Exemplo n.º 1
0
Context::Context(LuxRaysDebugHandler handler, const int openclPlatformIndex,
		const bool verb) {
	debugHandler = handler;
	currentDataSet = NULL;
	started = false;
	verbose = verb;

	// Get the list of devices available on the platform
	NativeThreadDeviceDescription::AddDeviceDescs(deviceDescriptions);

#if !defined(LUXRAYS_DISABLE_OPENCL)
	// Platform info
	VECTOR_CLASS<cl::Platform> platforms;
	cl::Platform::get(&platforms);
	for (size_t i = 0; i < platforms.size(); ++i)
		LR_LOG(this, "OpenCL Platform " << i << ": " << platforms[i].getInfo<CL_PLATFORM_VENDOR>().c_str());

	if (openclPlatformIndex < 0) {
		if (platforms.size() > 0) {
			// Just use all the platforms available
			for (size_t i = 0; i < platforms.size(); ++i)
				OpenCLDeviceDescription::AddDeviceDescs(
					platforms[i], DEVICE_TYPE_OPENCL_ALL,
					deviceDescriptions);
		} else
			LR_LOG(this, "No OpenCL platform available");
	} else {
		if ((platforms.size() == 0) || (openclPlatformIndex >= (int)platforms.size()))
			throw std::runtime_error("Unable to find an appropriate OpenCL platform");
		else {
			OpenCLDeviceDescription::AddDeviceDescs(
				platforms[openclPlatformIndex],
				DEVICE_TYPE_OPENCL_ALL, deviceDescriptions);
		}
	}
#endif

	// Print device info
	for (size_t i = 0; i < deviceDescriptions.size(); ++i) {
		DeviceDescription *desc = deviceDescriptions[i];
		LR_LOG(this, "Device " << i << " name: " <<
			desc->GetName());

		LR_LOG(this, "Device " << i << " type: " <<
			DeviceDescription::GetDeviceType(desc->GetType()));

		LR_LOG(this, "Device " << i << " compute units: " <<
			desc->GetComputeUnits());

		LR_LOG(this, "Device " << i << " preferred float vector width: " <<
			desc->GetNativeVectorWidthFloat());

		LR_LOG(this, "Device " << i << " max allocable memory: " <<
			desc->GetMaxMemory() / (1024 * 1024) << "MBytes");

		LR_LOG(this, "Device " << i << " max allocable memory block size: " <<
			desc->GetMaxMemoryAllocSize() / (1024 * 1024) << "MBytes");
	}
}
Exemplo n.º 2
0
HardwareTreeModel::HardwareTreeModel(MainWindow *w,
		const vector<DeviceDescription *> &devDescs) : QAbstractItemModel() {
	win = w;

	rootItem = new HardwareTreeItem("Hardware");

	// OpenCL devices
	HardwareTreeItem *oclDev = new HardwareTreeItem("OpenCL");
	rootItem->appendChild(oclDev);

	HardwareTreeItem *oclCPUDev = new HardwareTreeItem("CPUs");
	oclDev->appendChild(oclCPUDev);
	HardwareTreeItem *oclGPUDev = new HardwareTreeItem("GPUs and Accelerators");
	oclDev->appendChild(oclGPUDev);

	int index = 0;
	for (size_t i = 0; i < devDescs.size(); ++i) {
		DeviceDescription *devDesc = devDescs[i];

		if (devDesc->GetType() &  DEVICE_TYPE_OPENCL_ALL) {
			const OpenCLDeviceDescription *odevDesc = (OpenCLDeviceDescription *)devDesc;

			HardwareTreeItem *newNode = new HardwareTreeItem(index++, odevDesc->GetName().c_str());

			stringstream ss;
			cl::Platform platform = odevDesc->GetOCLDevice().getInfo<CL_DEVICE_PLATFORM>();
			ss << "Platform: " << platform.getInfo<CL_PLATFORM_VENDOR>();
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Platform Version: " << platform.getInfo<CL_PLATFORM_VERSION>();
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Type: ";
			switch (odevDesc->GetOCLDevice().getInfo<CL_DEVICE_TYPE>()) {
				case CL_DEVICE_TYPE_CPU:
					ss << "CPU";
					break;
				case CL_DEVICE_TYPE_GPU:
					ss << "GPU";
					break;
				case CL_DEVICE_TYPE_ACCELERATOR:
					ss << "ACCELERATOR";
					break;
				default:
					ss << "UNKNOWN";
					break;
			}
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Compute Units: " << odevDesc->GetComputeUnits();
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Clock: " << odevDesc->GetOCLDevice().getInfo<CL_DEVICE_MAX_CLOCK_FREQUENCY>() << " MHz";
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Max. Global Memory: " << (odevDesc->GetMaxMemory() / 1024) << " Kbytes";
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Local Memory: " << (odevDesc->GetOCLDevice().getInfo<CL_DEVICE_LOCAL_MEM_SIZE>() / 1024) << " Kbytes";
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			ss.str("");
			ss << "Max. Constant Memory: " << (odevDesc->GetOCLDevice().getInfo<CL_DEVICE_MAX_CONSTANT_BUFFER_SIZE>() / 1024) << " Kbytes";
			newNode->appendChild(new HardwareTreeItem(ss.str().c_str()));

			bool isCPU = (odevDesc->GetType() == DEVICE_TYPE_OPENCL_CPU);
			if (isCPU) {
				// The default mode is GPU-only
				newNode->setChecked(false);
				oclCPUDev->appendChild(newNode);
			} else {
				newNode->setChecked(true);
				oclGPUDev->appendChild(newNode);
			}
			deviceSelection.push_back(!isCPU);
		}
	}
}