private void InitVendorFeatures()
{
// Check major vendor features
if (CLAPI.GetDeviceInfo(
DeviceId,
CLDeviceInfoType.CL_DEVICE_WARP_SIZE_NV,
out int warpSize) == CLError.CL_SUCCESS)
{
// Nvidia platform
WarpSize = warpSize;
Vendor = CLAcceleratorVendor.Nvidia;
int major = CLAPI.GetDeviceInfo <int>(
DeviceId,
CLDeviceInfoType.CL_DEVICE_COMPUTE_CAPABILITY_MAJOR_NV);
int minor = CLAPI.GetDeviceInfo <int>(
DeviceId,
CLDeviceInfoType.CL_DEVICE_COMPUTE_CAPABILITY_MINOR_NV);
if (major < 7 || major == 7 && minor < 5)
{
MaxNumThreadsPerMultiprocessor *= 2;
}
}
else if (CLAPI.GetDeviceInfo(
DeviceId,
CLDeviceInfoType.CL_DEVICE_WAVEFRONT_WIDTH_AMD,
out int wavefrontSize) == CLError.CL_SUCCESS)
{
// AMD platform
WarpSize = wavefrontSize;
Vendor = CLAcceleratorVendor.AMD;
}
else
{
Vendor = VendorName.Contains(CLAcceleratorVendor.Intel.ToString()) ?
CLAcceleratorVendor.Intel :
CLAcceleratorVendor.Other;
// Compile dummy kernel to resolve additional information
CLException.ThrowIfFailed(CLKernel.LoadKernel(
this,
DummyKernelSource,
out IntPtr programPtr,
out IntPtr kernelPtr));
try
{
// Resolve information
WarpSize = CLAPI.GetKernelWorkGroupInfo <IntPtr>(
kernelPtr,
DeviceId,
CLKernelWorkGroupInfoType.CL_KERNEL_PREFERRED_WORK_GROUP_SIZE_MULTIPLE).ToInt32();
}
finally
{
CLException.ThrowIfFailed(
CLAPI.ReleaseKernel(kernelPtr) |
CLAPI.ReleaseProgram(programPtr));
}
}
}
/// <summary cref="DisposeBase.Dispose(bool)"/>
protected override void Dispose(bool disposing)
{
CLException.ThrowIfFailed(
CLAPI.ReleaseKernel(kernelPtr) |
CLAPI.ReleaseProgram(programPtr));
programPtr = IntPtr.Zero;
kernelPtr = IntPtr.Zero;
}
private void InitSubGroupSupport(CLAcceleratorId acceleratorId)
{
// Check sub group support
if (!(SubGroupSupport = acceleratorId.HasAnyExtension(SubGroupExtensions)))
{
return;
}
// Verify support using a simple kernel
if (CLKernel.LoadKernel(
this,
DummySubGroupKernelSource,
CVersion,
out IntPtr programPtr,
out IntPtr kernelPtr,
out var _) == CLError.CL_SUCCESS)
{
// Some drivers return an internal handler delegate
// that crashes during invocation instead of telling that the
// sub-group feature is not supported
try
{
var localGroupSizes = new IntPtr[]
{
new IntPtr(MaxNumThreadsPerGroup)
};
SubGroupSupport = acceleratorId.TryGetKernelSubGroupInfo(
kernelPtr,
DeviceId,
CLKernelSubGroupInfoType
.CL_KERNEL_MAX_SUB_GROUP_SIZE_FOR_NDRANGE_KHR,
localGroupSizes,
out IntPtr subGroupSize);
WarpSize = subGroupSize.ToInt32();
}
catch (AccessViolationException)
{
// This exception can be raised due to driver issues
// on several platforms -> we will just disable sub-group
// support for these platforms
SubGroupSupport = false;
}
finally
{
CLException.ThrowIfFailed(
CLAPI.ReleaseKernel(kernelPtr));
CLException.ThrowIfFailed(
CLAPI.ReleaseProgram(programPtr));
}
}
}
/// <summary>
/// Loads the given OpenCL kernel.
/// </summary>
/// <param name="accelerator">The associated accelerator.</param>
/// <param name="source">The OpenCL source code.</param>
/// <param name="version">The OpenCL C version.</param>
/// <param name="programPtr">The created program pointer.</param>
/// <param name="kernelPtr">The created kernel pointer.</param>
/// <param name="errorLog">The error log (if any).</param>
/// <returns>True, if the program and the kernel could be loaded successfully.</returns>
internal static CLError LoadKernel(
CLAccelerator accelerator,
string source,
CLCVersion version,
out IntPtr programPtr,
out IntPtr kernelPtr,
out string errorLog)
{
errorLog = null;
kernelPtr = IntPtr.Zero;
var programError = CLAPI.CreateProgram(
accelerator.ContextPtr,
source,
out programPtr);
if (programError != CLError.CL_SUCCESS)
{
return(programError);
}
// Specify the OpenCL C version.
string options = "-cl-std=" + version.ToString();
var buildError = CLAPI.BuildProgram(
programPtr,
accelerator.DeviceId,
options);
if (buildError != CLError.CL_SUCCESS)
{
CLException.ThrowIfFailed(
CLAPI.GetProgramBuildLog(
programPtr,
accelerator.DeviceId,
out errorLog));
CLException.ThrowIfFailed(
CLAPI.ReleaseProgram(programPtr));
programPtr = IntPtr.Zero;
return(buildError);
}
return(CLAPI.CreateKernel(
programPtr,
CLCompiledKernel.EntryName,
out kernelPtr));
}
/// <summary>
/// Loads the given OpenCL kernel.
/// </summary>
/// <param name="accelerator">The associated accelerator.</param>
/// <param name="source">The OpenCL source code.</param>
/// <param name="programPtr">The created program pointer.</param>
/// <param name="kernelPtr">The created kernel pointer.</param>
/// <returns>True, if the program and the kernel could be loaded successfully.</returns>
internal static CLError LoadKernel(
CLAccelerator accelerator,
string source,
out IntPtr programPtr,
out IntPtr kernelPtr)
{
kernelPtr = IntPtr.Zero;
var error = CLAPI.CreateProgram(
accelerator.ContextPtr,
source,
out programPtr);
if (error != CLError.CL_SUCCESS)
{
return(error);
}
// TODO: OpenCL compiler options
string options = string.Empty;
error |= CLAPI.BuildProgram(
programPtr,
accelerator.DeviceId,
options);
error |= CLAPI.CreateKernel(
programPtr,
CLCompiledKernel.EntryName,
out kernelPtr);
if (error != CLError.CL_SUCCESS)
{
CLException.ThrowIfFailed(
CLAPI.ReleaseProgram(programPtr));
programPtr = IntPtr.Zero;
}
return(error);
}