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device.rs
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device.rs
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// Copyright (c) 2020-2023 Via Technology Ltd.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
pub use cl3::device::*;
pub use cl3::ext::cl_device_feature_capabilities_intel;
use super::platform::get_platforms;
use super::Result;
#[allow(unused_imports)]
use libc::{intptr_t, size_t};
/// Get the ids of all available devices of the given type.
pub fn get_all_devices(device_type: cl_device_type) -> Result<Vec<cl_device_id>> {
let mut device_ids = Vec::<cl_device_id>::new();
let platforms = get_platforms()?;
for platform in platforms {
let mut devices = platform.get_devices(device_type)?;
device_ids.append(&mut devices);
}
Ok(device_ids)
}
#[cfg(feature = "CL_VERSION_1_2")]
#[derive(Debug)]
pub struct SubDevice {
id: cl_device_id,
}
#[cfg(feature = "CL_VERSION_1_2")]
impl From<cl_device_id> for SubDevice {
fn from(id: cl_device_id) -> Self {
SubDevice { id }
}
}
#[cfg(feature = "CL_VERSION_1_2")]
impl From<SubDevice> for cl_device_id {
fn from(value: SubDevice) -> Self {
value.id
}
}
#[cfg(feature = "CL_VERSION_1_2")]
impl Drop for SubDevice {
fn drop(&mut self) {
unsafe { release_device(self.id()).expect("Error: clReleaseDevice") };
}
}
#[cfg(feature = "CL_VERSION_1_2")]
unsafe impl Send for SubDevice {}
#[cfg(feature = "CL_VERSION_1_2")]
unsafe impl Sync for SubDevice {}
#[cfg(feature = "CL_VERSION_1_2")]
impl SubDevice {
pub fn new(id: cl_device_id) -> SubDevice {
SubDevice { id }
}
/// Accessor for the underlying device id.
pub fn id(&self) -> cl_device_id {
self.id
}
}
/// An OpenCL device id and methods to query it.
/// The query methods calls clGetDeviceInfo with the relevant param_name, see:
/// [Device Queries](https://www.khronos.org/registry/OpenCL/specs/3.0-unified/html/OpenCL_API.html#device-queries-table).
#[derive(Copy, Clone, Debug)]
pub struct Device {
id: intptr_t,
}
impl From<cl_device_id> for Device {
fn from(value: cl_device_id) -> Self {
Device {
id: value as intptr_t,
}
}
}
impl From<Device> for cl_device_id {
fn from(value: Device) -> Self {
value.id as cl_device_id
}
}
unsafe impl Send for Device {}
unsafe impl Sync for Device {}
impl Device {
pub fn new(id: cl_device_id) -> Device {
Device { id: id as intptr_t }
}
/// Accessor for the underlying device id.
pub fn id(&self) -> cl_device_id {
self.id as cl_device_id
}
/// Create sub-devices by partitioning an OpenCL device.
///
/// * `properties` - the slice of cl_device_partition_property, see
/// [Subdevice Partition](https://www.khronos.org/registry/OpenCL/specs/3.0-unified/html/OpenCL_API.html#subdevice-partition-table).
///
/// returns a Result containing a vector of available SubDevices
/// or the error code from the OpenCL C API function.
#[cfg(feature = "CL_VERSION_1_2")]
pub fn create_sub_devices(
&self,
properties: &[cl_device_partition_property],
) -> Result<Vec<SubDevice>> {
let sub_device_ids = create_sub_devices(self.id(), properties)?;
Ok(sub_device_ids
.iter()
.map(|id| SubDevice::new(*id))
.collect::<Vec<SubDevice>>())
}
#[cfg(feature = "CL_VERSION_2_1")]
#[inline]
pub fn get_device_and_host_timer(&self) -> Result<[cl_ulong; 2]> {
Ok(get_device_and_host_timer(self.id())?)
}
#[cfg(feature = "CL_VERSION_2_1")]
#[inline]
pub fn get_host_timer(&self) -> Result<cl_ulong> {
Ok(get_host_timer(self.id())?)
}
/// The OpenCL device type, see
/// [Device Types](https://www.khronos.org/registry/OpenCL/specs/3.0-unified/html/OpenCL_API.html#device-types-table).
pub fn dev_type(&self) -> Result<cl_device_type> {
Ok(get_device_info(self.id(), CL_DEVICE_TYPE)?.into())
}
/// A unique device vendor identifier: a [PCI vendor ID](https://www.pcilookup.com/)
/// or a Khronos vendor ID if the vendor does not have a PCI vendor ID.
pub fn vendor_id(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_VENDOR_ID)?.into())
}
/// The number of parallel compute units on the device, minimum 1.
pub fn max_compute_units(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_COMPUTE_UNITS)?.into())
}
/// Maximum dimensions for global and local work-item IDs, minimum 3
/// if device is not CL_DEVICE_TYPE_CUSTOM.
pub fn max_work_item_dimensions(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS)?.into())
}
/// Maximum number of work-items for each dimension of a work-group,
/// minimum [1, 1, 1] if device is not CL_DEVICE_TYPE_CUSTOM.
pub fn max_work_group_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_WORK_GROUP_SIZE)?.into())
}
pub fn max_work_item_sizes(&self) -> Result<Vec<size_t>> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_WORK_ITEM_SIZES)?.into())
}
pub fn max_preferred_vector_width_char(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_CHAR)?.into())
}
pub fn max_preferred_vector_width_short(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_SHORT)?.into())
}
pub fn max_preferred_vector_width_int(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_INT)?.into())
}
pub fn max_preferred_vector_width_long(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_LONG)?.into())
}
pub fn max_preferred_vector_width_float(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_FLOAT)?.into())
}
pub fn max_preferred_vector_width_double(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_DOUBLE)?.into())
}
pub fn max_clock_frequency(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_CLOCK_FREQUENCY)?.into())
}
pub fn address_bits(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_ADDRESS_BITS)?.into())
}
pub fn max_read_image_args(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_READ_IMAGE_ARGS)?.into())
}
pub fn max_write_image_args(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_WRITE_IMAGE_ARGS)?.into())
}
pub fn max_mem_alloc_size(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_MEM_ALLOC_SIZE)?.into())
}
pub fn image2d_max_width(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE2D_MAX_WIDTH)?.into())
}
pub fn image2d_max_height(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE2D_MAX_HEIGHT)?.into())
}
pub fn image3d_max_width(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE3D_MAX_WIDTH)?.into())
}
pub fn image3d_max_height(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE3D_MAX_HEIGHT)?.into())
}
pub fn image3d_max_depth(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE3D_MAX_DEPTH)?.into())
}
pub fn image_support(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_IMAGE_SUPPORT)?) != CL_FALSE)
}
pub fn max_parameter_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_PARAMETER_SIZE)?.into())
}
pub fn max_device_samples(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_SAMPLERS)?.into())
}
pub fn mem_base_addr_align(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MEM_BASE_ADDR_ALIGN)?.into())
}
pub fn min_data_type_align_size(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MIN_DATA_TYPE_ALIGN_SIZE)?.into())
}
pub fn single_fp_config(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_SINGLE_FP_CONFIG)?.into())
}
pub fn global_mem_cache_type(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_CACHE_TYPE)?.into())
}
pub fn global_mem_cacheline_size(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_CACHELINE_SIZE)?.into())
}
pub fn global_mem_cache_size(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_CACHE_SIZE)?.into())
}
pub fn global_mem_size(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_SIZE)?.into())
}
pub fn max_constant_buffer_size(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_CONSTANT_BUFFER_SIZE)?.into())
}
pub fn max_constant_args(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_CONSTANT_ARGS)?.into())
}
pub fn local_mem_type(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_LOCAL_MEM_TYPE)?.into())
}
pub fn local_mem_size(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_LOCAL_MEM_SIZE)?.into())
}
pub fn error_correction_support(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(
self.id(),
CL_DEVICE_ERROR_CORRECTION_SUPPORT,
)?) != CL_FALSE)
}
pub fn profiling_timer_resolution(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_PROFILING_TIMER_RESOLUTION)?.into())
}
pub fn endian_little(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_ENDIAN_LITTLE)?) != CL_FALSE)
}
pub fn available(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_AVAILABLE)?) != CL_FALSE)
}
pub fn compiler_available(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_COMPILER_AVAILABLE)?) != CL_FALSE)
}
pub fn execution_capabilities(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_EXECUTION_CAPABILITIES)?.into())
}
pub fn queue_on_host_properties(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_QUEUE_ON_HOST_PROPERTIES)?.into())
}
pub fn name(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_NAME)?.into())
}
pub fn vendor(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_VENDOR)?.into())
}
pub fn driver_version(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DRIVER_VERSION)?.into())
}
pub fn profile(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_PROFILE)?.into())
}
pub fn version(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_VERSION)?.into())
}
pub fn extensions(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_EXTENSIONS)?.into())
}
pub fn platform(&self) -> Result<cl_platform_id> {
Ok(intptr_t::from(get_device_info(self.id(), CL_DEVICE_PLATFORM)?) as cl_platform_id)
}
/// CL_VERSION_1_2
pub fn double_fp_config(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_DOUBLE_FP_CONFIG)?.into())
}
pub fn half_fp_config(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_HALF_FP_CONFIG)?.into())
}
pub fn preferred_vector_width_half(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_VECTOR_WIDTH_HALF)?.into())
}
// DEPRECATED 2.0
pub fn host_unified_memory(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_HOST_UNIFIED_MEMORY)?) != CL_FALSE)
}
pub fn native_vector_width_char(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_CHAR)?.into())
}
pub fn native_vector_width_short(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_SHORT)?.into())
}
pub fn native_vector_width_int(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_INT)?.into())
}
pub fn native_vector_width_long(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_LONG)?.into())
}
pub fn native_vector_width_float(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_FLOAT)?.into())
}
pub fn native_vector_width_double(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_DOUBLE)?.into())
}
pub fn native_vector_width_half(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NATIVE_VECTOR_WIDTH_HALF)?.into())
}
pub fn opencl_c_version(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_OPENCL_C_VERSION)?.into())
}
/// CL_VERSION_1_2
pub fn linker_available(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_LINKER_AVAILABLE)?) != CL_FALSE)
}
/// CL_VERSION_1_2
pub fn built_in_kernels(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_BUILT_IN_KERNELS)?.into())
}
/// CL_VERSION_1_2
pub fn image_max_buffer_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE_MAX_BUFFER_SIZE)?.into())
}
/// CL_VERSION_1_2
pub fn image_max_array_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE_MAX_ARRAY_SIZE)?.into())
}
/// CL_VERSION_1_2
pub fn parent_device(&self) -> Result<cl_device_id> {
Ok(intptr_t::from(get_device_info(self.id(), CL_DEVICE_PARENT_DEVICE)?) as cl_device_id)
}
/// CL_VERSION_1_2
pub fn partition_max_sub_devices(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PARTITION_MAX_SUB_DEVICES)?.into())
}
/// CL_VERSION_1_2
pub fn partition_properties(&self) -> Result<Vec<intptr_t>> {
Ok(get_device_info(self.id(), CL_DEVICE_PARTITION_PROPERTIES)?.into())
}
/// CL_VERSION_1_2
pub fn partition_affinity_domain(&self) -> Result<Vec<cl_ulong>> {
Ok(get_device_info(self.id(), CL_DEVICE_PARTITION_AFFINITY_DOMAIN)?.into())
}
/// CL_VERSION_1_2
pub fn partition_type(&self) -> Result<Vec<intptr_t>> {
Ok(get_device_info(self.id(), CL_DEVICE_PARTITION_TYPE)?.into())
}
/// CL_VERSION_1_2
pub fn reference_count(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_REFERENCE_COUNT)?.into())
}
/// CL_VERSION_1_2
pub fn preferred_interop_user_sync(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(
self.id(),
CL_DEVICE_PREFERRED_INTEROP_USER_SYNC,
)?) != CL_FALSE)
}
/// CL_VERSION_1_2
pub fn printf_buffer_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_PRINTF_BUFFER_SIZE)?.into())
}
/// CL_VERSION_2_0
pub fn image_pitch_alignment(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE_PITCH_ALIGNMENT)?.into())
}
/// CL_VERSION_2_0
pub fn image_base_address_alignment(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_IMAGE_BASE_ADDRESS_ALIGNMENT)?.into())
}
/// CL_VERSION_2_0
pub fn max_read_write_image_args(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_READ_WRITE_IMAGE_ARGS)?.into())
}
/// CL_VERSION_2_0
pub fn max_global_variable_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_GLOBAL_VARIABLE_SIZE)?.into())
}
/// CL_VERSION_2_0
pub fn queue_on_device_properties(&self) -> Result<Vec<intptr_t>> {
Ok(get_device_info(self.id(), CL_DEVICE_QUEUE_ON_DEVICE_PROPERTIES)?.into())
}
/// CL_VERSION_2_0
pub fn queue_on_device_preferred_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_QUEUE_ON_DEVICE_PREFERRED_SIZE)?.into())
}
/// CL_VERSION_2_0
pub fn queue_on_device_max_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_QUEUE_ON_DEVICE_MAX_SIZE)?.into())
}
/// CL_VERSION_2_0
pub fn max_on_device_queues(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_ON_DEVICE_QUEUES)?.into())
}
/// CL_VERSION_2_0
pub fn max_on_device_events(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_ON_DEVICE_EVENTS)?.into())
}
/// CL_VERSION_2_0
pub fn svm_capabilities(&self) -> Result<cl_device_svm_capabilities> {
Ok(get_device_info(self.id(), CL_DEVICE_SVM_CAPABILITIES)?.into())
}
/// CL_VERSION_2_0
pub fn global_variable_preferred_total_size(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_VARIABLE_PREFERRED_TOTAL_SIZE)?.into())
}
/// CL_VERSION_2_0
pub fn max_pipe_args(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_PIPE_ARGS)?.into())
}
/// CL_VERSION_2_0
pub fn pipe_max_active_reservations(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PIPE_MAX_ACTIVE_RESERVATIONS)?.into())
}
/// CL_VERSION_2_0
pub fn pipe_max_packet_size(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PIPE_MAX_PACKET_SIZE)?.into())
}
/// CL_VERSION_2_0
pub fn preferred_platform_atomic_alignment(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_PLATFORM_ATOMIC_ALIGNMENT)?.into())
}
/// CL_VERSION_2_0
pub fn preferred_global_atomic_alignment(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_GLOBAL_ATOMIC_ALIGNMENT)?.into())
}
/// CL_VERSION_2_0
pub fn preferred_local_atomic_alignment(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_LOCAL_ATOMIC_ALIGNMENT)?.into())
}
/// CL_VERSION_2_1
pub fn il_version(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_IL_VERSION)?.into())
}
/// CL_VERSION_2_1
pub fn max_num_sub_groups(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_NUM_SUB_GROUPS)?.into())
}
/// CL_VERSION_2_1
pub fn sub_group_independent_forward_progress(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(
self.id(),
CL_DEVICE_SUB_GROUP_INDEPENDENT_FORWARD_PROGRESS,
)?) != CL_FALSE)
}
/// CL_VERSION_3_0
pub fn numeric_version(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NUMERIC_VERSION)?.into())
}
/// CL_VERSION_3_0
pub fn extensions_with_version(&self) -> Result<Vec<cl_name_version>> {
Ok(get_device_info(self.id(), CL_DEVICE_EXTENSIONS_WITH_VERSION)?.into())
}
/// CL_VERSION_3_0
pub fn ils_with_version(&self) -> Result<Vec<cl_name_version>> {
Ok(get_device_info(self.id(), CL_DEVICE_ILS_WITH_VERSION)?.into())
}
/// CL_VERSION_3_0
pub fn built_in_kernels_with_version(&self) -> Result<Vec<cl_name_version>> {
Ok(get_device_info(self.id(), CL_DEVICE_BUILT_IN_KERNELS_WITH_VERSION)?.into())
}
/// CL_VERSION_3_0
pub fn atomic_memory_capabilities(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_ATOMIC_MEMORY_CAPABILITIES)?.into())
}
/// CL_VERSION_3_0
pub fn atomic_fence_capabilities(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_ATOMIC_FENCE_CAPABILITIES)?.into())
}
/// CL_VERSION_3_0
pub fn non_uniform_work_group_support(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(
self.id(),
CL_DEVICE_NON_UNIFORM_WORK_GROUP_SUPPORT,
)?) != CL_FALSE)
}
/// CL_VERSION_3_0
pub fn opencl_c_all_versions(&self) -> Result<Vec<cl_name_version>> {
Ok(get_device_info(self.id(), CL_DEVICE_OPENCL_C_ALL_VERSIONS)?.into())
}
/// CL_VERSION_3_0
pub fn preferred_work_group_size_multiple(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_WORK_GROUP_SIZE_MULTIPLE)?.into())
}
/// CL_VERSION_3_0
pub fn work_group_collective_functions_support(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(
self.id(),
CL_DEVICE_WORK_GROUP_COLLECTIVE_FUNCTIONS_SUPPORT,
)?) != CL_FALSE)
}
/// CL_VERSION_3_0
pub fn generic_address_space_support(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(
self.id(),
CL_DEVICE_GENERIC_ADDRESS_SPACE_SUPPORT,
)?) != CL_FALSE)
}
/// CL_VERSION_3_0
pub fn uuid_khr(&self) -> Result<[u8; CL_UUID_SIZE_KHR]> {
Ok(get_device_info(self.id(), CL_DEVICE_UUID_KHR)?.into())
}
/// CL_VERSION_3_0
pub fn driver_uuid_khr(&self) -> Result<[u8; CL_UUID_SIZE_KHR]> {
Ok(get_device_info(self.id(), CL_DRIVER_UUID_KHR)?.into())
}
/// CL_VERSION_3_0
pub fn luid_valid_khr(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_LUID_VALID_KHR)?) != CL_FALSE)
}
/// CL_VERSION_3_0
pub fn luid_khr(&self) -> Result<[u8; CL_LUID_SIZE_KHR]> {
Ok(get_device_info(self.id(), CL_DEVICE_LUID_KHR)?.into())
}
/// CL_VERSION_3_0
pub fn node_mask_khr(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NODE_MASK_KHR)?.into())
}
/// CL_VERSION_3_0
pub fn opencl_c_features(&self) -> Result<Vec<cl_name_version>> {
Ok(get_device_info(self.id(), CL_DEVICE_OPENCL_C_FEATURES)?.into())
}
/// CL_VERSION_3_0
pub fn device_enqueue_capabilities(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_DEVICE_ENQUEUE_CAPABILITIES)?.into())
}
/// CL_VERSION_3_0
pub fn pipe_support(&self) -> Result<bool> {
Ok(cl_uint::from(get_device_info(self.id(), CL_DEVICE_PIPE_SUPPORT)?) != CL_FALSE)
}
/// CL_VERSION_3_0
pub fn latest_conformance_version_passed(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_LATEST_CONFORMANCE_VERSION_PASSED)?.into())
}
pub fn integer_dot_product_capabilities_khr(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_INTEGER_DOT_PRODUCT_CAPABILITIES_KHR)?.into())
}
pub fn integer_dot_product_acceleration_properties_8bit_khr(
&self,
) -> Result<cl_device_integer_dot_product_acceleration_properties_khr> {
let value: Vec<u8> = get_device_info(
self.id(),
CL_DEVICE_INTEGER_DOT_PRODUCT_ACCELERATION_PROPERTIES_8BIT_KHR,
)?
.into();
Ok(get_device_integer_dot_product_acceleration_properties_khr(
&value,
))
}
pub fn integer_dot_product_acceleration_properties_4x8bit_packed_khr(
&self,
) -> Result<cl_device_integer_dot_product_acceleration_properties_khr> {
let value: Vec<u8> = get_device_info(
self.id(),
CL_DEVICE_INTEGER_DOT_PRODUCT_ACCELERATION_PROPERTIES_4x8BIT_PACKED_KHR,
)?
.into();
Ok(get_device_integer_dot_product_acceleration_properties_khr(
&value,
))
}
pub fn compute_capability_major_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV)?.into())
}
pub fn compute_capability_minor_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV)?.into())
}
pub fn registers_per_block_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_REGISTERS_PER_BLOCK_NV)?.into())
}
pub fn wrap_size_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_WARP_SIZE_NV)?.into())
}
pub fn gpu_overlap_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GPU_OVERLAP_NV)?.into())
}
pub fn compute_kernel_exec_timeout_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_KERNEL_EXEC_TIMEOUT_NV)?.into())
}
pub fn integrated_memory_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_INTEGRATED_MEMORY_NV)?.into())
}
pub fn pci_bus_id_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PCI_BUS_ID_NV)?.into())
}
pub fn pci_slot_id_nv(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PCI_SLOT_ID_NV)?.into())
}
pub fn profiling_timer_offset_amd(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_PROFILING_TIMER_OFFSET_AMD)?.into())
}
pub fn topology_amd(&self) -> Result<cl_amd_device_topology> {
let value: Vec<u8> = get_device_info(self.id(), CL_DEVICE_TOPOLOGY_AMD)?.into();
Ok(get_amd_device_topology(&value))
}
pub fn pci_bus_id_amd(&self) -> Result<cl_uint> {
let value = self.topology_amd()?;
Ok(value.bus as cl_uint)
}
pub fn pcibusinfokhr_intel(&self) -> Result<cl_device_pci_bus_info_khr> {
let value: Vec<u8> = get_device_info(self.id(), CL_DEVICE_PCI_BUS_INFO_KHR)?.into();
Ok(get_device_pci_bus_info_khr(&value))
}
pub fn pci_bus_id_intel(&self) -> Result<cl_uint> {
let value = self.pcibusinfokhr_intel()?;
Ok(value.pci_bus as cl_uint)
}
pub fn board_name_amd(&self) -> Result<String> {
Ok(get_device_info(self.id(), CL_DEVICE_BOARD_NAME_AMD)?.into())
}
pub fn global_free_memory_amd(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_FREE_MEMORY_AMD)?.into())
}
pub fn simd_per_compute_unit_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_SIMD_PER_COMPUTE_UNIT_AMD)?.into())
}
pub fn simd_width_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_SIMD_WIDTH_AMD)?.into())
}
pub fn simd_instruction_width_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_SIMD_INSTRUCTION_WIDTH_AMD)?.into())
}
pub fn wavefront_width_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_WAVEFRONT_WIDTH_AMD)?.into())
}
pub fn global_mem_channels_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_CHANNELS_AMD)?.into())
}
pub fn global_mem_channel_banks_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_CHANNEL_BANKS_AMD)?.into())
}
pub fn global_mem_channel_bank_width_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GLOBAL_MEM_CHANNEL_BANK_WIDTH_AMD)?.into())
}
pub fn local_mem_size_per_compute_unit_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_LOCAL_MEM_SIZE_PER_COMPUTE_UNIT_AMD)?.into())
}
pub fn local_mem_banks_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_LOCAL_MEM_BANKS_AMD)?.into())
}
pub fn thread_trace_supported_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_THREAD_TRACE_SUPPORTED_AMD)?.into())
}
pub fn gfxip_major_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GFXIP_MAJOR_AMD)?.into())
}
pub fn gfxip_minor_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_GFXIP_MINOR_AMD)?.into())
}
pub fn available_async_queues_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_AVAILABLE_ASYNC_QUEUES_AMD)?.into())
}
pub fn preferred_work_group_size_amd(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_WORK_GROUP_SIZE_AMD)?.into())
}
pub fn max_work_group_size_amd(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_MAX_WORK_GROUP_SIZE_AMD)?.into())
}
pub fn preferred_constant_buffer_size_amd(&self) -> Result<size_t> {
Ok(get_device_info(self.id(), CL_DEVICE_PREFERRED_CONSTANT_BUFFER_SIZE_AMD)?.into())
}
pub fn pcie_id_amd(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_PCIE_ID_AMD)?.into())
}
pub fn device_ip_version_intel(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_IP_VERSION_INTEL)?.into())
}
pub fn device_id_intel(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_ID_INTEL)?.into())
}
pub fn device_num_slices_intel(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NUM_SLICES_INTEL)?.into())
}
pub fn device_num_sub_slices_per_slice_intel(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NUM_SUB_SLICES_PER_SLICE_INTEL)?.into())
}
pub fn device_num_eus_per_sub_slice_intel(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NUM_EUS_PER_SUB_SLICE_INTEL)?.into())
}
pub fn device_num_threads_per_eu_intel(&self) -> Result<cl_uint> {
Ok(get_device_info(self.id(), CL_DEVICE_NUM_THREADS_PER_EU_INTEL)?.into())
}
pub fn device_feature_capabilities_intel(
&self,
) -> Result<cl_device_feature_capabilities_intel> {
Ok(get_device_info(self.id(), CL_DEVICE_FEATURE_CAPABILITIES_INTEL)?.into())
}
pub fn device_external_memory_import_handle_types_khr(&self) -> Result<Vec<u32>> {
Ok(get_device_info(self.id(), CL_DEVICE_EXTERNAL_MEMORY_IMPORT_HANDLE_TYPES_KHR)?.into())
}
pub fn device_semaphore_import_handle_types_khr(&self) -> Result<Vec<u32>> {
Ok(get_device_info(self.id(), CL_DEVICE_SEMAPHORE_IMPORT_HANDLE_TYPES_KHR)?.into())
}
pub fn device_semaphore_export_handle_types_khr(&self) -> Result<Vec<u32>> {
Ok(get_device_info(self.id(), CL_DEVICE_SEMAPHORE_EXPORT_HANDLE_TYPES_KHR)?.into())
}
pub fn device_semaphore_types_khr(&self) -> Result<Vec<u32>> {
Ok(get_device_info(self.id(), CL_DEVICE_SEMAPHORE_TYPES_KHR)?.into())
}
pub fn device_command_buffer_capabilities_khr(&self) -> Result<cl_ulong> {
Ok(get_device_info(self.id(), CL_DEVICE_COMMAND_BUFFER_CAPABILITIES_KHR)?.into())
}
pub fn device_command_buffer_required_queue_properties_khr(&self) -> Result<cl_ulong> {
Ok(get_device_info(
self.id(),
CL_DEVICE_COMMAND_BUFFER_REQUIRED_QUEUE_PROPERTIES_KHR,
)?
.into())
}
/// Get data about an OpenCL device.
/// Calls clGetDeviceInfo to get the desired data about the device.
pub fn get_data(&self, param_name: cl_device_info) -> Result<Vec<u8>> {
Ok(get_device_data(self.id(), param_name)?)
}
/// Determine if the device supports the given half floating point capability.
/// Returns true if the device supports it, false otherwise.
pub fn supports_half(&self, min_fp_capability: cl_device_fp_config) -> bool {
if let Ok(fp) = self.half_fp_config() {
0 < fp & min_fp_capability
} else {
false
}
}
/// Determine if the device supports the given double floating point capability.
/// Returns true if the device supports it, false otherwise.
///
/// CL_VERSION_1_2
pub fn supports_double(&self, min_fp_capability: cl_device_fp_config) -> bool {
if let Ok(fp) = self.double_fp_config() {
0 < fp & min_fp_capability
} else {
false
}
}
/// Determine if the device supports SVM and, if so, what kind of SVM.
/// Returns zero if the device does not support SVM.
///
/// CL_VERSION_2_0
pub fn svm_mem_capability(&self) -> cl_device_svm_capabilities {
if let Ok(svm) = self.svm_capabilities() {
svm
} else {
0
}
}
#[cfg(feature = "cl_khr_external_semaphore")]
pub fn get_semaphore_handle_for_type_khr(
&self,
sema_object: ext::cl_semaphore_khr,
handle_type: ext::cl_external_semaphore_handle_type_khr,
) -> Result<ext::cl_semaphore_khr> {
Ok(ext::get_semaphore_handle_for_type_khr(
sema_object,
self.id(),
handle_type,
)?)
}
}
#[cfg(test)]
mod tests {
use super::*;
use crate::platform::get_platforms;
use cl3::info_type::InfoType;
#[cfg(feature = "CL_VERSION_1_2")]
use std::ptr;
#[test]
fn test_get_devices() {
let platforms = get_platforms().unwrap();
println!("Number of platforms: {}", platforms.len());
assert!(0 < platforms.len());
for platform in platforms {
println!("CL_PLATFORM_NAME: {}", platform.name().unwrap());
let devices = platform.get_devices(CL_DEVICE_TYPE_ALL).unwrap();
for device_id in devices {
let device = Device::new(device_id);
println!("Device Debug Trait: {:?}", device);
println!("\tCL_DEVICE_NAME: {}", device.name().unwrap());
println!("\tCL_DEVICE_TYPE: {:X}", device.dev_type().unwrap());
println!("\tCL_DEVICE_VENDOR_ID: {:X}", device.vendor_id().unwrap());
println!("\tCL_DEVICE_VENDOR: {}", device.vendor().unwrap());
println!(
"\tCL_DEVICE_OPENCL_C_VERSION: {:?}",
device.opencl_c_version().unwrap()
);
println!();
}
}
}
#[cfg(feature = "CL_VERSION_1_2")]
#[test]
fn test_get_sub_devices() {
let platforms = get_platforms().unwrap();
println!("Number of platforms: {}", platforms.len());