LoggerAddress = "localhost" LoggerPort = 32767 DefaultCPUs = 2 +OBJBROWSE = { Class = HttpClassListResource Fake = 1 } +THRBROWSE = { Class = HttpThreadListResource } +BROWSE = { Title = "Http GCRC Browser" Class = HttpGCRCBrowser AddReference = {StateMachine MARTe OBJBROWSE THRBROWSE HTTPCFGUploader HTTPSignalServer MATLABSignalServer AdvancedConfiguration DischargeConfigurator} } +HTTPSERVER = { Class = HttpService Port = 8085 VerboseLevel = 10 Root = BROWSE } +HTTPCFGUploader = { Class = CFGUploader } +TCPMessageHandler = { Class = TCPMessageHandler ServerPort = 9090 } +TCPConfigurationHandler = { Class = TCPConfigurationHandler ServerPort = 10010 MARTeLocation = MARTe } +HTTPSignalServer = { Class = SignalServer } +MATLABSupport = { Class = MATLABHandler } +StateMachine = { Class = StateMachine VerboseLevel = 10 +INITIAL = { Class = StateMachineState StateCode = 0x0 +START = { Class = StateMachineEvent NextState = IDLE Value = START +STARTALL = { Class = MessageDeliveryRequest Sender = StateMachine Destinations = "HTTPSERVER MARTe" MsecTimeOut = 1000 Flags = NoReply Message = { Class = Message Content = START } } } } +IDLE = { Class = StateMachineState StateCode = 0x500 +PULSE_SETUP_COMPLETED = { Class = StateMachineEvent Code = 0x701 NextState = WAITING_FOR_PRE +NOTIFY = { Class = MessageEnvelope Sender = StateMachine Destination = MARTe +MESSAGE = { Class = Message Content = PREPULSECHECK } } +UPDATE_HTTP_SIGNAL_SERVER = { Class = MessageEnvelope Destination = HTTPSignalServer +MESSAGE = { Class = Message Content = AUTODETECT } } } +INHIBIT = { Class = StateMachineEvent Code = 0x704 NextState = INHIBIT } +ACTIVATE = { Class = StateMachineEvent Code = 0x705 NextState = SAMESTATE } +STOP = { Class = StateMachineEvent NextState = IDLE Value = STOP +STOPALL = { Class = MessageDeliveryRequest Sender = StateMachine Destinations = "HTTPSERVER MARTe" MsecTimeOut = 1000 Flags = NoReply Message = { Class = Message Content = STOP } } } } +WAITING_FOR_PRE = { Class = StateMachineState StateCode = 0x504 +PRE = { Class = StateMachineEvent Code = 0x708 NextState = PULSING +NOTIFY = { Class = MessageEnvelope Sender = StateMachine Destination = MARTe +MESSAGE = { Class = Message Content = PULSESTART } } } +COLLECTION_COMPLETED = { Class = StateMachineEvent Code = 0x703 NextState = COMM_ERROR } } +PULSING = { Class = StateMachineState StateCode = 0x505 +EJP = { Class = StateMachineEvent Code = 0x709 NextState = POST_PULSE +NOTIFY = { Class = MessageEnvelope Sender = StateMachine Destination = MARTe +MESSAGE = { Class = Message Content = PULSESTOP } } } } +POST_PULSE = { Class = StateMachineState StateCode = 0x507 +COLLECTION_COMPLETED = { Class = StateMachineEvent Code = 0x703 NextState = IDLE +NOTIFY = { Class = MessageEnvelope Sender = StateMachine Destination = MARTe +MESSAGE = { Class = Message Content = COLLECTIONCOMPLETED } } } } +INHIBIT = { Class = StateMachineState StateCode = 0x508 +ACTIVATE = { Class = StateMachineEvent Code = 0x705 NextState = IDLE } } +ERROR = { Class = StateMachineState StateCode = 0x601 +ACTIVATE = { Class = StateMachineEvent Code = 0x705 NextState = INIT } +COLLECTION_COMPLETED = { Class = StateMachineEvent Code = 0x703 NextState = INIT } } +UNRECOVERABLE = { Class = StateMachineState StateCode = 0x601 +DEFAULT = { Class = StateMachineEvent UserCode = 0 NextState = UNRECOVERABLE } } +COMM_ERROR = { StateCode = 0x601 Class = StateMachineState +ABORT = { Class = StateMachineEvent Code = 0x702 NextState = SAMESTATE } } +DEFAULT = { Class = StateMachineState StateCode = 0x601 +ABORT = { Class = StateMachineEvent Code = 0x702 NextState = IDLE } +PRE = { Class = StateMachineEvent Code = 0x708 NextState = SAMESTATE } +EJP = { Class = StateMachineEvent Code = 0x709 NextState = SAMESTATE } } } +MARTeMenu = { Class = MarteSupLib::MARTeMenu Title = "MARTe Menu" +MenuA = { Class = MenuContainer Title = "CODAS Interface" +ABORT = { Class = SendMessageMenuEntry Title = Abort Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x702 Content = ABORT } } } +INHIBIT = { Class = SendMessageMenuEntry Title = Inhibit Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x704 Content = Inhibit } } } +ACTIVATE = { Class = SendMessageMenuEntry Title = Activate Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x705 Content = Activate } } } +PULSESETUPCOMPLETE = { Class = SendMessageMenuEntry Title = "Pulse Setup Complete" Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x701 Content = WAITING_FOR_PRE } } } +PRE = { Class = SendMessageMenuEntry Title = "Pulse Start" Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x708 Content = PRE } } } +EJP = { Class = SendMessageMenuEntry Title = "Pulse End" Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x709 Content = EJP } } } +COLLECTIONCOMPLETED = { Class = SendMessageMenuEntry Title = "Collection Completed" Envelope = { Class = MessageEnvelope Sender = MARTeMenu Destination = StateMachine +Message = { Class = Message Code = 0x703 Content = POSTPULSE } } } } AddReference = MARTe.MARTe } +ATCAAdc = { Class = ATCAadcDrv NumberOfInputs = 84 NumberOfOutputs = 2 SynchronizationMethod = Synchronizing UseSoftwareTrigger = 0 Modules = { Board0 = { IsMaster = 1 NumberOfAnalogueInput = 32 NumberOfDigitalInput = 9 NumberOfAnalogueOutput = 2 NumberOfDigitalOutput = 0 UseSoftwareTrigger = 0 SoftwareTriggerUsecCycleTime = 100000 DataArrivalUsecSleep = 0 DatagramMonitoringFastSleep = 1 DataAcquisitionUsecTimeOut = 1000 ModuleIdentifier = 3 } Board1 = { IsMaster = 0 NumberOfAnalogueInput = 32 NumberOfDigitalInput = 9 NumberOfAnalogueOutput = 0 NumberOfDigitalOutput = 0 UseSoftwareTrigger = 0 SoftwareTriggerUsecCycleTime = 100000 DataArrivalUsecSleep = 0 DatagramMonitoringFastSleep = 1 DataAcquisitionUsecTimeOut = 1000 ModuleIdentifier = 9 } } } +MARTe = { Class = MARTeContainer StateMachineName = StateMachine Level1Name = LEVEL1 MenuContainerName = MARTe +MARTe = { Class = MenuContainer } +ExternalTimeTriggeringService = { Class = DataPollingDrivenTTS TsOnlineUsecPeriod = 100 TsOnlineUsecPhase = 0 TsOfflineUsecPeriod = 100 TsOfflineUsecPhase = 0 TimeModule = { BoardName = ATCAAdc } } +FatalErrorMessage = { Class = MessageDeliveryRequest Destinations = StateMachine MsecTimeOut = 1000 Flags = NoReply Message = { Class = Message Content = UNRECOVERABLE } } +SafetyErrorMessage = { Class = MessageDeliveryRequest Destinations = MARTe MsecTimeOut = 1000 Flags = NoReply Message = { Class = Message Content = ERROR } } +RealTimeThread = { Class = RealTimeThread ThreadPriority = 0.000000E+00 RunOnCPU = 8.000000E+00 RTStatusChangeMsecTimeout = 1000 SMStatusChangeMsecTimeout = 1000 OfflineSemaphoreTimeout = 100 TriggeringServiceName = MARTe.ExternalTimeTriggeringService +DDB = { Class = DDB Fake = 1 } +ATCADac = { Class = IOGAMs::OutputGAM BoardName = ATCAAdc UsecTimeSignalName = usecTime Signals = { SendToToroidal = { SignalName = SendToToroidal SignalType = float Cal0 = 0 Cal1 = 0.001526 MaxOutputValue = 100 MinOutputValue = -100 } SendToPuffing = { SignalName = SendToPuffing SignalType = float Cal0 = 0 Cal1 = 0.001526 MaxOutputValue = 100 MinOutputValue = -100 } } } +ATCAAdc = { Class = IOGAMs::TimeInputGAM TriggeringServiceName = ExternalTimeTriggeringService BoardName = ATCAAdc Signals = { packetNumber = { SignalName = packetNumber SignalType = int32 } cycleUsecTime = { SignalName = usecTime SignalType = int32 } Channel_000 = { SignalName = ADC_tomography_top_0 SignalType = float Cal0 = -0.15267707 Cal1 = -3.4072775E-9 } Channel_001 = { SignalName = ADC_tomography_top_1 SignalType = float Cal0 = -0.18273073 Cal1 = -3.0369213E-9 } Channel_002 = { SignalName = ADC_tomography_top_2 SignalType = float Cal0 = -0.16319854 Cal1 = -2.3283064E-9 } Channel_003 = { SignalName = ADC_tomography_top_3 SignalType = float Cal0 = -0.16340260 Cal1 = -2.3283064E-9 } Channel_004 = { SignalName = ADC_tomography_top_4 SignalType = float Cal0 = -0.16674355 Cal1 = -2.3283064E-9 } Channel_005 = { SignalName = ADC_tomography_top_5 SignalType = float Cal0 = -0.17944072 Cal1 = -2.3283064E-9 } Channel_006 = { SignalName = ADC_tomography_top_6 SignalType = float Cal0 = -0.20362551 Cal1 = -2.5870073E-9 } Channel_007 = { SignalName = ADC_tomography_top_7 SignalType = float Cal0 = -0.24197083 Cal1 = -3.1044087E-9 } Channel_008 = { SignalName = ADC_tomography_outer_0 SignalType = float Cal0 = -0.043160510 Cal1 = -3.5453757E-9 } Channel_009 = { SignalName = ADC_tomography_outer_1 SignalType = float Cal0 = -0.0086336515 Cal1 = -2.6440089E-9 } Channel_010 = { SignalName = ADC_tomography_outer_2 SignalType = float Cal0 = 0.0071577080 Cal1 = -2.4374458E-9 } Channel_011 = { SignalName = ADC_tomography_outer_3 SignalType = float Cal0 = -0.070312243 Cal1 = -2.3283064E-9 } Channel_012 = { SignalName = ADC_tomography_outer_4 SignalType = float Cal0 = -0.051848319 Cal1 = -2.3283064E-9 } Channel_013 = { SignalName = ADC_tomography_outer_5 SignalType = float Cal0 = -0.071824896 Cal1 = -2.5999422E-9 } Channel_014 = { SignalName = ADC_tomography_outer_6 SignalType = float Cal0 = -0.15702936 Cal1 = -2.6895955E-9 } Channel_015 = { SignalName = ADC_tomography_outer_7 SignalType = float Cal0 = -0.17259844 Cal1 = -2.9999334E-9 } Channel_016 = { SignalName = ADC_tomography_bottom_0 SignalType = float Cal0 = -0.33819630 Cal1 = -4.3529208E-9 } Channel_017 = { SignalName = ADC_tomography_bottom_1 SignalType = float Cal0 = -0.23471839 Cal1 = -3.3372391E-9 } Channel_018 = { SignalName = ADC_tomography_bottom_2 SignalType = float Cal0 = -0.18317655 Cal1 = -2.9446229E-9 } Channel_019 = { SignalName = ADC_tomography_bottom_3 SignalType = float Cal0 = -0.15194744 Cal1 = -2.4418823E-9 } Channel_020 = { SignalName = ADC_tomography_bottom_4 SignalType = float Cal0 = -0.14320473 Cal1 = -2.3283064E-9 } Channel_021 = { SignalName = ADC_tomography_bottom_5 SignalType = float Cal0 = -0.18502216 Cal1 = -2.6346625E-9 } Channel_022 = { SignalName = ADC_tomography_bottom_6 SignalType = float Cal0 = -0.17325912 Cal1 = -3.1286618E-9 } Channel_023 = { SignalName = ADC_tomography_bottom_7 SignalType = float Cal0 = -0.27911253 Cal1 = -4.5507809E-9 } Channel_024 = { SignalName = ADC_H_alpha SignalType = float Cal0 = 0.0 Cal1 = 2.3283E-9 } Channel_025 = { SignalName = ADC_v_primary SignalType = float Cal0 = 0.0 Cal1 = 2.3283E-7 } Channel_026 = { SignalName = ADC_sine_probe SignalType = float Cal0 = 0.0 Cal1 = 2.3283E-9 } Channel_027 = { SignalName = ADC_cosine_probe SignalType = float Cal0 = 0.0 Cal1 = 2.3283E-9 } Channel_028 = { SignalName = ADC_main_rogowski SignalType = float Cal0 = 0.0 Cal1 = -1.3987E-5 } Channel_029 = { SignalName = ADC_horizontal_current SignalType = float Cal0 = 2.0 Cal1 = 2.1372E-7 } Channel_030 = { SignalName = ADC_vertical_current SignalType = float Cal0 = -6.13 Cal1 = -2.8422E-7 } Channel_031 = { SignalName = ADC_primary_current SignalType = float Cal0 = -2.8 Cal1 = 3.1334E-7 } SignalD0 = { SignalName = DIGITAL0 SignalType = int32 } SignalD1 = { SignalName = DIGITAL1 SignalType = int32 } SignalD2 = { SignalName = DIGITAL2 SignalType = int32 } SignalD3 = { SignalName = DIGITAL3 SignalType = int32 } SignalD4 = { SignalName = DIGITAL4 SignalType = int32 } SignalD5 = { SignalName = DIGITAL5 SignalType = int32 } SignalD6 = { SignalName = DIGITAL6 SignalType = int32 } SignalD7 = { SignalName = DIGITAL7 SignalType = int32 } SignalD8 = { SignalName = DIGITAL9 SignalType = int32 } Channel_032 = { SignalName = ADC_interferometry_sine SignalType = float Cal0 = 0.2360 Cal1 = 7.5509E-09 } Channel_033 = { SignalName = FREE_CHANNEL_33 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_034 = { SignalName = ADC_interferometry_cosine SignalType = float Cal0 = -0.0344 Cal1 = 8.7894E-09 } Channel_035 = { SignalName = FREE_CHANNEL_35 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_036 = { SignalName = FREE_CHANNEL_36 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_037 = { SignalName = FREE_CHANNEL_37 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_038 = { SignalName = FREE_CHANNEL_38 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_039 = { SignalName = ADC_vloop SignalType = float Cal0 = 0.0 Cal1 = -4.6566E-9 } Channel_040 = { SignalName = FREE_CHANNEL_40 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_041 = { SignalName = FREE_CHANNEL_41 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_042 = { SignalName = FREE_CHANNEL_42 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_043 = { SignalName = FREE_CHANNEL_43 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_044 = { SignalName = FREE_CHANNEL_44 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_045 = { SignalName = FREE_CHANNEL_45 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_046 = { SignalName = FREE_CHANNEL_46 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_047 = { SignalName = FREE_CHANNEL_47 SignalType = float Cal0 = 0.0 Cal1 = 1.0 } Channel_048 = { SignalName = ADC_magnetic_0 SignalType = float Cal0 = 0.0 Cal1 = -4.6566E-9 } Channel_049 = { SignalName = ADC_magnetic_1 SignalType = float Cal0 = 0.0 Cal1 = -4.6566E-9 } Channel_050 = { SignalName = ADC_magnetic_2 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_051 = { SignalName = ADC_magnetic_3 SignalType = float Cal0 = 0.0 Cal1 = -4.6566E-9 } Channel_052 = { SignalName = ADC_magnetic_4 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_053 = { SignalName = ADC_magnetic_5 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_054 = { SignalName = ADC_magnetic_6 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_055 = { SignalName = ADC_magnetic_7 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_056 = { SignalName = ADC_magnetic_8 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_057 = { SignalName = ADC_magnetic_9 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_058 = { SignalName = ADC_magnetic_10 SignalType = float Cal0 = 0.0 Cal1 = -4.6566E-9 } Channel_059 = { SignalName = ADC_magnetic_11 SignalType = float Cal0 = 0.0 Cal1 = 4.6566E-9 } Channel_060 = { SignalName = ADC_electric_outer_near SignalType = float Cal0 = 0.832 Cal1 = 2.3283E-7 } Channel_061 = { SignalName = ADC_electric_top_near SignalType = float Cal0 = 2.962 Cal1 = 2.3283E-7 } Channel_062 = { SignalName = ADC_electric_inner_near SignalType = float Cal0 = 3.841 Cal1 = 2.3283E-7 } Channel_063 = { SignalName = ADC_electric_bottom_near SignalType = float Cal0 = 0.507 Cal1 = 2.3283E-7 } SignalD9 = { SignalName = DIGITAL9 SignalType = int32 } SignalD10 = { SignalName = DIGITAL10 SignalType = int32 } SignalD11 = { SignalName = DIGITAL11 SignalType = int32 } SignalD12 = { SignalName = DIGITAL12 SignalType = int32 } SignalD13 = { SignalName = DIGITAL13 SignalType = int32 } SignalD14 = { SignalName = DIGITAL14 SignalType = int32 } SignalD15 = { SignalName = DIGITAL15 SignalType = int32 } SignalD16 = { SignalName = DIGITAL16 SignalType = int32 } SignalD17 = { SignalName = DIGITAL17 SignalType = int32 } } } +DataCollection = { Class = CollectionGAMs::DataCollectionGAM UsecTimeSignalName = usecTime EventTrigger = { TimeWindow0 = { NOfSamples = 6610 UsecPeriod = 100 } } NOfAcquisitionSamples = 6610 Signals = { timeBase = { SignalName = usecTime SignalType = int32 JPFName = TimeBase Cal0 = 0.0 Cal1 = 1.0e-06 } Channel_000 = { SignalName = ADC_tomography_top_0 SignalType = float JPFName = ADC_tomography_top_0 Cal0 = 0.0 Cal1 = 1.0 } Channel_001 = { SignalName = ADC_tomography_top_1 SignalType = float JPFName = ADC_tomography_top_1 Cal0 = 0.0 Cal1 = 1.0 } Channel_002 = { SignalName = ADC_tomography_top_2 SignalType = float JPFName = ADC_tomography_top_2 Cal0 = 0.0 Cal1 = 1.0 } Channel_003 = { SignalName = ADC_tomography_top_3 SignalType = float JPFName = ADC_tomography_top_3 Cal0 = 0.0 Cal1 = 1.0 } Channel_004 = { SignalName = ADC_tomography_top_4 SignalType = float JPFName = ADC_tomography_top_4 Cal0 = 0.0 Cal1 = 1.0 } Channel_005 = { SignalName = ADC_tomography_top_5 SignalType = float JPFName = ADC_tomography_top_5 Cal0 = 0.0 Cal1 = 1.0 } Channel_006 = { SignalName = ADC_tomography_top_6 SignalType = float JPFName = ADC_tomography_top_6 Cal0 = 0.0 Cal1 = 1.0 } Channel_007 = { SignalName = ADC_tomography_top_7 SignalType = float JPFName = ADC_tomography_top_7 Cal0 = 0.0 Cal1 = 1.0 } Channel_008 = { SignalName = ADC_tomography_outer_0 SignalType = float JPFName = ADC_tomography_outer_0 Cal0 = 0.0 Cal1 = 1.0 } Channel_009 = { SignalName = ADC_tomography_outer_1 SignalType = float JPFName = ADC_tomography_outer_1 Cal0 = 0.0 Cal1 = 1.0 } Channel_010 = { SignalName = ADC_tomography_outer_2 SignalType = float JPFName = ADC_tomography_outer_2 Cal0 = 0.0 Cal1 = 1.0 } Channel_011 = { SignalName = ADC_tomography_outer_3 SignalType = float JPFName = ADC_tomography_outer_3 Cal0 = 0.0 Cal1 = 1.0 } Channel_012 = { SignalName = ADC_tomography_outer_4 SignalType = float JPFName = ADC_tomography_outer_4 Cal0 = 0.0 Cal1 = 1.0 } Channel_013 = { SignalName = ADC_tomography_outer_5 SignalType = float JPFName = ADC_tomography_outer_5 Cal0 = 0.0 Cal1 = 1.0 } Channel_014 = { SignalName = ADC_tomography_outer_6 SignalType = float JPFName = ADC_tomography_outer_6 Cal0 = 0.0 Cal1 = 1.0 } Channel_015 = { SignalName = ADC_tomography_outer_7 SignalType = float JPFName = ADC_tomography_outer_7 Cal0 = 0.0 Cal1 = 1.0 } Channel_016 = { SignalName = ADC_tomography_bottom_0 SignalType = float JPFName = ADC_tomography_bottom_0 Cal0 = 0.0 Cal1 = 1.0 } Channel_017 = { SignalName = ADC_tomography_bottom_1 SignalType = float JPFName = ADC_tomography_bottom_1 Cal0 = 0.0 Cal1 = 1.0 } Channel_018 = { SignalName = ADC_tomography_bottom_2 SignalType = float JPFName = ADC_tomography_bottom_2 Cal0 = 0.0 Cal1 = 1.0 } Channel_019 = { SignalName = ADC_tomography_bottom_3 SignalType = float JPFName = ADC_tomography_bottom_3 Cal0 = 0.0 Cal1 = 1.0 } Channel_020 = { SignalName = ADC_tomography_bottom_4 SignalType = float JPFName = ADC_tomography_bottom_4 Cal0 = 0.0 Cal1 = 1.0 } Channel_021 = { SignalName = ADC_tomography_bottom_5 SignalType = float JPFName = ADC_tomography_bottom_5 Cal0 = 0.0 Cal1 = 1.0 } Channel_022 = { SignalName = ADC_tomography_bottom_6 SignalType = float JPFName = ADC_tomography_bottom_6 Cal0 = 0.0 Cal1 = 1.0 } Channel_023 = { SignalName = ADC_tomography_bottom_7 SignalType = float JPFName = ADC_tomography_bottom_7 Cal0 = 0.0 Cal1 = 1.0 } Channel_024 = { SignalName = ADC_electric_top_near SignalType = float JPFName = ADC_electric_top_near Cal0 = 0.0 Cal1 = 1.0 } Channel_025 = { SignalName = ADC_electric_outer_near SignalType = float JPFName = ADC_electric_outer_near Cal0 = 0.0 Cal1 = 1.0 } Channel_026 = { SignalName = ADC_electric_bottom_near SignalType = float JPFName = ADC_electric_bottom_near Cal0 = 0.0 Cal1 = 1.0 } Channel_027 = { SignalName = ADC_electric_inner_near SignalType = float JPFName = ADC_electric_inner_near Cal0 = 0.0 Cal1 = 1.0 } Channel_028 = { SignalName = ADC_magnetic_0 SignalType = float JPFName = ADC_magnetic_0 Cal0 = 0.0 Cal1 = 1.0 } Channel_029 = { SignalName = ADC_magnetic_1 SignalType = float JPFName = ADC_magnetic_1 Cal0 = 0.0 Cal1 = 1.0 } Channel_030 = { SignalName = ADC_magnetic_2 SignalType = float JPFName = ADC_magnetic_2 Cal0 = 0.0 Cal1 = 1.0 } Channel_031 = { SignalName = ADC_magnetic_3 SignalType = float JPFName = ADC_magnetic_3 Cal0 = 0.0 Cal1 = 1.0 } Channel_032 = { SignalName = ADC_magnetic_4 SignalType = float JPFName = ADC_magnetic_4 Cal0 = 0.0 Cal1 = 1.0 } Channel_033 = { SignalName = ADC_magnetic_5 SignalType = float JPFName = ADC_magnetic_5 Cal0 = 0.0 Cal1 = 1.0 } Channel_034 = { SignalName = ADC_magnetic_6 SignalType = float JPFName = ADC_magnetic_6 Cal0 = 0.0 Cal1 = 1.0 } Channel_035 = { SignalName = ADC_magnetic_7 SignalType = float JPFName = ADC_magnetic_7 Cal0 = 0.0 Cal1 = 1.0 } Channel_036 = { SignalName = ADC_magnetic_8 SignalType = float JPFName = ADC_magnetic_8 Cal0 = 0.0 Cal1 = 1.0 } Channel_037 = { SignalName = ADC_magnetic_9 SignalType = float JPFName = ADC_magnetic_9 Cal0 = 0.0 Cal1 = 1.0 } Channel_038 = { SignalName = ADC_magnetic_10 SignalType = float JPFName = ADC_magnetic_10 Cal0 = 0.0 Cal1 = 1.0 } Channel_039 = { SignalName = ADC_magnetic_11 SignalType = float JPFName = ADC_magnetic_11 Cal0 = 0.0 Cal1 = 1.0 } Channel_040 = { SignalName = ADC_primary_current SignalType = float JPFName = ADC_primary_current Cal0 = 0.0 Cal1 = 1.0 } Channel_041 = { SignalName = ADC_vertical_current SignalType = float JPFName = ADC_vertical_current Cal0 = 0.0 Cal1 = 1.0 } Channel_042 = { SignalName = ADC_horizontal_current SignalType = float JPFName = ADC_horizontal_current Cal0 = 0.0 Cal1 = 1.0 } Channel_043 = { SignalName = ADC_vloop SignalType = float JPFName = ADC_vloop Cal0 = 0.0 Cal1 = 1.0 } Channel_044 = { SignalName = ADC_interferometry_sine SignalType = float JPFName = ADC_interferometry_sine Cal0 = 0.0 Cal1 = 1.0 } Channel_045 = { SignalName = ADC_interferometry_cosine SignalType = float JPFName = ADC_interferometry_cosine Cal0 = 0.0 Cal1 = 1.0 } Channel_046 = { SignalName = ADC_H_alpha SignalType = float JPFName = ADC_H_alpha Cal0 = 0.0 Cal1 = 1.0 } Channel_047 = { SignalName = ADC_sine_probe SignalType = float JPFName = ADC_sine_probe Cal0 = 0.0 Cal1 = 1.0 } Channel_048 = { SignalName = ADC_cosine_probe SignalType = float JPFName = ADC_cosine_probe Cal0 = 0.0 Cal1 = 1.0 } Channel_049 = { SignalName = ADC_main_rogowski SignalType = float JPFName = ADC_main_rogowski Cal0 = 0.0 Cal1 = 1.0 } Channel_050 = { SignalName = CycleUsecTime SignalType = float JPFName = Cycle_Usec_Time Cal0 = 0.0 Cal1 = 1.0 } Channel_051 = { SignalName = ATCAAdcRelativeUsecTime SignalType = float JPFName = ATCAAdcRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_052 = { SignalName = DataCollectionRelativeUsecTime SignalType = float JPFName = DataCollectionRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_053 = { SignalName = time_windowsRelativeUsecTime SignalType = float JPFName = time_windowsRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_054 = { SignalName = tomographyRelativeUsecTime SignalType = float JPFName = tomographyRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_055 = { SignalName = electric_probesRelativeUsecTime SignalType = float JPFName = electric_probesRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_056 = { SignalName = magnetic_probesRelativeUsecTime SignalType = float JPFName = magnetic_probesRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_057 = { SignalName = sine_probeRelativeUsecTime SignalType = float JPFName = sine_probeRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_058 = { SignalName = cosine_probeRelativeUsecTime SignalType = float JPFName = cosine_probeRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_059 = { SignalName = main_rogowskiRelativeUsecTime SignalType = float JPFName = main_rogowskiRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_060 = { SignalName = interferometryRelativeUsecTime SignalType = float JPFName = interferometryRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_061 = { SignalName = H_alphaRelativeUsecTime SignalType = float JPFName = H_alphaRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_062 = { SignalName = technical_signalsRelativeUsecTime SignalType = float JPFName = technical_signalsRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_063 = { SignalName = plasma_parametersRelativeUsecTime SignalType = float JPFName = plasma_parametersRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_064 = { SignalName = machine_protectionRelativeUsecTime SignalType = float JPFName = machine_protectionRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_065 = { SignalName = waveform_primaryRelativeUsecTime SignalType = float JPFName = waveform_primaryRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_066 = { SignalName = waveform_verticalRelativeUsecTime SignalType = float JPFName = waveform_verticalRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_067 = { SignalName = waveform_horizontalRelativeUsecTime SignalType = float JPFName = waveform_horizontalRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_068 = { SignalName = waveform_toroidalRelativeUsecTime SignalType = float JPFName = waveform_toroidalRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_069 = { SignalName = waveform_puffingRelativeUsecTime SignalType = float JPFName = waveform_puffingRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_070 = { SignalName = controllerRelativeUsecTime SignalType = float JPFName = controllerRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_071 = { SignalName = PSCommunicator_horizontalRelativeUsecTime SignalType = float JPFName = PSCommunicator_horizontalRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_072 = { SignalName = PSCommunicator_verticalRelativeUsecTime SignalType = float JPFName = PSCommunicator_verticalRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_073 = { SignalName = PSCommunicator_primaryRelativeUsecTime SignalType = float JPFName = PSCommunicator_primaryRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_074 = { SignalName = CodacRelativeUsecTime SignalType = float JPFName = CodacRelativeUsecTime Cal0 = 0.0 Cal1 = 1.0 } Channel_075 = { SignalName = DischargeStatus SignalType = int32 JPFName = DischargeStatus Cal0 = 0.0 Cal1 = 1.0 } Channel_076 = { SignalName = usecDischargeTime SignalType = int32 JPFName = usecDischargeTime Cal0 = 0.0 Cal1 = 1.0 } Channel_077 = { SignalName = PlasmaDirection SignalType = int32 JPFName = PlasmaDirection Cal0 = 0.0 Cal1 = 1.0 } Channel_078 = { SignalName = TomographyR SignalType = float JPFName = TomographyR Cal0 = 0.0 Cal1 = 1.0 } Channel_079 = { SignalName = TomographyZ SignalType = float JPFName = TomographyZ Cal0 = 0.0 Cal1 = 1.0 } Channel_080 = { SignalName = TomographyIntensity SignalType = float JPFName = TomographyIntensity Cal0 = 0.0 Cal1 = 1.0 } Channel_081 = { SignalName = ElectricProbesR SignalType = float JPFName = ElectricProbesR Cal0 = 0.0 Cal1 = 1.0 } Channel_082 = { SignalName = ElectricProbesZ SignalType = float JPFName = ElectricProbesZ Cal0 = 0.0 Cal1 = 1.0 } Channel_083 = { SignalName = MagneticProbesR SignalType = float JPFName = MagneticProbesR Cal0 = 0.0 Cal1 = 1.0 } Channel_084 = { SignalName = MagneticProbesZ SignalType = float JPFName = MagneticProbesZ Cal0 = 0.0 Cal1 = 1.0 } Channel_085 = { SignalName = MagneticProbesPlasmaCurrent SignalType = float JPFName = MagneticProbesPlasmaCurrent Cal0 = 0.0 Cal1 = 1.0 } Channel_086 = { SignalName = SineProbeZ SignalType = float JPFName = SineProbeZ Cal0 = 0.0 Cal1 = 1.0 } Channel_087 = { SignalName = CosineProbeR SignalType = float JPFName = CosineProbeR Cal0 = 0.0 Cal1 = 1.0 } Channel_088 = { SignalName = RogowskiPlasmaCurrent SignalType = float JPFName = RogowskiPlasmaCurrent Cal0 = 0.0 Cal1 = 1.0 } Channel_089 = { SignalName = InterferometryDensity SignalType = float JPFName = InterferometryDensity Cal0 = 0.0 Cal1 = 1.0 } Channel_090 = { SignalName = InterferometryR SignalType = float JPFName = InterferometryR Cal0 = 0.0 Cal1 = 1.0 } Channel_091 = { SignalName = HorizontalCurrent SignalType = float JPFName = HorizontalCurrent Cal0 = 0.0 Cal1 = 1.0 } Channel_092 = { SignalName = VerticalCurrent SignalType = float JPFName = VerticalCurrent Cal0 = 0.0 Cal1 = 1.0 } Channel_093 = { SignalName = PrimaryCurrent SignalType = float JPFName = PrimaryCurrent Cal0 = 0.0 Cal1 = 1.0 } Channel_094 = { SignalName = IronCoreSaturation SignalType = float JPFName = IronCoreSaturation Cal0 = 0.0 Cal1 = 1.0 } Channel_095 = { SignalName = VLoop SignalType = float JPFName = VLoop Cal0 = 0.0 Cal1 = 1.0 } Channel_096 = { SignalName = HAlfa SignalType = float JPFName = HAlfa Cal0 = 0.0 Cal1 = 1.0 } Channel_097 = { SignalName = InSaturation SignalType = int32 JPFName = InSaturation Cal0 = 0.0 Cal1 = 1.0 } Channel_098 = { SignalName = SlowStopBool SignalType = int32 JPFName = SlowStopBool Cal0 = 0.0 Cal1 = 1.0 } Channel_099 = { SignalName = HardStopBool SignalType = int32 JPFName = HardStopBool Cal0 = 0.0 Cal1 = 1.0 } Channel_100 = { SignalName = PlasmaCurrent SignalType = float JPFName = PlasmaCurrent Cal0 = 0.0 Cal1 = 1.0 } Channel_101 = { SignalName = PositionR SignalType = float JPFName = PositionR Cal0 = 0.0 Cal1 = 1.0 } Channel_102 = { SignalName = PositionZ SignalType = float JPFName = PositionZ Cal0 = 0.0 Cal1 = 1.0 } Channel_103 = { SignalName = Density SignalType = float JPFName = Density Cal0 = 0.0 Cal1 = 1.0 } Channel_104 = { SignalName = ADC_v_primary SignalType = float JPFName = ADC_v_primary Cal0 = 0.0 Cal1 = 1.0 } Channel_105 = { SignalName = PrimaryOutputWaveform SignalType = float JPFName = PrimaryOutputWaveform Cal0 = 0.0 Cal1 = 1.0 } Channel_106 = { SignalName = VerticalOutputWaveform SignalType = float JPFName = VerticalOutputWaveform Cal0 = 0.0 Cal1 = 1.0 } Channel_107 = { SignalName = HorizontalOutputWaveform SignalType = float JPFName = HorizontalOutputWaveform Cal0 = 0.0 Cal1 = 1.0 } Channel_108 = { SignalName = ToroidalOutputWaveform SignalType = float JPFName = ToroidalOutputWaveform Cal0 = 0.0 Cal1 = 1.0 } Channel_109 = { SignalName = PuffingOutputWaveform SignalType = float JPFName = PuffingOutputWaveform Cal0 = 0.0 Cal1 = 1.0 } Channel_110 = { SignalName = SendToPuffing SignalType = float JPFName = SendToPuffing Cal0 = 0.0 Cal1 = 1.0 } } } +waveform_primary = { Class = isttokbiblio::WaveformGAM input_signals = { input_time = { SignalName = usecDischargeTime SignalType = int32 } input_mode = { SignalName = PrimaryWaveformMode SignalType = int32 } input_AC_cycle = { SignalName = PlasmaDirection SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } waveform_mode_1_positive = { vector_size = 4 index_vector = {0.000000e+00 2.500000e+01 2.501000e+01 3.000000e+01} data_vector = {1.400000e+02 1.500000e+02 0.000000e+00 0.000000e+00} max_value = 3.500000e+02 min_value = -3.500000e+02 } waveform_mode_1_negative = { vector_size = 4 index_vector = {0.000000e+00 2.500000e+01 2.501000e+01 3.000000e+01} data_vector = {-1.400000e+02 -1.500000e+02 0.000000e+00 0.000000e+00} } waveform_mode_2_positive = { vector_size = 8 index_vector = {0.000000e+00 5.000000e+00 7.000000e+00 1.000000e+01 1.200000e+01 1.500000e+01 2.000000e+01 3.000000e+01} data_vector = {0.000000e+00 6.000000e+01 6.000000e+01 -6.000000e+01 -8.000000e+01 3.000000e+01 1.000000e+02 0.000000e+00} max_value = 7.000000e+03 min_value = -7.000000e+03 } waveform_mode_2_negative = { vector_size = 5 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01} data_vector = {3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02 0.000000e+00} } waveform_breakdown = { vector_size = 10 index_vector = {0.000000e+00 1.000000e+00 1.010000e+00 5.000000e+00 5.010000e+00 7.000000e+00 7.010000e+00 8.000000e+00 8.010000e+00 9.000000e+00} data_vector = {-5.000000e+01 -5.000000e+01 -5.000000e+01 -5.000000e+01 1.500000e+02 1.500000e+02 1.500000e+02 1.500000e+02 0.000000e+00 0.000000e+00} } waveform_breakdown_negative = { vector_size = 8 index_vector = {0.000000e+00 1.000000e+00 1.010000e+00 5.000000e+00 5.010000e+00 8.000000e+00 8.010000e+00 9.000000e+00} data_vector = {3.000000e+01 3.000000e+01 3.000000e+01 3.000000e+01 -1.500000e+02 -1.500000e+02 0.000000e+00 0.000000e+00} } waveform_inversion_positive_to_negative = { vector_size = 11 index_vector = {0.000000e+00 1.000000e+00 1.010000e+00 3.000000e+00 4.000000e+00 4.010000e+00 5.000000e+00 5.010000e+00 7.000000e+00 7.010000e+00 8.000000e+00} data_vector = {1.500000e+02 0.000000e+00 -1.500000e+02 -1.500000e+02 -1.500000e+02 3.000000e+01 3.000000e+01 -1.500000e+02 -1.500000e+02 0.000000e+00 0.000000e+00} } waveform_inversion_negative_to_positive = { vector_size = 11 index_vector = {0.000000e+00 1.000000e+00 1.010000e+00 3.000000e+00 3.990000e+00 4.000000e+00 5.000000e+00 5.010000e+00 7.000000e+00 7.010000e+00 8.000000e+00} data_vector = {-1.500000e+02 0.000000e+00 1.500000e+02 1.500000e+02 1.500000e+02 -3.000000e+01 -3.000000e+01 1.500000e+02 1.500000e+02 0.000000e+00 0.000000e+00} } output_signals = { output_waveform = { SignalName = PrimaryOutputWaveform SignalType = float } } } +waveform_vertical = { Class = isttokbiblio::WaveformGAM input_signals = { input_time = { SignalName = usecDischargeTime SignalType = int32 } input_mode = { SignalName = VerticalWaveformMode SignalType = int32 } input_AC_cycle = { SignalName = PlasmaDirection SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } waveform_mode_1_positive = { vector_size = 4 index_vector = {0.000000e+00 2.500000e+01 2.501000e+01 3.000000e+01} data_vector = {-2.000000e+02 -2.000000e+02 0.000000e+00 0.000000e+00} max_value = 7.000000e+02 min_value = -7.000000e+02 } waveform_mode_1_negative = { vector_size = 6 index_vector = {0.000000e+00 1.999000e+01 2.000000e+01 2.500000e+01 2.501000e+01 3.000000e+01} data_vector = {1.000000e+02 1.000000e+02 2.300000e+02 2.300000e+02 0.000000e+00 0.000000e+00} } waveform_mode_2_positive = { vector_size = 3 index_vector = {0.000000e+00 3.000000e+01 3.100000e+01} data_vector = {1.500000e+01 1.500000e+01 0.000000e+00} max_value = 8.000000e+01 min_value = -8.000000e+01 } waveform_mode_2_negative = { vector_size = 3 index_vector = {0.000000e+00 3.000000e+01 3.100000e+01} data_vector = {2.000000e+01 2.000000e+01 0.000000e+00} } waveform_breakdown = { vector_size = 8 index_vector = {0.000000e+00 5.000000e+00 5.010000e+00 7.000000e+00 7.010000e+00 8.000000e+00 8.010000e+00 9.000000e+00} data_vector = {-6.000000e+01 -6.000000e+01 -2.000000e+02 -2.000000e+02 -2.000000e+02 -2.000000e+02 0.000000e+00 0.000000e+00} } waveform_breakdown_negative = { vector_size = 6 index_vector = {0.000000e+00 5.000000e+00 5.010000e+00 8.000000e+00 8.010000e+00 9.000000e+00} data_vector = {3.000000e+01 3.000000e+01 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00} } waveform_inversion_positive_to_negative = { vector_size = 6 index_vector = {0.000000e+00 2.000000e+00 5.000000e+00 7.000000e+00 7.010000e+00 8.000000e+00} data_vector = {-1.800000e+02 8.000000e+01 8.000000e+01 8.000000e+01 0.000000e+00 0.000000e+00} } waveform_inversion_negative_to_positive = { vector_size = 6 index_vector = {0.000000e+00 2.000000e+00 5.000000e+00 7.000000e+00 7.010000e+00 8.000000e+00} data_vector = {-8.000000e+01 -1.800000e+02 -1.800000e+02 -1.800000e+02 0.000000e+00 0.000000e+00} } output_signals = { output_waveform = { SignalName = VerticalOutputWaveform SignalType = float } } } +waveform_horizontal = { Class = isttokbiblio::WaveformGAM input_signals = { input_time = { SignalName = usecDischargeTime SignalType = int32 } input_mode = { SignalName = HorizontalWaveformMode SignalType = int32 } input_AC_cycle = { SignalName = PlasmaDirection SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } waveform_mode_1_positive = { vector_size = 4 index_vector = {0.000000e+00 2.500000e+01 2.501000e+01 3.000000e+01} data_vector = {-1.500000e+01 -1.500000e+01 0.000000e+00 0.000000e+00} max_value = 2.000000e+02 min_value = -2.000000e+02 } waveform_mode_1_negative = { vector_size = 4 index_vector = {0.000000e+00 2.500000e+01 2.501000e+01 3.000000e+01} data_vector = {-7.000000e+01 -7.000000e+01 0.000000e+00 0.000000e+00} } waveform_mode_2_positive = { vector_size = 3 index_vector = {0.000000e+00 2.000000e+02 3.000000e+02} data_vector = {1.000000e+00 -1.000000e+00 0.000000e+00} max_value = 8.000000e+01 min_value = -8.000000e+01 } waveform_mode_2_negative = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {2.000000e+00 -2.000000e+00} } waveform_breakdown = { vector_size = 8 index_vector = {0.000000e+00 5.000000e+00 5.010000e+00 7.000000e+00 7.010000e+00 8.000000e+00 8.010000e+00 9.000000e+00} data_vector = {-2.500000e+01 -2.500000e+01 -1.500000e+01 -1.500000e+01 -1.500000e+01 -1.500000e+01 0.000000e+00 0.000000e+00} } waveform_breakdown_negative = { vector_size = 6 index_vector = {0.000000e+00 5.000000e+00 5.010000e+00 8.000000e+00 8.010000e+00 9.000000e+00} data_vector = {-2.000000e+01 -2.000000e+01 -6.500000e+01 -6.500000e+01 0.000000e+00 0.000000e+00} } waveform_inversion_positive_to_negative = { vector_size = 6 index_vector = {0.000000e+00 1.000000e+00 5.000000e+00 7.000000e+00 7.010000e+00 8.000000e+00} data_vector = {-3.000000e+01 -6.000000e+01 -6.000000e+01 -6.000000e+01 0.000000e+00 0.000000e+00} } waveform_inversion_negative_to_positive = { vector_size = 5 index_vector = {0.000000e+00 5.000000e+00 7.000000e+00 7.010000e+00 8.000000e+00} data_vector = {-3.000000e+01 -3.000000e+01 -3.000000e+01 0.000000e+00 0.000000e+00} } output_signals = { output_waveform = { SignalName = HorizontalOutputWaveform SignalType = float } } } +waveform_toroidal = { Class = isttokbiblio::WaveformGAM input_signals = { input_time = { SignalName = usecTime SignalType = int32 } input_mode = { SignalName = ToroidalWaveformMode SignalType = int32 } input_AC_cycle = { SignalName = PlasmaDirection SignalType = int32 } discharge_status = { SignalName = ToroidalStatus SignalType = int32 } } waveform_mode_1_positive = { vector_size = 6 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01 3.500000e+01} data_vector = {0.000000e+00 3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02 0.000000e+00} max_value = 1.000000e+04 min_value = -1.000000e+04 } waveform_mode_1_negative = { vector_size = 6 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01 3.500000e+01} data_vector = {0.000000e+00 3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02 0.000000e+00} } waveform_mode_2_positive = { vector_size = 5 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01} data_vector = {0.000000e+00 3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02} max_value = 7.000000e+03 min_value = -7.000000e+03 } waveform_mode_2_negative = { vector_size = 5 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01} data_vector = {3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02 0.000000e+00} } waveform_breakdown = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {-1.000000e+00 1.000000e+00} } waveform_breakdown_negative = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {-1.000000e+00 1.000000e+00} } waveform_inversion_positive_to_negative = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {-2.000000e+00 2.000000e+00} } waveform_inversion_negative_to_positive = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {-2.000000e+00 2.000000e+00} } output_signals = { output_waveform = { SignalName = ToroidalOutputWaveform SignalType = float } } } +waveform_puffing = { Class = isttokbiblio::WaveformGAM input_signals = { input_time = { SignalName = usecDischargeTime SignalType = int32 } input_mode = { SignalName = PuffingWaveformMode SignalType = int32 } input_AC_cycle = { SignalName = PlasmaDirection SignalType = int32 } discharge_status = { SignalName = PuffingStatus SignalType = int32 } } waveform_mode_1_positive = { vector_size = 18 index_vector = {0.000000e+00 9.900000e-01 1.000000e+00 2.000000e+00 2.010000e+00 2.100000e+00 2.110000e+00 2.210000e+00 7.990000e+00 9.210000e+00 1.000000e+01 1.101000e+01 1.499000e+01 1.600000e+01 1.601000e+01 1.700000e+01 1.701000e+01 5.000000e+01} data_vector = {0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00} max_value = 1.000000e+02 min_value = 0.000000e+00 } waveform_mode_1_negative = { vector_size = 21 index_vector = {0.000000e+00 9.900000e-01 1.000000e+00 2.200000e+00 2.210000e+00 2.990000e+00 4.110000e+00 4.990000e+00 6.110000e+00 6.210000e+00 9.990000e+00 1.000000e+01 1.001000e+01 1.100000e+01 1.101000e+01 1.121000e+01 1.499000e+01 1.621000e+01 1.631000e+01 1.641000e+01 5.000000e+01} data_vector = {0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00} } waveform_mode_2_positive = { vector_size = 5 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01} data_vector = {0.000000e+00 3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02} max_value = 1.000000e+01 min_value = 0.000000e+00 } waveform_mode_2_negative = { vector_size = 5 index_vector = {0.000000e+00 5.000000e+00 1.000000e+01 1.500000e+01 3.000000e+01} data_vector = {3.000000e+02 3.000000e+02 3.500000e+02 3.500000e+02 0.000000e+00} } waveform_breakdown = { vector_size = 50 index_vector = {0.000000e+00 1.121000e+01 1.999000e+01 2.000000e+01 2.120000e+01 2.121000e+01 2.999000e+01 3.121000e+01 3.999000e+01 4.000000e+01 4.120000e+01 4.121000e+01 5.999000e+01 6.000000e+01 6.120000e+01 6.121000e+01 7.499000e+01 7.500000e+01 7.620000e+01 7.621000e+01 8.999000e+01 9.000000e+01 9.120000e+01 9.121000e+01 1.099900e+02 1.100000e+02 1.112000e+02 1.112100e+02 1.299900e+02 1.300000e+02 1.312000e+02 1.312100e+02 1.400000e+02 1.500000e+02 1.500100e+02 1.512000e+02 1.512100e+02 1.700000e+02 1.700100e+02 1.712000e+02 1.712100e+02 1.900000e+02 1.900100e+02 1.912000e+02 1.912100e+02 2.100000e+02 2.100100e+02 2.112000e+02 2.112100e+02 2.300000e+02} data_vector = {0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00} } waveform_breakdown_negative = { vector_size = 50 index_vector = {0.000000e+00 1.121000e+01 1.999000e+01 2.000000e+01 2.120000e+01 2.121000e+01 2.999000e+01 3.121000e+01 3.999000e+01 4.000000e+01 4.120000e+01 4.121000e+01 5.999000e+01 6.000000e+01 6.120000e+01 6.121000e+01 7.499000e+01 7.500000e+01 7.620000e+01 7.621000e+01 8.999000e+01 9.000000e+01 9.120000e+01 9.121000e+01 1.099900e+02 1.100000e+02 1.112000e+02 1.112100e+02 1.299900e+02 1.300000e+02 1.312000e+02 1.312100e+02 1.400000e+02 1.500000e+02 1.500100e+02 1.512000e+02 1.512100e+02 1.700000e+02 1.700100e+02 1.712000e+02 1.712100e+02 1.900000e+02 1.900100e+02 1.912000e+02 1.912100e+02 2.100000e+02 2.100100e+02 2.112000e+02 2.112100e+02 2.300000e+02} data_vector = {0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00 1.000000e+02 1.000000e+02 0.000000e+00 0.000000e+00} } waveform_inversion_positive_to_negative = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {-2.000000e+00 2.000000e+00} } waveform_inversion_negative_to_positive = { vector_size = 2 index_vector = {0.000000e+00 3.000000e+03} data_vector = {-2.000000e+00 2.000000e+00} } output_signals = { output_waveform = { SignalName = PuffingOutputWaveform SignalType = float } } } +time_windows = { Class = isttokbiblio::TimeWindowsGAM discharge_time = 1.100000E+03 number_of_cycles = 1.000000E+01 first_cycle_positive_bool = 0 auto_breakdown = usecthread_cycle_time = usec_pre_pulse_time = maximum_inversion_usectime = 7.000000E+03 usectime_to_wait_for_starting_operation = puffing_mode = 1 end_discharge_after_unsuccess_bool = 1 time_between_online_and_discharge = 1.000000E+08 input_signals = { plasma_current = { SignalName = PlasmaCurrent SignalType = float } system_time = { SignalName = usecTime SignalType = int32 } is_saturated_bool = { SignalName = InSaturation SignalType = int32 } slow_stop = { SignalName = SlowStopBool SignalType = int32 } hard_stop = { SignalName = HardStopBool SignalType = int32 } } positive_time_windows = { number_of_time_windows = 4 time_windows_values = {0.000000E+00 4.000000E+00 1.800000E+01 2.000000E+01} primary_mode = {1 1 1 7} horizontal_mode = {1 1 1 7} vertical_mode = {1 3 1 7} } negative_time_windows = { number_of_time_windows = 4 time_windows_values = {0.000000E+00 5.000000E+00 2.000000E+01 2.500000E+01} primary_mode = {1 1 1 7} horizontal_mode = {1 1 1 7} vertical_mode = {1 4 1 7} } output_signals = { primary_mode = { SignalName = PrimaryWaveformMode SignalType = int32 } horizontal_mode = { SignalName = HorizontalWaveformMode SignalType = int32 } vertical_mode = { SignalName = VerticalWaveformMode SignalType = int32 } time_to_waveforms = { SignalName = usecDischargeTime SignalType = int32 } discharge_direction = { SignalName = PlasmaDirection SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } toroidal_mode = { SignalName = ToroidalWaveformMode SignalType = int32 } toroidal_status = { SignalName = ToroidalStatus SignalType = int32 } puffing_mode = { SignalName = PuffingWaveformMode SignalType = int32 } puffing_status = { SignalName = PuffingStatus SignalType = int32 } } } +electrode_biasing = { Class = isttokbiblio::ElectrodeBiasingGAM input_signals = { discharge_status = { SignalName = DischargeStatus SignalType = int32 } } output_signals = { eb_trigger = { SignalName = ElectrodeBiasingTrigger SignalType = float } } } +spectroscopy_trigger = { Class = isttokbiblio::SpectroscopyTriggerGAM min_time_between_triggers_usec = 35000 input_signals = { DischargeStatus = { SignalName = DischargeStatus SignalType = int32 } usecDischargeTime = { SignalName = usecDischargeTime SignalType = int32 } usecTime = { SignalName = usecTime SignalType = int32 } } output_signals = { spectr_trigger = { SignalName = SpectroscopyTrigger SignalType = float } } } +magnetic_probes = { Class = isttokbiblio::MagneticsGAM usectime_to_wait_for_starting_operation = 1000 magnetic_radial_bool = 1 magnetic_vertical_bool = 1 MirnovArrayDescription = { NumberOfProbes = 12 Angles = {3.450000E+02 3.150000E+02 2.850000E+02 2.550000E+02 2.250000E+02 1.950000E+02 1.650000E+02 1.350000E+02 1.050000E+02 7.500000E+01 4.500000E+01 1.500000E+01} Calibration = {1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00 1.000000E+00} } Measurements = { NumberOfMeasurements = 12 ProbeNumbers = {0 1 2 3 4 5 6 7 8 9 10 11} } input_signals = { Channel_0 = { SignalName = ADC_magnetic_0 SignalType = float } Channel_1 = { SignalName = ADC_magnetic_1 SignalType = float } Channel_2 = { SignalName = ADC_magnetic_2 SignalType = float } Channel_3 = { SignalName = ADC_magnetic_3 SignalType = float } Channel_4 = { SignalName = ADC_magnetic_4 SignalType = float } Channel_5 = { SignalName = ADC_magnetic_5 SignalType = float } Channel_6 = { SignalName = ADC_magnetic_6 SignalType = float } Channel_7 = { SignalName = ADC_magnetic_7 SignalType = float } Channel_8 = { SignalName = ADC_magnetic_8 SignalType = float } Channel_9 = { SignalName = ADC_magnetic_9 SignalType = float } Channel_10 = { SignalName = ADC_magnetic_10 SignalType = float } Channel_11 = { SignalName = ADC_magnetic_11 SignalType = float } time = { SignalName = usecTime SignalType = int32 } } output_signals = { magnetic_probes_r = { SignalName = MagneticProbesR SignalType = float } magnetic_probes_z = { SignalName = MagneticProbesZ SignalType = float } magnetic_probes_plasma_current = { SignalName = MagneticProbesPlasmaCurrent SignalType = float } } } +main_rogowski = { Class = isttokbiblio::MainRogowskiGAM usectime_to_wait_for_starting_operation = 1000 input_signals = { main_rogowski_input = { SignalName = ADC_main_rogowski SignalType = float } system_time = { SignalName = usecTime SignalType = int32 } } output_signals = { rogowski_plasma_current = { SignalName = RogowskiPlasmaCurrent SignalType = float } } } +H_alpha = { Class = isttokbiblio::HAlphaGAM usectime_to_wait_for_starting_operation = 1000 input_signals = { h_alfa_raw = { SignalName = ADC_H_alpha SignalType = float } time = { SignalName = usecTime SignalType = int32 } } output_signals = { h_alfa_output = { SignalName = HAlfaOutput SignalType = float } } } +technical_signals = { Class = isttokbiblio::TechnicalSignalsGAM usectime_to_wait_for_starting_operation = 1000 input_signals = { horizontal_current_transducer = { SignalName = ADC_horizontal_current SignalType = float } vertical_current_transducer = { SignalName = ADC_vertical_current SignalType = float } primary_current_transducer = { SignalName = ADC_primary_current SignalType = float } v_loop = { SignalName = ADC_vloop SignalType = float } h_alfa_output = { SignalName = HAlfaOutput SignalType = float } system_time = { SignalName = usecTime SignalType = int32 } } output_signals = { horizontal_current = { SignalName = HorizontalCurrent SignalType = float } vertical_current = { SignalName = VerticalCurrent SignalType = float } primary_current = { SignalName = PrimaryCurrent SignalType = float } iron_core_saturation = { SignalName = IronCoreSaturation SignalType = float } v_loop = { SignalName = VLoop SignalType = float } h_alpha = { SignalName = HAlfa SignalType = float } } } +machine_protection = { Class = isttokbiblio::MachineProtectionGAM iron_core_saturation_value = 5.000000e+00 iron_core_dangerous_value = 5.000000e+03 input_signals = { plasma_current = { SignalName = PlasmaCurrent SignalType = float } horizontal_current = { SignalName = HorizontalCurrent SignalType = float } vertical_current = { SignalName = VerticalCurrent SignalType = float } primary_current = { SignalName = PrimaryCurrent SignalType = float } iron_core_saturation = { SignalName = IronCoreSaturation SignalType = float } v_loop = { SignalName = VLoop SignalType = float } density = { SignalName = Density SignalType = float } h_alpha = { SignalName = HAlfa SignalType = float } time = { SignalName = usecTime SignalType = int32 } soft_stop_primary = { SignalName = SoftStopPrimaryPS SignalType = int32 } soft_stop_horizontal = { SignalName = SoftStopVerticalPS SignalType = int32 } soft_stop_vertical = { SignalName = SoftStopHorizontalPS SignalType = int32 } } output_signals = { saturated_bool = { SignalName = InSaturation SignalType = int32 } slow_stop = { SignalName = SlowStopBool SignalType = int32 } hard_stop = { SignalName = HardStopBool SignalType = int32 } } } +plasma_parameters = { Class = isttokbiblio::PlasmaStatusGAM high_current_threshold_value = 1.000000E-01 tomography = { tomography_radial_bool = 0 tomography_vertical_bool = 0 radial_high_current_weight = 1.000000E-01 radial_low_current_weight = 1.000000E-01 vertical_high_current_weight = 1.000000E-01 vertical_low_current_weight = 1.000000E-01 } electric_probes = { electric_radial_bool = 0 electric_vertical_bool = 0 radial_high_current_weight = 3.000000E+00 radial_low_current_weight = 3.000000E+00 vertical_high_current_weight = 3.000000E+00 vertical_low_current_weight = 3.000000E+00 } magnetic_probes = { magnetic_radial_bool = 1 magnetic_vertical_bool = 1 radial_high_current_weight = 0.000000E+00 radial_low_current_weight = 0.000000E+00 vertical_high_current_weight = 0.000000E+00 vertical_low_current_weight = 0.000000E+00 } sine_probe = { sine_vertical_bool = 0 vertical_high_current_weight = 1.000000E+00 vertical_low_current_weight = 1.000000E-01 radial_high_current_weight = 1.000000E+00 radial_low_current_weight = 1.000000E-01 } cosine_probe = { cosine_radial_bool = 0 radial_high_current_weight = 1.000000E+00 radial_low_current_weight = 1.000000E-01 vertical_high_current_weight = 1.000000E+00 vertical_low_current_weight = 1.000000E-01 } input_signals = { rogowski_coil = { SignalName = RogowskiPlasmaCurrent SignalType = float } density = { SignalName = InterferometryDensity SignalType = float } sine_probe_z = { SignalName = SineProbeZ SignalType = float } cosine_probe_r = { SignalName = CosineProbeR SignalType = float } magnetic_probes_r = { SignalName = MagneticProbesR SignalType = float } magnetic_probes_z = { SignalName = MagneticProbesZ SignalType = float } magnetic_probes_plasma_current = { SignalName = MagneticProbesPlasmaCurrent SignalType = float } electric_probes_r = { SignalName = ElectricProbesR SignalType = float } electric_probes_z = { SignalName = ElectricProbesZ SignalType = float } tomography_r = { SignalName = TomographyR SignalType = float } tomography_z = { SignalName = TomographyZ SignalType = float } time = { SignalName = usecTime SignalType = int32 } } output_signals = { plasma_current = { SignalName = PlasmaCurrent SignalType = float } position_r = { SignalName = PositionR SignalType = float } position_z = { SignalName = PositionZ SignalType = float } density = { SignalName = Density SignalType = float } } } +controller = { Class = isttokbiblio::ControllerGAM file_to_load = /home/pricardofc/CSS-Workspaces/sys-mng-opi/CSS/cfg-files/Tomography/last.tomography usecthread_cycle_time = 100 minimum_toroidal_current = -1.000000E+04 maximum_toroidal_current = 1.000000E+04 minimum_primary_current = -3.500000E+02 maximum_primary_current = 3.500000E+02 minimum_vertical_current = -7.000000E+02 maximum_vertical_current = 7.000000E+02 minimum_horizontal_current = -2.000000E+02 maximum_horizontal_current = 2.000000E+02 minimum_plasma_current = -7.000000E+03 maximum_plasma_current = 7.000000E+03 minimum_horizontal_position = -8.000000E+01 maximum_horizontal_position = 8.000000E+01 minimum_vertical_position = -8.000000E+01 maximum_vertical_position = 8.000000E+01 maximum_puffing_output = 1.000000e+02 minimum_puffing_output = 0.000000e+00 minimum_density_halpha_scenario = 0.000000E+00 maximum_density_halpha_scenario = 1.000000E+01 puffing_duration_in_puffing_feedback_in_ms = 8.000000E-01 maximum_idle_time_in_puffing_feedback_in_ms = 4.000000E+01 minimum_idle_time_in_puffing_feedback_in_ms = 8.000000E+00 puffing_feedback_usec_change_percentage_by_cycle = 1.500000E+02 puffing_feedback_mode = 1 interferometry_radial_control_bool = 0 puffing_mode = 1 input_signals = { primary_current = { SignalName = PrimaryCurrent SignalType = float } horizontal_current = { SignalName = HorizontalCurrent SignalType = float } vertical_current = { SignalName = VerticalCurrent SignalType = float } primary_waveform = { SignalName = PrimaryOutputWaveform SignalType = float } horizontal_waveform = { SignalName = HorizontalOutputWaveform SignalType = float } vertical_waveform = { SignalName = VerticalOutputWaveform SignalType = float } puffing_waveform = { SignalName = PuffingOutputWaveform SignalType = float } toroidal_waveform = { SignalName = ToroidalOutputWaveform SignalType = float } plasma_current = { SignalName = PlasmaCurrent SignalType = float } position_r = { SignalName = PositionR SignalType = float } position_z = { SignalName = PositionZ SignalType = float } density = { SignalName = Density SignalType = float } halpha = { SignalName = HAlfa SignalType = float } interferometry_radial_position = { SignalName = InterferometryR SignalType = float } primary_mode = { SignalName = PrimaryWaveformMode SignalType = int32 } horizontal_mode = { SignalName = HorizontalWaveformMode SignalType = int32 } vertical_mode = { SignalName = VerticalWaveformMode SignalType = int32 } time = { SignalName = usecTime SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } PID_primary = { proportional_soft = 1.000000E+00 integral_soft = 1.000000E+00 derivative_soft = 1.000000E+00 proportional_normal = 2.000000E+00 integral_normal = 2.000000E+00 derivative_normal = 2.000000E+00 proportional_hard = 3.000000E+00 integral_hard = 3.000000E+00 derivative_hard = 3.000000E+00 } PID_vertical = { proportional_soft = 5.000000E+00 integral_soft = 1.000000E+00 derivative_soft = 1.000000E+00 proportional_normal = 1.000000E+01 integral_normal = 1.000000E+01 derivative_normal = 5.000000E+00 proportional_hard = 1.500000E+01 integral_hard = 1.500000E+01 derivative_hard = 5.000000E+00 } PID_horizontal = { proportional_soft = 3.000000E+00 integral_soft = 5.000000E-01 derivative_soft = 0.000000E+00 proportional_normal = 2.000000E+01 integral_normal = 5.000000E+00 derivative_normal = 5.000000E+00 proportional_hard = 1.500000E+01 integral_hard = 1.500000E+01 derivative_hard = 5.000000E+00 } output_signals = { output_horizontal = { SignalName = SendToHorizontalValue SignalType = float } output_vertical = { SignalName = SendToVerticalValue SignalType = float } output_primary = { SignalName = SendToPrimaryValue SignalType = float } output_Puffing = { SignalName = SendToPuffing SignalType = float } output_Toroidal = { SignalName = SendToToroidal SignalType = float } } } +PSCommunicator_primary = { Class = isttokbiblio::PowerSupplyCommunicatorGAM UARTPortAddress = 0xBF10 PointOfZeroCurrent = 5.110000E+02 CurrentStep = 2.929700E+00 usecGlobalPeriod = 100 input_signals = { CurrentSignal = { SignalName = SendToPrimaryValue SignalType = float } GlobalTime = { SignalName = usecTime SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } output_signals = { soft_stop = { SignalName = SoftStopPrimaryPS SignalType = int32 } } } +PSCommunicator_vertical = { Class = isttokbiblio::PowerSupplyCommunicatorGAM UARTPortAddress = 0xBF00 PointOfZeroCurrent = 5.110000E+02 CurrentStep = 2.929700E+00 usecGlobalPeriod = 100 input_signals = { CurrentSignal = { SignalName = SendToVerticalValue SignalType = float } GlobalTime = { SignalName = usecTime SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } output_signals = { soft_stop = { SignalName = SoftStopVerticalPS SignalType = int32 } } } +PSCommunicator_horizontal = { Class = isttokbiblio::PowerSupplyCommunicatorGAM UARTPortAddress = 0xBF08 PointOfZeroCurrent = 5.110000E+02 CurrentStep = 2.929700E+00 usecGlobalPeriod = 100 input_signals = { CurrentSignal = { SignalName = SendToHorizontalValue SignalType = float } GlobalTime = { SignalName = usecTime SignalType = int32 } discharge_status = { SignalName = DischargeStatus SignalType = int32 } } output_signals = { soft_stop = { SignalName = SoftStopHorizontalPS SignalType = int32 } } } +Codac = { Class = isttokbiblio::FireSignalDischargeStatusGAM input_signals = { discharge_status = { SignalName = DischargeStatus SignalType = int32 } system_time = { SignalName = usecTime SignalType = int32 } } } Online = "Codac ATCAAdc DataCollection time_windows tomography electric_probes magnetic_probes sine_probe cosine_probe main_rogowski interferometry H_alpha technical_signals plasma_parameters machine_protection waveform_primary waveform_vertical waveform_horizontal waveform_toroidal waveform_puffing controller PSCommunicator_horizontal PSCommunicator_vertical PSCommunicator_primary ATCADac" Offline = "Codac ATCAAdc DataCollection time_windows tomography electric_probes magnetic_probes sine_probe cosine_probe main_rogowski interferometry H_alpha technical_signals plasma_parameters machine_protection waveform_primary waveform_vertical waveform_horizontal waveform_toroidal waveform_puffing controller PSCommunicator_horizontal PSCommunicator_vertical PSCommunicator_primary ATCADac" Safety = "Codac ATCAAdc DataCollection time_windows tomography electric_probes magnetic_probes sine_probe cosine_probe main_rogowski interferometry H_alpha technical_signals plasma_parameters machine_protection waveform_primary waveform_vertical waveform_horizontal waveform_toroidal waveform_puffing controller PSCommunicator_horizontal PSCommunicator_vertical PSCommunicator_primary ATCADac" SafetyMsecSleep = 1 } } +AdvancedConfiguration = { Class = isttokbiblio::AdvancedConfigurator Description = "Advanced Text Input" default_directories = { default_config_file_path = "/home/opertok/CSS-Workspaces/sys-mng-opi/CSS/cfg-files/last.cfg" config_files_directory = "/home/opertok/CSS-Workspaces/sys-mng-opi/CSS/cfg-files" } colours = { header_colour = AliceBlue colour1 = Wheat colour2 = LightSkyBlue colour3 = LightGoldenRodYellow colour4 = LightSkyBlue colour5 = LightGoldenRodYellow footer_colour = AliceBlue } } +DischargeConfigurator = { Class = isttokbiblio::MainConfigurator Description = "Basic Text Input" graphics = { screen_resolution_x = 1280 screen_resolution_y = 1024 } colours = { header_colour = AliceBlue diagnostics_parameters_colour = Wheat control_parameters_colour = LightSkyBlue time_windows_colour = LightGoldenRodYellow edit_colour = White footer_colour = AliceBlue } default_directories = { default_config_file_path = "/home/opertok/CSS-Workspaces/sys-mng-opi/CSS/cfg-files/last.cfg" config_files_directory = "/home/opertok/CSS-Workspaces/sys-mng-opi/CSS/cfg-files" } }