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package com.mbien.opencl;
import com.mbien.opencl.util.CLUtil;
import com.jogamp.common.nio.Int64Buffer;
import com.jogamp.common.os.Platform;
import java.nio.Buffer;
import java.nio.ByteBuffer;
import java.util.ArrayList;
import java.util.Collections;
import java.util.EnumSet;
import java.util.HashSet;
import java.util.List;
import java.util.Map;
import java.util.Scanner;
import java.util.Set;
import static com.mbien.opencl.CL.*;
/**
* This object represents an OpenCL device.
* @see CLPlatform#listCLDevices(com.mbien.opencl.CLDevice.Type...)
* @see CLPlatform#getMaxFlopsDevice(com.mbien.opencl.CLDevice.Type...)
* @see CLContext#getDevices()
* @see CLContext#getMaxFlopsDevice(com.mbien.opencl.CLDevice.Type)
* @author Michael Bien
*/
public final class CLDevice extends CLObject {
private Set<String> extensions;
private final CLDeviceInfoAccessor deviceInfo;
CLDevice(CL cl, long id) {
super(cl, id);
this.deviceInfo = new CLDeviceInfoAccessor();
}
CLDevice(CLContext context, long id) {
super(context, id);
this.deviceInfo = new CLDeviceInfoAccessor();
}
public CLCommandQueue createCommandQueue() {
return createCommandQueue(0);
}
public CLCommandQueue createCommandQueue(CLCommandQueue.Mode property) {
return createCommandQueue(property.QUEUE_MODE);
}
public CLCommandQueue createCommandQueue(CLCommandQueue.Mode... properties) {
int flags = 0;
if(properties != null) {
for (int i = 0; i < properties.length; i++) {
flags |= properties[i].QUEUE_MODE;
}
}
return createCommandQueue(flags);
}
public CLCommandQueue createCommandQueue(long properties) {
if(context == null)
throw new IllegalStateException("this device is not associated with a context");
return context.createCommandQueue(this, properties);
}
/*keep this package private*/
void setContext(CLContext context) {
this.context = context;
}
/**
* Returns the name of this device.
*/
public String getName() {
return deviceInfo.getString(CL_DEVICE_NAME);
}
/**
* Returns the OpenCL profile of this device.
*/
public String getProfile() {
return deviceInfo.getString(CL_DEVICE_PROFILE);
}
/**
* Returns the vendor of this device.
*/
public String getVendor() {
return deviceInfo.getString(CL_DEVICE_VENDOR);
}
/**
* Returns the vendor id of this device.
*/
public long getVendorID() {
return deviceInfo.getLong(CL_DEVICE_VENDOR_ID);
}
/**
* Returns OpenCL version string. Returns the OpenCL version supported by the device.
* This version string has the following format:<br>
* OpenCL[space][major_version.minor_version][space][vendor-specific information]
*/
public String getVersion() {
return deviceInfo.getString(CL_DEVICE_VERSION);
}
/**
* Returns OpenCL software driver version string in the form major_number.minor_number.
*/
public String getDriverVersion() {
return deviceInfo.getString(CL_DRIVER_VERSION);
}
/**
* Returns the type of this device.
*/
public Type getType() {
return Type.valueOf((int)deviceInfo.getLong(CL_DEVICE_TYPE));
}
/**
* The default compute device address space size specified in bits.
* Currently supported values are 32 or 64 bits.
*/
public int getAddressBits() {
return (int)deviceInfo.getLong(CL_DEVICE_ADDRESS_BITS);
}
/**
* Preferred native vector width size for built-in short vectors.
* The vector width is defined as the number of scalar elements that can be stored in the vector.
*/
public int getPreferredShortVectorWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_PREFERRED_VECTOR_WIDTH_SHORT);
}
/**
* Preferred native vector width size for built-in char vectors.
* The vector width is defined as the number of scalar elements that can be stored in the vector.
*/
public int getPreferredCharVectorWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_PREFERRED_VECTOR_WIDTH_CHAR);
}
/**
* Preferred native vector width size for built-in int vectors.
* The vector width is defined as the number of scalar elements that can be stored in the vector.
*/
public int getPreferredIntVectorWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_PREFERRED_VECTOR_WIDTH_INT);
}
/**
* Preferred native vector width size for built-in long vectors.
* The vector width is defined as the number of scalar elements that can be stored in the vector.
*/
public int getPreferredLongVectorWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_PREFERRED_VECTOR_WIDTH_LONG);
}
/**
* Preferred native vector width size for built-in float vectors.
* The vector width is defined as the number of scalar elements that can be stored in the vector.
*/
public int getPreferredFloatVectorWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_PREFERRED_VECTOR_WIDTH_FLOAT);
}
/**
* Preferred native vector width size for built-in double vectors.
* The vector width is defined as the number of scalar elements that can be stored in the vector.
*/
public int getPreferredDoubleVectorWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_PREFERRED_VECTOR_WIDTH_DOUBLE);
}
/**
* Returns the number of parallel compute cores on the OpenCL device.
* The minimum value is 1.
*/
public int getMaxComputeUnits() {
return (int) deviceInfo.getLong(CL_DEVICE_MAX_COMPUTE_UNITS);
}
/**
* Returns the maximum number of work-items in a work-group executing
* a kernel using the data parallel execution model.
* The minimum value is 1.
*/
public int getMaxWorkGroupSize() {
return (int) deviceInfo.getLong(CL_DEVICE_MAX_WORK_GROUP_SIZE);
}
/**
* Returns the maximum configured clock frequency of the device in MHz.
*/
public int getMaxClockFrequency() {
return (int) (deviceInfo.getLong(CL_DEVICE_MAX_CLOCK_FREQUENCY));
}
/**
* Returns the maximum dimensions that specify the global and local work-item
* IDs used by the data parallel execution model.
* The minimum value is 3.
*/
public int getMaxWorkItemDimensions() {
return (int) deviceInfo.getLong(CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS);
}
/**
* Returns the maximum number of work-items that can be specified in each
* dimension of the work-group.
* The minimum value is (1, 1, 1).
*/
public int[] getMaxWorkItemSizes() {
int n = (int) deviceInfo.getLong(CL_DEVICE_MAX_WORK_ITEM_DIMENSIONS);
return deviceInfo.getInts(n, CL_DEVICE_MAX_WORK_ITEM_SIZES);
}
/**
* Returns the max size in bytes of the arguments that can be passed to a kernel.
* The minimum value is 256.
*/
public long getMaxParameterSize() {
return deviceInfo.getLong(CL_DEVICE_MAX_PARAMETER_SIZE);
}
/**
* Returns the maximal allocatable memory on this device.
*/
public long getMaxMemAllocSize() {
return deviceInfo.getLong(CL_DEVICE_MAX_MEM_ALLOC_SIZE);
}
/**
* Returns the global memory size in bytes.
*/
public long getGlobalMemSize() {
return deviceInfo.getLong(CL_DEVICE_GLOBAL_MEM_SIZE);
}
/**
* Returns the local memory size in bytes.
*/
public long getLocalMemSize() {
return deviceInfo.getLong(CL_DEVICE_LOCAL_MEM_SIZE);
}
/**
* Returns the max size in bytes of a constant buffer allocation.
* The minimum value is 64 KB.
*/
public long getMaxConstantBufferSize() {
return deviceInfo.getLong(CL_DEVICE_MAX_CONSTANT_BUFFER_SIZE);
}
/**
* Returns the size of global memory cache line in bytes.
*/
public long getGlobalMemCachelineSize() {
return deviceInfo.getLong(CL_DEVICE_GLOBAL_MEM_CACHELINE_SIZE);
}
/**
* Returns the size of global memory cache in bytes.
*/
public long getGlobalMemCacheSize() {
return deviceInfo.getLong(CL_DEVICE_GLOBAL_MEM_CACHE_SIZE);
}
/**
* Returns the max number of arguments declared with the <code>constant</code>
* qualifier in a kernel. The minimum value is 8.
*/
public long getMaxConstantArgs() {
return deviceInfo.getLong(CL_DEVICE_MAX_CONSTANT_ARGS);
}
/**
* Returns true if images are supported by the OpenCL device and false otherwise.
*/
public boolean isImageSupportAvailable() {
return deviceInfo.getLong(CL_DEVICE_IMAGE_SUPPORT) == CL_TRUE;
}
/**
* Returns the max number of simultaneous image objects that can be read by a kernel.
* The minimum value is 128 if image support is available.
*/
public int getMaxReadImageArgs() {
return (int)deviceInfo.getLong(CL_DEVICE_MAX_READ_IMAGE_ARGS);
}
/**
* Returns the max number of simultaneous image objects that can be written by a kernel.
* The minimum value is 8 if image support is available.
*/
public int getMaxWriteImageArgs() {
return (int)deviceInfo.getLong(CL_DEVICE_MAX_WRITE_IMAGE_ARGS);
}
/**
* Returns the max width of 2D image in pixels. The minimum value is 8192 if
* image support is available.
*/
public int getMaxImage2dWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_IMAGE2D_MAX_WIDTH);
}
/**
* Returns the max height of 2D image in pixels. The minimum value is 8192 if
* image support is available.
*/
public int getMaxImage2dHeight() {
return (int)deviceInfo.getLong(CL_DEVICE_IMAGE2D_MAX_HEIGHT);
}
/**
* Returns the max width of 3D image in pixels. The minimum value is 2048 if
* image support is available.
*/
public int getMaxImage3dWidth() {
return (int)deviceInfo.getLong(CL_DEVICE_IMAGE3D_MAX_WIDTH);
}
/**
* Returns the max height of 3D image in pixels. The minimum value is 2048 if
* image support is available.
*/
public int getMaxImage3dHeight() {
return (int)deviceInfo.getLong(CL_DEVICE_IMAGE3D_MAX_HEIGHT);
}
/**
* Returns the max depth of 3D image in pixels. The minimum value is 2048 if
* image support is available.
*/
public int getMaxImage3dDepth() {
return (int)deviceInfo.getLong(CL_DEVICE_IMAGE3D_MAX_DEPTH);
}
/**
* Returns the maximum number of samplers that can be used in a kernel. The
* minimum value is 16 if image support is available.
*/
public int getMaxSamplers() {
return (int)deviceInfo.getLong(CL_DEVICE_MAX_SAMPLERS);
}
/**
* Returns the resolution of device timer. This is measured in nanoseconds.
*/
public long getProfilingTimerResolution() {
return deviceInfo.getLong(CL_DEVICE_PROFILING_TIMER_RESOLUTION);
}
/**
* Returns the execution capabilities as EnumSet.
*/
public EnumSet<Capabilities> getExecutionCapabilities() {
return Capabilities.valuesOf((int)deviceInfo.getLong(CL_DEVICE_EXECUTION_CAPABILITIES));
}
/**
* Returns the optional half precision floating-point capability of the device.
* The required minimum half precision floating-point capabilities as implemented by this
* extension are {@link FPConfig#ROUND_TO_ZERO}, {@link FPConfig#ROUND_TO_INF}
* and {@link FPConfig#INF_NAN}.
* @return An EnumSet containing the extensions, never null.
*/
public EnumSet<FPConfig> getHalfFPConfig() {
if(isHalfFPAvailable())
return FPConfig.valuesOf((int)deviceInfo.getLong(CL_DEVICE_HALF_FP_CONFIG));
else
return EnumSet.noneOf(FPConfig.class);
}
/**
* Returns the single precision floating-point capability of the device.
* The mandated minimum floating-point capabilities are {@link FPConfig#ROUND_TO_NEAREST} and
* {@link FPConfig#INF_NAN}.
* @return An EnumSet containing the extensions, never null.
*/
public EnumSet<FPConfig> getSingleFPConfig() {
return FPConfig.valuesOf((int)deviceInfo.getLong(CL_DEVICE_SINGLE_FP_CONFIG));
}
/**
* Returns the optional double precision floating-point capability of the device.
* The mandated minimum double precision floating-point capabilities are {@link FPConfig#FMA},
* {@link FPConfig#ROUND_TO_NEAREST}, {@link FPConfig#ROUND_TO_ZERO},
* {@link FPConfig#ROUND_TO_INF}, {@link FPConfig#INF_NAN}, and {@link FPConfig#DENORM}.
* @return An EnumSet containing the extensions, never null.
*/
public EnumSet<FPConfig> getDoubleFPConfig() {
if(isDoubleFPAvailable())
return FPConfig.valuesOf((int)deviceInfo.getLong(CL_DEVICE_DOUBLE_FP_CONFIG));
else
return EnumSet.noneOf(FPConfig.class);
}
/**
* Returns the local memory type.
*/
public LocalMemType getLocalMemType() {
return LocalMemType.valueOf((int)deviceInfo.getLong(CL_DEVICE_LOCAL_MEM_TYPE));
}
/**
* Returns the type of global memory cache supported.
*/
public GlobalMemCacheType getGlobalMemCacheType() {
return GlobalMemCacheType.valueOf((int)deviceInfo.getLong(CL_DEVICE_GLOBAL_MEM_CACHE_TYPE));
}
/**
* Returns the command-queue properties supported by the device.
*/
public EnumSet<CLCommandQueue.Mode> getQueueProperties() {
return CLCommandQueue.Mode.valuesOf((int)deviceInfo.getLong(CL_DEVICE_QUEUE_PROPERTIES));
}
/**
* Returns true if this device is available.
*/
public boolean isAvailable() {
return deviceInfo.getLong(CL_DEVICE_AVAILABLE) == CL_TRUE;
}
/**
* Returns false if the implementation does not have a compiler available to
* compile the program source. Is true if the compiler is available.
* This can be false for the OpenCL ES profile only.
*/
public boolean isCompilerAvailable() {
return deviceInfo.getLong(CL_DEVICE_COMPILER_AVAILABLE) == CL_TRUE;
}
/**
* Returns true if the OpenCL device is a little endian device and false otherwise.
*/
public boolean isLittleEndian() {
return deviceInfo.getLong(CL_DEVICE_ENDIAN_LITTLE) == CL_TRUE;
}
/**
* Returns true if the device implements error correction for the memories,
* caches, registers etc. in the device. Is false if the device does not
* implement error correction.
*/
public boolean isErrorCorrectionSupported() {
return deviceInfo.getLong(CL_DEVICE_ERROR_CORRECTION_SUPPORT) == CL_TRUE;
}
/**
* Returns {@link #isExtensionAvailable}("cl_khr_fp16").
* @see #getExtensions()
*/
public boolean isHalfFPAvailable() {
return isExtensionAvailable("cl_khr_fp16");
}
/**
* Returns {@link #isExtensionAvailable}("cl_khr_fp64").
* @see #getExtensions()
*/
public boolean isDoubleFPAvailable() {
return isExtensionAvailable("cl_khr_fp64");
}
/**
* Returns {@link #isExtensionAvailable}("cl_khr_gl_sharing") || {@link #isExtensionAvailable}("cl_apple_gl_sharing").
* @see #getExtensions()
*/
public boolean isGLMemorySharingSupported() {
return isExtensionAvailable("cl_khr_gl_sharing") || isExtensionAvailable("cl_apple_gl_sharing");
}
/**
* Returns true if the extension is supported on this device.
* @see #getExtensions()
*/
public boolean isExtensionAvailable(String extension) {
return getExtensions().contains(extension);
}
/**
* Returns all device extension names as unmodifiable Set.
*/
public Set<String> getExtensions() {
if(extensions == null) {
extensions = new HashSet<String>();
String ext = deviceInfo.getString(CL_DEVICE_EXTENSIONS);
Scanner scanner = new Scanner(ext);
while(scanner.hasNext())
extensions.add(scanner.next());
extensions = Collections.unmodifiableSet(extensions);
}
return extensions;
}
/**
* Returns a Map of device properties with the enum names as keys.
* @see CLUtil#obtainDeviceProperties(com.mbien.opencl.CLDevice)
*/
public Map<String, String> getProperties() {
return CLUtil.obtainDeviceProperties(this);
}
private final class CLDeviceInfoAccessor extends CLInfoAccessor {
@Override
protected int getInfo(int name, long valueSize, Buffer value, Int64Buffer valueSizeRet) {
return cl.clGetDeviceInfo(ID, name, valueSize, value, valueSizeRet);
}
private int[] getInts(int n, int key) {
ByteBuffer buffer = localBB.get();
int ret = getInfo(key, buffer.capacity(), buffer, null);
CLException.checkForError(ret, "error while asking device for infos");
int[] array = new int[n];
for(int i = 0; i < array.length; i++) {
if(Platform.is32Bit()) {
array[i] = buffer.getInt();
}else{
array[i] = (int)buffer.getLong();
}
}
buffer.rewind();
return array;
}
}
@Override
public String toString() {
return "CLDevice [id: " + ID
+ " name: " + getName()
+ " type: " + getType()
+ " profile: " + getProfile()+"]";
}
@Override
public boolean equals(Object obj) {
if (obj == null) {
return false;
}
if (getClass() != obj.getClass()) {
return false;
}
final CLDevice other = (CLDevice) obj;
if (this.ID != other.ID) {
return false;
}
return true;
}
@Override
public int hashCode() {
int hash = 3;
hash = 79 * hash + (int) (this.ID ^ (this.ID >>> 32));
return hash;
}
/**
* Enumeration for the execution capabilities of the device.
*/
public enum Capabilities {
/**
* The OpenCL device can execute OpenCL kernels.
*/
EXEC_KERNEL(CL_EXEC_KERNEL),
/**
* The OpenCL device can execute native kernels.
*/
EXEC_NATIVE_KERNEL(CL_EXEC_NATIVE_KERNEL);
/**
* Value of wrapped OpenCL device type.
*/
public final int CAPS;
private Capabilities(int type) {
this.CAPS = type;
}
public static Capabilities valueOf(int caps) {
switch(caps) {
case(CL_EXEC_KERNEL):
return EXEC_KERNEL;
case(CL_EXEC_NATIVE_KERNEL):
return EXEC_NATIVE_KERNEL;
}
return null;
}
public static EnumSet<Capabilities> valuesOf(int bitfield) {
if((EXEC_KERNEL.CAPS & bitfield) != 0) {
if((EXEC_NATIVE_KERNEL.CAPS & bitfield) != 0) {
return EnumSet.of(EXEC_KERNEL, EXEC_NATIVE_KERNEL);
}else{
return EnumSet.of(EXEC_KERNEL);
}
}else if((EXEC_NATIVE_KERNEL.CAPS & bitfield) != 0){
return EnumSet.of(EXEC_NATIVE_KERNEL);
}
return null;
}
}
/**
* Enumeration for the type of a device.
*/
public enum Type {
/**
* CL_DEVICE_TYPE_CPU
*/
CPU(CL_DEVICE_TYPE_CPU),
/**
* CL_DEVICE_TYPE_GPU
*/
GPU(CL_DEVICE_TYPE_GPU),
/**
* CL_DEVICE_TYPE_ACCELERATOR
*/
ACCELERATOR(CL_DEVICE_TYPE_ACCELERATOR),
/**
* CL_DEVICE_TYPE_DEFAULT. This type can be used for creating a context on
* the default device, a single device can never have this type.
*/
DEFAULT(CL_DEVICE_TYPE_DEFAULT),
/**
* CL_DEVICE_TYPE_ALL. This type can be used for creating a context on
* all devices, a single device can never have this type.
*/
ALL(CL_DEVICE_TYPE_ALL);
/**
* Value of wrapped OpenCL device type.
*/
public final long TYPE;
private Type(long type) {
this.TYPE = type;
}
public static Type valueOf(long clDeviceType) {
if(clDeviceType == CL_DEVICE_TYPE_ALL)
return ALL;
switch((int)clDeviceType) {
case(CL_DEVICE_TYPE_DEFAULT):
return DEFAULT;
case(CL_DEVICE_TYPE_CPU):
return CPU;
case(CL_DEVICE_TYPE_GPU):
return GPU;
case(CL_DEVICE_TYPE_ACCELERATOR):
return ACCELERATOR;
}
return null;
}
}
/**
* Describes floating-point capability of the device.
* Zero or more values are possible.
*/
public enum FPConfig {
/**
* denorms are supported.
*/
DENORM(CL_FP_DENORM),
/**
* INF and quiet NaNs are supported.
*/
INF_NAN(CL_FP_INF_NAN),
/**
* round to nearest rounding mode supported.
*/
ROUND_TO_NEAREST(CL_FP_ROUND_TO_NEAREST),
/**
* round to +ve and –ve infinity rounding modes supported.
*/
ROUND_TO_INF(CL_FP_ROUND_TO_INF),
/**
* round to zero rounding mode supported.
*/
ROUND_TO_ZERO(CL_FP_ROUND_TO_ZERO),
/**
* IEEE754-2008 fused multiply-add is supported.
*/
FMA(CL_FP_FMA);
/**
* Value of wrapped OpenCL bitfield.
*/
public final int CONFIG;
private FPConfig(int config) {
this.CONFIG = config;
}
/**
* Returns a EnumSet for the given bitfield.
*/
public static EnumSet<FPConfig> valuesOf(int bitfield) {
List<FPConfig> matching = new ArrayList<FPConfig>();
FPConfig[] values = FPConfig.values();
for (FPConfig value : values) {
if((value.CONFIG & bitfield) != 0)
matching.add(value);
}
if(matching.isEmpty())
return EnumSet.noneOf(FPConfig.class);
else
return EnumSet.copyOf(matching);
}
}
/**
* Type of global memory cache supported.
*/
public enum GlobalMemCacheType {
/**
* Global memory cache not supported.
*/
NONE(CL_NONE),
/**
* Read only cache.
*/
READ_ONLY(CL_READ_ONLY_CACHE),
/**
* Read-write cache.
*/
READ_WRITE(CL_READ_WRITE_CACHE);
/**
* Value of wrapped OpenCL value.
*/
public final int TYPE;
private GlobalMemCacheType(int type) {
this.TYPE = type;
}
/**
* Returns the matching GlobalMemCacheType for the given cl type.
*/
public static GlobalMemCacheType valueOf(int bitfield) {
GlobalMemCacheType[] values = GlobalMemCacheType.values();
for (GlobalMemCacheType value : values) {
if(value.TYPE == bitfield)
return value;
}
return null;
}
}
/**
* Type of local memory cache supported.
*/
public enum LocalMemType {
/**
* GLOBAL implies that no dedicated memory storage is available (global mem is used instead).
*/
GLOBAL(CL_GLOBAL),
/**
* LOCAL implies dedicated local memory storage such as SRAM.
*/
LOCAL(CL_LOCAL);
/**
* Value of wrapped OpenCL value.
*/
public final int TYPE;
private LocalMemType(int type) {
this.TYPE = type;
}
/**
* Returns the matching LocalMemCacheType for the given cl type.
*/
public static LocalMemType valueOf(int clLocalCacheType) {
if(clLocalCacheType == CL_GLOBAL)
return GLOBAL;
else if(clLocalCacheType == CL_LOCAL)
return LOCAL;
return null;
}
}
}
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