public OpenCL(NetworkInterface.INetworkInterface networkInterface, Device[] intelDevices, Device[] amdDevices, bool isSubmitStale, int pauseOnFailedScans) { try { NetworkInterface = networkInterface; m_pauseOnFailedScan = pauseOnFailedScans; m_failedScanCount = 0; var hasADL_API = false; Solver.FoundADL_API(ref hasADL_API); if (!hasADL_API) { Program.Print("OpenCL [WARN] ADL library not found."); } if (!hasADL_API && RuntimeInformation.IsOSPlatform(OSPlatform.Linux)) { UseLinuxQuery = API.AmdLinuxQuery.QuerySuccess(); } if (RuntimeInformation.IsOSPlatform(OSPlatform.Linux) && !UseLinuxQuery) { Program.Print("OpenCL [WARN] Unable to find AMD devices in Linux kernel."); } HasMonitoringAPI = hasADL_API || UseLinuxQuery; NetworkInterface.OnGetTotalHashrate += NetworkInterface_OnGetTotalHashrate; if (!HasMonitoringAPI) { Program.Print("OpenCL [WARN] GPU monitoring not available."); } m_instance = Solver.GetInstance(); unsafe { m_GetSolutionTemplateCallback = Solver.SetOnGetSolutionTemplateHandler(m_instance, Work.GetSolutionTemplate); m_GetKingAddressCallback = Solver.SetOnGetKingAddressHandler(m_instance, Work.GetKingAddress); } m_GetWorkPositionCallback = Solver.SetOnGetWorkPositionHandler(m_instance, Work.GetPosition); m_ResetWorkPositionCallback = Solver.SetOnResetWorkPositionHandler(m_instance, Work.ResetPosition); m_IncrementWorkPositionCallback = Solver.SetOnIncrementWorkPositionHandler(m_instance, Work.IncrementPosition); m_MessageCallback = Solver.SetOnMessageHandler(m_instance, m_instance_OnMessage); m_SolutionCallback = Solver.SetOnSolutionHandler(m_instance, m_instance_OnSolution); NetworkInterface.OnGetMiningParameterStatusEvent += NetworkInterface_OnGetMiningParameterStatusEvent; NetworkInterface.OnNewMessagePrefixEvent += NetworkInterface_OnNewMessagePrefixEvent; NetworkInterface.OnNewTargetEvent += NetworkInterface_OnNewTargetEvent; Solver.SetSubmitStale(m_instance, isSubmitStale); if ((!Program.AllowIntel && !Program.AllowAMD) || (intelDevices.All(d => !d.AllowDevice) && amdDevices.All(d => !d.AllowDevice))) { Program.Print("OpenCL [INFO] Device not set."); return; } var deviceName = new StringBuilder(256); var deviceNameSize = 0ul; if (Program.AllowIntel) { for (int i = 0; i < intelDevices.Length; i++) { if (intelDevices[i].AllowDevice) { Solver.AssignDevice(m_instance, new StringBuilder(intelDevices[i].Platform), intelDevices[i].DeviceID, ref intelDevices[i].Intensity, ref intelDevices[i].PciBusID, deviceName, ref deviceNameSize); } } } if (Program.AllowAMD) { for (int i = 0; i < amdDevices.Length; i++) { if (amdDevices[i].AllowDevice) { deviceName.Clear(); Solver.AssignDevice(m_instance, new StringBuilder(amdDevices[i].Platform), amdDevices[i].DeviceID, ref amdDevices[i].Intensity, ref amdDevices[i].PciBusID, deviceName, ref deviceNameSize); if (!UseLinuxQuery) { amdDevices[i].Name = deviceName.ToString(); } else { amdDevices[i].Name = API.AmdLinuxQuery.GetDeviceRealName(amdDevices[i].PciBusID, deviceName.ToString()); Program.Print(string.Format("{0} (OpenCL) ID: {1} [INFO] Assigned OpenCL device ({2})", amdDevices[i].Platform, amdDevices[i].DeviceID, amdDevices[i].Name)); } } } } if (Program.AllowIntel && Program.AllowAMD) { Devices = intelDevices.Union(amdDevices).ToArray(); } else if (Program.AllowIntel) { Devices = intelDevices; } else if (Program.AllowAMD) { Devices = amdDevices; } } catch (Exception ex) { Program.Print(string.Format("OpenCL [ERROR] {0}", ex.Message)); } }
public CUDA(NetworkInterface.INetworkInterface networkInterface, Device[] cudaDevices, bool isSubmitStale, int pauseOnFailedScans) { try { Devices = cudaDevices; NetworkInterface = networkInterface; m_pauseOnFailedScan = pauseOnFailedScans; m_failedScanCount = 0; var hasNvAPI64 = false; Solver.FoundNvAPI64(ref hasNvAPI64); if (!hasNvAPI64) { Program.Print("CUDA [WARN] NvAPI64 library not found."); } var foundNvSMI = API.NvSMI.FoundNvSMI(); if (!foundNvSMI) { Program.Print("CUDA [WARN] NvSMI not found."); } UseNvSMI = !hasNvAPI64 && foundNvSMI; HasMonitoringAPI = hasNvAPI64 | UseNvSMI; if (!HasMonitoringAPI) { Program.Print("CUDA [WARN] GPU monitoring not available."); } NetworkInterface.OnGetTotalHashrate += NetworkInterface_OnGetTotalHashrate; m_instance = Solver.GetInstance(); unsafe { m_GetSolutionTemplateCallback = Solver.SetOnGetSolutionTemplateHandler(m_instance, Work.GetSolutionTemplate); m_GetKingAddressCallback = Solver.SetOnGetKingAddressHandler(m_instance, Work.GetKingAddress); } m_GetWorkPositionCallback = Solver.SetOnGetWorkPositionHandler(m_instance, Work.GetPosition); m_ResetWorkPositionCallback = Solver.SetOnResetWorkPositionHandler(m_instance, Work.ResetPosition); m_IncrementWorkPositionCallback = Solver.SetOnIncrementWorkPositionHandler(m_instance, Work.IncrementPosition); m_MessageCallback = Solver.SetOnMessageHandler(m_instance, m_instance_OnMessage); m_SolutionCallback = Solver.SetOnSolutionHandler(m_instance, m_instance_OnSolution); NetworkInterface.OnGetMiningParameterStatusEvent += NetworkInterface_OnGetMiningParameterStatusEvent; NetworkInterface.OnNewMessagePrefixEvent += NetworkInterface_OnNewMessagePrefixEvent; NetworkInterface.OnNewTargetEvent += NetworkInterface_OnNewTargetEvent; Solver.SetSubmitStale(m_instance, isSubmitStale); if (!Program.AllowCUDA || cudaDevices.All(d => !d.AllowDevice)) { Program.Print("[INFO] CUDA device not set."); return; } for (int i = 0; i < Devices.Length; i++) { if (Devices[i].AllowDevice) { Solver.AssignDevice(m_instance, Devices[i].DeviceID, ref Devices[i].PciBusID, ref Devices[i].Intensity); } } } catch (Exception ex) { Program.Print(string.Format("[ERROR] {0}", ex.Message)); } }