public NvidiaGpu(int adapterIndex, NvApi.NvPhysicalGpuHandle handle, NvApi.NvDisplayHandle?displayHandle, ISettings settings) : base(GetName(handle), new Identifier("gpu", adapterIndex.ToString(CultureInfo.InvariantCulture)), settings) { _adapterIndex = adapterIndex; _handle = handle; _displayHandle = displayHandle; bool hasPciBusId = NvApi.NvAPI_GPU_GetBusId(handle, out uint busId) == NvApi.NvStatus.OK; NvApi.NvGPUThermalSettings thermalSettings = GetThermalSettings(); _temperatures = new Sensor[thermalSettings.Count]; for (int i = 0; i < _temperatures.Length; i++) { NvApi.NvSensor sensor = thermalSettings.Sensor[i]; string name; switch (sensor.Target) { case NvApi.NvThermalTarget.BOARD: name = "GPU Board"; break; case NvApi.NvThermalTarget.GPU: name = "GPU Core"; break; case NvApi.NvThermalTarget.MEMORY: name = "GPU Memory"; break; case NvApi.NvThermalTarget.POWER_SUPPLY: name = "GPU Power Supply"; break; case NvApi.NvThermalTarget.UNKNOWN: name = "GPU Unknown"; break; default: name = "GPU"; break; } _temperatures[i] = new Sensor(name, i, SensorType.Temperature, this, new ParameterDescription[0], settings); ActivateSensor(_temperatures[i]); } if (NvApi.NvAPI_GPU_GetTachReading != null && NvApi.NvAPI_GPU_GetTachReading(handle, out _) == NvApi.NvStatus.OK) { _fan = new Sensor("GPU", 0, SensorType.Fan, this, settings); } else if (NvApi.NvAPI_GPU_ClientFanCoolersGetStatus != null && GetCoolerSettings().Count > 0) { _fan = new Sensor("GPU", 0, SensorType.Fan, this, settings); } _clocks = new Sensor[3]; _clocks[0] = new Sensor("GPU Core", 0, SensorType.Clock, this, settings); _clocks[1] = new Sensor("GPU Memory", 1, SensorType.Clock, this, settings); _clocks[2] = new Sensor("GPU Shader", 2, SensorType.Clock, this, settings); for (int i = 0; i < _clocks.Length; i++) { ActivateSensor(_clocks[i]); } _loads = new Sensor[4]; _loads[0] = new Sensor("GPU Core", 0, SensorType.Load, this, settings); _loads[1] = new Sensor("GPU Memory Controller", 1, SensorType.Load, this, settings); _loads[2] = new Sensor("GPU Video Engine", 2, SensorType.Load, this, settings); _loads[3] = new Sensor("GPU Bus", 4, SensorType.Load, this, settings); _memoryLoad = new Sensor("GPU Memory", 3, SensorType.Load, this, settings); _memoryFree = new Sensor("GPU Memory Free", 1, SensorType.SmallData, this, settings); _memoryUsed = new Sensor("GPU Memory Used", 2, SensorType.SmallData, this, settings); _memoryAvail = new Sensor("GPU Memory Total", 3, SensorType.SmallData, this, settings); _control = new Sensor("GPU Fan", 0, SensorType.Control, this, settings); NvApi.NvGPUCoolerSettings coolerSettings = GetCoolerSettings(); if (coolerSettings.Count > 0) { _fanControl = new Control(_control, settings, coolerSettings.Cooler[0].DefaultMin, coolerSettings.Cooler[0].DefaultMax); _fanControl.ControlModeChanged += ControlModeChanged; _fanControl.SoftwareControlValueChanged += SoftwareControlValueChanged; ControlModeChanged(_fanControl); _control.Control = _fanControl; } if (NvidiaML.IsAvailable) { if (hasPciBusId) { _nvmlDevice = NvidiaML.NvmlDeviceGetHandleByPciBusId($" 0000:{busId:X2}:00.0") ?? NvidiaML.NvmlDeviceGetHandleByIndex(_adapterIndex); } else { _nvmlDevice = NvidiaML.NvmlDeviceGetHandleByIndex(_adapterIndex); } if (_nvmlDevice.HasValue) { _powerUsage = new Sensor("GPU Package", 0, SensorType.Power, this, settings); _pcieThroughputRx = new Sensor("GPU PCIe Rx", 0, SensorType.Throughput, this, settings); _pcieThroughputTx = new Sensor("GPU PCIe Tx", 1, SensorType.Throughput, this, settings); } } Update(); }
public NvidiaGpu(int adapterIndex, NvApi.NvPhysicalGpuHandle handle, NvApi.NvDisplayHandle?displayHandle, ISettings settings) : base(GetName(handle), new Identifier("gpu-nvidia", adapterIndex.ToString(CultureInfo.InvariantCulture)), settings) { _adapterIndex = adapterIndex; _handle = handle; _displayHandle = displayHandle; bool hasPciBusId = NvApi.NvAPI_GPU_GetBusId(handle, out uint busId) == NvApi.NvStatus.OK; NvApi.NvGPUThermalSettings thermalSettings = GetThermalSettings(); _temperatures = new Sensor[thermalSettings.Count]; for (int i = 0; i < _temperatures.Length; i++) { NvApi.NvSensor sensor = thermalSettings.Sensor[i]; string name; switch (sensor.Target) { case NvApi.NvThermalTarget.BOARD: name = "GPU Board"; break; case NvApi.NvThermalTarget.GPU: name = "GPU Core"; break; case NvApi.NvThermalTarget.MEMORY: name = "GPU Memory"; break; case NvApi.NvThermalTarget.POWER_SUPPLY: name = "GPU Power Supply"; break; case NvApi.NvThermalTarget.UNKNOWN: name = "GPU Unknown"; break; default: name = "GPU"; break; } _temperatures[i] = new Sensor(name, i, SensorType.Temperature, this, new ParameterDescription[0], settings); ActivateSensor(_temperatures[i]); } if (NvApi.NvAPI_GPU_GetTachReading != null && NvApi.NvAPI_GPU_GetTachReading(handle, out _) == NvApi.NvStatus.OK) { _fan = new Sensor("GPU", 0, SensorType.Fan, this, settings); } else if (NvApi.NvAPI_GPU_ClientFanCoolersGetStatus != null && GetCoolerSettings().Count > 0) { _fan = new Sensor("GPU", 0, SensorType.Fan, this, settings); } _clocks = new Sensor[3]; _clocks[0] = new Sensor("GPU Core", 0, SensorType.Clock, this, settings); _clocks[1] = new Sensor("GPU Memory", 1, SensorType.Clock, this, settings); _clocks[2] = new Sensor("GPU Shader", 2, SensorType.Clock, this, settings); for (int i = 0; i < _clocks.Length; i++) { ActivateSensor(_clocks[i]); } _loads = new Sensor[4]; _loads[0] = new Sensor("GPU Core", 0, SensorType.Load, this, settings); _loads[1] = new Sensor("GPU Memory Controller", 1, SensorType.Load, this, settings); _loads[2] = new Sensor("GPU Video Engine", 2, SensorType.Load, this, settings); _loads[3] = new Sensor("GPU Bus", 4, SensorType.Load, this, settings); _memoryLoad = new Sensor("GPU Memory", 3, SensorType.Load, this, settings); _memoryFree = new Sensor("GPU Memory Free", 1, SensorType.SmallData, this, settings); _memoryUsed = new Sensor("GPU Memory Used", 2, SensorType.SmallData, this, settings); _memoryAvail = new Sensor("GPU Memory Total", 3, SensorType.SmallData, this, settings); _control = new Sensor("GPU Fan", 0, SensorType.Control, this, settings); NvApi.NvGPUCoolerSettings coolerSettings = GetCoolerSettings(); if (coolerSettings.Count > 0) { _fanControl = new Control(_control, settings, coolerSettings.Cooler[0].DefaultMin, coolerSettings.Cooler[0].DefaultMax); _fanControl.ControlModeChanged += ControlModeChanged; _fanControl.SoftwareControlValueChanged += SoftwareControlValueChanged; ControlModeChanged(_fanControl); _control.Control = _fanControl; } if (NvidiaML.IsAvailable || NvidiaML.Initialize()) { if (hasPciBusId) { _nvmlDevice = NvidiaML.NvmlDeviceGetHandleByPciBusId($" 0000:{busId:X2}:00.0") ?? NvidiaML.NvmlDeviceGetHandleByIndex(_adapterIndex); } else { _nvmlDevice = NvidiaML.NvmlDeviceGetHandleByIndex(_adapterIndex); } if (_nvmlDevice.HasValue) { _powerUsage = new Sensor("GPU Package", 0, SensorType.Power, this, settings); _pcieThroughputRx = new Sensor("GPU PCIe Rx", 0, SensorType.Throughput, this, settings); _pcieThroughputTx = new Sensor("GPU PCIe Tx", 1, SensorType.Throughput, this, settings); if (!Software.OperatingSystem.IsUnix) { NvidiaML.NvmlPciInfo?pciInfo = NvidiaML.NvmlDeviceGetPciInfo(_nvmlDevice.Value); if (pciInfo is { } pci) { string[] deviceIdentifiers = D3DDisplayDevice.GetDeviceIdentifiers(); if (deviceIdentifiers != null) { foreach (string deviceIdentifier in deviceIdentifiers) { if (deviceIdentifier.IndexOf("VEN_" + pci.pciVendorId.ToString("X"), StringComparison.OrdinalIgnoreCase) != -1 && deviceIdentifier.IndexOf("DEV_" + pci.pciDeviceId.ToString("X"), StringComparison.OrdinalIgnoreCase) != -1 && deviceIdentifier.IndexOf("SUBSYS_" + pci.pciSubSystemId.ToString("X"), StringComparison.OrdinalIgnoreCase) != -1) { bool isMatch = false; try { if (Registry.GetValue(@"HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Services\nvlddmkm\Enum", adapterIndex.ToString(), null) is string adapterPnpId) { if (deviceIdentifier.IndexOf(adapterPnpId.Replace('\\', '#'), StringComparison.OrdinalIgnoreCase) != -1) { isMatch = true; } } } catch { // Ignored. } if (!isMatch) { try { string path = deviceIdentifier; if (path.StartsWith(@"\\?\")) { path = path.Substring(4); } path = path.Replace('#', '\\'); int index = path.IndexOf('{'); if (index != -1) { path = path.Substring(0, index); } path = @"HKEY_LOCAL_MACHINE\SYSTEM\CurrentControlSet\Enum\" + path; if (Registry.GetValue(path, "LocationInformation", null) is string locationInformation) { // For example: // @System32\drivers\pci.sys,#65536;PCI bus %1, device %2, function %3;(38,0,0) index = locationInformation.IndexOf('('); if (index != -1) { index++; int secondIndex = locationInformation.IndexOf(',', index); if (secondIndex != -1) { string bus = locationInformation.Substring(index, secondIndex - index); if (pci.bus.ToString() == bus) { isMatch = true; } } } } } catch { // Ignored. } } if (isMatch && D3DDisplayDevice.GetDeviceInfoByIdentifier(deviceIdentifier, out D3DDisplayDevice.D3DDeviceInfo deviceInfo)) { _windowsDeviceName = deviceIdentifier; _gpuDedicatedMemoryUsage = new Sensor("D3D Dedicated Memory Used", _memorySensorIndex++, SensorType.SmallData, this, settings); _gpuSharedMemoryUsage = new Sensor("D3D Shared Memory Used", _memorySensorIndex++, SensorType.SmallData, this, settings); _gpuNodeUsage = new Sensor[deviceInfo.Nodes.Length]; _gpuNodeUsagePrevValue = new long[deviceInfo.Nodes.Length]; _gpuNodeUsagePrevTick = new DateTime[deviceInfo.Nodes.Length]; foreach (D3DDisplayDevice.D3DDeviceNodeInfo node in deviceInfo.Nodes) { _gpuNodeUsage[node.Id] = new Sensor(node.Name, _nodeSensorIndex++, SensorType.Load, this, settings); _gpuNodeUsagePrevValue[node.Id] = node.RunningTime; _gpuNodeUsagePrevTick[node.Id] = node.QueryTime; } } } } } } } } } Update(); }
public override string GetReport() { StringBuilder r = new(); r.AppendLine("Nvidia GPU"); r.AppendLine(); r.AppendFormat("Name: {0}{1}", _name, Environment.NewLine); r.AppendFormat("Index: {0}{1}", _adapterIndex, Environment.NewLine); if (_displayHandle.HasValue && NvApi.NvAPI_GetDisplayDriverVersion != null) { NvApi.NvDisplayDriverVersion driverVersion = new() { Version = NvApi.DISPLAY_DRIVER_VERSION_VER }; if (NvApi.NvAPI_GetDisplayDriverVersion(_displayHandle.Value, ref driverVersion) == NvApi.NvStatus.OK) { r.Append("Driver Version: "); r.Append(driverVersion.DriverVersion / 100); r.Append("."); r.Append((driverVersion.DriverVersion % 100).ToString("00", CultureInfo.InvariantCulture)); r.AppendLine(); r.Append("Driver Branch: "); r.AppendLine(driverVersion.BuildBranch); } } r.AppendLine(); if (NvApi.NvAPI_GPU_GetPCIIdentifiers != null) { NvApi.NvStatus status = NvApi.NvAPI_GPU_GetPCIIdentifiers(_handle, out uint deviceId, out uint subSystemId, out uint revisionId, out uint extDeviceId); if (status == NvApi.NvStatus.OK) { r.Append("DeviceID: 0x"); r.AppendLine(deviceId.ToString("X", CultureInfo.InvariantCulture)); r.Append("SubSystemID: 0x"); r.AppendLine(subSystemId.ToString("X", CultureInfo.InvariantCulture)); r.Append("RevisionID: 0x"); r.AppendLine(revisionId.ToString("X", CultureInfo.InvariantCulture)); r.Append("ExtDeviceID: 0x"); r.AppendLine(extDeviceId.ToString("X", CultureInfo.InvariantCulture)); r.AppendLine(); } } if (NvApi.NvAPI_GPU_GetThermalSettings != null) { NvApi.NvGPUThermalSettings settings = new() { Version = NvApi.GPU_THERMAL_SETTINGS_VER, Count = NvApi.MAX_THERMAL_SENSORS_PER_GPU, Sensor = new NvApi.NvSensor[NvApi.MAX_THERMAL_SENSORS_PER_GPU] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_GetThermalSettings(_handle, (int)NvApi.NvThermalTarget.ALL, ref settings); r.AppendLine("Thermal Settings"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < settings.Count; i++) { r.AppendFormat(" Sensor[{0}].Controller: {1}{2}", i, settings.Sensor[i].Controller, Environment.NewLine); r.AppendFormat(" Sensor[{0}].DefaultMinTemp: {1}{2}", i, settings.Sensor[i].DefaultMinTemp, Environment.NewLine); r.AppendFormat(" Sensor[{0}].DefaultMaxTemp: {1}{2}", i, settings.Sensor[i].DefaultMaxTemp, Environment.NewLine); r.AppendFormat(" Sensor[{0}].CurrentTemp: {1}{2}", i, settings.Sensor[i].CurrentTemp, Environment.NewLine); r.AppendFormat(" Sensor[{0}].Target: {1}{2}", i, settings.Sensor[i].Target, Environment.NewLine); } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_GetAllClocks != null) { NvApi.NvClocks allClocks = new() { Version = NvApi.GPU_CLOCKS_VER, Clock = new uint[NvApi.MAX_CLOCKS_PER_GPU] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_GetAllClocks(_handle, ref allClocks); r.AppendLine("Clocks"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < allClocks.Clock.Length; i++) { if (allClocks.Clock[i] > 0) { r.AppendFormat(" Clock[{0}]: {1}{2}", i, allClocks.Clock[i], Environment.NewLine); } } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_GetTachReading != null) { NvApi.NvStatus status = NvApi.NvAPI_GPU_GetTachReading(_handle, out int tachValue); r.AppendLine("Tachometer"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { r.AppendFormat(" Value: {0}{1}", tachValue, Environment.NewLine); } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_GetPStates != null) { NvApi.NvPStates states = new() { Version = NvApi.GPU_PSTATES_VER, PStates = new NvApi.NvPState[NvApi.MAX_PSTATES_PER_GPU] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_GetPStates(_handle, ref states); r.AppendLine("P-States"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < states.PStates.Length; i++) { if (states.PStates[i].Present) { r.AppendFormat(" Percentage[{0}]: {1}{2}", i, states.PStates[i].Percentage, Environment.NewLine); } } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_GetUsages != null) { NvApi.NvUsages usages = new() { Version = NvApi.GPU_USAGES_VER, Usage = new uint[NvApi.MAX_USAGES_PER_GPU] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_GetUsages(_handle, ref usages); r.AppendLine("Usages"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < usages.Usage.Length; i++) { if (usages.Usage[i] > 0) { r.AppendFormat(" Usage[{0}]: {1}{2}", i, usages.Usage[i], Environment.NewLine); } } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_GetCoolerSettings != null) { NvApi.NvGPUCoolerSettings settings = new() { Version = NvApi.GPU_COOLER_SETTINGS_VER, Cooler = new NvApi.NvCooler[NvApi.MAX_COOLER_PER_GPU] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_GetCoolerSettings(_handle, 0, ref settings); r.AppendLine("Cooler Settings"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < settings.Count; i++) { r.AppendFormat(" Cooler[{0}].Type: {1}{2}", i, settings.Cooler[i].Type, Environment.NewLine); r.AppendFormat(" Cooler[{0}].Controller: {1}{2}", i, settings.Cooler[i].Controller, Environment.NewLine); r.AppendFormat(" Cooler[{0}].DefaultMin: {1}{2}", i, settings.Cooler[i].DefaultMin, Environment.NewLine); r.AppendFormat(" Cooler[{0}].DefaultMax: {1}{2}", i, settings.Cooler[i].DefaultMax, Environment.NewLine); r.AppendFormat(" Cooler[{0}].CurrentMin: {1}{2}", i, settings.Cooler[i].CurrentMin, Environment.NewLine); r.AppendFormat(" Cooler[{0}].CurrentMax: {1}{2}", i, settings.Cooler[i].CurrentMax, Environment.NewLine); r.AppendFormat(" Cooler[{0}].CurrentLevel: {1}{2}", i, settings.Cooler[i].CurrentLevel, Environment.NewLine); r.AppendFormat(" Cooler[{0}].DefaultPolicy: {1}{2}", i, settings.Cooler[i].DefaultPolicy, Environment.NewLine); r.AppendFormat(" Cooler[{0}].CurrentPolicy: {1}{2}", i, settings.Cooler[i].CurrentPolicy, Environment.NewLine); r.AppendFormat(" Cooler[{0}].Target: {1}{2}", i, settings.Cooler[i].Target, Environment.NewLine); r.AppendFormat(" Cooler[{0}].ControlType: {1}{2}", i, settings.Cooler[i].ControlType, Environment.NewLine); r.AppendFormat(" Cooler[{0}].Active: {1}{2}", i, settings.Cooler[i].Active, Environment.NewLine); } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_ClientFanCoolersGetStatus != null) { var coolers = new NvApi.NvFanCoolersStatus { Version = NvApi.GPU_FAN_COOLERS_STATUS_VER, Items = new NvApi.NvFanCoolersStatusItem[NvApi.MAX_FAN_COOLERS_STATUS_ITEMS] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_ClientFanCoolersGetStatus(_handle, ref coolers); r.AppendLine("Fan Coolers Status"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < coolers.Count; i++) { r.AppendFormat(" Items[{0}].Type: {1}{2}", i, coolers.Items[i].Type, Environment.NewLine); r.AppendFormat(" Items[{0}].CurrentRpm: {1}{2}", i, coolers.Items[i].CurrentRpm, Environment.NewLine); r.AppendFormat(" Items[{0}].CurrentMinLevel: {1}{2}", i, coolers.Items[i].CurrentMinLevel, Environment.NewLine); r.AppendFormat(" Items[{0}].CurrentMaxLevel: {1}{2}", i, coolers.Items[i].CurrentMaxLevel, Environment.NewLine); r.AppendFormat(" Items[{0}].CurrentLevel: {1}{2}", i, coolers.Items[i].CurrentLevel, Environment.NewLine); } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } if (NvApi.NvAPI_GPU_GetMemoryInfo != null && _displayHandle.HasValue) { NvApi.NvMemoryInfo memoryInfo = new() { Version = NvApi.GPU_MEMORY_INFO_VER, Values = new uint[NvApi.MAX_MEMORY_VALUES_PER_GPU] }; NvApi.NvStatus status = NvApi.NvAPI_GPU_GetMemoryInfo(_displayHandle.Value, ref memoryInfo); r.AppendLine("Memory Info"); r.AppendLine(); if (status == NvApi.NvStatus.OK) { for (int i = 0; i < memoryInfo.Values.Length; i++) { r.AppendFormat(" Value[{0}]: {1}{2}", i, memoryInfo.Values[i], Environment.NewLine); } } else { r.Append(" Status: "); r.AppendLine(status.ToString()); } r.AppendLine(); } return(r.ToString()); }
private NvApi.NvGPUThermalSettings GetThermalSettings() { NvApi.NvGPUThermalSettings settings = new() { Version = NvApi.GPU_THERMAL_SETTINGS_VER, Count = NvApi.MAX_THERMAL_SENSORS_PER_GPU, Sensor = new NvApi.NvSensor[NvApi.MAX_THERMAL_SENSORS_PER_GPU] }; if (!(NvApi.NvAPI_GPU_GetThermalSettings != null && NvApi.NvAPI_GPU_GetThermalSettings(_handle, (int)NvApi.NvThermalTarget.ALL, ref settings) == NvApi.NvStatus.OK)) { settings.Count = 0; } return(settings); }