TYPE_MCA
= 4¶ Memory Copy Accelerator.
-
ZE_DEVICE_TYPE_VPU
= 5¶ Vision Processing Unit.
-
ZE_DEVICE_TYPE_FORCE_UINT32
= 0x7fffffff¶
-
ze_device_property_flags_t¶
-
enum
ze_device_property_flag_t
¶ Values:
-
ZE_DEVICE_PROPERTY_FLAG_INTEGRATED
= ZE_BIT(0)¶ Device is integrated with the Host.
-
ZE_DEVICE_PROPERTY_FLAG_SUBDEVICE
= ZE_BIT(1)¶ Device handle used for query represents a sub-device.
-
ZE_DEVICE_PROPERTY_FLAG_ECC
= ZE_BIT(2)¶ Device supports error correction memory access.
-
ZE_DEVICE_PROPERTY_FLAG_ONDEMANDPAGING
= ZE_BIT(3)¶ Device supports on-demand page-faulting.
-
ZE_DEVICE_PROPERTY_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_device_module_flags_t¶
-
enum
ze_device_module_flag_t
¶ Values:
-
ZE_DEVICE_MODULE_FLAG_FP16
= ZE_BIT(0)¶ Device supports 16-bit floating-point operations.
-
ZE_DEVICE_MODULE_FLAG_FP64
= ZE_BIT(1)¶ Device supports 64-bit floating-point operations.
-
ZE_DEVICE_MODULE_FLAG_INT64_ATOMICS
= ZE_BIT(2)¶ Device supports 64-bit atomic operations.
-
ZE_DEVICE_MODULE_FLAG_DP4A
= ZE_BIT(3)¶ Device supports four component dot product and accumulate operations.
-
ZE_DEVICE_MODULE_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_device_fp_flags_t¶
-
enum
ze_device_fp_flag_t
¶ Values:
-
ZE_DEVICE_FP_FLAG_DENORM
= ZE_BIT(0)¶ Supports denorms.
-
ZE_DEVICE_FP_FLAG_INF_NAN
= ZE_BIT(1)¶ Supports INF and quiet NaNs.
-
ZE_DEVICE_FP_FLAG_ROUND_TO_NEAREST
= ZE_BIT(2)¶ Supports rounding to nearest even rounding mode.
-
ZE_DEVICE_FP_FLAG_ROUND_TO_ZERO
= ZE_BIT(3)¶ Supports rounding to zero.
-
ZE_DEVICE_FP_FLAG_ROUND_TO_INF
= ZE_BIT(4)¶ Supports rounding to both positive and negative INF.
-
ZE_DEVICE_FP_FLAG_FMA
= ZE_BIT(5)¶ Supports IEEE754-2008 fused multiply-add.
-
ZE_DEVICE_FP_FLAG_ROUNDED_DIVIDE_SQRT
= ZE_BIT(6)¶ operations.
Supports rounding as defined by IEEE754 for divide and sqrt
-
ZE_DEVICE_FP_FLAG_SOFT_FLOAT
= ZE_BIT(7)¶ Uses software implementation for basic floating-point operations.
-
ZE_DEVICE_FP_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_command_queue_group_property_flags_t¶
-
enum
ze_command_queue_group_property_flag_t
¶ Values:
-
ZE_COMMAND_QUEUE_GROUP_PROPERTY_FLAG_COMPUTE
= ZE_BIT(0)¶ Command queue group supports enqueing compute commands.
-
ZE_COMMAND_QUEUE_GROUP_PROPERTY_FLAG_COPY
= ZE_BIT(1)¶ Command queue group supports enqueing copy commands.
-
ZE_COMMAND_QUEUE_GROUP_PROPERTY_FLAG_COOPERATIVE_KERNELS
= ZE_BIT(2)¶ See zeCommandListAppendLaunchCooperativeKernel for more details.
Command queue group supports cooperative kernels.
-
ZE_COMMAND_QUEUE_GROUP_PROPERTY_FLAG_METRICS
= ZE_BIT(3)¶ Command queue groups supports metric queries.
-
ZE_COMMAND_QUEUE_GROUP_PROPERTY_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_device_memory_property_flags_t¶
ze_memory_access_cap_flags_t¶
-
enum
ze_memory_access_cap_flag_t
¶ Values:
-
ZE_MEMORY_ACCESS_CAP_FLAG_RW
= ZE_BIT(0)¶ Supports load/store access.
-
ZE_MEMORY_ACCESS_CAP_FLAG_ATOMIC
= ZE_BIT(1)¶ Supports atomic access.
-
ZE_MEMORY_ACCESS_CAP_FLAG_CONCURRENT
= ZE_BIT(2)¶ Supports concurrent access.
-
ZE_MEMORY_ACCESS_CAP_FLAG_CONCURRENT_ATOMIC
= ZE_BIT(3)¶ Supports concurrent atomic access.
-
ZE_MEMORY_ACCESS_CAP_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_device_cache_property_flags_t¶
ze_device_p2p_property_flags_t¶
Device Structures¶
ze_device_uuid_t¶
ze_device_properties_t¶
-
struct
ze_device_properties_t
¶ Device properties queried using zeDeviceGetProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_device_type_t
type
¶ [out] generic device type
-
uint32_t
vendorId
¶ [out] vendor id from PCI configuration
-
uint32_t
deviceId
¶ [out] device id from PCI configuration
-
ze_device_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_device_property_flag_t
-
uint32_t
subdeviceId
¶ [out] sub-device id. Only valid if ZE_DEVICE_PROPERTY_FLAG_SUBDEVICE is set.
-
uint32_t
coreClockRate
¶ [out] Clock rate for device core.
-
uint64_t
maxMemAllocSize
¶ [out] Maximum memory allocation size.
-
uint32_t
maxHardwareContexts
¶ [out] Maximum number of logical hardware contexts.
-
uint32_t
maxCommandQueuePriority
¶ [out] Maximum priority for command queues. Higher value is higher priority.
-
uint32_t
numThreadsPerEU
¶ [out] Number of threads per EU.
-
uint32_t
physicalEUSimdWidth
¶ [out] The physical EU simd width.
-
uint32_t
numEUsPerSubslice
¶ [out] Number of EUs per sub-slice.
-
uint32_t
numSubslicesPerSlice
¶ [out] Number of sub-slices per slice.
-
uint32_t
numSlices
¶ [out] Number of slices.
-
uint64_t
timerResolution
¶ [out] Returns the resolution of device timer used for profiling, timestamps, etc. When stype==ZE_STRUCTURE_TYPE_DEVICE_PROPERTIES the units are in nanoseconds. When stype==ZE_STRUCTURE_TYPE_DEVICE_PROPERTIES_1_2 units are in cycles/sec
-
uint32_t
timestampValidBits
¶ [out] Returns the number of valid bits in the timestamp value.
-
uint32_t
kernelTimestampValidBits
¶ [out] Returns the number of valid bits in the kernel timestamp values
-
ze_device_uuid_t
uuid
¶ [out] universal unique identifier. Note: Subdevices will have their own uuid.
-
char
name
[ZE_MAX_DEVICE_NAME
]¶ [out] Device name
-
ze_structure_type_t
ze_device_thread_t¶
-
struct
ze_device_thread_t
¶ Device thread identifier.
Public Members
-
uint32_t
slice
¶ [in,out] the slice number. Must be UINT32_MAX (all) or less than ze_device_properties_t.numSlices.
-
uint32_t
subslice
¶ [in,out] the sub-slice number within its slice. Must be UINT32_MAX (all) or less than ze_device_properties_t.numSubslicesPerSlice.
-
uint32_t
eu
¶ [in,out] the EU number within its sub-slice. Must be UINT32_MAX (all) or less than ze_device_properties_t.numEUsPerSubslice.
-
uint32_t
thread
¶ [in,out] the thread number within its EU. Must be UINT32_MAX (all) or less than ze_device_properties_t.numThreadsPerEU.
-
uint32_t
ze_device_compute_properties_t¶
-
struct
ze_device_compute_properties_t
¶ Device compute properties queried using zeDeviceGetComputeProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
uint32_t
maxTotalGroupSize
¶ [out] Maximum items per compute group. (groupSizeX * groupSizeY * groupSizeZ) <= maxTotalGroupSize
-
uint32_t
maxGroupSizeX
¶ [out] Maximum items for X dimension in group
-
uint32_t
maxGroupSizeY
¶ [out] Maximum items for Y dimension in group
-
uint32_t
maxGroupSizeZ
¶ [out] Maximum items for Z dimension in group
-
uint32_t
maxGroupCountX
¶ [out] Maximum groups that can be launched for x dimension
-
uint32_t
maxGroupCountY
¶ [out] Maximum groups that can be launched for y dimension
-
uint32_t
maxGroupCountZ
¶ [out] Maximum groups that can be launched for z dimension
[out] Maximum shared local memory per group.
-
uint32_t
numSubGroupSizes
¶ [out] Number of subgroup sizes supported. This indicates number of entries in subGroupSizes.
-
uint32_t
subGroupSizes
[ZE_SUBGROUPSIZE_COUNT
]¶ [out] Size group sizes supported.
-
ze_structure_type_t
ze_native_kernel_uuid_t¶
ze_device_module_properties_t¶
-
struct
ze_device_module_properties_t
¶ Device module properties queried using zeDeviceGetModuleProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
uint32_t
spirvVersionSupported
¶ [out] Maximum supported SPIR-V version. Returns zero if SPIR-V is not supported. Contains major and minor attributes, use ZE_MAJOR_VERSION and ZE_MINOR_VERSION.
-
ze_device_module_flags_t
flags
¶ [out] 0 or a valid combination of ze_device_module_flag_t
-
ze_device_fp_flags_t
fp16flags
¶ [out] Capabilities for half-precision floating-point operations. returns 0 (if ZE_DEVICE_MODULE_FLAG_FP16 is not set) or a combination of ze_device_fp_flag_t.
-
ze_device_fp_flags_t
fp32flags
¶ [out] Capabilities for single-precision floating-point operations. returns a combination of ze_device_fp_flag_t.
-
ze_device_fp_flags_t
fp64flags
¶ [out] Capabilities for double-precision floating-point operations. returns 0 (if ZE_DEVICE_MODULE_FLAG_FP64 is not set) or a combination of ze_device_fp_flag_t.
-
uint32_t
maxArgumentsSize
¶ [out] Maximum kernel argument size that is supported.
-
uint32_t
printfBufferSize
¶ [out] Maximum size of internal buffer that holds output of printf calls from kernel.
-
ze_native_kernel_uuid_t
nativeKernelSupported
¶ [out] Compatibility UUID of supported native kernel. UUID may or may not be the same across driver release, devices, or operating systems. Application is responsible for ensuring UUID matches before creating module using previously created native kernel.
-
ze_structure_type_t
ze_command_queue_group_properties_t¶
-
struct
ze_command_queue_group_properties_t
¶ Command queue group properties queried using zeDeviceGetCommandQueueGroupProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_command_queue_group_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_command_queue_group_property_flag_t
-
size_t
maxMemoryFillPatternSize
¶ [out] maximum
pattern_size
supported by command queue group. See zeCommandListAppendMemoryFill for more details.
-
uint32_t
numQueues
¶ [out] the number of physical engines within the group.
-
ze_structure_type_t
ze_device_memory_properties_t¶
-
struct
ze_device_memory_properties_t
¶ Device local memory properties queried using zeDeviceGetMemoryProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_device_memory_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_device_memory_property_flag_t
-
uint32_t
maxClockRate
¶ [out] Maximum clock rate for device memory.
-
uint32_t
maxBusWidth
¶ [out] Maximum bus width between device and memory.
-
uint64_t
totalSize
¶ [out] Total memory size in bytes that is available to the device.
-
char
name
[ZE_MAX_DEVICE_NAME
]¶ [out] Memory name
-
ze_structure_type_t
ze_device_memory_access_properties_t¶
-
struct
ze_device_memory_access_properties_t
¶ Device memory access properties queried using zeDeviceGetMemoryAccessProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_memory_access_cap_flags_t
hostAllocCapabilities
¶ returns 0 (unsupported) or a combination of ze_memory_access_cap_flag_t.
[out] host memory capabilities.
-
ze_memory_access_cap_flags_t
deviceAllocCapabilities
¶ returns 0 (unsupported) or a combination of ze_memory_access_cap_flag_t.
[out] device memory capabilities.
returns 0 (unsupported) or a combination of ze_memory_access_cap_flag_t.
[out] shared, single-device memory capabilities.
returns 0 (unsupported) or a combination of ze_memory_access_cap_flag_t.
[out] shared, cross-device memory capabilities.
returns 0 (unsupported) or a combination of ze_memory_access_cap_flag_t.
[out] shared, system memory capabilities.
-
ze_structure_type_t
ze_device_cache_properties_t¶
-
struct
ze_device_cache_properties_t
¶ Device cache properties queried using zeDeviceGetCacheProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_device_cache_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_device_cache_property_flag_t
-
size_t
cacheSize
¶ [out] Per-cache size, in bytes
-
ze_structure_type_t
ze_device_image_properties_t¶
-
struct
ze_device_image_properties_t
¶ Device image properties queried using zeDeviceGetImageProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
uint32_t
maxImageDims1D
¶ [out] Maximum image dimensions for 1D resources. if 0, then 1D images are unsupported.
-
uint32_t
maxImageDims2D
¶ [out] Maximum image dimensions for 2D resources. if 0, then 2D images are unsupported.
-
uint32_t
maxImageDims3D
¶ [out] Maximum image dimensions for 3D resources. if 0, then 3D images are unsupported.
-
uint64_t
maxImageBufferSize
¶ [out] Maximum image buffer size in bytes. if 0, then buffer images are unsupported.
-
uint32_t
maxImageArraySlices
¶ [out] Maximum image array slices. if 0, then image arrays are unsupported.
-
uint32_t
maxSamplers
¶ [out] Max samplers that can be used in kernel. if 0, then sampling is unsupported.
-
uint32_t
maxReadImageArgs
¶ [out] Returns the maximum number of simultaneous image objects that can be read from by a kernel. if 0, then reading images is unsupported.
-
uint32_t
maxWriteImageArgs
¶ [out] Returns the maximum number of simultaneous image objects that can be written to by a kernel. if 0, then writing images is unsupported.
-
ze_structure_type_t
ze_device_external_memory_properties_t¶
-
struct
ze_device_external_memory_properties_t
¶ Device external memory import and export properties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_external_memory_type_flags_t
memoryAllocationImportTypes
¶ [out] Supported external memory import types for memory allocations.
-
ze_external_memory_type_flags_t
memoryAllocationExportTypes
¶ [out] Supported external memory export types for memory allocations.
-
ze_external_memory_type_flags_t
imageImportTypes
¶ [out] Supported external memory import types for images.
-
ze_external_memory_type_flags_t
imageExportTypes
¶ [out] Supported external memory export types for images.
-
ze_structure_type_t
ze_device_p2p_properties_t¶
-
struct
ze_device_p2p_properties_t
¶ Device peer-to-peer properties queried using zeDeviceGetP2PProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_device_p2p_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_device_p2p_property_flag_t
-
ze_structure_type_t
Context¶
Functions
Enumerations
Structures
Context Functions¶
zeContextCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextCreate
(ze_driver_handle_t hDriver, const ze_context_desc_t *desc, ze_context_handle_t *phContext)¶ Creates a context for the driver.
- Parameters
hDriver
: [in] handle of the driver objectdesc
: [in] pointer to context descriptorphContext
: [out] pointer to handle of context object created
The application must only use the context for the driver which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phContext
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x1 < desc->flags
zeContextCreateEx¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextCreateEx
(ze_driver_handle_t hDriver, const ze_context_desc_t *desc, uint32_t numDevices, ze_device_handle_t *phDevices, ze_context_handle_t *phContext)¶ Creates a context for the driver.
- Parameters
hDriver
: [in] handle of the driver objectdesc
: [in] pointer to context descriptornumDevices
: [in][optional] number of device handles; must be 0 if `nullptr == phDevices`phDevices
: [in][optional][range(0, numDevices)] array of device handles which context has visibility. if nullptr, then all devices supported by the driver instance are visible to the context. otherwise, context only has visibility to devices in this array.phContext
: [out] pointer to handle of context object created
The application must only use the context for the driver which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDriver
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phContext
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x1 < desc->flags
(nullptr == phDevices) && (0 < numDevices)
zeContextDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextDestroy
(ze_context_handle_t hContext)¶ Destroys a context.
- Parameters
hContext
: [in][release] handle of context object to destroy
The application must ensure the device is not currently referencing the context before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this context.
The application must not call this function from simultaneous threads with the same context handle.
The implementation of this function must be thread-safe.
zeContextGetStatus¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextGetStatus
(ze_context_handle_t hContext)¶ Returns current status of the context.
- Parameters
hContext
: [in] handle of context object
The application may call this function from simultaneous threads with the same context handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
Context is available for use.
Context is invalid; due to device lost or reset.
Context Enums¶
Context Structures¶
ze_context_desc_t¶
-
struct
ze_context_desc_t
¶ Context descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_context_flags_t
flags
¶ [in] creation flags. must be 0 (default) or a valid combination of ze_context_flag_t; default behavior may use implicit driver-based heuristics.
-
ze_structure_type_t
Cmdqueue¶
Functions
Enumerations
Structures
Cmdqueue Functions¶
zeCommandQueueCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandQueueCreate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_command_queue_desc_t *desc, ze_command_queue_handle_t *phCommandQueue)¶ Creates a command queue on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the device objectdesc
: [in] pointer to command queue descriptorphCommandQueue
: [out] pointer to handle of command queue object created
A command queue represents a logical input stream to the device, tied to a physical input stream.
The application must only use the command queue for the device, or its sub-devices, which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Remark
Analogues
clCreateCommandQueue
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phCommandQueue
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x1 < desc->flags
ZE_COMMAND_QUEUE_MODE_ASYNCHRONOUS < desc->mode
ZE_COMMAND_QUEUE_PRIORITY_PRIORITY_HIGH < desc->priority
zeCommandQueueDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandQueueDestroy
(ze_command_queue_handle_t hCommandQueue)¶ Destroys a command queue.
- Parameters
hCommandQueue
: [in][release] handle of command queue object to destroy
The application must destroy all fence handles created from the command queue before destroying the command queue itself
The application must ensure the device is not currently referencing the command queue before it is deleted
The implementation of this function may immediately free all Host and Device allocations associated with this command queue
The application must not call this function from simultaneous threads with the same command queue handle.
The implementation of this function must be thread-safe.
- Remark
Analogues
clReleaseCommandQueue
- Return
zeCommandQueueExecuteCommandLists¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandQueueExecuteCommandLists
(ze_command_queue_handle_t hCommandQueue, uint32_t numCommandLists, ze_command_list_handle_t *phCommandLists, ze_fence_handle_t hFence)¶ Executes a command list in a command queue.
- Parameters
hCommandQueue
: [in] handle of the command queuenumCommandLists
: [in] number of command lists to executephCommandLists
: [in][range(0, numCommandLists)] list of handles of the command lists to executehFence
: [in][optional] handle of the fence to signal on completion
The command lists are submitted to the device in the order they are received, whether from multiple calls (on the same or different threads) or a single call with multiple command lists.
The application must ensure the command lists are accessible by the device on which the command queue was created.
The application must ensure the device is not currently referencing the command list since the implementation is allowed to modify the contents of the command list for submission.
The application must only execute command lists created with an identical command queue group ordinal to the command queue.
The application must use a fence created using the same command queue.
The application must ensure the command queue, command list and fence were created on the same context.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkQueueSubmit
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandQueue
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == phCommandLists
0 == numCommandLists
zeCommandQueueSynchronize¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandQueueSynchronize
(ze_command_queue_handle_t hCommandQueue, uint64_t timeout)¶ Synchronizes a command queue by waiting on the host.
- Parameters
hCommandQueue
: [in] handle of the command queuetimeout
: [in] if non-zero, then indicates the maximum time (in nanoseconds) to yield before returning ZE_RESULT_SUCCESS or ZE_RESULT_NOT_READY; if zero, then immediately returns the status of the command queue; if UINT64_MAX, then function will not return until complete or device is lost. Due to external dependencies, timeout may be rounded to the closest value allowed by the accuracy of those dependencies.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandQueue
timeout expired
Cmdqueue Enums¶
ze_command_queue_flags_t¶
-
enum
ze_command_queue_flag_t
¶ Values:
-
ZE_COMMAND_QUEUE_FLAG_EXPLICIT_ONLY
= ZE_BIT(0)¶ command queue should be optimized for submission to a single device engine. driver must disable any implicit optimizations for distributing work across multiple engines. this flag should be used when applications want full control over multi-engine submission and scheduling.
-
ZE_COMMAND_QUEUE_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_command_queue_mode_t¶
-
enum
ze_command_queue_mode_t
¶ Supported command queue modes.
Values:
-
ZE_COMMAND_QUEUE_MODE_DEFAULT
= 0¶ implicit default behavior; uses driver-based heuristics
-
ZE_COMMAND_QUEUE_MODE_SYNCHRONOUS
= 1¶ Device execution always completes immediately on execute; Host thread is blocked using wait on implicit synchronization object
-
ZE_COMMAND_QUEUE_MODE_ASYNCHRONOUS
= 2¶ Device execution is scheduled and will complete in future; explicit synchronization object must be used to determine completeness
-
ZE_COMMAND_QUEUE_MODE_FORCE_UINT32
= 0x7fffffff¶
-
ze_command_queue_priority_t¶
-
enum
ze_command_queue_priority_t
¶ Supported command queue priorities.
Values:
-
ZE_COMMAND_QUEUE_PRIORITY_NORMAL
= 0¶ [default] normal priority
-
ZE_COMMAND_QUEUE_PRIORITY_PRIORITY_LOW
= 1¶ lower priority than normal
-
ZE_COMMAND_QUEUE_PRIORITY_PRIORITY_HIGH
= 2¶ higher priority than normal
-
ZE_COMMAND_QUEUE_PRIORITY_FORCE_UINT32
= 0x7fffffff¶
-
Cmdqueue Structures¶
ze_command_queue_desc_t¶
-
struct
ze_command_queue_desc_t
¶ Command Queue descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
uint32_t
ordinal
¶ [in] command queue group ordinal
-
uint32_t
index
¶ [in] command queue index within the group; must be zero if ZE_COMMAND_QUEUE_FLAG_EXPLICIT_ONLY is not set
-
ze_command_queue_flags_t
flags
¶ [in] usage flags. must be 0 (default) or a valid combination of ze_command_queue_flag_t; default behavior may use implicit driver-based heuristics to balance latency and throughput.
-
ze_command_queue_mode_t
mode
¶ [in] operation mode
-
ze_command_queue_priority_t
priority
¶ [in] priority
-
ze_structure_type_t
Cmdlist¶
Functions
Enumerations
Structures
Cmdlist Functions¶
zeCommandListCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListCreate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_command_list_desc_t *desc, ze_command_list_handle_t *phCommandList)¶ Creates a command list on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the device objectdesc
: [in] pointer to command list descriptorphCommandList
: [out] pointer to handle of command list object created
A command list represents a sequence of commands for execution on a command queue.
The command list is created in the ‘open’ state.
The application must only use the command list for the device, or its sub-devices, which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phCommandList
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x7 < desc->flags
zeCommandListCreateImmediate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListCreateImmediate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_command_queue_desc_t *altdesc, ze_command_list_handle_t *phCommandList)¶ Creates an immediate command list on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the device objectaltdesc
: [in] pointer to command queue descriptorphCommandList
: [out] pointer to handle of command list object created
An immediate command list is used for low-latency submission of commands.
An immediate command list creates an implicit command queue.
The command list is created in the ‘open’ state and never needs to be closed.
The application must only use the command list for the device, or its sub-devices, which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == altdesc
nullptr == phCommandList
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x1 < altdesc->flags
ZE_COMMAND_QUEUE_MODE_ASYNCHRONOUS < altdesc->mode
ZE_COMMAND_QUEUE_PRIORITY_PRIORITY_HIGH < altdesc->priority
zeCommandListDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListDestroy
(ze_command_list_handle_t hCommandList)¶ Destroys a command list.
- Parameters
hCommandList
: [in][release] handle of command list object to destroy
The application must ensure the device is not currently referencing the command list before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this command list.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function must be thread-safe.
zeCommandListClose¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListClose
(ze_command_list_handle_t hCommandList)¶ Closes a command list; ready to be executed by a command queue.
- Parameters
hCommandList
: [in] handle of command list object to close
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
zeCommandListReset¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListReset
(ze_command_list_handle_t hCommandList)¶ Reset a command list to initial (empty) state; ready for appending commands.
- Parameters
hCommandList
: [in] handle of command list object to reset
The application must ensure the device is not currently referencing the command list before it is reset
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
zeCommandListAppendWriteGlobalTimestamp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendWriteGlobalTimestamp
(ze_command_list_handle_t hCommandList, uint64_t *dstptr, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Appends a memory write of the device’s global timestamp value into a command list.
- Parameters
hCommandList
: [in] handle of the command listdstptr
: [in,out] pointer to memory where timestamp value will be written; must be 8byte-aligned.hSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before executing query; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before executing query
The application must ensure the events are accessible by the device on which the command list was created.
The timestamp frequency can be queried from ze_device_properties_t.timerResolution.
The number of valid bits in the timestamp value can be queried from ze_device_properties_t.timestampValidBits.
The application must ensure the memory pointed to by dstptr is accessible by the device on which the command list was created.
The application must ensure the command list and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == dstptr
(nullptr == phWaitEvents) && (0 < numWaitEvents)
Cmdlist Enums¶
ze_command_list_flags_t¶
-
enum
ze_command_list_flag_t
¶ Values:
-
ZE_COMMAND_LIST_FLAG_RELAXED_ORDERING
= ZE_BIT(0)¶ driver may reorder commands (e.g., kernels, copies) between barriers and synchronization primitives. using this flag may increase Host overhead of zeCommandListClose. therefore, this flag should not be set for low-latency usage-models.
-
ZE_COMMAND_LIST_FLAG_MAXIMIZE_THROUGHPUT
= ZE_BIT(1)¶ driver may perform additional optimizations that increase execution throughput. using this flag may increase Host overhead of zeCommandListClose and zeCommandQueueExecuteCommandLists. therefore, this flag should not be set for low-latency usage-models.
-
ZE_COMMAND_LIST_FLAG_EXPLICIT_ONLY
= ZE_BIT(2)¶ command list should be optimized for submission to a single command queue and device engine. driver must disable any implicit optimizations for distributing work across multiple engines. this flag should be used when applications want full control over multi-engine submission and scheduling.
-
ZE_COMMAND_LIST_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Cmdlist Structures¶
ze_command_list_desc_t¶
-
struct
ze_command_list_desc_t
¶ Command List descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
uint32_t
commandQueueGroupOrdinal
¶ [in] command queue group ordinal to which this command list will be submitted
-
ze_command_list_flags_t
flags
¶ [in] usage flags. must be 0 (default) or a valid combination of ze_command_list_flag_t; default behavior may use implicit driver-based heuristics to balance latency and throughput.
-
ze_structure_type_t
Barrier¶
Functions
Barrier Functions¶
zeCommandListAppendBarrier¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendBarrier
(ze_command_list_handle_t hCommandList, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Appends an execution and global memory barrier into a command list.
- Parameters
hCommandList
: [in] handle of the command listhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before executing barrier; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before executing barrier
The application must ensure the events are accessible by the device on which the command list was created.
If numWaitEvents is zero, then all previous commands are completed prior to the execution of the barrier.
If numWaitEvents is non-zero, then then all phWaitEvents must be signaled prior to the execution of the barrier.
This command blocks all following commands from beginning until the execution of the barrier completes.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
vkCmdPipelineBarrier
clEnqueueBarrierWithWaitList
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendMemoryRangesBarrier¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemoryRangesBarrier
(ze_command_list_handle_t hCommandList, uint32_t numRanges, const size_t *pRangeSizes, const void **pRanges, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Appends a global memory ranges barrier into a command list.
- Parameters
hCommandList
: [in] handle of the command listnumRanges
: [in] number of memory rangespRangeSizes
: [in][range(0, numRanges)] array of sizes of memory rangepRanges
: [in][range(0, numRanges)] array of memory rangeshSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before executing barrier; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before executing barrier
The application must ensure the events are accessible by the device on which the command list was created.
If numWaitEvents is zero, then all previous commands are completed prior to the execution of the barrier.
If numWaitEvents is non-zero, then then all phWaitEvents must be signaled prior to the execution of the barrier.
This command blocks all following commands from beginning until the execution of the barrier completes.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pRangeSizes
nullptr == pRanges
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeContextSystemBarrier¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextSystemBarrier
(ze_context_handle_t hContext, ze_device_handle_t hDevice)¶ Ensures in-bound writes to the device are globally observable.
- Parameters
hContext
: [in] handle of context objecthDevice
: [in] handle of the device
This is a special-case system level barrier that can be used to ensure global observability of writes; typically needed after a producer (e.g., NIC) performs direct writes to the device’s memory (e.g., Direct RDMA writes). This is typically required when the memory corresponding to the writes is subsequently accessed from a remote device.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
Copy¶
Functions
Enumerations
Structures
Copy Functions¶
zeCommandListAppendMemoryCopy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemoryCopy
(ze_command_list_handle_t hCommandList, void *dstptr, const void *srcptr, size_t size, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies host, device, or shared memory.
- Parameters
hCommandList
: [in] handle of command listdstptr
: [in] pointer to destination memory to copy tosrcptr
: [in] pointer to source memory to copy fromsize
: [in] size in bytes to copyhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the memory pointed to by dstptr and srcptr is accessible by the device on which the command list was created.
The implementation must not access the memory pointed to by dstptr and srcptr as they are free to be modified by either the Host or device up until execution.
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the command list and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clEnqueueCopyBuffer
clEnqueueReadBuffer
clEnqueueWriteBuffer
clEnqueueSVMMemcpy
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == dstptr
nullptr == srcptr
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendMemoryFill¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemoryFill
(ze_command_list_handle_t hCommandList, void *ptr, const void *pattern, size_t pattern_size, size_t size, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Initializes host, device, or shared memory.
- Parameters
hCommandList
: [in] handle of command listptr
: [in] pointer to memory to initializepattern
: [in] pointer to value to initialize memory topattern_size
: [in] size in bytes of the value to initialize memory tosize
: [in] size in bytes to initializehSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the memory pointed to by dstptr is accessible by the device on which the command list was created.
The implementation must not access the memory pointed to by dstptr as it is free to be modified by either the Host or device up until execution.
The value to initialize memory to is described by the pattern and the pattern size.
The pattern size must be a power-of-two and less than or equal to ze_command_queue_group_properties_t.maxMemoryFillPatternSize.
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the command list and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clEnqueueFillBuffer
clEnqueueSVMMemFill
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
nullptr == pattern
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendMemoryCopyRegion¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemoryCopyRegion
(ze_command_list_handle_t hCommandList, void *dstptr, const ze_copy_region_t *dstRegion, uint32_t dstPitch, uint32_t dstSlicePitch, const void *srcptr, const ze_copy_region_t *srcRegion, uint32_t srcPitch, uint32_t srcSlicePitch, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies a region from a 2D or 3D array of host, device, or shared memory.
- Parameters
hCommandList
: [in] handle of command listdstptr
: [in] pointer to destination memory to copy todstRegion
: [in] pointer to destination region to copy todstPitch
: [in] destination pitch in bytesdstSlicePitch
: [in] destination slice pitch in bytes. This is required for 3D region copies where ze_copy_region_t.depth is not 0, otherwise it’s ignored.srcptr
: [in] pointer to source memory to copy fromsrcRegion
: [in] pointer to source region to copy fromsrcPitch
: [in] source pitch in bytessrcSlicePitch
: [in] source slice pitch in bytes. This is required for 3D region copies where ze_copy_region_t.depth is not 0, otherwise it’s ignored.hSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the memory pointed to by dstptr and srcptr is accessible by the device on which the command list was created.
The implementation must not access the memory pointed to by dstptr and srcptr as they are free to be modified by either the Host or device up until execution.
The region width, height, and depth for both src and dst must be same. The origins can be different.
The src and dst regions cannot be overlapping.
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the command list and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == dstptr
nullptr == dstRegion
nullptr == srcptr
nullptr == srcRegion
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendMemoryCopyFromContext¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemoryCopyFromContext
(ze_command_list_handle_t hCommandList, void *dstptr, ze_context_handle_t hContextSrc, const void *srcptr, size_t size, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies host, device, or shared memory from another context.
- Parameters
hCommandList
: [in] handle of command listdstptr
: [in] pointer to destination memory to copy tohContextSrc
: [in] handle of source context objectsrcptr
: [in] pointer to source memory to copy fromsize
: [in] size in bytes to copyhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The current active and source context must be from the same driver.
The application must ensure the memory pointed to by dstptr and srcptr is accessible by the device on which the command list was created.
The implementation must not access the memory pointed to by dstptr and srcptr as they are free to be modified by either the Host or device up until execution.
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the command list and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hContextSrc
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == dstptr
nullptr == srcptr
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendImageCopy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendImageCopy
(ze_command_list_handle_t hCommandList, ze_image_handle_t hDstImage, ze_image_handle_t hSrcImage, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies an image.
- Parameters
hCommandList
: [in] handle of command listhDstImage
: [in] handle of destination image to copy tohSrcImage
: [in] handle of source image to copy fromhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the image and events are accessible by the device on which the command list was created.
The application must ensure the image format descriptors for both source and destination images are the same.
The application must ensure the command list, images and events were created on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clEnqueueCopyImage
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hDstImage
nullptr == hSrcImage
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendImageCopyRegion¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendImageCopyRegion
(ze_command_list_handle_t hCommandList, ze_image_handle_t hDstImage, ze_image_handle_t hSrcImage, const ze_image_region_t *pDstRegion, const ze_image_region_t *pSrcRegion, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies a region of an image to another image.
- Parameters
hCommandList
: [in] handle of command listhDstImage
: [in] handle of destination image to copy tohSrcImage
: [in] handle of source image to copy frompDstRegion
: [in][optional] destination region descriptorpSrcRegion
: [in][optional] source region descriptorhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the image and events are accessible by the device on which the command list was created.
The region width and height for both src and dst must be same. The origins can be different.
The src and dst regions cannot be overlapping.
The application must ensure the image format descriptors for both source and destination images are the same.
The application must ensure the command list, images and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hDstImage
nullptr == hSrcImage
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendImageCopyToMemory¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendImageCopyToMemory
(ze_command_list_handle_t hCommandList, void *dstptr, ze_image_handle_t hSrcImage, const ze_image_region_t *pSrcRegion, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies from an image to device or shared memory.
- Parameters
hCommandList
: [in] handle of command listdstptr
: [in] pointer to destination memory to copy tohSrcImage
: [in] handle of source image to copy frompSrcRegion
: [in][optional] source region descriptorhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the memory pointed to by dstptr is accessible by the device on which the command list was created.
The implementation must not access the memory pointed to by dstptr as it is free to be modified by either the Host or device up until execution.
The application must ensure the image and events are accessible by the device on which the command list was created.
The application must ensure the image format descriptor for the source image is not a media format.
The application must ensure the command list, image and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clEnqueueReadImage
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hSrcImage
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == dstptr
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendImageCopyFromMemory¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendImageCopyFromMemory
(ze_command_list_handle_t hCommandList, ze_image_handle_t hDstImage, const void *srcptr, const ze_image_region_t *pDstRegion, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Copies to an image from device or shared memory.
- Parameters
hCommandList
: [in] handle of command listhDstImage
: [in] handle of destination image to copy tosrcptr
: [in] pointer to source memory to copy frompDstRegion
: [in][optional] destination region descriptorhSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the memory pointed to by srcptr is accessible by the device on which the command list was created.
The implementation must not access the memory pointed to by srcptr as it is free to be modified by either the Host or device up until execution.
The application must ensure the image and events are accessible by the device on which the command list was created.
The application must ensure the image format descriptor for the destination image is not a media format.
The application must ensure the command list, image and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clEnqueueWriteImage
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hDstImage
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == srcptr
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendMemoryPrefetch¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemoryPrefetch
(ze_command_list_handle_t hCommandList, const void *ptr, size_t size)¶ Asynchronously prefetches shared memory to the device associated with the specified command list.
- Parameters
hCommandList
: [in] handle of command listptr
: [in] pointer to start of the memory range to prefetchsize
: [in] size in bytes of the memory range to prefetch
This is a hint to improve performance only and is not required for correctness.
Only prefetching to the device associated with the specified command list is supported. Prefetching to the host or to a peer device is not supported.
Prefetching may not be supported for all allocation types for all devices. If memory prefetching is not supported for the specified memory range the prefetch hint may be ignored.
Prefetching may only be supported at a device-specific granularity, such as at a page boundary. In this case, the memory range may be expanded such that the start and end of the range satisfy granularity requirements.
The application must ensure the memory pointed to by ptr is accessible by the device on which the command list was created.
The application must ensure the command list was created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clEnqueueSVMMigrateMem
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
zeCommandListAppendMemAdvise¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendMemAdvise
(ze_command_list_handle_t hCommandList, ze_device_handle_t hDevice, const void *ptr, size_t size, ze_memory_advice_t advice)¶ Provides advice about the use of a shared memory range.
- Parameters
hCommandList
: [in] handle of command listhDevice
: [in] device associated with the memory adviceptr
: [in] Pointer to the start of the memory rangesize
: [in] Size in bytes of the memory rangeadvice
: [in] Memory advice for the memory range
Memory advice is a performance hint only and is not required for functional correctness.
Memory advice can be used to override driver heuristics to explicitly control shared memory behavior.
Not all memory advice hints may be supported for all allocation types for all devices. If a memory advice hint is not supported by the device it will be ignored.
Memory advice may only be supported at a device-specific granularity, such as at a page boundary. In this case, the memory range may be expanded such that the start and end of the range satisfy granularity requirements.
The application must ensure the memory pointed to by ptr is accessible by the device on which the command list was created.
The application must ensure the command list was created, and memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle, and the memory was allocated.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
ZE_RESULT_ERROR_INVALID_ENUMERATION
ZE_MEMORY_ADVICE_BIAS_UNCACHED < advice
Copy Enums¶
ze_memory_advice_t¶
-
enum
ze_memory_advice_t
¶ Supported memory advice hints.
Values:
-
ZE_MEMORY_ADVICE_SET_READ_MOSTLY
= 0¶ hint that memory will be read from frequently and written to rarely
-
ZE_MEMORY_ADVICE_CLEAR_READ_MOSTLY
= 1¶ removes the affect of ZE_MEMORY_ADVICE_SET_READ_MOSTLY
-
ZE_MEMORY_ADVICE_SET_PREFERRED_LOCATION
= 2¶ hint that the preferred memory location is the specified device
-
ZE_MEMORY_ADVICE_CLEAR_PREFERRED_LOCATION
= 3¶ removes the affect of ZE_MEMORY_ADVICE_SET_PREFERRED_LOCATION
-
ZE_MEMORY_ADVICE_SET_NON_ATOMIC_MOSTLY
= 4¶ hints that memory will mostly be accessed non-atomically
-
ZE_MEMORY_ADVICE_CLEAR_NON_ATOMIC_MOSTLY
= 5¶ removes the affect of ZE_MEMORY_ADVICE_SET_NON_ATOMIC_MOSTLY
-
ZE_MEMORY_ADVICE_BIAS_CACHED
= 6¶ hints that memory should be cached
-
ZE_MEMORY_ADVICE_BIAS_UNCACHED
= 7¶ hints that memory should be not be cached
-
ZE_MEMORY_ADVICE_FORCE_UINT32
= 0x7fffffff¶
-
Copy Structures¶
ze_copy_region_t¶
-
struct
ze_copy_region_t
¶ Copy region descriptor.
Public Members
-
uint32_t
originX
¶ [in] The origin x offset for region in bytes
-
uint32_t
originY
¶ [in] The origin y offset for region in rows
-
uint32_t
originZ
¶ [in] The origin z offset for region in slices
-
uint32_t
width
¶ [in] The region width relative to origin in bytes
-
uint32_t
height
¶ [in] The region height relative to origin in rows
-
uint32_t
depth
¶ [in] The region depth relative to origin in slices. Set this to 0 for 2D copy.
-
uint32_t
ze_image_region_t¶
-
struct
ze_image_region_t
¶ Region descriptor.
Public Members
-
uint32_t
originX
¶ [in] The origin x offset for region in pixels
-
uint32_t
originY
¶ [in] The origin y offset for region in pixels
-
uint32_t
originZ
¶ [in] The origin z offset for region in pixels
-
uint32_t
width
¶ [in] The region width relative to origin in pixels
-
uint32_t
height
¶ [in] The region height relative to origin in pixels
-
uint32_t
depth
¶ [in] The region depth relative to origin. For 1D or 2D images, set this to 1.
-
uint32_t
Event¶
Functions
Enumerations
Structures
Event Functions¶
zeEventPoolCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventPoolCreate
(ze_context_handle_t hContext, const ze_event_pool_desc_t *desc, uint32_t numDevices, ze_device_handle_t *phDevices, ze_event_pool_handle_t *phEventPool)¶ Creates a pool of events on the context.
- Parameters
hContext
: [in] handle of the context objectdesc
: [in] pointer to event pool descriptornumDevices
: [in][optional] number of device handles; must be 0 if `nullptr == phDevices`phDevices
: [in][optional][range(0, numDevices)] array of device handles which have visibility to the event pool. if nullptr, then event pool is visible to all devices supported by the driver instance.phEventPool
: [out] pointer handle of event pool object created
The application must only use events within the pool for the device(s), or their sub-devices, which were provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phEventPool
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x7 < desc->flags
0 == desc->count
(nullptr == phDevices) && (0 < numDevices)
zeEventPoolDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventPoolDestroy
(ze_event_pool_handle_t hEventPool)¶ Deletes an event pool object.
- Parameters
hEventPool
: [in][release] handle of event pool object to destroy
The application must destroy all event handles created from the pool before destroying the pool itself.
The application must ensure the device is not currently referencing the any event within the pool before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this event pool.
The application must not call this function from simultaneous threads with the same event pool handle.
The implementation of this function must be thread-safe.
zeEventCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventCreate
(ze_event_pool_handle_t hEventPool, const ze_event_desc_t *desc, ze_event_handle_t *phEvent)¶ Creates an event from the pool.
- Parameters
hEventPool
: [in] handle of the event pooldesc
: [in] pointer to event descriptorphEvent
: [out] pointer to handle of event object created
An event is used to communicate fine-grain host-to-device, device-to-host or device-to-device dependencies have completed.
The application must ensure the location in the pool is not being used by another event.
The application must not call this function from simultaneous threads with the same event pool handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clCreateUserEvent
vkCreateEvent
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hEventPool
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phEvent
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x7 < desc->signal
0x7 < desc->wait
zeEventDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventDestroy
(ze_event_handle_t hEvent)¶ Deletes an event object.
- Parameters
hEvent
: [in][release] handle of event object to destroy
The application must ensure the device is not currently referencing the event before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this event.
The application must not call this function from simultaneous threads with the same event handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clReleaseEvent
vkDestroyEvent
- Return
zeEventPoolGetIpcHandle¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventPoolGetIpcHandle
(ze_event_pool_handle_t hEventPool, ze_ipc_event_pool_handle_t *phIpc)¶ Gets an IPC event pool handle for the specified event handle that can be shared with another process.
- Parameters
hEventPool
: [in] handle of event pool objectphIpc
: [out] Returned IPC event handle
Event pool must have been created with ZE_EVENT_POOL_FLAG_IPC.
The application may call this function from simultaneous threads.
- Return
zeEventPoolOpenIpcHandle¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventPoolOpenIpcHandle
(ze_context_handle_t hContext, ze_ipc_event_pool_handle_t hIpc, ze_event_pool_handle_t *phEventPool)¶ Opens an IPC event pool handle to retrieve an event pool handle from another process.
- Parameters
hContext
: [in] handle of the context object to associate with the IPC event pool handlehIpc
: [in] IPC event pool handlephEventPool
: [out] pointer handle of event pool object created
Multiple calls to this function with the same IPC handle will return unique event pool handles.
The event handle in this process should not be freed with zeEventPoolDestroy, but rather with zeEventPoolCloseIpcHandle.
The application may call this function from simultaneous threads.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == phEventPool
zeEventPoolCloseIpcHandle¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventPoolCloseIpcHandle
(ze_event_pool_handle_t hEventPool)¶ Closes an IPC event handle in the current process.
- Parameters
hEventPool
: [in][release] handle of event pool object
Closes an IPC event handle by destroying events that were opened in this process using zeEventPoolOpenIpcHandle.
The application must not call this function from simultaneous threads with the same event pool handle.
- Return
zeCommandListAppendSignalEvent¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendSignalEvent
(ze_command_list_handle_t hCommandList, ze_event_handle_t hEvent)¶ Appends a signal of the event from the device into a command list.
- Parameters
hCommandList
: [in] handle of the command listhEvent
: [in] handle of the event
The application must ensure the events are accessible by the device on which the command list was created.
The duration of an event created from an event pool that was created using ZE_EVENT_POOL_FLAG_KERNEL_TIMESTAMP flag is undefined. However, for consistency and orthogonality the event will report correctly as signaled when used by other event API functionality.
The application must ensure the command list and events were created on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
clSetUserEventStatus
vkCmdSetEvent
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hEvent
zeCommandListAppendWaitOnEvents¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendWaitOnEvents
(ze_command_list_handle_t hCommandList, uint32_t numEvents, ze_event_handle_t *phEvents)¶ Appends wait on event(s) on the device into a command list.
- Parameters
hCommandList
: [in] handle of the command listnumEvents
: [in] number of events to wait on before continuingphEvents
: [in][range(0, numEvents)] handles of the events to wait on before continuing
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the command list and events were created on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == phEvents
zeEventHostSignal¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventHostSignal
(ze_event_handle_t hEvent)¶ Signals a event from host.
- Parameters
hEvent
: [in] handle of the event
The duration of an event created from an event pool that was created using ZE_EVENT_POOL_FLAG_KERNEL_TIMESTAMP flag is undefined. However, for consistency and orthogonality the event will report correctly as signaled when used by other event API functionality.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clSetUserEventStatus
- Return
zeEventHostSynchronize¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventHostSynchronize
(ze_event_handle_t hEvent, uint64_t timeout)¶ The current host thread waits on an event to be signaled.
- Parameters
hEvent
: [in] handle of the eventtimeout
: [in] if non-zero, then indicates the maximum time (in nanoseconds) to yield before returning ZE_RESULT_SUCCESS or ZE_RESULT_NOT_READY; if zero, then operates exactly like zeEventQueryStatus; if UINT64_MAX, then function will not return until complete or device is lost. Due to external dependencies, timeout may be rounded to the closest value allowed by the accuracy of those dependencies.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clWaitForEvents
- Return
zeEventQueryStatus¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventQueryStatus
(ze_event_handle_t hEvent)¶ Queries an event object’s status on the host.
- Parameters
hEvent
: [in] handle of the event
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
clGetEventInfo
vkGetEventStatus
- Return
zeCommandListAppendEventReset¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendEventReset
(ze_command_list_handle_t hCommandList, ze_event_handle_t hEvent)¶ Appends a reset of an event back to not signaled state into a command list.
- Parameters
hCommandList
: [in] handle of the command listhEvent
: [in] handle of the event
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the command list and events were created on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Remark
Analogues
vkResetEvent
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hEvent
zeEventHostReset¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventHostReset
(ze_event_handle_t hEvent)¶ The current host thread resets an event back to not signaled state.
- Parameters
hEvent
: [in] handle of the event
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkResetEvent
- Return
zeEventQueryKernelTimestamp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventQueryKernelTimestamp
(ze_event_handle_t hEvent, ze_kernel_timestamp_result_t *dstptr)¶ Queries an event’s timestamp value on the host.
- Parameters
hEvent
: [in] handle of the eventdstptr
: [in,out] pointer to memory for where timestamp result will be written.
The application must ensure the event was created from an event pool that was created using ZE_EVENT_POOL_FLAG_KERNEL_TIMESTAMP flag.
The destination memory will be unmodified if the event has not been signaled.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hEvent
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == dstptr
not signaled
zeCommandListAppendQueryKernelTimestamps¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendQueryKernelTimestamps
(ze_command_list_handle_t hCommandList, uint32_t numEvents, ze_event_handle_t *phEvents, void *dstptr, const size_t *pOffsets, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Appends a query of an events’ timestamp value(s) into a command list.
- Parameters
hCommandList
: [in] handle of the command listnumEvents
: [in] the number of timestamp events to queryphEvents
: [in][range(0, numEvents)] handles of timestamp events to querydstptr
: [in,out] pointer to memory where ze_kernel_timestamp_result_t will be written; must be size-aligned.pOffsets
: [in][optional][range(0, numEvents)] offset, in bytes, to write results; address must be 4byte-aligned and offsets must be size-aligned.hSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before executing query; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before executing query
The application must ensure the events are accessible by the device on which the command list was created.
The application must ensure the events were created from an event pool that was created using ZE_EVENT_POOL_FLAG_KERNEL_TIMESTAMP flag.
The application must ensure the memory pointed to by both dstptr and pOffsets is accessible by the device on which the command list was created.
The value(s) written to the destination buffer are undefined if any timestamp event has not been signaled.
If pOffsets is nullptr, then multiple results will be appended sequentially into memory in the same order as phEvents.
The application must ensure the command list and events were created, and the memory was allocated, on the same context.
The application must not call this function from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == phEvents
nullptr == dstptr
(nullptr == phWaitEvents) && (0 < numWaitEvents)
Event Enums¶
ze_event_pool_flags_t¶
-
enum
ze_event_pool_flag_t
¶ Values:
-
ZE_EVENT_POOL_FLAG_HOST_VISIBLE
= ZE_BIT(0)¶ signals and waits are also visible to host
-
ZE_EVENT_POOL_FLAG_IPC
= ZE_BIT(1)¶ signals and waits may be shared across processes
-
ZE_EVENT_POOL_FLAG_KERNEL_TIMESTAMP
= ZE_BIT(2)¶ Indicates all events in pool will contain kernel timestamps; cannot be combined with ZE_EVENT_POOL_FLAG_IPC
-
ZE_EVENT_POOL_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_event_scope_flags_t¶
-
enum
ze_event_scope_flag_t
¶ Values:
-
ZE_EVENT_SCOPE_FLAG_SUBDEVICE
= ZE_BIT(0)¶ cache hierarchies are flushed or invalidated sufficient for local sub-device access
-
ZE_EVENT_SCOPE_FLAG_DEVICE
= ZE_BIT(1)¶ cache hierarchies are flushed or invalidated sufficient for global device access and peer device access
-
ZE_EVENT_SCOPE_FLAG_HOST
= ZE_BIT(2)¶ cache hierarchies are flushed or invalidated sufficient for device and host access
-
ZE_EVENT_SCOPE_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Event Structures¶
ze_event_pool_desc_t¶
-
struct
ze_event_pool_desc_t
¶ Event pool descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_event_pool_flags_t
flags
¶ [in] creation flags. must be 0 (default) or a valid combination of ze_event_pool_flag_t; default behavior is signals and waits are visible to the entire device and peer devices.
-
uint32_t
count
¶ [in] number of events within the pool; must be greater than 0
-
ze_structure_type_t
ze_event_desc_t¶
-
struct
ze_event_desc_t
¶ Event descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
uint32_t
index
¶ [in] index of the event within the pool; must be less-than the count specified during pool creation
-
ze_event_scope_flags_t
signal
¶ [in] defines the scope of relevant cache hierarchies to flush on a signal action before the event is triggered. must be 0 (default) or a valid combination of ze_event_scope_flag_t; default behavior is synchronization within the command list only, no additional cache hierarchies are flushed.
-
ze_event_scope_flags_t
wait
¶ [in] defines the scope of relevant cache hierarchies to invalidate on a wait action after the event is complete. must be 0 (default) or a valid combination of ze_event_scope_flag_t; default behavior is synchronization within the command list only, no additional cache hierarchies are invalidated.
-
ze_structure_type_t
ze_kernel_timestamp_data_t¶
-
struct
ze_kernel_timestamp_data_t
¶ Kernel timestamp clock data.
The timestamp frequency can be queried from ze_device_properties_t.timerResolution.
The number of valid bits in the timestamp value can be queried from ze_device_properties_t.kernelTimestampValidBits.
ze_kernel_timestamp_result_t¶
-
struct
ze_kernel_timestamp_result_t
¶ Kernel timestamp result.
Public Members
-
ze_kernel_timestamp_data_t
global
¶ [out] wall-clock data
-
ze_kernel_timestamp_data_t
context
¶ [out] context-active data; only includes clocks while device context was actively executing.
-
ze_kernel_timestamp_data_t
Fence¶
Functions
Enumerations
Structures
Fence Functions¶
zeFenceCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeFenceCreate
(ze_command_queue_handle_t hCommandQueue, const ze_fence_desc_t *desc, ze_fence_handle_t *phFence)¶ Creates a fence for the command queue.
- Parameters
hCommandQueue
: [in] handle of command queuedesc
: [in] pointer to fence descriptorphFence
: [out] pointer to handle of fence object created
A fence is a heavyweight synchronization primitive used to communicate to the host that command list execution has completed.
The application must only use the fence for the command queue which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Remark
Analogues
vkCreateFence
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandQueue
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phFence
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x1 < desc->flags
zeFenceDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeFenceDestroy
(ze_fence_handle_t hFence)¶ Deletes a fence object.
- Parameters
hFence
: [in][release] handle of fence object to destroy
The application must ensure the device is not currently referencing the fence before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this fence.
The application must not call this function from simultaneous threads with the same fence handle.
The implementation of this function must be thread-safe.
- Remark
Analogues
vkDestroyFence
- Return
zeFenceHostSynchronize¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeFenceHostSynchronize
(ze_fence_handle_t hFence, uint64_t timeout)¶ The current host thread waits on a fence to be signaled.
- Parameters
hFence
: [in] handle of the fencetimeout
: [in] if non-zero, then indicates the maximum time (in nanoseconds) to yield before returning ZE_RESULT_SUCCESS or ZE_RESULT_NOT_READY; if zero, then operates exactly like zeFenceQueryStatus; if UINT64_MAX, then function will not return until complete or device is lost. Due to external dependencies, timeout may be rounded to the closest value allowed by the accuracy of those dependencies.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkWaitForFences
- Return
zeFenceQueryStatus¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeFenceQueryStatus
(ze_fence_handle_t hFence)¶ Queries a fence object’s status.
- Parameters
hFence
: [in] handle of the fence
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkGetFenceStatus
- Return
zeFenceReset¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeFenceReset
(ze_fence_handle_t hFence)¶ Reset a fence back to the not signaled state.
- Parameters
hFence
: [in] handle of the fence
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Remark
Analogues
vkResetFences
- Return
Fence Enums¶
Fence Structures¶
ze_fence_desc_t¶
-
struct
ze_fence_desc_t
¶ Fence descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_fence_flags_t
flags
¶ [in] creation flags. must be 0 (default) or a valid combination of ze_fence_flag_t.
-
ze_structure_type_t
Image¶
Functions
Enumerations
Structures
Image Functions¶
zeImageGetProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeImageGetProperties
(ze_device_handle_t hDevice, const ze_image_desc_t *desc, ze_image_properties_t *pImageProperties)¶ Retrieves supported properties of an image.
- Parameters
hDevice
: [in] handle of the devicedesc
: [in] pointer to image descriptorpImageProperties
: [out] pointer to image properties
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == pImageProperties
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x3 < desc->flags
ZE_IMAGE_TYPE_BUFFER < desc->type
zeImageCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeImageCreate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_image_desc_t *desc, ze_image_handle_t *phImage)¶ Creates an image on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the devicedesc
: [in] pointer to image descriptorphImage
: [out] pointer to handle of image object created
The application must only use the image for the device, or its sub-devices, which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Remark
Analogues
clCreateImage
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phImage
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x3 < desc->flags
ZE_IMAGE_TYPE_BUFFER < desc->type
zeImageDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeImageDestroy
(ze_image_handle_t hImage)¶ Deletes an image object.
- Parameters
hImage
: [in][release] handle of image object to destroy
The application must ensure the device is not currently referencing the image before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this image.
The application must not call this function from simultaneous threads with the same image handle.
The implementation of this function must be thread-safe.
Image Enums¶
ze_image_flags_t¶
ze_image_type_t¶
ze_image_format_layout_t¶
-
enum
ze_image_format_layout_t
¶ Supported image format layouts.
Values:
-
ZE_IMAGE_FORMAT_LAYOUT_8
= 0¶ 8-bit single component layout
-
ZE_IMAGE_FORMAT_LAYOUT_16
= 1¶ 16-bit single component layout
-
ZE_IMAGE_FORMAT_LAYOUT_32
= 2¶ 32-bit single component layout
-
ZE_IMAGE_FORMAT_LAYOUT_8_8
= 3¶ 2-component 8-bit layout
-
ZE_IMAGE_FORMAT_LAYOUT_8_8_8_8
= 4¶ 4-component 8-bit layout
-
ZE_IMAGE_FORMAT_LAYOUT_16_16
= 5¶ 2-component 16-bit layout
-
ZE_IMAGE_FORMAT_LAYOUT_16_16_16_16
= 6¶ 4-component 16-bit layout
-
ZE_IMAGE_FORMAT_LAYOUT_32_32
= 7¶ 2-component 32-bit layout
-
ZE_IMAGE_FORMAT_LAYOUT_32_32_32_32
= 8¶ 4-component 32-bit layout
-
ZE_IMAGE_FORMAT_LAYOUT_10_10_10_2
= 9¶ 4-component 10_10_10_2 layout
-
ZE_IMAGE_FORMAT_LAYOUT_11_11_10
= 10¶ 3-component 11_11_10 layout
-
ZE_IMAGE_FORMAT_LAYOUT_5_6_5
= 11¶ 3-component 5_6_5 layout
-
ZE_IMAGE_FORMAT_LAYOUT_5_5_5_1
= 12¶ 4-component 5_5_5_1 layout
-
ZE_IMAGE_FORMAT_LAYOUT_4_4_4_4
= 13¶ 4-component 4_4_4_4 layout
-
ZE_IMAGE_FORMAT_LAYOUT_Y8
= 14¶ Media Format: Y8. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_NV12
= 15¶ Media Format: NV12. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_YUYV
= 16¶ Media Format: YUYV. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_VYUY
= 17¶ Media Format: VYUY. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_YVYU
= 18¶ Media Format: YVYU. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_UYVY
= 19¶ Media Format: UYVY. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_AYUV
= 20¶ Media Format: AYUV. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_P010
= 21¶ Media Format: P010. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_Y410
= 22¶ Media Format: Y410. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_P012
= 23¶ Media Format: P012. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_Y16
= 24¶ Media Format: Y16. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_P016
= 25¶ Media Format: P016. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_Y216
= 26¶ Media Format: Y216. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_P216
= 27¶ Media Format: P216. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_P8
= 28¶ Media Format: P8. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_YUY2
= 29¶ Media Format: YUY2. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_A8P8
= 30¶ Media Format: A8P8. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_IA44
= 31¶ Media Format: IA44. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_AI44
= 32¶ Media Format: AI44. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_Y416
= 33¶ Media Format: Y416. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_Y210
= 34¶ Media Format: Y210. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_I420
= 35¶ Media Format: I420. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_YV12
= 36¶ Media Format: YV12. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_400P
= 37¶ Media Format: 400P. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_422H
= 38¶ Media Format: 422H. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_422V
= 39¶ Media Format: 422V. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_444P
= 40¶ Media Format: 444P. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_RGBP
= 41¶ Media Format: RGBP. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_BRGP
= 42¶ Media Format: BRGP. Format type and swizzle is ignored for this.
-
ZE_IMAGE_FORMAT_LAYOUT_FORCE_UINT32
= 0x7fffffff¶
-
ze_image_format_type_t¶
-
enum
ze_image_format_type_t
¶ Supported image format types.
Values:
-
ZE_IMAGE_FORMAT_TYPE_UINT
= 0¶ Unsigned integer.
-
ZE_IMAGE_FORMAT_TYPE_SINT
= 1¶ Signed integer.
-
ZE_IMAGE_FORMAT_TYPE_UNORM
= 2¶ Unsigned normalized integer.
-
ZE_IMAGE_FORMAT_TYPE_SNORM
= 3¶ Signed normalized integer.
-
ZE_IMAGE_FORMAT_TYPE_FLOAT
= 4¶ Float.
-
ZE_IMAGE_FORMAT_TYPE_FORCE_UINT32
= 0x7fffffff¶
-
ze_image_format_swizzle_t¶
-
enum
ze_image_format_swizzle_t
¶ Supported image format component swizzle into channel.
Values:
-
ZE_IMAGE_FORMAT_SWIZZLE_R
= 0¶ Red component.
-
ZE_IMAGE_FORMAT_SWIZZLE_G
= 1¶ Green component.
-
ZE_IMAGE_FORMAT_SWIZZLE_B
= 2¶ Blue component.
-
ZE_IMAGE_FORMAT_SWIZZLE_A
= 3¶ Alpha component.
-
ZE_IMAGE_FORMAT_SWIZZLE_0
= 4¶ Zero.
-
ZE_IMAGE_FORMAT_SWIZZLE_1
= 5¶ One.
-
ZE_IMAGE_FORMAT_SWIZZLE_X
= 6¶ Don’t care.
-
ZE_IMAGE_FORMAT_SWIZZLE_FORCE_UINT32
= 0x7fffffff¶
-
Image Structures¶
ze_image_format_t¶
-
struct
ze_image_format_t
¶ Image format.
Public Members
-
ze_image_format_layout_t
layout
¶ [in] image format component layout
-
ze_image_format_type_t
type
¶ [in] image format type. Media formats can’t be used for ZE_IMAGE_TYPE_BUFFER.
-
ze_image_format_swizzle_t
x
¶ [in] image component swizzle into channel x
-
ze_image_format_swizzle_t
y
¶ [in] image component swizzle into channel y
-
ze_image_format_swizzle_t
z
¶ [in] image component swizzle into channel z
-
ze_image_format_swizzle_t
w
¶ [in] image component swizzle into channel w
-
ze_image_format_layout_t
ze_image_desc_t¶
-
struct
ze_image_desc_t
¶ Image descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_image_flags_t
flags
¶ [in] creation flags. must be 0 (default) or a valid combination of ze_image_flag_t; default is read-only, cached access.
-
ze_image_type_t
type
¶ [in] image type
-
ze_image_format_t
format
¶ [in] image format
-
uint64_t
width
¶ [in] width dimension. ZE_IMAGE_TYPE_BUFFER: size in bytes; see ze_device_image_properties_t.maxImageBufferSize for limits. ZE_IMAGE_TYPE_1D, ZE_IMAGE_TYPE_1DARRAY: width in pixels; see ze_device_image_properties_t.maxImageDims1D for limits. ZE_IMAGE_TYPE_2D, ZE_IMAGE_TYPE_2DARRAY: width in pixels; see ze_device_image_properties_t.maxImageDims2D for limits. ZE_IMAGE_TYPE_3D: width in pixels; see ze_device_image_properties_t.maxImageDims3D for limits.
-
uint32_t
height
¶ [in] height dimension. ZE_IMAGE_TYPE_2D, ZE_IMAGE_TYPE_2DARRAY: height in pixels; see ze_device_image_properties_t.maxImageDims2D for limits. ZE_IMAGE_TYPE_3D: height in pixels; see ze_device_image_properties_t.maxImageDims3D for limits. other: ignored.
-
uint32_t
depth
¶ [in] depth dimension. ZE_IMAGE_TYPE_3D: depth in pixels; see ze_device_image_properties_t.maxImageDims3D for limits. other: ignored.
-
uint32_t
arraylevels
¶ [in] array levels. ZE_IMAGE_TYPE_1DARRAY, ZE_IMAGE_TYPE_2DARRAY: see ze_device_image_properties_t.maxImageArraySlices for limits. other: ignored.
-
uint32_t
miplevels
¶ [in] mipmap levels (must be 0)
-
ze_structure_type_t
ze_image_properties_t¶
-
struct
ze_image_properties_t
¶ Image properties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_image_sampler_filter_flags_t
samplerFilterFlags
¶ returns 0 (unsupported) or a combination of ze_image_sampler_filter_flag_t.
[out] supported sampler filtering.
-
ze_structure_type_t
Memory¶
Functions
Enumerations
Structures
Memory Functions¶
zeMemAllocDevice¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemAllocDevice
(ze_context_handle_t hContext, const ze_device_mem_alloc_desc_t *device_desc, size_t size, size_t alignment, ze_device_handle_t hDevice, void **pptr)¶ Allocates device memory on the context.
- Parameters
hContext
: [in] handle of the context objectdevice_desc
: [in] pointer to device memory allocation descriptorsize
: [in] size in bytes to allocate; must be less-than ze_device_properties_t.maxMemAllocSize.alignment
: [in] minimum alignment in bytes for the allocation; must be a power of two.hDevice
: [in] handle of the devicepptr
: [out] pointer to device allocation
Device allocations are owned by a specific device.
In general, a device allocation may only be accessed by the device that owns it.
The application must only use the memory allocation for the context and device, or its sub-devices, which was provided during allocation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == device_desc
nullptr == pptr
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x7 < device_desc->flags
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
ZE_RESULT_ERROR_UNSUPPORTED_ALIGNMENT
Must be zero or a power-of-two
0 != (alignment & (alignment - 1))
zeMemAllocHost¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemAllocHost
(ze_context_handle_t hContext, const ze_host_mem_alloc_desc_t *host_desc, size_t size, size_t alignment, void **pptr)¶ Allocates host memory on the context.
- Parameters
hContext
: [in] handle of the context objecthost_desc
: [in] pointer to host memory allocation descriptorsize
: [in] size in bytes to allocate; must be less-than ze_device_properties_t.maxMemAllocSize.alignment
: [in] minimum alignment in bytes for the allocation; must be a power of two.pptr
: [out] pointer to host allocation
Host allocations are owned by the host process.
Host allocations are accessible by the host and all devices within the driver’s context.
Host allocations are frequently used as staging areas to transfer data to or from devices.
The application must only use the memory allocation for the context which was provided during allocation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == host_desc
nullptr == pptr
ZE_RESULT_ERROR_INVALID_ENUMERATION
0xf < host_desc->flags
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
ZE_RESULT_ERROR_UNSUPPORTED_ALIGNMENT
Must be zero or a power-of-two
0 != (alignment & (alignment - 1))
zeMemFree¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemFree
(ze_context_handle_t hContext, void *ptr)¶ Frees allocated host memory, device memory, or shared memory on the context.
- Parameters
hContext
: [in] handle of the context objectptr
: [in][release] pointer to memory to free
The application must ensure the device is not currently referencing the memory before it is freed
The implementation of this function may immediately free all Host and Device allocations associated with this memory
The application must not call this function from simultaneous threads with the same pointer.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
zeMemGetAllocProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemGetAllocProperties
(ze_context_handle_t hContext, const void *ptr, ze_memory_allocation_properties_t *pMemAllocProperties, ze_device_handle_t *phDevice)¶ Retrieves attributes of a memory allocation.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] memory pointer to querypMemAllocProperties
: [in,out] query result for memory allocation propertiesphDevice
: [out][optional] device associated with this allocation
The application may call this function from simultaneous threads.
The application may query attributes of a memory allocation unrelated to the context. When this occurs, the returned allocation type will be ZE_MEMORY_TYPE_UNKNOWN, and the returned identifier and associated device is unspecified.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
nullptr == pMemAllocProperties
zeMemGetAddressRange¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemGetAddressRange
(ze_context_handle_t hContext, const void *ptr, void **pBase, size_t *pSize)¶ Retrieves the base address and/or size of an allocation.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] memory pointer to querypBase
: [in,out][optional] base address of the allocationpSize
: [in,out][optional] size of the allocation
The application may call this function from simultaneous threads.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
zeMemGetIpcHandle¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemGetIpcHandle
(ze_context_handle_t hContext, const void *ptr, ze_ipc_mem_handle_t *pIpcHandle)¶ Creates an IPC memory handle for the specified allocation.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] pointer to the device memory allocationpIpcHandle
: [out] Returned IPC memory handle
Takes a pointer to a device memory allocation and creates an IPC memory handle for exporting it for use in another process.
The pointer must be base pointer of the device memory allocation; i.e. the value returned from zeMemAllocDevice.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
nullptr == pIpcHandle
zeMemOpenIpcHandle¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemOpenIpcHandle
(ze_context_handle_t hContext, ze_device_handle_t hDevice, ze_ipc_mem_handle_t handle, ze_ipc_memory_flags_t flags, void **pptr)¶ Opens an IPC memory handle to retrieve a device pointer on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the device to associate with the IPC memory handlehandle
: [in] IPC memory handleflags
: [in] flags controlling the operation. must be 0 (default) or a valid combination of ze_ipc_memory_flag_t.pptr
: [out] pointer to device allocation in this process
Takes an IPC memory handle from a remote process and associates it with a device pointer usable in this process.
The device pointer in this process should not be freed with zeMemFree, but rather with zeMemCloseIpcHandle.
Multiple calls to this function with the same IPC handle will return unique pointers.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x3 < flags
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pptr
zeMemCloseIpcHandle¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeMemCloseIpcHandle
(ze_context_handle_t hContext, const void *ptr)¶ Closes an IPC memory handle.
- Parameters
hContext
: [in] handle of the context objectptr
: [in][release] pointer to device allocation in this process
Closes an IPC memory handle by unmapping memory that was opened in this process using zeMemOpenIpcHandle.
The application must not call this function from simultaneous threads with the same pointer.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
Memory Enums¶
ze_device_mem_alloc_flags_t¶
-
enum
ze_device_mem_alloc_flag_t
¶ Values:
-
ZE_DEVICE_MEM_ALLOC_FLAG_BIAS_CACHED
= ZE_BIT(0)¶ device should cache allocation
-
ZE_DEVICE_MEM_ALLOC_FLAG_BIAS_UNCACHED
= ZE_BIT(1)¶ device should not cache allocation (UC)
-
ZE_DEVICE_MEM_ALLOC_FLAG_BIAS_INITIAL_PLACEMENT
= ZE_BIT(2)¶ optimize shared allocation for first access on the device
-
ZE_DEVICE_MEM_ALLOC_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_host_mem_alloc_flags_t¶
-
enum
ze_host_mem_alloc_flag_t
¶ Values:
-
ZE_HOST_MEM_ALLOC_FLAG_BIAS_CACHED
= ZE_BIT(0)¶ host should cache allocation
-
ZE_HOST_MEM_ALLOC_FLAG_BIAS_UNCACHED
= ZE_BIT(1)¶ host should not cache allocation (UC)
-
ZE_HOST_MEM_ALLOC_FLAG_BIAS_WRITE_COMBINED
= ZE_BIT(2)¶ host memory should be allocated write-combined (WC)
-
ZE_HOST_MEM_ALLOC_FLAG_BIAS_INITIAL_PLACEMENT
= ZE_BIT(3)¶ optimize shared allocation for first access on the host
-
ZE_HOST_MEM_ALLOC_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_memory_type_t¶
-
enum
ze_memory_type_t
¶ Memory allocation type.
Values:
-
ZE_MEMORY_TYPE_UNKNOWN
= 0¶ the memory pointed to is of unknown type
-
ZE_MEMORY_TYPE_HOST
= 1¶ the memory pointed to is a host allocation
-
ZE_MEMORY_TYPE_DEVICE
= 2¶ the memory pointed to is a device allocation
-
ZE_MEMORY_TYPE_SHARED
= 3¶ the memory pointed to is a shared ownership allocation
-
ZE_MEMORY_TYPE_FORCE_UINT32
= 0x7fffffff¶
-
Memory Structures¶
ze_device_mem_alloc_desc_t¶
-
struct
ze_device_mem_alloc_desc_t
¶ Device memory allocation descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_device_mem_alloc_flags_t
flags
¶ [in] flags specifying additional allocation controls. must be 0 (default) or a valid combination of ze_device_mem_alloc_flag_t; default behavior may use implicit driver-based heuristics.
-
uint32_t
ordinal
¶ [in] ordinal of the device’s local memory to allocate from. must be less than the count returned from zeDeviceGetMemoryProperties.
-
ze_structure_type_t
ze_host_mem_alloc_desc_t¶
-
struct
ze_host_mem_alloc_desc_t
¶ Host memory allocation descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_host_mem_alloc_flags_t
flags
¶ [in] flags specifying additional allocation controls. must be 0 (default) or a valid combination of ze_host_mem_alloc_flag_t; default behavior may use implicit driver-based heuristics.
-
ze_structure_type_t
ze_memory_allocation_properties_t¶
-
struct
ze_memory_allocation_properties_t
¶ Memory allocation properties queried using zeMemGetAllocProperties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_memory_type_t
type
¶ [out] type of allocated memory
-
uint64_t
id
¶ [out] identifier for this allocation
-
uint64_t
pageSize
¶ [out] page size used for allocation
-
ze_structure_type_t
ze_external_memory_export_desc_t¶
-
struct
ze_external_memory_export_desc_t
¶ Additional allocation descriptor for exporting external memory.
This structure may be passed to zeMemAllocDevice, via the
pNext
member of ze_device_mem_alloc_desc_t, to indicate an exportable memory allocation.This structure may be passed to zeImageCreate, via the
pNext
member of ze_image_desc_t, to indicate an exportable image.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_external_memory_type_flags_t
flags
¶ [in] flags specifying memory export types for this allocation. must be 0 (default) or a valid combination of ze_external_memory_type_flags_t
ze_external_memory_import_fd_t¶
-
struct
ze_external_memory_import_fd_t
¶ Additional allocation descriptor for importing external memory as a file descriptor.
This structure may be passed to zeMemAllocDevice, via the
pNext
member of ze_device_mem_alloc_desc_t, to import memory from a file descriptor.This structure may be passed to zeImageCreate, via the
pNext
member of ze_image_desc_t, to import memory from a file descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_external_memory_type_flags_t
flags
¶ [in] flags specifying the memory import type for the file descriptor. must be 0 (default) or a valid combination of ze_external_memory_type_flags_t
-
int
fd
¶ [in] the file descriptor handle to import
ze_external_memory_export_fd_t¶
-
struct
ze_external_memory_export_fd_t
¶ Exports an allocation as a file descriptor.
This structure may be passed to zeMemGetAllocProperties, via the
pNext
member of ze_memory_allocation_properties_t, to export a memory allocation as a file descriptor.This structure may be passed to zeImageGetProperties, via the
pNext
member of ze_image_properties_t, to export an image as a file descriptor.The requested memory export type must have been specified when the allocation was made.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_external_memory_type_flags_t
flags
¶ [in] flags specifying the memory export type for the file descriptor. must be 0 (default) or a valid combination of ze_external_memory_type_flags_t
-
int
fd
¶ [out] the exported file descriptor handle representing the allocation.
ze_external_memory_import_win32_handle_t¶
-
struct
ze_external_memory_import_win32_handle_t
¶ Additional allocation descriptor for importing external memory as a Win32 handle.
When
handle
isnullptr
,name
must not benullptr
.When
name
isnullptr
,handle
must not benullptr
.When
flags
is ZE_EXTERNAL_MEMORY_TYPE_FLAG_OPAQUE_WIN32_KMT,name
must benullptr
.This structure may be passed to zeMemAllocDevice, via the
pNext
member of ze_device_mem_alloc_desc_t, to import memory from a Win32 handle.This structure may be passed to zeImageCreate, via the
pNext
member of ze_image_desc_t, to import memory from a Win32 handle.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_external_memory_type_flags_t
flags
¶ [in] flags specifying the memory import type for the Win32 handle. must be 0 (default) or a valid combination of ze_external_memory_type_flags_t
-
void *
handle
¶ [in][optional] the Win32 handle to import
-
const void *
name
¶ [in][optional] name of a memory object to import
ze_external_memory_export_win32_handle_t¶
-
struct
ze_external_memory_export_win32_handle_t
¶ Exports an allocation as a Win32 handle.
This structure may be passed to zeMemGetAllocProperties, via the
pNext
member of ze_memory_allocation_properties_t, to export a memory allocation as a file descriptor.This structure may be passed to zeImageGetProperties, via the
pNext
member of ze_image_properties_t, to export an image as a file descriptor.The requested memory export type must have been specified when the allocation was made.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_external_memory_type_flags_t
flags
¶ [in] flags specifying the memory export type for the file descriptor. must be 0 (default) or a valid combination of ze_external_memory_type_flags_t
-
void *
handle
¶ [out] the exported Win32 handle representing the allocation.
Module¶
Functions
Enumerations
Structures
Module Functions¶
zeModuleCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleCreate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_module_desc_t *desc, ze_module_handle_t *phModule, ze_module_build_log_handle_t *phBuildLog)¶ Creates a module on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the devicedesc
: [in] pointer to module descriptorphModule
: [out] pointer to handle of module object createdphBuildLog
: [out][optional] pointer to handle of module’s build log.
Compiles the module for execution on the device.
The application must only use the module for the device, or its sub-devices, which was provided during creation.
The module can be copied to other devices and contexts within the same driver instance by using zeModuleGetNativeBinary.
A build log can optionally be returned to the caller. The caller is responsible for destroying build log using zeModuleBuildLogDestroy.
The module descriptor constants are only supported for SPIR-V specialization constants.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == desc->pInputModule
nullptr == phModule
ZE_RESULT_ERROR_INVALID_ENUMERATION
ZE_MODULE_FORMAT_NATIVE < desc->format
0 == desc->inputSize
zeModuleDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleDestroy
(ze_module_handle_t hModule)¶ Destroys module.
- Parameters
hModule
: [in][release] handle of the module
The application must destroy all kernel and build log handles created from the module before destroying the module itself.
The application must ensure the device is not currently referencing the module before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this module.
The application must not call this function from simultaneous threads with the same module handle.
The implementation of this function must be thread-safe.
zeModuleDynamicLink¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleDynamicLink
(uint32_t numModules, ze_module_handle_t *phModules, ze_module_build_log_handle_t *phLinkLog)¶ Dynamically link modules together that share import/export linkage dependencies.
- Parameters
numModules
: [in] number of modules to be linked pointed to by phModules.phModules
: [in][range(0, numModules)] pointer to an array of modules to dynamically link together.phLinkLog
: [out][optional] pointer to handle of dynamic link log.
Modules support import and export linkage for functions and global variables.
Modules that have imports can be dynamically linked to export modules that satisfy those import requirements.
Modules can have both import and export linkages.
Modules that do not have any imports or exports do not need to be linked.
Modules cannot be partially linked. All modules needed to satisfy all import dependencies for a module must be passed in or ZE_RESULT_ERROR_MODULE_LINK_FAILURE will returned.
Modules with imports need to be linked before kernel objects can be created from them.
Modules will only be linked once. A module can be used in multiple link calls if it has exports but it’s imports will not be re-linked.
Ambiguous dependencies, where multiple modules satisfy the import dependencies for another module, is not allowed.
ModuleGetNativeBinary can be called on any module regardless of whether it is linked or not.
A link log can optionally be returned to the caller. The caller is responsible for destroying build log using zeModuleBuildLogDestroy.
SPIR-V import and export linkage types are used. See SPIR-V specification for linkage details.
The application must ensure the modules being linked were created on the same context.
The application may call this function from simultaneous threads as long as the import modules being linked are not the same.
The implementation of this function should be lock-free.
zeModuleBuildLogDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleBuildLogDestroy
(ze_module_build_log_handle_t hModuleBuildLog)¶ Destroys module build log object.
- Parameters
hModuleBuildLog
: [in][release] handle of the module build log object.
The implementation of this function may immediately free all Host allocations associated with this object.
The application must not call this function from simultaneous threads with the same build log handle.
The implementation of this function should be lock-free.
This function can be called before or after zeModuleDestroy for the associated module.
- Return
zeModuleBuildLogGetString¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleBuildLogGetString
(ze_module_build_log_handle_t hModuleBuildLog, size_t *pSize, char *pBuildLog)¶ Retrieves text string for build log.
- Parameters
hModuleBuildLog
: [in] handle of the module build log object.pSize
: [in,out] size of build log string.pBuildLog
: [in,out][optional] pointer to null-terminated string of the log.
The caller can pass nullptr for pBuildLog when querying only for size.
The caller must provide memory for build log.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModuleBuildLog
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pSize
zeModuleGetNativeBinary¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleGetNativeBinary
(ze_module_handle_t hModule, size_t *pSize, uint8_t *pModuleNativeBinary)¶ Retrieve native binary from Module.
- Parameters
hModule
: [in] handle of the modulepSize
: [in,out] size of native binary in bytes.pModuleNativeBinary
: [in,out][optional] byte pointer to native binary
The native binary output can be cached to disk and new modules can be later constructed from the cached copy.
The native binary will retain debugging information that is associated with a module.
The caller can pass nullptr for pModuleNativeBinary when querying only for size.
The implementation will copy the native binary into a buffer supplied by the caller.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModule
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pSize
zeModuleGetGlobalPointer¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleGetGlobalPointer
(ze_module_handle_t hModule, const char *pGlobalName, size_t *pSize, void **pptr)¶ Retrieve global variable pointer from Module.
- Parameters
hModule
: [in] handle of the modulepGlobalName
: [in] name of global variable in modulepSize
: [in,out][optional] size of global variablepptr
: [in,out][optional] device visible pointer
The application may query global pointer from any module that either exports or imports it.
The application must dynamically link a module that imports a global before the global pointer can be queried from it.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModule
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pGlobalName
zeModuleGetKernelNames¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleGetKernelNames
(ze_module_handle_t hModule, uint32_t *pCount, const char **pNames)¶ Retrieve all kernel names in the module.
- Parameters
hModule
: [in] handle of the modulepCount
: [in,out] pointer to the number of names. if count is zero, then the driver shall update the value with the total number of names available. if count is greater than the number of names available, then the driver shall update the value with the correct number of names available.pNames
: [in,out][optional][range(0, *pCount)] array of names of functions. if count is less than the number of names available, then driver shall only retrieve that number of names.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModule
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
zeModuleGetProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleGetProperties
(ze_module_handle_t hModule, ze_module_properties_t *pModuleProperties)¶ Retrieve module properties.
- Parameters
hModule
: [in] handle of the modulepModuleProperties
: [in,out] query result for module properties.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModule
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pModuleProperties
zeKernelCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelCreate
(ze_module_handle_t hModule, const ze_kernel_desc_t *desc, ze_kernel_handle_t *phKernel)¶ Create a kernel from the module.
- Parameters
hModule
: [in] handle of the moduledesc
: [in] pointer to kernel descriptorphKernel
: [out] handle of the Function object
Modules that have unresolved imports need to be dynamically linked before a kernel can be created from them. (See zeModuleDynamicLink)
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModule
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == desc->pKernelName
nullptr == phKernel
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x3 < desc->flags
zeKernelDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelDestroy
(ze_kernel_handle_t hKernel)¶ Destroys a kernel object.
- Parameters
hKernel
: [in][release] handle of the kernel object
The application must ensure the device is not currently referencing the kernel before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this kernel.
The application must not call this function from simultaneous threads with the same kernel handle.
The implementation of this function must be thread-safe.
zeModuleGetFunctionPointer¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeModuleGetFunctionPointer
(ze_module_handle_t hModule, const char *pFunctionName, void **pfnFunction)¶ Retrieve a function pointer from a module by name.
- Parameters
hModule
: [in] handle of the modulepFunctionName
: [in] Name of function to retrieve function pointer for.pfnFunction
: [out] pointer to function.
The function pointer is unique for the device on which the module was created.
The function pointer is no longer valid if module is destroyed.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hModule
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pFunctionName
nullptr == pfnFunction
zeKernelSetGroupSize¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSetGroupSize
(ze_kernel_handle_t hKernel, uint32_t groupSizeX, uint32_t groupSizeY, uint32_t groupSizeZ)¶ Set group size for a kernel.
- Parameters
hKernel
: [in] handle of the kernel objectgroupSizeX
: [in] group size for X dimension to use for this kernelgroupSizeY
: [in] group size for Y dimension to use for this kernelgroupSizeZ
: [in] group size for Z dimension to use for this kernel
The group size will be used when a zeCommandListAppendLaunchKernel variant is called.
The application must not call this function from simultaneous threads with the same kernel handle.
The implementation of this function should be lock-free.
zeKernelSuggestGroupSize¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSuggestGroupSize
(ze_kernel_handle_t hKernel, uint32_t globalSizeX, uint32_t globalSizeY, uint32_t globalSizeZ, uint32_t *groupSizeX, uint32_t *groupSizeY, uint32_t *groupSizeZ)¶ Query a suggested group size for a kernel given a global size for each dimension.
- Parameters
hKernel
: [in] handle of the kernel objectglobalSizeX
: [in] global width for X dimensionglobalSizeY
: [in] global width for Y dimensionglobalSizeZ
: [in] global width for Z dimensiongroupSizeX
: [out] recommended size of group for X dimensiongroupSizeY
: [out] recommended size of group for Y dimensiongroupSizeZ
: [out] recommended size of group for Z dimension
This function ignores the group size that is set using zeKernelSetGroupSize.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == groupSizeX
nullptr == groupSizeY
nullptr == groupSizeZ
zeKernelSuggestMaxCooperativeGroupCount¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSuggestMaxCooperativeGroupCount
(ze_kernel_handle_t hKernel, uint32_t *totalGroupCount)¶ Query a suggested max group count for a cooperative kernel.
- Parameters
hKernel
: [in] handle of the kernel objecttotalGroupCount
: [out] recommended total group count.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == totalGroupCount
zeKernelSetArgumentValue¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSetArgumentValue
(ze_kernel_handle_t hKernel, uint32_t argIndex, size_t argSize, const void *pArgValue)¶ Set kernel argument for a kernel.
- Parameters
hKernel
: [in] handle of the kernel objectargIndex
: [in] argument index in range [0, num args - 1]argSize
: [in] size of argument typepArgValue
: [in][optional] argument value represented as matching arg type. If null then argument value is considered null.
The argument values will be used when a zeCommandListAppendLaunchKernel variant is called.
The application must not call this function from simultaneous threads with the same kernel handle.
The implementation of this function should be lock-free.
zeKernelSetIndirectAccess¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSetIndirectAccess
(ze_kernel_handle_t hKernel, ze_kernel_indirect_access_flags_t flags)¶ Sets kernel indirect access flags.
- Parameters
hKernel
: [in] handle of the kernel objectflags
: [in] kernel indirect access flags
The application should specify which allocations will be indirectly accessed by the kernel to allow driver to optimize which allocations are made resident
This function may not be called from simultaneous threads with the same Kernel handle.
The implementation of this function should be lock-free.
- Return
zeKernelGetIndirectAccess¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelGetIndirectAccess
(ze_kernel_handle_t hKernel, ze_kernel_indirect_access_flags_t *pFlags)¶ Retrieve kernel indirect access flags.
- Parameters
hKernel
: [in] handle of the kernel objectpFlags
: [out] query result for kernel indirect access flags.
This function may be called from simultaneous threads with the same Kernel handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pFlags
zeKernelGetSourceAttributes¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelGetSourceAttributes
(ze_kernel_handle_t hKernel, uint32_t *pSize, char **pString)¶ Retrieve all declared kernel attributes (i.e. can be specified with attribute in runtime language).
- Parameters
hKernel
: [in] handle of the kernel objectpSize
: [in,out] pointer to size of string in bytes.pString
: [in,out] pointer to null-terminated string, whose lifetime is tied to the kernel object, where kernel source attributes are separated by space.
This function may be called from simultaneous threads with the same Kernel handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pSize
nullptr == pString
zeKernelSetCacheConfig¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSetCacheConfig
(ze_kernel_handle_t hKernel, ze_cache_config_flags_t flags)¶ Sets the preferred cache configuration.
- Parameters
hKernel
: [in] handle of the kernel objectflags
: [in] cache configuration. must be 0 (default configuration) or a valid combination of ze_cache_config_flag_t.
The cache configuration will be used when a zeCommandListAppendLaunchKernel variant is called.
The application must not call this function from simultaneous threads with the same kernel handle.
The implementation of this function should be lock-free.
zeKernelGetProperties¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelGetProperties
(ze_kernel_handle_t hKernel, ze_kernel_properties_t *pKernelProperties)¶ Retrieve kernel properties.
- Parameters
hKernel
: [in] handle of the kernel objectpKernelProperties
: [in,out] query result for kernel properties.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pKernelProperties
zeKernelGetName¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelGetName
(ze_kernel_handle_t hKernel, size_t *pSize, char *pName)¶ Retrieve kernel name from Kernel.
- Parameters
hKernel
: [in] handle of the kernel objectpSize
: [in,out] size of kernel name string, including null terminator, in bytes.pName
: [in,out][optional] char pointer to kernel name.
The caller can pass nullptr for pName when querying only for size.
The implementation will copy the kernel name into a buffer supplied by the caller.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pSize
zeCommandListAppendLaunchKernel¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendLaunchKernel
(ze_command_list_handle_t hCommandList, ze_kernel_handle_t hKernel, const ze_group_count_t *pLaunchFuncArgs, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Launch kernel over one or more work groups.
- Parameters
hCommandList
: [in] handle of the command listhKernel
: [in] handle of the kernel objectpLaunchFuncArgs
: [in] thread group launch argumentshSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the kernel and events are accessible by the device on which the command list was created.
This may only be called for a command list created with command queue group ordinal that supports compute.
The application must ensure the command list, kernel and events were created on the same context.
This function may not be called from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pLaunchFuncArgs
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendLaunchCooperativeKernel¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendLaunchCooperativeKernel
(ze_command_list_handle_t hCommandList, ze_kernel_handle_t hKernel, const ze_group_count_t *pLaunchFuncArgs, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Launch kernel cooperatively over one or more work groups.
- Parameters
hCommandList
: [in] handle of the command listhKernel
: [in] handle of the kernel objectpLaunchFuncArgs
: [in] thread group launch argumentshSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the kernel and events are accessible by the device on which the command list was created.
This may only be called for a command list created with command queue group ordinal that supports compute.
This may only be used for a command list that are submitted to command queue with cooperative flag set.
The application must ensure the command list, kernel and events were created on the same context.
This function may not be called from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
Use zeKernelSuggestMaxCooperativeGroupCount to recommend max group count for device for cooperative functions that device supports.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pLaunchFuncArgs
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendLaunchKernelIndirect¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendLaunchKernelIndirect
(ze_command_list_handle_t hCommandList, ze_kernel_handle_t hKernel, const ze_group_count_t *pLaunchArgumentsBuffer, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Launch kernel over one or more work groups using indirect arguments.
- Parameters
hCommandList
: [in] handle of the command listhKernel
: [in] handle of the kernel objectpLaunchArgumentsBuffer
: [in] pointer to device buffer that will contain thread group launch argumentshSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the kernel and events are accessible by the device on which the command list was created.
The application must ensure the launch arguments are visible to the device on which the command list was created.
The implementation must not access the contents of the launch arguments as they are free to be modified by either the Host or device up until execution.
This may only be called for a command list created with command queue group ordinal that supports compute.
The application must ensure the command list, kernel and events were created, and the memory was allocated, on the same context.
This function may not be called from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pLaunchArgumentsBuffer
(nullptr == phWaitEvents) && (0 < numWaitEvents)
zeCommandListAppendLaunchMultipleKernelsIndirect¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeCommandListAppendLaunchMultipleKernelsIndirect
(ze_command_list_handle_t hCommandList, uint32_t numKernels, ze_kernel_handle_t *phKernels, const uint32_t *pCountBuffer, const ze_group_count_t *pLaunchArgumentsBuffer, ze_event_handle_t hSignalEvent, uint32_t numWaitEvents, ze_event_handle_t *phWaitEvents)¶ Launch multiple kernels over one or more work groups using an array of indirect arguments.
- Parameters
hCommandList
: [in] handle of the command listnumKernels
: [in] maximum number of kernels to launchphKernels
: [in][range(0, numKernels)] handles of the kernel objectspCountBuffer
: [in] pointer to device memory location that will contain the actual number of kernels to launch; value must be less-than or equal-to numKernelspLaunchArgumentsBuffer
: [in][range(0, numKernels)] pointer to device buffer that will contain a contiguous array of thread group launch argumentshSignalEvent
: [in][optional] handle of the event to signal on completionnumWaitEvents
: [in][optional] number of events to wait on before launching; must be 0 if `nullptr == phWaitEvents`phWaitEvents
: [in][optional][range(0, numWaitEvents)] handle of the events to wait on before launching
The application must ensure the kernel and events are accessible by the device on which the command list was created.
The application must ensure the array of launch arguments and count buffer are visible to the device on which the command list was created.
The implementation must not access the contents of the array of launch arguments or count buffer as they are free to be modified by either the Host or device up until execution.
This may only be called for a command list created with command queue group ordinal that supports compute.
The application must enusre the command list, kernel and events were created, and the memory was allocated, on the same context.
This function may not be called from simultaneous threads with the same command list handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hCommandList
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == phKernels
nullptr == pCountBuffer
nullptr == pLaunchArgumentsBuffer
(nullptr == phWaitEvents) && (0 < numWaitEvents)
Module Enums¶
ze_module_format_t¶
ze_module_property_flags_t¶
-
enum
ze_module_property_flag_t
¶ Values:
-
ZE_MODULE_PROPERTY_FLAG_IMPORTS
= ZE_BIT(0)¶ Module has imports (i.e. imported global variables and/or kernels). See zeModuleDynamicLink.
-
ZE_MODULE_PROPERTY_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_kernel_flags_t¶
-
enum
ze_kernel_flag_t
¶ Values:
-
ZE_KERNEL_FLAG_FORCE_RESIDENCY
= ZE_BIT(0)¶ force all device allocations to be resident during execution
-
ZE_KERNEL_FLAG_EXPLICIT_RESIDENCY
= ZE_BIT(1)¶ application is responsible for all residency of device allocations. driver may disable implicit residency management.
-
ZE_KERNEL_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
ze_kernel_indirect_access_flags_t¶
-
enum
ze_kernel_indirect_access_flag_t
¶ Values:
-
ZE_KERNEL_INDIRECT_ACCESS_FLAG_HOST
= ZE_BIT(0)¶ Indicates that the kernel accesses host allocations indirectly.
-
ZE_KERNEL_INDIRECT_ACCESS_FLAG_DEVICE
= ZE_BIT(1)¶ Indicates that the kernel accesses device allocations indirectly.
-
ZE_KERNEL_INDIRECT_ACCESS_FLAG_SHARED
= ZE_BIT(2)¶ Indicates that the kernel accesses shared allocations indirectly.
-
ZE_KERNEL_INDIRECT_ACCESS_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Module Structures¶
ze_module_constants_t¶
-
struct
ze_module_constants_t
¶ Specialization constants - User defined constants.
ze_module_desc_t¶
-
struct
ze_module_desc_t
¶ Module descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_module_format_t
format
¶ [in] Module format passed in with pInputModule
-
size_t
inputSize
¶ [in] size of input IL or ISA from pInputModule.
-
const uint8_t *
pInputModule
¶ [in] pointer to IL or ISA
-
const char *
pBuildFlags
¶ [in][optional] string containing compiler flags. Following options are supported.
”-ze-opt-disable”
Disable optimizations
”-ze-opt-level”
Specifies optimization level for compiler. Levels are implementation specific.
0 is no optimizations (equivalent to -ze-opt-disable)
1 is optimize minimally (may be the same as 2)
2 is optimize more (default)
”-ze-opt-greater-than-4GB-buffer-required”
Use 64-bit offset calculations for buffers.
”-ze-opt-large-register-file”
Increase number of registers available to threads.
”-ze-opt-has-buffer-offset-arg”
Extend stateless to stateful optimization to more cases with the use of additional offset (e.g. 64-bit pointer to binding table with 32-bit offset).
”-g”
Include debugging information.
-
const ze_module_constants_t *
pConstants
¶ [in][optional] pointer to specialization constants. Valid only for SPIR-V input. This must be set to nullptr if no specialization constants are provided.
-
ze_structure_type_t
ze_module_properties_t¶
-
struct
ze_module_properties_t
¶ Module properties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_module_property_flags_t
flags
¶ [out] 0 (none) or a valid combination of ze_module_property_flag_t
-
ze_structure_type_t
ze_kernel_desc_t¶
-
struct
ze_kernel_desc_t
¶ Kernel descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_kernel_flags_t
flags
¶ [in] creation flags. must be 0 (default) or a valid combination of ze_kernel_flag_t; default behavior may use driver-based residency.
-
const char *
pKernelName
¶ [in] null-terminated name of kernel in module
-
ze_structure_type_t
ze_kernel_properties_t¶
-
struct
ze_kernel_properties_t
¶ Kernel properties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
uint32_t
numKernelArgs
¶ [out] number of kernel arguments.
-
uint32_t
requiredGroupSizeX
¶ [out] required group size in the X dimension, or zero if there is no required group size
-
uint32_t
requiredGroupSizeY
¶ [out] required group size in the Y dimension, or zero if there is no required group size
-
uint32_t
requiredGroupSizeZ
¶ [out] required group size in the Z dimension, or zero if there is no required group size
-
uint32_t
requiredNumSubGroups
¶ [out] required number of subgroups per thread group, or zero if there is no required number of subgroups
-
uint32_t
requiredSubgroupSize
¶ [out] required subgroup size, or zero if there is no required subgroup size
-
uint32_t
maxSubgroupSize
¶ [out] maximum subgroup size
-
uint32_t
maxNumSubgroups
¶ [out] maximum number of subgroups per thread group
-
uint32_t
localMemSize
¶ [out] local memory size used by each thread group
-
uint32_t
privateMemSize
¶ [out] private memory size allocated by compiler used by each thread
-
uint32_t
spillMemSize
¶ [out] spill memory size allocated by compiler
-
ze_kernel_uuid_t
uuid
¶ [out] universal unique identifier.
-
ze_structure_type_t
ze_kernel_preferred_group_size_properties_t¶
-
struct
ze_kernel_preferred_group_size_properties_t
¶ Additional kernel preferred group size properties.
This structure may be passed to zeKernelGetProperties, via the
pNext
member of ze_kernel_properties_t, to query additional kernel preferred group size properties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
uint32_t
preferredMultiple
¶ [out] preferred group size multiple
Program¶
Enumerations
Structures
Program Structures¶
ze_module_program_exp_desc_t¶
-
struct
ze_module_program_exp_desc_t
¶ Module extended descriptor to support multiple input modules.
Implementation must support ::ZE_experimental_module_program extension
Modules support import and export linkage for functions and global variables.
SPIR-V import and export linkage types are used. See SPIR-V specification for linkage details.
pInputModules, pBuildFlags, and pConstants from ze_module_desc_t is ignored.
Format in ze_module_desc_t needs to be set to ZE_MODULE_FORMAT_IL_SPIRV.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
uint32_t
count
¶ [in] Count of input modules
-
const size_t *
inputSizes
¶ [in][range(0, count)] sizes of each input IL module in pInputModules.
-
const uint8_t **
pInputModules
¶ [in][range(0, count)] pointer to an array of IL (e.g. SPIR-V modules). Valid only for SPIR-V input.
-
const char **
pBuildFlags
¶ [in][optional][range(0, count)] array of strings containing build flags. See pBuildFlags in ze_module_desc_t.
-
const ze_module_constants_t **
pConstants
¶ [in][optional][range(0, count)] pointer to array of specialization constant strings. Valid only for SPIR-V input. This must be set to nullptr if no specialization constants are provided.
Raytracing¶
Enumerations
Structures
Raytracing Structures¶
ze_device_raytracing_ext_properties_t¶
-
struct
ze_device_raytracing_ext_properties_t
¶ Raytracing properties queried using zeDeviceGetModuleProperties.
This structure may be returned from zeDeviceGetModuleProperties, via
pNext
member of ze_device_module_properties_t.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_device_raytracing_ext_flags_t
flags
¶ [out] 0 or a valid combination of ze_device_raytracing_ext_flags_t
-
uint32_t
maxBVHLevels
¶ [out] Maximum number of BVH levels supported
ze_raytracing_mem_alloc_ext_desc_t¶
-
struct
ze_raytracing_mem_alloc_ext_desc_t
¶ Raytracing memory allocation descriptor.
This structure must be passed to zeMemAllocShared or zeMemAllocDevice, via
pNext
member of ze_device_mem_alloc_desc_t, for any memory allocation that is to be accessed by raytracing fixed-function of the device.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_raytracing_mem_alloc_ext_flags_t
flags
¶ [in] flags specifying additional allocation controls. must be 0 (default) or a valid combination of ze_raytracing_mem_alloc_ext_flag_t; default behavior may use implicit driver-based heuristics.
Residency¶
Functions
Residency Functions¶
zeContextMakeMemoryResident¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextMakeMemoryResident
(ze_context_handle_t hContext, ze_device_handle_t hDevice, void *ptr, size_t size)¶ Makes memory resident for the device.
- Parameters
hContext
: [in] handle of context objecthDevice
: [in] handle of the deviceptr
: [in] pointer to memory to make residentsize
: [in] size in bytes to make resident
The application must ensure the memory is resident before being referenced by the device
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
zeContextEvictMemory¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextEvictMemory
(ze_context_handle_t hContext, ze_device_handle_t hDevice, void *ptr, size_t size)¶ Allows memory to be evicted from the device.
- Parameters
hContext
: [in] handle of context objecthDevice
: [in] handle of the deviceptr
: [in] pointer to memory to evictsize
: [in] size in bytes to evict
The application must ensure the device is not currently referencing the memory before it is evicted
The application may free the memory without evicting; the memory is implicitly evicted when freed.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
zeContextMakeImageResident¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextMakeImageResident
(ze_context_handle_t hContext, ze_device_handle_t hDevice, ze_image_handle_t hImage)¶ Makes image resident for the device.
- Parameters
hContext
: [in] handle of context objecthDevice
: [in] handle of the devicehImage
: [in] handle of image to make resident
The application must ensure the image is resident before being referenced by the device
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
nullptr == hImage
zeContextEvictImage¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeContextEvictImage
(ze_context_handle_t hContext, ze_device_handle_t hDevice, ze_image_handle_t hImage)¶ Allows image to be evicted from the device.
- Parameters
hContext
: [in] handle of context objecthDevice
: [in] handle of the devicehImage
: [in] handle of image to make evict
The application must ensure the device is not currently referencing the image before it is evicted
The application may destroy the image without evicting; the image is implicitly evicted when destroyed.
The application may call this function from simultaneous threads.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
nullptr == hImage
Sampler¶
Functions
Enumerations
Structures
Sampler Functions¶
zeSamplerCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeSamplerCreate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_sampler_desc_t *desc, ze_sampler_handle_t *phSampler)¶ Creates sampler on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the devicedesc
: [in] pointer to sampler descriptorphSampler
: [out] handle of the sampler
The application must only use the sampler for the device, or its sub-devices, which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phSampler
ZE_RESULT_ERROR_INVALID_ENUMERATION
ZE_SAMPLER_ADDRESS_MODE_MIRROR < desc->addressMode
ZE_SAMPLER_FILTER_MODE_LINEAR < desc->filterMode
zeSamplerDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeSamplerDestroy
(ze_sampler_handle_t hSampler)¶ Destroys sampler object.
- Parameters
hSampler
: [in][release] handle of the sampler
The application must ensure the device is not currently referencing the sampler before it is deleted.
The implementation of this function may immediately free all Host and Device allocations associated with this sampler.
The application must not call this function from simultaneous threads with the same sampler handle.
The implementation of this function must be thread-safe.
Sampler Enums¶
ze_sampler_address_mode_t¶
-
enum
ze_sampler_address_mode_t
¶ Sampler addressing modes.
Values:
-
ZE_SAMPLER_ADDRESS_MODE_NONE
= 0¶ No coordinate modifications for out-of-bounds image access.
-
ZE_SAMPLER_ADDRESS_MODE_REPEAT
= 1¶ Out-of-bounds coordinates are wrapped back around.
-
ZE_SAMPLER_ADDRESS_MODE_CLAMP
= 2¶ Out-of-bounds coordinates are clamped to edge.
-
ZE_SAMPLER_ADDRESS_MODE_CLAMP_TO_BORDER
= 3¶ Out-of-bounds coordinates are clamped to border color which is (0.0f, 0.0f, 0.0f, 0.0f) if image format swizzle contains alpha, otherwise (0.0f, 0.0f, 0.0f, 1.0f).
-
ZE_SAMPLER_ADDRESS_MODE_MIRROR
= 4¶ Out-of-bounds coordinates are mirrored starting from edge.
-
ZE_SAMPLER_ADDRESS_MODE_FORCE_UINT32
= 0x7fffffff¶
-
ze_sampler_filter_mode_t¶
Sampler Structures¶
ze_sampler_desc_t¶
-
struct
ze_sampler_desc_t
¶ Sampler descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_sampler_address_mode_t
addressMode
¶ [in] Sampler addressing mode to determine how out-of-bounds coordinates are handled.
-
ze_sampler_filter_mode_t
filterMode
¶ [in] Sampler filter mode to determine how samples are filtered.
-
ze_bool_t
isNormalized
¶ [in] Are coordinates normalized [0, 1] or not.
-
ze_structure_type_t
Virtual¶
Functions
Enumerations
Structures
Virtual Functions¶
zeVirtualMemReserve¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemReserve
(ze_context_handle_t hContext, const void *pStart, size_t size, void **pptr)¶ Reserves pages in virtual address space.
- Parameters
hContext
: [in] handle of the context objectpStart
: [in] pointer to start of region to reserve. If nullptr then implementation will choose a start address.size
: [in] size in bytes to reserve; must be page aligned.pptr
: [out] pointer to virtual reservation.
The application must only use the memory allocation on the context for which it was created.
The starting address and size must be page aligned. See zeVirtualMemQueryPageSize.
If pStart is not null then implementation will attempt to reserve starting from that address. If not available then will find another suitable starting address.
The application may call this function from simultaneous threads.
The access attributes will default to none to indicate reservation is inaccessible.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pStart
nullptr == pptr
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
zeVirtualMemFree¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemFree
(ze_context_handle_t hContext, const void *ptr, size_t size)¶ Free pages in a reserved virtual address range.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] pointer to start of region to free.size
: [in] size in bytes to free; must be page aligned.
Any existing virtual mappings for the range will be unmapped.
Physical allocations objects that were mapped to this range will not be destroyed. These need to be destroyed explicitly.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
zeVirtualMemQueryPageSize¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemQueryPageSize
(ze_context_handle_t hContext, ze_device_handle_t hDevice, size_t size, size_t *pagesize)¶ Queries page size to use for aligning virtual memory reservations and physical memory allocations.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the device objectsize
: [in] unaligned allocation size in bytespagesize
: [out] pointer to page size to use for start address and size alignments.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pagesize
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
zePhysicalMemCreate¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zePhysicalMemCreate
(ze_context_handle_t hContext, ze_device_handle_t hDevice, ze_physical_mem_desc_t *desc, ze_physical_mem_handle_t *phPhysicalMemory)¶ Creates a physical memory object for the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the device objectdesc
: [in] pointer to physical memory descriptor.phPhysicalMemory
: [out] pointer to handle of physical memory object created
The application must only use the physical memory object on the context for which it was created.
The size must be page aligned. See zeVirtualMemQueryPageSize.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phPhysicalMemory
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x1 < desc->flags
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == desc->size
zePhysicalMemDestroy¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zePhysicalMemDestroy
(ze_context_handle_t hContext, ze_physical_mem_handle_t hPhysicalMemory)¶ Destroys a physical memory object.
- Parameters
hContext
: [in] handle of the context objecthPhysicalMemory
: [in][release] handle of physical memory object to destroy
The application must ensure the device is not currently referencing the physical memory object before it is deleted
The application must not call this function from simultaneous threads with the same physical memory handle.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hPhysicalMemory
zeVirtualMemMap¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemMap
(ze_context_handle_t hContext, const void *ptr, size_t size, ze_physical_mem_handle_t hPhysicalMemory, size_t offset, ze_memory_access_attribute_t access)¶ Maps pages in virtual address space to pages from physical memory object.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] pointer to start of virtual address range to map.size
: [in] size in bytes of virtual address range to map; must be page aligned.hPhysicalMemory
: [in] handle to physical memory object.offset
: [in] offset into physical memory allocation object; must be page aligned.access
: [in] specifies page access attributes to apply to the virtual address range.
The virtual address range must have been reserved using zeVirtualMemReserve.
The application must only use the mapped memory allocation on the context for which it was created.
The virtual start address and size must be page aligned. See zeVirtualMemQueryPageSize.
The application should use, for the starting address and size, the same size alignment used for the physical allocation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hPhysicalMemory
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
ZE_RESULT_ERROR_INVALID_ENUMERATION
ZE_MEMORY_ACCESS_ATTRIBUTE_READONLY < access
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
zeVirtualMemUnmap¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemUnmap
(ze_context_handle_t hContext, const void *ptr, size_t size)¶ Unmaps pages in virtual address space from pages from a physical memory object.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] pointer to start of region to unmap.size
: [in] size in bytes to unmap; must be page aligned.
The page access attributes for virtual address range will revert back to none.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
ZE_RESULT_ERROR_UNSUPPORTED_ALIGNMENT - “Address must be page aligned”
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
Size must be page aligned
zeVirtualMemSetAccessAttribute¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemSetAccessAttribute
(ze_context_handle_t hContext, const void *ptr, size_t size, ze_memory_access_attribute_t access)¶ Set memory access attributes for a virtual address range.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] pointer to start of reserved virtual address region.size
: [in] size in bytes; must be page aligned.access
: [in] specifies page access attributes to apply to the virtual address range.
This function may be called from simultaneous threads with the same function handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
ZE_RESULT_ERROR_INVALID_ENUMERATION
ZE_MEMORY_ACCESS_ATTRIBUTE_READONLY < access
ZE_RESULT_ERROR_UNSUPPORTED_ALIGNMENT - “Address must be page aligned”
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
Size must be page aligned
zeVirtualMemGetAccessAttribute¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeVirtualMemGetAccessAttribute
(ze_context_handle_t hContext, const void *ptr, size_t size, ze_memory_access_attribute_t *access, size_t *outSize)¶ Get memory access attribute for a virtual address range.
- Parameters
hContext
: [in] handle of the context objectptr
: [in] pointer to start of virtual address region for query.size
: [in] size in bytes; must be page aligned.access
: [out] query result for page access attribute.outSize
: [out] query result for size of virtual address range, starting at ptr, that shares same access attribute.
If size and outSize are equal then the pages in the specified virtual address range have the same access attributes.
This function may be called from simultaneous threads with the same function handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
nullptr == access
nullptr == outSize
ZE_RESULT_ERROR_UNSUPPORTED_ALIGNMENT - “Address must be page aligned”
ZE_RESULT_ERROR_UNSUPPORTED_SIZE
0 == size
Size must be page aligned
Virtual Enums¶
ze_memory_access_attribute_t¶
-
enum
ze_memory_access_attribute_t
¶ Virtual memory page access attributes.
Values:
-
ZE_MEMORY_ACCESS_ATTRIBUTE_NONE
= 0¶ Indicates the memory page is inaccessible.
-
ZE_MEMORY_ACCESS_ATTRIBUTE_READWRITE
= 1¶ Indicates the memory page supports read write access.
-
ZE_MEMORY_ACCESS_ATTRIBUTE_READONLY
= 2¶ Indicates the memory page supports read-only access.
-
ZE_MEMORY_ACCESS_ATTRIBUTE_FORCE_UINT32
= 0x7fffffff¶
-
Virtual Structures¶
ze_physical_mem_desc_t¶
-
struct
ze_physical_mem_desc_t
¶ Physical memory descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_physical_mem_flags_t
flags
¶ [in] creation flags. must be 0 (default) or a valid combination of ze_physical_mem_flag_t.
-
size_t
size
¶ [in] size in bytes to reserve; must be page aligned.
-
ze_structure_type_t
Floatatomics¶
Enumerations
Structures
Floatatomics Enums¶
ze_float_atomics_ext_version_t¶
ze_device_fp_atomic_ext_flags_t¶
-
enum
ze_device_fp_atomic_ext_flag_t
¶ Values:
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_GLOBAL_LOAD_STORE
= ZE_BIT(0)¶ Supports atomic load, store, and exchange.
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_GLOBAL_ADD
= ZE_BIT(1)¶ Supports atomic add and subtract.
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_GLOBAL_MIN_MAX
= ZE_BIT(2)¶ Supports atomic min and max.
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_LOCAL_LOAD_STORE
= ZE_BIT(16)¶ Supports atomic load, store, and exchange.
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_LOCAL_ADD
= ZE_BIT(17)¶ Supports atomic add and subtract.
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_LOCAL_MIN_MAX
= ZE_BIT(18)¶ Supports atomic min and max.
-
ZE_DEVICE_FP_ATOMIC_EXT_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Floatatomics Structures¶
ze_float_atomic_ext_properties_t¶
-
struct
ze_float_atomic_ext_properties_t
¶ Device floating-point atomic properties queried using zeDeviceGetModuleProperties.
This structure may be returned from zeDeviceGetModuleProperties, via
pNext
member of ze_device_module_properties_t.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_device_fp_atomic_ext_flags_t
fp16Flags
¶ [out] Capabilities for half-precision floating-point atomic operations
-
ze_device_fp_atomic_ext_flags_t
fp32Flags
¶ [out] Capabilities for single-precision floating-point atomic operations
-
ze_device_fp_atomic_ext_flags_t
fp64Flags
¶ [out] Capabilities for double-precision floating-point atomic operations
Globaloffset¶
Functions
Enumerations
Globaloffset Functions¶
zeKernelSetGlobalOffsetExp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSetGlobalOffsetExp
(ze_kernel_handle_t hKernel, uint32_t offsetX, uint32_t offsetY, uint32_t offsetZ)¶ Set global work offset for a kernel.
- Parameters
hKernel
: [in] handle of the kernel objectoffsetX
: [in] global offset for X dimension to use for this kerneloffsetY
: [in] global offset for Y dimension to use for this kerneloffsetZ
: [in] global offset for Z dimension to use for this kernel
The global work offset will be used when azeCommandListAppendLaunchKernel()variant is called.
The application must not call this function from simultaneous threads with the same kernel handle.
The implementation of this function should be lock-free.
- Return
Relaxedalloclimits¶
Enumerations
Structures
Relaxedalloclimits Enums¶
ze_relaxed_allocation_limits_exp_version_t¶
-
enum
ze_relaxed_allocation_limits_exp_version_t
¶ Relaxed Allocation Limits Extension Version(s)
Values:
-
ZE_RELAXED_ALLOCATION_LIMITS_EXP_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_RELAXED_ALLOCATION_LIMITS_EXP_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 0)¶ latest known version
-
ZE_RELAXED_ALLOCATION_LIMITS_EXP_VERSION_FORCE_UINT32
= 0x7fffffff¶
-
ze_relaxed_allocation_limits_exp_flags_t¶
-
enum
ze_relaxed_allocation_limits_exp_flag_t
¶ Values:
-
ZE_RELAXED_ALLOCATION_LIMITS_EXP_FLAG_MAX_SIZE
= ZE_BIT(0)¶ Allocation size may exceed ze_device_properties_t.maxMemAllocSize.
-
ZE_RELAXED_ALLOCATION_LIMITS_EXP_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Relaxedalloclimits Structures¶
ze_relaxed_allocation_limits_exp_desc_t¶
-
struct
ze_relaxed_allocation_limits_exp_desc_t
¶ Relaxed limits memory allocation descriptor.
This structure may be passed to zeMemAllocShared or zeMemAllocDevice, via
pNext
member of ze_device_mem_alloc_desc_t.This structure may also be passed to zeMemAllocHost, via
pNext
member of ze_host_mem_alloc_desc_t.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_relaxed_allocation_limits_exp_flags_t
flags
¶ [in] flags specifying allocation limits to relax. must be 0 (default) or a valid combination of ze_relaxed_allocation_limits_exp_flag_t;
Cachereservation¶
Functions
Enumerations
Structures
Cachereservation Functions¶
zeDeviceReserveCacheExt¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceReserveCacheExt
(ze_device_handle_t hDevice, size_t cacheLevel, size_t cacheReservationSize)¶ Reserve Cache on Device.
- Parameters
hDevice
: [in] handle of the device objectcacheLevel
: [in] cache level where application want to reserve. If zero, then the driver shall default to last level of cache and attempt to reserve in that cache.cacheReservationSize
: [in] value for reserving size, in bytes. If zero, then the driver shall remove prior reservation
The application may call this function but may not be successful as some other application may have reserve prior
- Remark
Analogues
None
- Return
zeDeviceSetCacheAdviceExt¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeDeviceSetCacheAdviceExt
(ze_device_handle_t hDevice, void *ptr, size_t regionSize, ze_cache_ext_region_t cacheRegion)¶ Assign VA section to use reserved section.
- Parameters
hDevice
: [in] handle of the device objectptr
: [in] memory pointer to queryregionSize
: [in] region size, in pagescacheRegion
: [in] reservation region
The application may call this function to assign VA to particular reservartion region
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == ptr
ZE_RESULT_ERROR_INVALID_ENUMERATION
::ZE_CACHE_EXT_REGION_::ZE_CACHE_NON_RESERVED_REGION < cacheRegion
Cachereservation Enums¶
ze_cache_reservation_ext_version_t¶
-
enum
ze_cache_reservation_ext_version_t
¶ Cache_Reservation Extension Version(s)
Values:
-
ZE_CACHE_RESERVATION_EXT_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_CACHE_RESERVATION_EXT_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 0)¶ latest known version
-
ZE_CACHE_RESERVATION_EXT_VERSION_FORCE_UINT32
= 0x7fffffff¶
-
ze_cache_ext_region_t¶
-
enum
ze_cache_ext_region_t
¶ Cache Reservation Region.
Values:
-
ZE_CACHE_EXT_REGION_ZE_CACHE_REGION_DEFAULT
= 0¶ utilize driver default scheme
-
ZE_CACHE_EXT_REGION_ZE_CACHE_RESERVE_REGION
= 1¶ Utilize reserver region.
-
ZE_CACHE_EXT_REGION_ZE_CACHE_NON_RESERVED_REGION
= 2¶ Utilize non-reserverd region.
-
ZE_CACHE_EXT_REGION_FORCE_UINT32
= 0x7fffffff¶
-
Cachereservation Structures¶
ze_cache_reservation_ext_desc_t¶
-
struct
ze_cache_reservation_ext_desc_t
¶ CacheReservation structure.
This structure must be passed to zeDeviceGetCacheProperties via
pNext
member of ze_device_cache_properties_tUsed for determining the max cache reservation allowed on device. Size of zero means no reservation available.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
size_t
maxCacheReservationSize
¶ [out] max cache reservation size
Eventquerytimestamps¶
Functions
Enumerations
Eventquerytimestamps Functions¶
zeEventQueryTimestampsExp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeEventQueryTimestampsExp
(ze_event_handle_t hEvent, ze_device_handle_t hDevice, uint32_t *pCount, ze_kernel_timestamp_result_t *pTimestamps)¶ Query event timestamps for a device or sub-device.
- Parameters
hEvent
: [in] handle of the eventhDevice
: [in] handle of the device to querypCount
: [in,out] pointer to the number of timestamp resultspTimestamps
: [in,out][range(0, *pCount)] pointer to memory where timestamp results will be written.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
The implementation must support ::ZE_experimental_event_query_timestamps.
The implementation must return all timestamps for the specified event and device pair.
The implementation must return all timestamps for all sub-devices when device handle is parent device.
The implementation may return all timestamps for sub-devices when device handle is sub-device or may return 0 for count.
- Remark
Analogues
None
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hEvent
nullptr == hDevice
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pCount
nullptr == pTimestamps
Eventquerytimestamps Enums¶
ze_event_query_timestamps_exp_version_t¶
-
enum
ze_event_query_timestamps_exp_version_t
¶ Event Query Timestamps Extension Version(s)
Values:
-
ZE_EVENT_QUERY_TIMESTAMPS_EXP_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_EVENT_QUERY_TIMESTAMPS_EXP_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 0)¶ latest known version
-
ZE_EVENT_QUERY_TIMESTAMPS_EXP_VERSION_FORCE_UINT32
= 0x7fffffff¶
-
Imagememoryproperties¶
Functions
Enumerations
Structures
Imagememoryproperties Functions¶
zeImageGetMemoryPropertiesExp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeImageGetMemoryPropertiesExp
(ze_image_handle_t hImage, ze_image_memory_properties_exp_t *pMemoryProperties)¶ Query image memory properties.
- Parameters
hImage
: [in] handle of image objectpMemoryProperties
: [in,out] query result for image memory properties.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
The implementation must support ::ZE_experimental_image_memory_properties extension.
- Remark
Analogues
None
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hImage
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pMemoryProperties
Imagememoryproperties Enums¶
ze_image_memory_properties_exp_version_t¶
-
enum
ze_image_memory_properties_exp_version_t
¶ Image Memory Properties Extension Version(s)
Values:
-
ZE_IMAGE_MEMORY_PROPERTIES_EXP_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_IMAGE_MEMORY_PROPERTIES_EXP_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 0)¶ latest known version
-
ZE_IMAGE_MEMORY_PROPERTIES_EXP_VERSION_FORCE_UINT32
= 0x7fffffff¶
-
Imagememoryproperties Structures¶
ze_image_memory_properties_exp_t¶
-
struct
ze_image_memory_properties_exp_t
¶ Image memory properties.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
uint64_t
size
¶ [out] size of image allocation in bytes.
-
uint64_t
rowPitch
¶ [out] size of image row in bytes.
-
uint64_t
slicePitch
¶ [out] size of image slice in bytes.
-
ze_structure_type_t
Imageview¶
Functions
Enumerations
Imageview Functions¶
zeImageViewCreateExp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeImageViewCreateExp
(ze_context_handle_t hContext, ze_device_handle_t hDevice, const ze_image_desc_t *desc, ze_image_handle_t hImage, ze_image_handle_t *phImageView)¶ Create image view on the context.
- Parameters
hContext
: [in] handle of the context objecthDevice
: [in] handle of the devicedesc
: [in] pointer to image descriptorhImage
: [in] handle of image object to create view fromphImageView
: [out] pointer to handle of image object created for view
The application must only use the image view for the device, or its sub-devices, which was provided during creation.
The application may call this function from simultaneous threads.
The implementation of this function must be thread-safe.
The implementation must support ::ZE_experimental_image_view extension.
Image views are treated as images from the API.
Image views provide a mechanism to redescribe how an image is interpreted (e.g. different format).
Image views become disabled when their corresponding image resource is destroyed.
Use zeImageDestroy to destroy image view objects.
- Remark
Analogues
None
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hContext
nullptr == hDevice
nullptr == hImage
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == desc
nullptr == phImageView
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x3 < desc->flags
ZE_IMAGE_TYPE_BUFFER < desc->type
Imageviewplanar¶
Enumerations
Structures
Imageviewplanar Enums¶
ze_image_view_planar_exp_version_t¶
-
enum
ze_image_view_planar_exp_version_t
¶ Image View Planar Extension Version(s)
Values:
-
ZE_IMAGE_VIEW_PLANAR_EXP_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_IMAGE_VIEW_PLANAR_EXP_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 0)¶ latest known version
-
ZE_IMAGE_VIEW_PLANAR_EXP_VERSION_FORCE_UINT32
= 0x7fffffff¶
-
Imageviewplanar Structures¶
ze_image_view_planar_exp_desc_t¶
-
struct
ze_image_view_planar_exp_desc_t
¶ Image view planar descriptor.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
uint32_t
planeIndex
¶ [in] the 0-based plane index (e.g. NV12 is 0 = Y plane, 1 UV plane)
-
ze_structure_type_t
Kernelschedulinghints¶
Functions
Enumerations
Structures
Kernelschedulinghints Functions¶
zeKernelSchedulingHintExp¶
-
ZE_APIEXPORT ze_result_t ZE_APICALL
zeKernelSchedulingHintExp
(ze_kernel_handle_t hKernel, ze_scheduling_hint_exp_desc_t *pHint)¶ Provide kernel scheduling hints that may improve performance.
- Parameters
hKernel
: [in] handle of the kernel objectpHint
: [in] pointer to kernel scheduling hint descriptor
The scheduling hints may improve performance only and are not required for correctness.
If a specified scheduling hint is unsupported it will be silently ignored.
If two conflicting scheduling hints are specified there is no defined behavior; the hints may be ignored or one hint may be chosen arbitrarily.
The application must not call this function from simultaneous threads with the same kernel handle.
The implementation of this function should be lock-free.
- Return
ZE_RESULT_ERROR_INVALID_NULL_HANDLE
nullptr == hKernel
ZE_RESULT_ERROR_INVALID_NULL_POINTER
nullptr == pHint
ZE_RESULT_ERROR_INVALID_ENUMERATION
0x7 < pHint->flags
Kernelschedulinghints Enums¶
ze_scheduling_hints_exp_version_t¶
-
enum
ze_scheduling_hints_exp_version_t
¶ Kernel Scheduling Hints Extension Version(s)
Values:
-
ZE_SCHEDULING_HINTS_EXP_VERSION_1_0
= ZE_MAKE_VERSION(1, 0)¶ version 1.0
-
ZE_SCHEDULING_HINTS_EXP_VERSION_CURRENT
= ZE_MAKE_VERSION(1, 0)¶ latest known version
-
ZE_SCHEDULING_HINTS_EXP_VERSION_FORCE_UINT32
= 0x7fffffff¶
-
ze_scheduling_hint_exp_flags_t¶
-
enum
ze_scheduling_hint_exp_flag_t
¶ Values:
-
ZE_SCHEDULING_HINT_EXP_FLAG_OLDEST_FIRST
= ZE_BIT(0)¶ Hint that the kernel prefers oldest-first scheduling.
-
ZE_SCHEDULING_HINT_EXP_FLAG_ROUND_ROBIN
= ZE_BIT(1)¶ Hint that the kernel prefers round-robin scheduling.
-
ZE_SCHEDULING_HINT_EXP_FLAG_STALL_BASED_ROUND_ROBIN
= ZE_BIT(2)¶ Hint that the kernel prefers stall-based round-robin scheduling.
-
ZE_SCHEDULING_HINT_EXP_FLAG_FORCE_UINT32
= 0x7fffffff¶
-
Kernelschedulinghints Structures¶
ze_scheduling_hint_exp_properties_t¶
-
struct
ze_scheduling_hint_exp_properties_t
¶ Device kernel scheduling hint properties queried using zeDeviceGetModuleProperties.
This structure may be returned from zeDeviceGetModuleProperties, via
pNext
member of ze_device_module_properties_t.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
void *
pNext
¶ [in,out][optional] pointer to extension-specific structure
-
ze_scheduling_hint_exp_flags_t
schedulingHintFlags
¶ May be 0 (none) or a valid combination of ze_scheduling_hint_exp_flag_t.
[out] Supported kernel scheduling hints.
ze_scheduling_hint_exp_desc_t¶
-
struct
ze_scheduling_hint_exp_desc_t
¶ Kernel scheduling hint descriptor.
This structure may be passed to zeKernelSchedulingHintExp.
Public Members
-
ze_structure_type_t
stype
¶ [in] type of this structure
-
const void *
pNext
¶ [in][optional] pointer to extension-specific structure
-
ze_scheduling_hint_exp_flags_t
flags
¶ [in] flags specifying kernel scheduling hints. must be 0 (default) or a valid combination of ze_scheduling_hint_exp_flag_t.