private void SoftwareControlValueChanged(IControl control) { if (control.ControlMode == ControlMode.Software) { AtiAdlxx.ADLFanSpeedValue fanSpeedValue = new() { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT, Flags = AtiAdlxx.ADL_DL_FANCTRL_FLAG_USER_DEFINED_SPEED, FanSpeed = (int)control.SoftwareValue }; AtiAdlxx.ADL_Overdrive5_FanSpeed_Set(_adapterIndex, 0, ref fanSpeedValue); } }
private void GetOD5FanSpeed(int speedType, Sensor sensor) { AtiAdlxx.ADLFanSpeedValue fanSpeedValue = new() { SpeedType = speedType }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADLStatus.ADL_OK) { sensor.Value = fanSpeedValue.FanSpeed; ActivateSensor(sensor); } else { sensor.Value = null; } }
private void GetOD5Temperature(Sensor temperatureCore) { AtiAdlxx.ADLTemperature temperature = new(); if (AtiAdlxx.ADL_Overdrive5_Temperature_Get(_adapterIndex, 0, ref temperature) == AtiAdlxx.ADLStatus.ADL_OK) { temperatureCore.Value = 0.001f * temperature.Temperature; ActivateSensor(temperatureCore); } else { temperatureCore.Value = null; } }
/// <summary> /// Gets the Overdrive6 power. /// </summary> /// <param name="type">The type.</param> /// <param name="sensor">The sensor.</param> private void GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType type, Sensor sensor) { int powerOf8 = 0; if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, type, ref powerOf8) == AtiAdlxx.ADLStatus.ADL_OK) { sensor.Value = powerOf8 >> 8; ActivateSensor(sensor); } else { sensor.Value = null; } }
private void GetOD5CurrentActivity() { AtiAdlxx.ADLPMActivity adlpmActivity = new(); if (AtiAdlxx.ADL_Overdrive5_CurrentActivity_Get(_adapterIndex, ref adlpmActivity) == AtiAdlxx.ADLStatus.ADL_OK) { if (adlpmActivity.EngineClock > 0) { _coreClock.Value = 0.01f * adlpmActivity.EngineClock; ActivateSensor(_coreClock); } else { _coreClock.Value = null; } if (adlpmActivity.MemoryClock > 0) { _memoryClock.Value = 0.01f * adlpmActivity.MemoryClock; ActivateSensor(_memoryClock); } else { _memoryClock.Value = null; } if (adlpmActivity.Vddc > 0) { _coreVoltage.Value = 0.001f * adlpmActivity.Vddc; ActivateSensor(_coreVoltage); } else { _coreVoltage.Value = null; } _coreLoad.Value = Math.Min(adlpmActivity.ActivityPercent, 100); ActivateSensor(_coreLoad); } else { _coreClock.Value = null; _memoryClock.Value = null; _coreVoltage.Value = null; _coreLoad.Value = null; } }
public void Close() { try { foreach (AmdGpu gpu in _hardware) { gpu.Close(); } if (_status == AtiAdlxx.ADL_OK) { AtiAdlxx.ADL_Main_Control_Destroy(); } } catch (Exception) { } }
/// <summary> /// Gets the OverdriveN temperature. /// </summary> /// <param name="type">The type.</param> /// <param name="sensor">The sensor.</param> private void GetODNTemperature(AtiAdlxx.ADLODNTemperatureType type, Sensor sensor) { // If a sensor isn't available, some cards report 54000 degrees C. 110C is expected for Navi, so 100 more than that should be enough to use as a maximum. const int maxTemperature = 210 * 1000; int temperature = 0; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, type, ref temperature) == AtiAdlxx.ADLStatus.ADL_OK && temperature < maxTemperature) { sensor.Value = 0.001f * temperature; ActivateSensor(sensor); } else { sensor.Value = null; } }
public override void Close() { _fanControl.ControlModeChanged -= ControlModeChanged; _fanControl.SoftwareControlValueChanged -= SoftwareControlValueChanged; if (_fanControl.ControlMode != ControlMode.Undefined) { SetDefaultFanSpeed(); } if (_context != IntPtr.Zero) { AtiAdlxx.ADL2_Main_Control_Destroy(_context); } base.Close(); }
/// <summary> /// Gets the OverdriveN temperature. /// </summary> /// <param name="type">The type.</param> /// <param name="sensor">The sensor.</param> /// <param name="minTemperature">The minimum temperature.</param> /// <param name="scale">The scale.</param> private void GetODNTemperature(AtiAdlxx.ADLODNTemperatureType type, Sensor sensor, double minTemperature = -200, double scale = 1) { // If a sensor isn't available, some cards report 54000 degrees C. 110C is expected for Navi, so 100 more than that should be enough to use as a maximum. int maxTemperature = (int)(210.0 / scale); minTemperature = (int)(minTemperature / scale); int temperature = 0; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, type, ref temperature) == AtiAdlxx.ADLStatus.ADL_OK && temperature > minTemperature && temperature < maxTemperature) { sensor.Value = (float)(scale * temperature); ActivateSensor(sensor); } else { sensor.Value = null; } }
public AmdGpu(string name, int adapterIndex, int busNumber, int deviceNumber, ISettings settings) : base(name, new Identifier("gpu", adapterIndex.ToString(CultureInfo.InvariantCulture)), settings) { _adapterIndex = adapterIndex; BusNumber = busNumber; DeviceNumber = deviceNumber; _temperatureCore = new Sensor("GPU Core", 0, SensorType.Temperature, this, settings); _temperatureHbm = new Sensor("GPU HBM", 1, SensorType.Temperature, this, settings); _temperatureVddc = new Sensor("GPU VDDC", 2, SensorType.Temperature, this, settings); _temperatureMvdd = new Sensor("GPU MVDD", 3, SensorType.Temperature, this, settings); _temperatureHotSpot = new Sensor("GPU Hot Spot", 4, SensorType.Temperature, this, settings); _fan = new Sensor("GPU Fan", 0, SensorType.Fan, this, settings); _coreClock = new Sensor("GPU Core", 0, SensorType.Clock, this, settings); _memoryClock = new Sensor("GPU Memory", 1, SensorType.Clock, this, settings); _coreVoltage = new Sensor("GPU Core", 0, SensorType.Voltage, this, settings); _coreLoad = new Sensor("GPU Core", 0, SensorType.Load, this, settings); _controlSensor = new Sensor("GPU Fan", 0, SensorType.Control, this, settings); int supported = 0; int enabled = 0; int version = 0; _isOverdriveNSupported = AtiAdlxx.ADL_Overdrive_Caps(1, ref supported, ref enabled, ref version) == AtiAdlxx.ADL_OK && version >= 7; AtiAdlxx.ADLFanSpeedInfo fanSpeedInfo = new AtiAdlxx.ADLFanSpeedInfo(); if (AtiAdlxx.ADL_Overdrive5_FanSpeedInfo_Get(adapterIndex, 0, ref fanSpeedInfo) != AtiAdlxx.ADL_OK) { fanSpeedInfo.MaxPercent = 100; fanSpeedInfo.MinPercent = 0; } _fanControl = new Control(_controlSensor, settings, fanSpeedInfo.MinPercent, fanSpeedInfo.MaxPercent); _fanControl.ControlModeChanged += ControlModeChanged; _fanControl.SoftwareControlValueChanged += SoftwareControlValueChanged; ControlModeChanged(_fanControl); _controlSensor.Control = _fanControl; Update(); }
public override void Close() { _fanControl.ControlModeChanged -= ControlModeChanged; _fanControl.SoftwareControlValueChanged -= SoftwareControlValueChanged; if (_fanControl.ControlMode != ControlMode.Undefined) { SetDefaultFanSpeed(); } if (_frameMetricsStarted) { AtiAdlxx.ADL2_Adapter_FrameMetrics_Stop(_context, _adapterIndex, 0); } if (_context != IntPtr.Zero) { AtiAdlxx.ADL2_Main_Control_Destroy(_context); } base.Close(); }
public AmdGpu(string name, int adapterIndex, int busNumber, int deviceNumber, ISettings settings) : base(name, new Identifier("gpu", adapterIndex.ToString(CultureInfo.InvariantCulture)), settings) { _adapterIndex = adapterIndex; BusNumber = busNumber; DeviceNumber = deviceNumber; _temperatureCore = new Sensor("GPU Core", 0, SensorType.Temperature, this, settings); _temperatureMemory = new Sensor("GPU Memory", 1, SensorType.Temperature, this, settings); _temperatureVddc = new Sensor("GPU VR VDDC", 2, SensorType.Temperature, this, settings); _temperatureMvdd = new Sensor("GPU VR MVDD", 3, SensorType.Temperature, this, settings); _temperatureLiquid = new Sensor("GPU Liquid", 4, SensorType.Temperature, this, settings); _temperaturePlx = new Sensor("GPU PLX", 5, SensorType.Temperature, this, settings); _temperatureHotSpot = new Sensor("GPU Hot Spot", 6, SensorType.Temperature, this, settings); _coreClock = new Sensor("GPU Core", 0, SensorType.Clock, this, settings); _socClock = new Sensor("GPU SoC", 1, SensorType.Clock, this, settings); _memoryClock = new Sensor("GPU Memory", 2, SensorType.Clock, this, settings); _fan = new Sensor("GPU Fan", 0, SensorType.Fan, this, settings); _coreVoltage = new Sensor("GPU Core", 0, SensorType.Voltage, this, settings); _memoryVoltage = new Sensor("GPU Memory", 1, SensorType.Voltage, this, settings); _coreLoad = new Sensor("GPU Core", 0, SensorType.Load, this, settings); _controlSensor = new Sensor("GPU Fan", 0, SensorType.Control, this, settings); _powerCore = new Sensor("GPU Core", 0, SensorType.Power, this, settings); _powerPpt = new Sensor("GPU PPT", 1, SensorType.Power, this, settings); _powerSocket = new Sensor("GPU Socket", 2, SensorType.Power, this, settings); _powerTotal = new Sensor("GPU Package", 3, SensorType.Power, this, settings); int supported = 0; int enabled = 0; int version = 0; if (AtiAdlxx.ADL_Overdrive_Caps(1, ref supported, ref enabled, ref version) == AtiAdlxx.ADL_OK) { _currentOverdriveApiLevel = version; } else { _currentOverdriveApiLevel = -1; } if (_currentOverdriveApiLevel >= 6) { if (AtiAdlxx.ADL2_Main_Control_Create(AtiAdlxx.Main_Memory_Alloc, adapterIndex, ref _context) == AtiAdlxx.ADL_OK) { _context = IntPtr.Zero; } } AtiAdlxx.ADLFanSpeedInfo fanSpeedInfo = new AtiAdlxx.ADLFanSpeedInfo(); if (AtiAdlxx.ADL_Overdrive5_FanSpeedInfo_Get(adapterIndex, 0, ref fanSpeedInfo) != AtiAdlxx.ADL_OK) { fanSpeedInfo.MaxPercent = 100; fanSpeedInfo.MinPercent = 0; } _fanControl = new Control(_controlSensor, settings, fanSpeedInfo.MinPercent, fanSpeedInfo.MaxPercent); _fanControl.ControlModeChanged += ControlModeChanged; _fanControl.SoftwareControlValueChanged += SoftwareControlValueChanged; ControlModeChanged(_fanControl); _controlSensor.Control = _fanControl; Update(); }
public override void Update() { if (_isOverdriveNSupported) { int temp = 0; IntPtr context = IntPtr.Zero; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(context, _adapterIndex, 1, ref temp) == AtiAdlxx.ADL_OK) { _temperatureCore.Value = 0.001f * temp; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(context, _adapterIndex, 2, ref temp) == AtiAdlxx.ADL_OK) { _temperatureHbm.Value = temp; ActivateSensor(_temperatureHbm); } else { _temperatureHbm.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(context, _adapterIndex, 3, ref temp) == AtiAdlxx.ADL_OK) { _temperatureVddc.Value = temp; ActivateSensor(_temperatureVddc); } else { _temperatureVddc.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(context, _adapterIndex, 4, ref temp) == AtiAdlxx.ADL_OK) { _temperatureMvdd.Value = temp; ActivateSensor(_temperatureMvdd); } else { _temperatureMvdd.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(context, _adapterIndex, 7, ref temp) == AtiAdlxx.ADL_OK) { _temperatureHotSpot.Value = temp; ActivateSensor(_temperatureHotSpot); } else { _temperatureHotSpot.Value = null; } if (context != IntPtr.Zero) { Marshal.FreeHGlobal(context); } } else { AtiAdlxx.ADLTemperature temperature = new AtiAdlxx.ADLTemperature(); if (AtiAdlxx.ADL_Overdrive5_Temperature_Get(_adapterIndex, 0, ref temperature) == AtiAdlxx.ADL_OK) { _temperatureCore.Value = 0.001f * temperature.Temperature; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } } AtiAdlxx.ADLFanSpeedValue fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADL_OK) { _fan.Value = fanSpeedValue.FanSpeed; ActivateSensor(_fan); } else { _fan.Value = null; } fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADL_OK) { _controlSensor.Value = fanSpeedValue.FanSpeed; ActivateSensor(_controlSensor); } else { _controlSensor.Value = null; } AtiAdlxx.ADLPMActivity adlpmActivity = new AtiAdlxx.ADLPMActivity(); if (AtiAdlxx.ADL_Overdrive5_CurrentActivity_Get(_adapterIndex, ref adlpmActivity) == AtiAdlxx.ADL_OK) { if (adlpmActivity.EngineClock > 0) { _coreClock.Value = 0.01f * adlpmActivity.EngineClock; ActivateSensor(_coreClock); } else { _coreClock.Value = null; } if (adlpmActivity.MemoryClock > 0) { _memoryClock.Value = 0.01f * adlpmActivity.MemoryClock; ActivateSensor(_memoryClock); } else { _memoryClock.Value = null; } if (adlpmActivity.Vddc > 0) { _coreVoltage.Value = 0.001f * adlpmActivity.Vddc; ActivateSensor(_coreVoltage); } else { _coreVoltage.Value = null; } _coreLoad.Value = Math.Min(adlpmActivity.ActivityPercent, 100); ActivateSensor(_coreLoad); } else { _coreClock.Value = null; _memoryClock.Value = null; _coreVoltage.Value = null; _coreLoad.Value = null; } }
public override void Update() { if (_currentOverdriveApiLevel >= 6) { int powerOf8 = 0; if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_TOTAL_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerTotal.Value = powerOf8 >> 8; ActivateSensor(_powerTotal); } else { _powerTotal.Value = null; } if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_PPT_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerPpt.Value = powerOf8 >> 8; ActivateSensor(_powerPpt); } else { _powerPpt.Value = null; } if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_SOCKET_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerSocket.Value = powerOf8 >> 8; ActivateSensor(_powerSocket); } else { _powerSocket.Value = null; } if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_CHIP_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerCore.Value = powerOf8 >> 8; ActivateSensor(_powerCore); } else { _powerCore.Value = null; } } if (_currentOverdriveApiLevel >= 7) { int temp = 0; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.EDGE, ref temp) == AtiAdlxx.ADL_OK) { _temperatureCore.Value = 0.001f * temp; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.MEM, ref temp) == AtiAdlxx.ADL_OK) { _temperatureHbm.Value = temp; ActivateSensor(_temperatureHbm); } else { _temperatureHbm.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.VRVDDC, ref temp) == AtiAdlxx.ADL_OK) { _temperatureVddc.Value = temp; ActivateSensor(_temperatureVddc); } else { _temperatureVddc.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.VRMVDD, ref temp) == AtiAdlxx.ADL_OK) { _temperatureMvdd.Value = temp; ActivateSensor(_temperatureMvdd); } else { _temperatureMvdd.Value = null; } _temperatureLiquid.Value = null; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.LIQUID, ref temp) == AtiAdlxx.ADL_OK) { if (temp > 0) { _temperatureLiquid.Value = temp; ActivateSensor(_temperatureLiquid); } } _temperaturePlx.Value = null; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.PLX, ref temp) == AtiAdlxx.ADL_OK) { if (temp > 0) { _temperaturePlx.Value = temp; ActivateSensor(_temperaturePlx); } } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.HOTSPOT, ref temp) == AtiAdlxx.ADL_OK) { _temperatureHotSpot.Value = temp; ActivateSensor(_temperatureHotSpot); } else { _temperatureHotSpot.Value = null; } } else { AtiAdlxx.ADLTemperature temperature = new AtiAdlxx.ADLTemperature(); if (AtiAdlxx.ADL_Overdrive5_Temperature_Get(_adapterIndex, 0, ref temperature) == AtiAdlxx.ADL_OK) { _temperatureCore.Value = 0.001f * temperature.Temperature; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } } AtiAdlxx.ADLFanSpeedValue fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADL_OK) { _fan.Value = fanSpeedValue.FanSpeed; ActivateSensor(_fan); } else { _fan.Value = null; } fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADL_OK) { _controlSensor.Value = fanSpeedValue.FanSpeed; ActivateSensor(_controlSensor); } else { _controlSensor.Value = null; } AtiAdlxx.ADLPMActivity adlpmActivity = new AtiAdlxx.ADLPMActivity(); if (AtiAdlxx.ADL_Overdrive5_CurrentActivity_Get(_adapterIndex, ref adlpmActivity) == AtiAdlxx.ADL_OK) { if (adlpmActivity.EngineClock > 0) { _coreClock.Value = 0.01f * adlpmActivity.EngineClock; ActivateSensor(_coreClock); } else { _coreClock.Value = null; } if (adlpmActivity.MemoryClock > 0) { _memoryClock.Value = 0.01f * adlpmActivity.MemoryClock; ActivateSensor(_memoryClock); } else { _memoryClock.Value = null; } if (adlpmActivity.Vddc > 0) { _coreVoltage.Value = 0.001f * adlpmActivity.Vddc; ActivateSensor(_coreVoltage); } else { _coreVoltage.Value = null; } _coreLoad.Value = Math.Min(adlpmActivity.ActivityPercent, 100); ActivateSensor(_coreLoad); } else { _coreClock.Value = null; _memoryClock.Value = null; _coreVoltage.Value = null; _coreLoad.Value = null; } }
public AmdGpuGroup(ISettings settings) { try { _status = AtiAdlxx.ADL_Main_Control_Create(1); _report.AppendLine("AMD Display Library"); _report.AppendLine(); _report.Append("Status: "); _report.AppendLine(_status == AtiAdlxx.ADL_OK ? "OK" : _status.ToString(CultureInfo.InvariantCulture)); _report.AppendLine(); if (_status == AtiAdlxx.ADL_OK) { int numberOfAdapters = 0; AtiAdlxx.ADL_Adapter_NumberOfAdapters_Get(ref numberOfAdapters); _report.Append("Number of adapters: "); _report.AppendLine(numberOfAdapters.ToString(CultureInfo.InvariantCulture)); _report.AppendLine(); if (numberOfAdapters > 0) { AtiAdlxx.ADLAdapterInfo[] adapterInfo = new AtiAdlxx.ADLAdapterInfo[numberOfAdapters]; if (AtiAdlxx.ADL_Adapter_AdapterInfo_Get(adapterInfo) == AtiAdlxx.ADL_OK) { for (int i = 0; i < numberOfAdapters; i++) { AtiAdlxx.ADL_Adapter_Active_Get(adapterInfo[i].AdapterIndex, out var isActive); AtiAdlxx.ADL_Adapter_ID_Get(adapterInfo[i].AdapterIndex, out var adapterId); _report.Append("AdapterIndex: "); _report.AppendLine(i.ToString(CultureInfo.InvariantCulture)); _report.Append("isActive: "); _report.AppendLine(isActive.ToString(CultureInfo.InvariantCulture)); _report.Append("AdapterName: "); _report.AppendLine(adapterInfo[i].AdapterName); _report.Append("UDID: "); _report.AppendLine(adapterInfo[i].UDID); _report.Append("Present: "); _report.AppendLine(adapterInfo[i].Present.ToString(CultureInfo.InvariantCulture)); _report.Append("VendorID: 0x"); _report.AppendLine(adapterInfo[i].VendorID.ToString("X", CultureInfo.InvariantCulture)); _report.Append("BusNumber: "); _report.AppendLine(adapterInfo[i].BusNumber.ToString(CultureInfo.InvariantCulture)); _report.Append("DeviceNumber: "); _report.AppendLine(adapterInfo[i].DeviceNumber.ToString(CultureInfo.InvariantCulture)); _report.Append("FunctionNumber: "); _report.AppendLine(adapterInfo[i].FunctionNumber.ToString(CultureInfo.InvariantCulture)); _report.Append("AdapterID: 0x"); _report.AppendLine(adapterId.ToString("X", CultureInfo.InvariantCulture)); if (!string.IsNullOrEmpty(adapterInfo[i].UDID) && adapterInfo[i].VendorID == AtiAdlxx.ATI_VENDOR_ID) { bool found = false; foreach (AmdGpu gpu in _hardware) { if (gpu.BusNumber == adapterInfo[i].BusNumber && gpu.DeviceNumber == adapterInfo[i].DeviceNumber) { found = true; break; } } if (!found) { _hardware.Add(new AmdGpu( adapterInfo[i].AdapterName.Trim(), adapterInfo[i].AdapterIndex, adapterInfo[i].BusNumber, adapterInfo[i].DeviceNumber, settings)); } } _report.AppendLine(); } } } } } catch (DllNotFoundException) { } catch (EntryPointNotFoundException e) { _report.AppendLine(); _report.AppendLine(e.ToString()); _report.AppendLine(); } }
public override void Update() { if (_currentOverdriveApiLevel < 8) { if (_currentOverdriveApiLevel >= 6) { GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_TOTAL_POWER, _powerTotal); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_PPT_POWER, _powerPpt); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_SOCKET_POWER, _powerSoC); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_CHIP_POWER, _powerCore); } if (_currentOverdriveApiLevel >= 7) { GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.EDGE, _temperatureCore, -200, 0.001); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.MEM, _temperatureMemory, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.VRVDDC, _temperatureVddc, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.VRMVDD, _temperatureMvdd, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.LIQUID, _temperatureLiquid, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.PLX, _temperaturePlx, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.HOTSPOT, _temperatureHotSpot, 0); } else { AtiAdlxx.ADLTemperature temperature = new AtiAdlxx.ADLTemperature(); if (AtiAdlxx.ADL_Overdrive5_Temperature_Get(_adapterIndex, 0, ref temperature) == AtiAdlxx.ADLStatus.ADL_OK) { _temperatureCore.Value = 0.001f * temperature.Temperature; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } } AtiAdlxx.ADLFanSpeedValue fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADLStatus.ADL_OK) { _fan.Value = fanSpeedValue.FanSpeed; ActivateSensor(_fan); } else { _fan.Value = null; } fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADLStatus.ADL_OK) { _controlSensor.Value = fanSpeedValue.FanSpeed; ActivateSensor(_controlSensor); } else { _controlSensor.Value = null; } AtiAdlxx.ADLPMActivity adlpmActivity = new AtiAdlxx.ADLPMActivity(); if (AtiAdlxx.ADL_Overdrive5_CurrentActivity_Get(_adapterIndex, ref adlpmActivity) == AtiAdlxx.ADLStatus.ADL_OK) { if (adlpmActivity.EngineClock > 0) { _coreClock.Value = 0.01f * adlpmActivity.EngineClock; ActivateSensor(_coreClock); } else { _coreClock.Value = null; } if (adlpmActivity.MemoryClock > 0) { _memoryClock.Value = 0.01f * adlpmActivity.MemoryClock; ActivateSensor(_memoryClock); } else { _memoryClock.Value = null; } if (adlpmActivity.Vddc > 0) { _coreVoltage.Value = 0.001f * adlpmActivity.Vddc; ActivateSensor(_coreVoltage); } else { _coreVoltage.Value = null; } _coreLoad.Value = Math.Min(adlpmActivity.ActivityPercent, 100); ActivateSensor(_coreLoad); } else { _coreClock.Value = null; _memoryClock.Value = null; _coreVoltage.Value = null; _coreLoad.Value = null; } } else { AtiAdlxx.ADLPMLogDataOutput logDataOutput = new AtiAdlxx.ADLPMLogDataOutput(); if (AtiAdlxx.ADL2_New_QueryPMLogData_Get(_context, _adapterIndex, ref logDataOutput) == AtiAdlxx.ADLStatus.ADL_OK) { GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_EDGE, _temperatureCore); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_HOTSPOT, _temperatureHotSpot); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRVDDC, _temperatureVddc); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_MEM, _temperatureMemory); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRMVDD, _temperatureMvdd); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_LIQUID, _temperatureLiquid); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_PLX, _temperaturePlx); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_SOC, _temperatureSoC); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_GFXCLK, _coreClock); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_SOCCLK, _socClock); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_MEMCLK, _memoryClock); const int fanRpmIndex = (int)AtiAdlxx.ADLSensorType.PMLOG_FAN_RPM; const int fanPercentageIndex = (int)AtiAdlxx.ADLSensorType.PMLOG_FAN_PERCENTAGE; if (fanRpmIndex < logDataOutput.sensors.Length && fanPercentageIndex < logDataOutput.sensors.Length && logDataOutput.sensors[fanRpmIndex].value != ushort.MaxValue) { _fan.Value = logDataOutput.sensors[fanRpmIndex].value; _controlSensor.Value = logDataOutput.sensors[fanPercentageIndex].value; ActivateSensor(_fan); ActivateSensor(_controlSensor); } else { _fan.Value = null; _controlSensor.Value = null; } GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_GFX_VOLTAGE, _coreVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_SOC_VOLTAGE, _socVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_MEM_VOLTAGE, _memoryVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_GFX, _coreLoad); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_MEM, _memoryLoad); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_GFX_POWER, _powerCore); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_SOC_POWER, _powerSoC); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_ASIC_POWER, _powerTotal); } } }
public override void Update() { if (_windowsDeviceName != null && D3DDisplayDevice.GetDeviceInfoByIdentifier(_windowsDeviceName, out D3DDisplayDevice.D3DDeviceInfo deviceInfo)) { _gpuDedicatedMemoryUsage.Value = 1f * deviceInfo.GpuDedicatedUsed / 1024 / 1024; _gpuSharedMemoryUsage.Value = 1f * deviceInfo.GpuSharedUsed / 1024 / 1024; ActivateSensor(_gpuDedicatedMemoryUsage); ActivateSensor(_gpuSharedMemoryUsage); foreach (D3DDisplayDevice.D3DDeviceNodeInfo node in deviceInfo.Nodes) { long runningTimeDiff = node.RunningTime - _gpuNodeUsagePrevValue[node.Id]; long timeDiff = node.QueryTime.Ticks - _gpuNodeUsagePrevTick[node.Id].Ticks; _gpuNodeUsage[node.Id].Value = 100f * runningTimeDiff / timeDiff; _gpuNodeUsagePrevValue[node.Id] = node.RunningTime; _gpuNodeUsagePrevTick[node.Id] = node.QueryTime; ActivateSensor(_gpuNodeUsage[node.Id]); } } if (_frameMetricsStarted) { float framesPerSecond = 0; if (AtiAdlxx.ADL2_Adapter_FrameMetrics_Get(_context, _adapterIndex, 0, ref framesPerSecond) == AtiAdlxx.ADLStatus.ADL_OK) { _fullscreenFps.Value = framesPerSecond; } } if (_overdriveApiSupported) { GetOD5Temperature(_temperatureCore); GetOD5FanSpeed(AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM, _fan); GetOD5FanSpeed(AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT, _controlSensor); GetOD5CurrentActivity(); if (_currentOverdriveApiLevel >= 6) { GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_TOTAL_POWER, _powerTotal); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_PPT_POWER, _powerPpt); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_SOCKET_POWER, _powerSoC); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_CHIP_POWER, _powerCore); } if (_currentOverdriveApiLevel >= 7) { GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.EDGE, _temperatureCore, -256, 0.001, false); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.MEM, _temperatureMemory); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.VRVDDC, _temperatureVddc); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.VRMVDD, _temperatureMvdd); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.LIQUID, _temperatureLiquid); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.PLX, _temperaturePlx); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.HOTSPOT, _temperatureHotSpot); } } if (_currentOverdriveApiLevel >= 8 || !_overdriveApiSupported) { AtiAdlxx.ADLPMLogDataOutput logDataOutput = new(); if (AtiAdlxx.ADL2_New_QueryPMLogData_Get(_context, _adapterIndex, ref logDataOutput) == AtiAdlxx.ADLStatus.ADL_OK) { GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_EDGE, _temperatureCore, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_MEM, _temperatureMemory, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRVDDC, _temperatureVddc, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRMVDD, _temperatureMvdd, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_LIQUID, _temperatureLiquid, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_PLX, _temperaturePlx, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_HOTSPOT, _temperatureHotSpot, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_SOC, _temperatureSoC); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_GFXCLK, _coreClock, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_SOCCLK, _socClock); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_MEMCLK, _memoryClock, reset: false); const int fanRpmIndex = (int)AtiAdlxx.ADLSensorType.PMLOG_FAN_RPM; const int fanPercentageIndex = (int)AtiAdlxx.ADLSensorType.PMLOG_FAN_PERCENTAGE; if (logDataOutput.sensors.Length is > fanRpmIndex and > fanPercentageIndex && logDataOutput.sensors[fanRpmIndex].value != ushort.MaxValue && logDataOutput.sensors[fanRpmIndex].supported != 0) { _fan.Value = logDataOutput.sensors[fanRpmIndex].value; _controlSensor.Value = logDataOutput.sensors[fanPercentageIndex].value; ActivateSensor(_fan); ActivateSensor(_controlSensor); } GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_GFX_VOLTAGE, _coreVoltage, 0.001f, false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_SOC_VOLTAGE, _socVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_MEM_VOLTAGE, _memoryVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_GFX, _coreLoad, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_MEM, _memoryLoad); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_ASIC_POWER, _powerTotal, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_GFX_POWER, _powerCore, reset: false); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_SOC_POWER, _powerSoC, reset: false); } } }
/// <summary> /// Sets the default fan speed. /// </summary> private void SetDefaultFanSpeed() { AtiAdlxx.ADL_Overdrive5_FanSpeedToDefault_Set(_adapterIndex, 0); }
public override void Update() { if (_currentOverdriveApiLevel < 8) { if (_currentOverdriveApiLevel >= 6) { int powerOf8 = 0; if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_TOTAL_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerTotal.Value = powerOf8 >> 8; ActivateSensor(_powerTotal); } else { _powerTotal.Value = null; } if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_PPT_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerPpt.Value = powerOf8 >> 8; ActivateSensor(_powerPpt); } else { _powerPpt.Value = null; } if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_SOCKET_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerSocket.Value = powerOf8 >> 8; ActivateSensor(_powerSocket); } else { _powerSocket.Value = null; } if (AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_CHIP_POWER, ref powerOf8) == AtiAdlxx.ADL_OK) { _powerCore.Value = powerOf8 >> 8; ActivateSensor(_powerCore); } else { _powerCore.Value = null; } } if (_currentOverdriveApiLevel >= 7) { // If a sensor isn't available, some cards report 54000 degrees C. 110C is expected for Navi, so 100 more than that should be enough to use as a maximum. const int maxTemperature = 210; int temp = 0; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.EDGE, ref temp) == AtiAdlxx.ADL_OK && temp < maxTemperature) { _temperatureCore.Value = 0.001f * temp; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.MEM, ref temp) == AtiAdlxx.ADL_OK && temp < maxTemperature) { _temperatureMemory.Value = temp; ActivateSensor(_temperatureMemory); } else { _temperatureMemory.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.VRVDDC, ref temp) == AtiAdlxx.ADL_OK && temp < maxTemperature) { _temperatureVddc.Value = temp; ActivateSensor(_temperatureVddc); } else { _temperatureVddc.Value = null; } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.VRMVDD, ref temp) == AtiAdlxx.ADL_OK && temp < maxTemperature) { _temperatureMvdd.Value = temp; ActivateSensor(_temperatureMvdd); } else { _temperatureMvdd.Value = null; } _temperatureLiquid.Value = null; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.LIQUID, ref temp) == AtiAdlxx.ADL_OK && temp > 0 && temp < maxTemperature) { _temperatureLiquid.Value = temp; ActivateSensor(_temperatureLiquid); } _temperaturePlx.Value = null; if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.PLX, ref temp) == AtiAdlxx.ADL_OK && temp > 0 && temp < maxTemperature) { _temperaturePlx.Value = temp; ActivateSensor(_temperaturePlx); } if (AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, AtiAdlxx.ADLODNTemperatureType.HOTSPOT, ref temp) == AtiAdlxx.ADL_OK && temp < maxTemperature) { _temperatureHotSpot.Value = temp; ActivateSensor(_temperatureHotSpot); } else { _temperatureHotSpot.Value = null; } } else { AtiAdlxx.ADLTemperature temperature = new AtiAdlxx.ADLTemperature(); if (AtiAdlxx.ADL_Overdrive5_Temperature_Get(_adapterIndex, 0, ref temperature) == AtiAdlxx.ADL_OK) { _temperatureCore.Value = 0.001f * temperature.Temperature; ActivateSensor(_temperatureCore); } else { _temperatureCore.Value = null; } } AtiAdlxx.ADLFanSpeedValue fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADL_OK) { _fan.Value = fanSpeedValue.FanSpeed; ActivateSensor(_fan); } else { _fan.Value = null; } fanSpeedValue = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT }; if (AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref fanSpeedValue) == AtiAdlxx.ADL_OK) { _controlSensor.Value = fanSpeedValue.FanSpeed; ActivateSensor(_controlSensor); } else { _controlSensor.Value = null; } AtiAdlxx.ADLPMActivity adlpmActivity = new AtiAdlxx.ADLPMActivity(); if (AtiAdlxx.ADL_Overdrive5_CurrentActivity_Get(_adapterIndex, ref adlpmActivity) == AtiAdlxx.ADL_OK) { if (adlpmActivity.EngineClock > 0) { _coreClock.Value = 0.01f * adlpmActivity.EngineClock; ActivateSensor(_coreClock); } else { _coreClock.Value = null; } if (adlpmActivity.MemoryClock > 0) { _memoryClock.Value = 0.01f * adlpmActivity.MemoryClock; ActivateSensor(_memoryClock); } else { _memoryClock.Value = null; } if (adlpmActivity.Vddc > 0) { _coreVoltage.Value = 0.001f * adlpmActivity.Vddc; ActivateSensor(_coreVoltage); } else { _coreVoltage.Value = null; } _coreLoad.Value = Math.Min(adlpmActivity.ActivityPercent, 100); ActivateSensor(_coreLoad); } else { _coreClock.Value = null; _memoryClock.Value = null; _coreVoltage.Value = null; _coreLoad.Value = null; } } else { AtiAdlxx.ADLPMLogDataOutput logDataOutput = new AtiAdlxx.ADLPMLogDataOutput(); if (AtiAdlxx.ADL2_New_QueryPMLogData_Get(_context, _adapterIndex, ref logDataOutput) == AtiAdlxx.ADL_OK) { _temperatureCore.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_EDGE].value; ActivateSensor(_temperatureCore); _temperatureHotSpot.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_HOTSPOT].value; ActivateSensor(_temperatureHotSpot); _temperatureVddc.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRVDDC].value; ActivateSensor(_temperatureVddc); _temperatureMemory.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_MEM].value; ActivateSensor(_temperatureMemory); _temperatureMvdd.Value = null; if (logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRMVDD].value > 0) { _temperatureMvdd.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRMVDD].value; ActivateSensor(_temperatureMvdd); } _temperatureLiquid.Value = null; if (logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_LIQUID].value > 0) { _temperatureLiquid.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_LIQUID].value; ActivateSensor(_temperatureLiquid); } _temperaturePlx.Value = null; if (logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_PLX].value > 0) { _temperaturePlx.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_PLX].value; ActivateSensor(_temperaturePlx); } _coreClock.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_CLK_GFXCLK].value; ActivateSensor(_coreClock); _socClock.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_CLK_SOCCLK].value; ActivateSensor(_socClock); _memoryClock.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_CLK_MEMCLK].value; ActivateSensor(_memoryClock); if (logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_FAN_RPM].value != UInt16.MaxValue) { _fan.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_FAN_RPM].value; _controlSensor.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_FAN_PERCENTAGE].value; } else { _fan.Value = null; _controlSensor.Value = null; } ActivateSensor(_fan); ActivateSensor(_controlSensor); _coreVoltage.Value = 0.001f * logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_SOC_VOLTAGE].value; ActivateSensor(_coreVoltage); _memoryVoltage.Value = 0.001f * logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_MEM_VOLTAGE].value; ActivateSensor(_memoryVoltage); _coreLoad.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_GFX].value; ActivateSensor(_coreLoad); _powerCore.Value = null; if (logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_SOC_POWER].value > 0) { _powerCore.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_SOC_POWER].value; ActivateSensor(_powerCore); } _powerSocket.Value = logDataOutput.sensors[(int)AtiAdlxx.ADLSensorType.PMLOG_ASIC_POWER].value; ActivateSensor(_powerSocket); } } }
public override string GetReport() { var r = new StringBuilder(); r.AppendLine("AMD GPU"); r.AppendLine(); r.Append("AdapterIndex: "); r.AppendLine(_adapterIndex.ToString(CultureInfo.InvariantCulture)); r.AppendLine(); r.AppendLine("Overdrive Caps"); r.AppendLine(); try { int supported = 0; int enabled = 0; int version = 0; AtiAdlxx.ADLStatus status = AtiAdlxx.ADL_Overdrive_Caps(_adapterIndex, ref supported, ref enabled, ref version); r.Append(" Status: "); r.AppendLine(status.ToString()); r.Append(" Supported: "); r.AppendLine(supported.ToString(CultureInfo.InvariantCulture)); r.Append(" Enabled: "); r.AppendLine(enabled.ToString(CultureInfo.InvariantCulture)); r.Append(" Version: "); r.AppendLine(version.ToString(CultureInfo.InvariantCulture)); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); r.AppendLine("Overdrive5 Parameters"); r.AppendLine(); try { AtiAdlxx.ADLStatus status = AtiAdlxx.ADL_Overdrive5_ODParameters_Get(_adapterIndex, out AtiAdlxx.ADLODParameters p); r.Append(" Status: "); r.AppendLine(status.ToString()); r.AppendFormat(" NumberOfPerformanceLevels: {0}{1}", p.NumberOfPerformanceLevels, Environment.NewLine); r.AppendFormat(" ActivityReportingSupported: {0}{1}", p.ActivityReportingSupported, Environment.NewLine); r.AppendFormat(" DiscretePerformanceLevels: {0}{1}", p.DiscretePerformanceLevels, Environment.NewLine); r.AppendFormat(" EngineClock.Min: {0}{1}", p.EngineClock.Min, Environment.NewLine); r.AppendFormat(" EngineClock.Max: {0}{1}", p.EngineClock.Max, Environment.NewLine); r.AppendFormat(" EngineClock.Step: {0}{1}", p.EngineClock.Step, Environment.NewLine); r.AppendFormat(" MemoryClock.Min: {0}{1}", p.MemoryClock.Min, Environment.NewLine); r.AppendFormat(" MemoryClock.Max: {0}{1}", p.MemoryClock.Max, Environment.NewLine); r.AppendFormat(" MemoryClock.Step: {0}{1}", p.MemoryClock.Step, Environment.NewLine); r.AppendFormat(" Vddc.Min: {0}{1}", p.Vddc.Min, Environment.NewLine); r.AppendFormat(" Vddc.Max: {0}{1}", p.Vddc.Max, Environment.NewLine); r.AppendFormat(" Vddc.Step: {0}{1}", p.Vddc.Step, Environment.NewLine); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); r.AppendLine("Overdrive5 Temperature"); r.AppendLine(); try { var adlt = new AtiAdlxx.ADLTemperature(); AtiAdlxx.ADLStatus status = AtiAdlxx.ADL_Overdrive5_Temperature_Get(_adapterIndex, 0, ref adlt); r.Append(" Status: "); r.AppendLine(status.ToString()); r.AppendFormat(" Value: {0}{1}", 0.001f * adlt.Temperature, Environment.NewLine); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); r.AppendLine("Overdrive5 FanSpeed"); r.AppendLine(); try { var adlf = new AtiAdlxx.ADLFanSpeedValue { SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM }; var status = AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref adlf); r.Append(" Status RPM: "); r.AppendLine(status.ToString()); r.AppendFormat(" Value RPM: {0}{1}", adlf.FanSpeed, Environment.NewLine); adlf.SpeedType = AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT; status = AtiAdlxx.ADL_Overdrive5_FanSpeed_Get(_adapterIndex, 0, ref adlf); r.Append(" Status Percent: "); r.AppendLine(status.ToString()); r.AppendFormat(" Value Percent: {0}{1}", adlf.FanSpeed, Environment.NewLine); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); r.AppendLine("Overdrive5 CurrentActivity"); r.AppendLine(); try { var adlp = new AtiAdlxx.ADLPMActivity(); AtiAdlxx.ADLStatus status = AtiAdlxx.ADL_Overdrive5_CurrentActivity_Get(_adapterIndex, ref adlp); r.Append(" Status: "); r.AppendLine(status.ToString()); r.AppendFormat(" EngineClock: {0}{1}", 0.01f * adlp.EngineClock, Environment.NewLine); r.AppendFormat(" MemoryClock: {0}{1}", 0.01f * adlp.MemoryClock, Environment.NewLine); r.AppendFormat(" Vddc: {0}{1}", 0.001f * adlp.Vddc, Environment.NewLine); r.AppendFormat(" ActivityPercent: {0}{1}", adlp.ActivityPercent, Environment.NewLine); r.AppendFormat(" CurrentPerformanceLevel: {0}{1}", adlp.CurrentPerformanceLevel, Environment.NewLine); r.AppendFormat(" CurrentBusSpeed: {0}{1}", adlp.CurrentBusSpeed, Environment.NewLine); r.AppendFormat(" CurrentBusLanes: {0}{1}", adlp.CurrentBusLanes, Environment.NewLine); r.AppendFormat(" MaximumBusLanes: {0}{1}", adlp.MaximumBusLanes, Environment.NewLine); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); if (_context != IntPtr.Zero) { r.AppendLine("Overdrive6 CurrentPower"); r.AppendLine(); try { int power = 0; for (int i = 0; i < 4; i++) { string pt = ((AtiAdlxx.ADLODNCurrentPowerType)i).ToString(); AtiAdlxx.ADLStatus status = AtiAdlxx.ADL2_Overdrive6_CurrentPower_Get(_context, _adapterIndex, (AtiAdlxx.ADLODNCurrentPowerType)i, ref power); r.AppendFormat(" Power[{0}].Status: {1}{2}", pt, status.ToString(), Environment.NewLine); r.AppendFormat(" Power[{0}].Value: {1}{2}", pt, power * (1.0f / 0xFF), Environment.NewLine); } } catch (EntryPointNotFoundException) { r.AppendLine(" Status: Entry point not found"); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); } if (_context != IntPtr.Zero) { r.AppendLine("OverdriveN Temperature"); r.AppendLine(); try { for (int i = 1; i < 8; i++) { int temperature = 0; string tt = ((AtiAdlxx.ADLODNTemperatureType)i).ToString(); AtiAdlxx.ADLStatus status = AtiAdlxx.ADL2_OverdriveN_Temperature_Get(_context, _adapterIndex, (AtiAdlxx.ADLODNTemperatureType)i, ref temperature); r.AppendFormat(" Temperature[{0}].Status: {1}{2}", tt, status.ToString(), Environment.NewLine); r.AppendFormat(" Temperature[{0}].Value: {1}{2}", tt, 0.001f * temperature, Environment.NewLine); } } catch (EntryPointNotFoundException) { r.AppendLine(" Status: Entry point not found"); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); } if (_context != IntPtr.Zero) { r.AppendLine("OverdriveN Performance Status"); r.AppendLine(); try { var status = AtiAdlxx.ADL2_OverdriveN_PerformanceStatus_Get(_context, _adapterIndex, out var ps); r.Append(" Status: "); r.AppendLine(status.ToString()); r.AppendFormat(" CoreClock: {0}{1}", ps.CoreClock, Environment.NewLine); r.AppendFormat(" MemoryClock: {0}{1}", ps.MemoryClock, Environment.NewLine); r.AppendFormat(" DCEFClock: {0}{1}", ps.DCEFClock, Environment.NewLine); r.AppendFormat(" GFXClock: {0}{1}", ps.GFXClock, Environment.NewLine); r.AppendFormat(" UVDClock: {0}{1}", ps.UVDClock, Environment.NewLine); r.AppendFormat(" VCEClock: {0}{1}", ps.VCEClock, Environment.NewLine); r.AppendFormat(" GPUActivityPercent: {0}{1}", ps.GPUActivityPercent, Environment.NewLine); r.AppendFormat(" CurrentCorePerformanceLevel: {0}{1}", ps.CurrentCorePerformanceLevel, Environment.NewLine); r.AppendFormat(" CurrentMemoryPerformanceLevel: {0}{1}", ps.CurrentMemoryPerformanceLevel, Environment.NewLine); r.AppendFormat(" CurrentDCEFPerformanceLevel: {0}{1}", ps.CurrentDCEFPerformanceLevel, Environment.NewLine); r.AppendFormat(" CurrentGFXPerformanceLevel: {0}{1}", ps.CurrentGFXPerformanceLevel, Environment.NewLine); r.AppendFormat(" UVDPerformanceLevel: {0}{1}", ps.UVDPerformanceLevel, Environment.NewLine); r.AppendFormat(" VCEPerformanceLevel: {0}{1}", ps.VCEPerformanceLevel, Environment.NewLine); r.AppendFormat(" CurrentBusSpeed: {0}{1}", ps.CurrentBusSpeed, Environment.NewLine); r.AppendFormat(" CurrentBusLanes: {0}{1}", ps.CurrentBusLanes, Environment.NewLine); r.AppendFormat(" MaximumBusLanes: {0}{1}", ps.MaximumBusLanes, Environment.NewLine); r.AppendFormat(" VDDC: {0}{1}", ps.VDDC, Environment.NewLine); r.AppendFormat(" VDDCI: {0}{1}", ps.VDDCI, Environment.NewLine); } catch (EntryPointNotFoundException) { r.AppendLine(" Status: Entry point not found"); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); } if (_context != IntPtr.Zero) { r.AppendLine("Performance Metrics"); r.AppendLine(); try { var data = new AtiAdlxx.ADLPMLogDataOutput(); AtiAdlxx.ADLStatus status = AtiAdlxx.ADL2_New_QueryPMLogData_Get(_context, _adapterIndex, ref data); r.Append(" Status: "); r.AppendLine(status.ToString()); for (int i = 0; i < data.sensors.Length; i++) { string st = ((AtiAdlxx.ADLSensorType)i).ToString(); r.AppendFormat(" Sensor[{0}].Supported: {1}{2}", st, data.sensors[i].supported, Environment.NewLine); r.AppendFormat(" Sensor[{0}].Value: {1}{2}", st, data.sensors[i].value, Environment.NewLine); } } catch (EntryPointNotFoundException) { r.AppendLine(" Status: Entry point not found"); } catch (Exception e) { r.AppendLine(" Status: " + e.Message); } r.AppendLine(); } return(r.ToString()); }
public override void Update() { if (_framemetricsStarted) { float framesPerSecond = 0; if (AtiAdlxx.ADL2_Adapter_FrameMetrics_Get(_context, _adapterIndex, 0, ref framesPerSecond) == AtiAdlxx.ADLStatus.ADL_OK) { _fullscreenFPS.Value = framesPerSecond; } } if (_currentOverdriveApiLevel < 8) { if (_currentOverdriveApiLevel >= 6) { GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_TOTAL_POWER, _powerTotal); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_PPT_POWER, _powerPpt); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_SOCKET_POWER, _powerSoC); GetOD6Power(AtiAdlxx.ADLODNCurrentPowerType.ODN_GPU_CHIP_POWER, _powerCore); } if (_currentOverdriveApiLevel >= 7) { GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.EDGE, _temperatureCore, -200, 0.001); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.MEM, _temperatureMemory, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.VRVDDC, _temperatureVddc, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.VRMVDD, _temperatureMvdd, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.LIQUID, _temperatureLiquid, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.PLX, _temperaturePlx, 0); GetODNTemperature(AtiAdlxx.ADLODNTemperatureType.HOTSPOT, _temperatureHotSpot, 0); } else { GetOD5Temperature(_temperatureCore); } GetOD5FanSpeed(AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_RPM, _fan); GetOD5FanSpeed(AtiAdlxx.ADL_DL_FANCTRL_SPEED_TYPE_PERCENT, _controlSensor); GetOD5CurrentActivity(); } else { AtiAdlxx.ADLPMLogDataOutput logDataOutput = new AtiAdlxx.ADLPMLogDataOutput(); if (AtiAdlxx.ADL2_New_QueryPMLogData_Get(_context, _adapterIndex, ref logDataOutput) == AtiAdlxx.ADLStatus.ADL_OK) { GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_EDGE, _temperatureCore); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_HOTSPOT, _temperatureHotSpot); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRVDDC, _temperatureVddc); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_MEM, _temperatureMemory); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_VRMVDD, _temperatureMvdd); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_LIQUID, _temperatureLiquid); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_PLX, _temperaturePlx); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_TEMPERATURE_SOC, _temperatureSoC); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_GFXCLK, _coreClock); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_SOCCLK, _socClock); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_CLK_MEMCLK, _memoryClock); const int fanRpmIndex = (int)AtiAdlxx.ADLSensorType.PMLOG_FAN_RPM; const int fanPercentageIndex = (int)AtiAdlxx.ADLSensorType.PMLOG_FAN_PERCENTAGE; if (fanRpmIndex < logDataOutput.sensors.Length && fanPercentageIndex < logDataOutput.sensors.Length && logDataOutput.sensors[fanRpmIndex].value != ushort.MaxValue) { _fan.Value = logDataOutput.sensors[fanRpmIndex].value; _controlSensor.Value = logDataOutput.sensors[fanPercentageIndex].value; ActivateSensor(_fan); ActivateSensor(_controlSensor); } else { _fan.Value = null; _controlSensor.Value = null; } GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_GFX_VOLTAGE, _coreVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_SOC_VOLTAGE, _socVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_MEM_VOLTAGE, _memoryVoltage, 0.001f); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_GFX, _coreLoad); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_INFO_ACTIVITY_MEM, _memoryLoad); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_GFX_POWER, _powerCore); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_SOC_POWER, _powerSoC); GetPMLog(logDataOutput, AtiAdlxx.ADLSensorType.PMLOG_ASIC_POWER, _powerTotal); } } }
public AmdGpu(AtiAdlxx.ADLAdapterInfo adapterInfo, ISettings settings) : base(adapterInfo.AdapterName.Trim(), new Identifier("gpu-amd", adapterInfo.AdapterIndex.ToString(CultureInfo.InvariantCulture)), settings) { _adapterIndex = adapterInfo.AdapterIndex; BusNumber = adapterInfo.BusNumber; DeviceNumber = adapterInfo.DeviceNumber; _temperatureCore = new Sensor("GPU Core", 0, SensorType.Temperature, this, settings); _temperatureMemory = new Sensor("GPU Memory", 1, SensorType.Temperature, this, settings); _temperatureVddc = new Sensor("GPU VR VDDC", 2, SensorType.Temperature, this, settings); _temperatureMvdd = new Sensor("GPU VR MVDD", 3, SensorType.Temperature, this, settings); _temperatureSoC = new Sensor("GPU VR SoC", 4, SensorType.Temperature, this, settings); _temperatureLiquid = new Sensor("GPU Liquid", 5, SensorType.Temperature, this, settings); _temperaturePlx = new Sensor("GPU PLX", 6, SensorType.Temperature, this, settings); _temperatureHotSpot = new Sensor("GPU Hot Spot", 7, SensorType.Temperature, this, settings); _coreClock = new Sensor("GPU Core", 0, SensorType.Clock, this, settings); _socClock = new Sensor("GPU SoC", 1, SensorType.Clock, this, settings); _memoryClock = new Sensor("GPU Memory", 2, SensorType.Clock, this, settings); _fan = new Sensor("GPU Fan", 0, SensorType.Fan, this, settings); _coreVoltage = new Sensor("GPU Core", 0, SensorType.Voltage, this, settings); _memoryVoltage = new Sensor("GPU Memory", 1, SensorType.Voltage, this, settings); _socVoltage = new Sensor("GPU SoC", 2, SensorType.Voltage, this, settings); _coreLoad = new Sensor("GPU Core", 0, SensorType.Load, this, settings); _memoryLoad = new Sensor("GPU Memory", 1, SensorType.Load, this, settings); _controlSensor = new Sensor("GPU Fan", 0, SensorType.Control, this, settings); _powerCore = new Sensor("GPU Core", 0, SensorType.Power, this, settings); _powerPpt = new Sensor("GPU PPT", 1, SensorType.Power, this, settings); _powerSoC = new Sensor("GPU SoC", 2, SensorType.Power, this, settings); _powerTotal = new Sensor("GPU Package", 3, SensorType.Power, this, settings); _fullscreenFps = new Sensor("Fullscreen FPS", 0, SensorType.Factor, this, settings); if (!Software.OperatingSystem.IsUnix) { string convertedPnpString = adapterInfo.PNPString.Replace("\\", "#"); string[] deviceIdentifiers = D3DDisplayDevice.GetDeviceIdentifiers(); if (deviceIdentifiers != null) { foreach (string deviceIdentifier in deviceIdentifiers) { if (deviceIdentifier.IndexOf(convertedPnpString, StringComparison.OrdinalIgnoreCase) != -1 && D3DDisplayDevice.GetDeviceInfoByIdentifier(deviceIdentifier, out D3DDisplayDevice.D3DDeviceInfo deviceInfo)) { _windowsDeviceName = deviceIdentifier; int nodeSensorIndex = 2; int memorySensorIndex = 0; _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.OrderBy(x => x.Name)) { _gpuNodeUsage[node.Id] = new Sensor(node.Name, nodeSensorIndex++, SensorType.Load, this, settings); _gpuNodeUsagePrevValue[node.Id] = node.RunningTime; _gpuNodeUsagePrevTick[node.Id] = node.QueryTime; } break; } } } } int supported = 0; int enabled = 0; int version = 0; if (AtiAdlxx.ADL2_Adapter_FrameMetrics_Caps(_context, _adapterIndex, ref supported) == AtiAdlxx.ADLStatus.ADL_OK) { if (supported == AtiAdlxx.ADL_TRUE && AtiAdlxx.ADL2_Adapter_FrameMetrics_Start(_context, _adapterIndex, 0) == AtiAdlxx.ADLStatus.ADL_OK) { _frameMetricsStarted = true; _fullscreenFps.Value = -1; ActivateSensor(_fullscreenFps); } } if (AtiAdlxx.ADL_Overdrive_Caps(_adapterIndex, ref supported, ref enabled, ref version) == AtiAdlxx.ADLStatus.ADL_OK) { _overdriveApiSupported = supported == AtiAdlxx.ADL_TRUE; _currentOverdriveApiLevel = version; } else { _currentOverdriveApiLevel = -1; } if (_currentOverdriveApiLevel >= 5) { if (AtiAdlxx.ADL2_Main_Control_Create(AtiAdlxx.Main_Memory_Alloc, _adapterIndex, ref _context) != AtiAdlxx.ADLStatus.ADL_OK) { _context = IntPtr.Zero; } } AtiAdlxx.ADLFanSpeedInfo fanSpeedInfo = new(); if (AtiAdlxx.ADL_Overdrive5_FanSpeedInfo_Get(_adapterIndex, 0, ref fanSpeedInfo) != AtiAdlxx.ADLStatus.ADL_OK) { fanSpeedInfo.MaxPercent = 100; fanSpeedInfo.MinPercent = 0; } _fanControl = new Control(_controlSensor, settings, fanSpeedInfo.MinPercent, fanSpeedInfo.MaxPercent); _fanControl.ControlModeChanged += ControlModeChanged; _fanControl.SoftwareControlValueChanged += SoftwareControlValueChanged; ControlModeChanged(_fanControl); _controlSensor.Control = _fanControl; Update(); }
public AmdGpuGroup(ISettings settings) { try { _status = AtiAdlxx.ADL_Main_Control_Create(1); _report.AppendLine("AMD Display Library"); _report.AppendLine(); _report.Append("Status: "); _report.AppendLine(_status == AtiAdlxx.ADLStatus.ADL_OK ? "OK" : _status.ToString()); _report.AppendLine(); if (_status == AtiAdlxx.ADLStatus.ADL_OK) { int numberOfAdapters = 0; AtiAdlxx.ADL_Adapter_NumberOfAdapters_Get(ref numberOfAdapters); _report.Append("Number of adapters: "); _report.AppendLine(numberOfAdapters.ToString(CultureInfo.InvariantCulture)); _report.AppendLine(); if (numberOfAdapters > 0) { List <AmdGpu> potentialHardware = new(); AtiAdlxx.ADLAdapterInfo[] adapterInfo = new AtiAdlxx.ADLAdapterInfo[numberOfAdapters]; if (AtiAdlxx.ADL_Adapter_AdapterInfo_Get(adapterInfo) == AtiAdlxx.ADLStatus.ADL_OK) { for (int i = 0; i < numberOfAdapters; i++) { AtiAdlxx.ADL_Adapter_Active_Get(adapterInfo[i].AdapterIndex, out int isActive); AtiAdlxx.ADL_Adapter_ID_Get(adapterInfo[i].AdapterIndex, out int adapterId); _report.Append("AdapterIndex: "); _report.AppendLine(i.ToString(CultureInfo.InvariantCulture)); _report.Append("isActive: "); _report.AppendLine(isActive.ToString(CultureInfo.InvariantCulture)); _report.Append("AdapterName: "); _report.AppendLine(adapterInfo[i].AdapterName); _report.Append("UDID: "); _report.AppendLine(adapterInfo[i].UDID); _report.Append("PNPString: "); _report.AppendLine(adapterInfo[i].PNPString); _report.Append("Present: "); _report.AppendLine(adapterInfo[i].Present.ToString(CultureInfo.InvariantCulture)); _report.Append("VendorID: 0x"); _report.AppendLine(adapterInfo[i].VendorID.ToString("X", CultureInfo.InvariantCulture)); _report.Append("BusNumber: "); _report.AppendLine(adapterInfo[i].BusNumber.ToString(CultureInfo.InvariantCulture)); _report.Append("DeviceNumber: "); _report.AppendLine(adapterInfo[i].DeviceNumber.ToString(CultureInfo.InvariantCulture)); _report.Append("FunctionNumber: "); _report.AppendLine(adapterInfo[i].FunctionNumber.ToString(CultureInfo.InvariantCulture)); _report.Append("AdapterID: 0x"); _report.AppendLine(adapterId.ToString("X", CultureInfo.InvariantCulture)); if (!string.IsNullOrEmpty(adapterInfo[i].UDID) && adapterInfo[i].VendorID == AtiAdlxx.ATI_VENDOR_ID) { potentialHardware.Add(new AmdGpu(adapterInfo[i], settings)); } _report.AppendLine(); } } foreach (IGrouping <string, AmdGpu> amdGpus in potentialHardware.GroupBy(x => $"{x.BusNumber}-{x.DeviceNumber}")) { var amdGpu = amdGpus.OrderByDescending(x => x.Sensors.Length).FirstOrDefault(); if (amdGpu != null) { _hardware.Add(amdGpu); } } } } } catch (DllNotFoundException) { } catch (EntryPointNotFoundException e) { _report.AppendLine(); _report.AppendLine(e.ToString()); _report.AppendLine(); } }