################################################################ #### DIAGNOSTICS #### #### /golem/database/velin/includes/data_configuration.cfg ### ################################################################ [tags] datadir = tags identifier = / name = Tags ylabel = Tags type = list [param_1] datadir = basicdiagn identifier = param_1 name = Custom parameter Nb.1 ylabel = Parameter Nb.1 type = scalar [param_2] datadir = basicdiagn identifier = param_2 name = Custom parameter Nb.2 ylabel = Parameter Nb.2 type = scalar [param_3] datadir = basicdiagn identifier = param_3 name = Custom parameter Nb.3 ylabel = Parameter Nb.3 type = scalar [param_4] datadir = basicdiagn identifier = param_4 name = Custom parameter Nb.4 ylabel = Parameter Nb.4 type = scalar [param_5] datadir = basicdiagn identifier = param_5 name = Custom parameter Nb.5 ylabel = Parameter Nb.5 type = scalar [loop_voltage] datadir = basicdiagn identifier = Uloop xlabel = Time [s] name = Loop voltage ylabel = Voltage [V] type = array [toroidal_field] datadir = basicdiagn identifier = Btoroidal xlabel = Time [s] name = Toroidal magnetic field ylabel = Magnetic flux density [T] type = array [rogowski_current] datadir = basicdiagn identifier = Irogowski xlabel = Time [s] name = Current measured by Rogowski coil ylabel = Current [A] type = array [plasma_current] datadir = basicdiagn identifier = Iplasma xlabel = Time [s] name = Plasma current ylabel = Current [A] type = array [chamber_current] datadir = basicdiagn identifier = Ich xlabel = Time [s] name = Current through chamber ylabel = Current [A] type = array [photodiode] datadir = basicdiagn identifier = Photod xlabel = Time [s] name = Light intensity measured by photodiode ylabel = Intensity [a.u.] type = array [photodiode_alpha] datadir = basicdiagn identifier = PhotodHalpha xlabel = Time [s] name = Light intensity measured by photodiode with H-alpha filter ylabel = Intensity [a.u.] type = array [photodiode_other] datadir = basicdiagn identifier = PhotodVrba xlabel = Time [s] name = Light intensity measured by photodiode ylabel = Intensity [a.u.] type = array [hxr_smooth] datadir = diagnostics/Radiation/0612HXR.ON identifier = HXR_smooth xlabel = Time [s] name = Smoothed intensity of X-ray radiation ylabel = Intensity [a.u.] type = array [hxr_signal] datadir = diagnostics/Radiation/0612HXR.ON identifier = HXR xlabel = Time [s] name = Intensity of X-ray radiation ylabel = Intensity [a.u.] type = array [hxr_mean] datadir = diagnostics/Radiation/0612HXR.ON identifier = HXR_mean name = Mean intensity of X-ray radiation ylabel = Intensity [a.u.] type = scalar [hxr_start] datadir = diagnostics/Radiation/0612HXR.ON identifier = first_peak name = Start of HXR radiation ylabel = Time [s] type = scalar [hxr_end] datadir = diagnostics/Radiation/0612HXR.ON identifier = last_peak name = End of HXR radiation ylabel = Time [s] type = scalar ################################################################ #### DISCHARGE CONDITIONS #### ################################################################ [Ub] identifier = Ub_limit datadir = basicdiagn name = Charging voltage of capacitors for toroidal magnetic field coils ylabel = Voltage [V] type = scalar [Ucd] identifier = Ucd_limit datadir = basicdiagn name = Charging voltage of capacitors for current drive transformer primary winding ylabel = Voltage [V] type = scalar [Ust] identifier = Ust_limit datadir = basicdiagn name = Charging voltage of capacitors for stabilization magnetic field coils ylabel = Voltage [V] type = scalar [Ubd] identifier = Ubd_limit datadir = basicdiagn name = Charging voltage of capacitors for breakdown magnetic field coils ylabel = Voltage [V] type = scalar [Tb] identifier = Tb datadir = basicdiagn name = Time delay of toroidal mag. field ylabel = Time [s] type = scalar [Tcd] identifier = Tcd datadir = basicdiagn name = Time delay of current drive ylabel = Time [s] type = scalar [Tst] identifier = Tst datadir = basicdiagn name = Time delay of stabilization magnetic field ylabel = Time [s] type = scalar [Tbd] identifier = Tbd datadir = basicdiagn name = Time delay of breakdown magnetic field ylabel = Time [s] type = scalar [pressure] identifier = Aktual_PfeifferMerkaVakua ylabel = Pressure [mPa] name = Working gas pressure before discharge datadir = ./ type = scalar [pressure_initial] identifier = Initial_PfeifferMerkaVakua ylabel = Pressure [mPa] name = Background gas pressure datadir = ./ type = scalar [pressure_chamber] identifier = aktual_pfeiffermerkavakuapotrubi ylabel = Pressure [mPa] name = Pressure in pipes datadir = komora type = scalar [pressure_request] identifier = pressure_setting_mPa ylabel = Pressure [mPa] name = Requested gas pressure before discharge datadir = ./ type = scalar [session_length] identifier = Aktual_Time name = Time since session beginning datadir = ./ ylabel = Time [s] type = scalar [chamber_temperature] identifier = Aktual_TermoclanekNaKomore ylabel = Temperature [°C] name = Chamber temperature datadir = ./ type = scalar [gas_filling] identifier = H2filling name = Working gas ON/OFF datadir = ./ ylabel = binary type = scalar [preionization] identifier = PreIonization name = Pre-Ionization datadir = ./ ylabel = binary type = scalar [working_gas] identifier = working_gas_type name = Filling gas type datadir = ./ ylabel = string type = string [discharge_aborted] identifier = discharge_aborted name = Was discharge aborted datadir = ./ ylabel = binary type = scalar ################################################################ #### CALCULATED QUANTITIES #### ################################################################ [plasma] identifier = Plasma datadir = basicdiagn name = Breakdown was successful if True ylabel = binary type = scalar [plasma_status] identifier = PlasmaStatus datadir = basicdiagn name = Status of machine ylabel = str type = string [breakdown_probability] identifier = breakdown_probability datadir = basicdiagn name = Probability of breakdown using SVM ylabel = Probability [%] type = scalar [breakdown_rate] identifier = breakdown_rate datadir = basicdiagn name = Characterictic plasma current grow time ylabel = Time [s] type = scalar [breakdown_rate_err] identifier = breakdown_rate_err datadir = basicdiagn name = Error of characterictic plasma current grow time ylabel = Time [s] type = scalar [reversed_efield] identifier = ReversedCD datadir = basicdiagn name = True if E field was reversed ylabel = bool type = scalar [reversed_bfield] identifier = ReversedB datadir = basicdiagn name = True if B field was reversed ylabel = bool type = scalar [shotno] identifier = ShotNo datadir = ./ name = Number of shot ylabel = Shot number type = scalar [wwwcomment] identifier = wwwcomment datadir = ./ name = Discharge pre-comment ylabel = str type = string [date_str] identifier = date datadir = ./ name = Date of shot ylabel = date type = string [date] identifier = shot_date datadir = basicdiagn name = Date of shot ylabel = date type = other [time] identifier = shot_time datadir = basicdiagn name = Time of shot ylabel = date type = other [code_revision] identifier = code_revision datadir = ./ name = HG repository revision ylabel = str type = string [session_name] identifier = SessionName datadir = ./ name = Name of session ylabel = str type = string [session_name_date] identifier = SessionNameDate datadir = ./ name = Name of session with date ylabel = str type = string [zeff] identifier = Zeff datadir = basicdiagn name = Estimation of Z effective (manually set) ylabel = Zeff [-] type = scalar [noise_level] identifier = noise_level datadir = basicdiagn name = Estimation of noise in room from dBt signal ylabel = Noise [V] type = scalar [electron_temperature] identifier = ElectronTemp xlabel = Time [s] ylabel = Temperature [eV] name = Electron temperature datadir = basicdiagn type = array [temperature_mean] identifier = ElectronTemperatureMean ylabel = Temperature [eV] name = Electron temperature datadir = basicdiagn type = scalar # [electron_temperature_median] # identifier = ElectronMed # xlabel = Time [s] # ylabel = Temperature [eV] # name = Electron temperature median # datadir = basicdiagn # type = array [electron_temperature_max] identifier = ElectronTempMax ylabel = Temperature [eV] name = Electron temperature max (filtered) datadir = basicdiagn type = scalar [greenwald_density] identifier = GreenwaldDensity xlabel = Time [s] ylabel = Density [-] name = Greenwald density datadir = basicdiagn type = array [input_power] identifier = OhmicHeatingPower xlabel = Time [s] ylabel = Power [W] name = Ohmic heating power datadir = basicdiagn type = array # [input_power_chamber_old] # identifier = OhmicHeatingChamber # xlabel = Time [s] # ylabel = Power [W] # name = Ohmic heating power to the chamber # datadir = basicdiagn # type = array # !!!!!! new method !!!!!!!! [input_power_total] identifier = PowerTotal xlabel = Time [s] ylabel = Power [W] name = Total ohmic heating power datadir = basicdiagn type = array [input_power_magnetic] identifier = PowerMagnetic xlabel = Time [s] ylabel = Power [W] name = Ohmic power converted to magnetic power datadir = basicdiagn type = array [input_power_plasma] identifier = PowerPlasma xlabel = Time [s] ylabel = Power [W] name = Ohmic power converted to plasma datadir = basicdiagn type = array [input_power_chamber] identifier = PowerChamber xlabel = Time [s] ylabel = Power [W] name = Ohmic power converted to chamber datadir = basicdiagn type = array [input_power_mean] identifier = OhmicHeatingPowerMean ylabel = Power [W] name = Ohmic heating power datadir = basicdiagn type = scalar [input_power_plasma_mean] identifier = MeanPowerPlasma ylabel = Power [W] name = Ohmic heating power plasma datadir = basicdiagn type = scalar # [Q95] # identifier = Qedge # xlabel = Time [s] # ylabel = Q [-] # name = Safety factor # datadir = basicdiagn # type = array [safety_factor] identifier = Qedge xlabel = Time [s] ylabel = Q [-] name = Safety factor datadir = basicdiagn type = array [total_charge] identifier = TotalCharge ylabel = Charge [C] name = Total charge datadir = basicdiagn type = scalar [safety_factor_mean] identifier = QedgeMean name = Mean of Q edge datadir = basicdiagn ylabel = Q [-] type = scalar [loop_voltage_mean] identifier = UloopMean datadir = basicdiagn ylabel = Voltage [V] name = Mean of loop voltage type = scalar [loop_voltage_max] identifier = UloopMax datadir = basicdiagn ylabel = Voltage [V] name = Maximum of loop voltage type = scalar [photodiode_mean] identifier = PhotodMean datadir = basicdiagn name = Mean of light intensity measured by photodiode ylabel = Intensity [a.u.] type = scalar [toroidal_field_mean] datadir = basicdiagn identifier = BtMean name = Mean of toroidal magnetic field ylabel = Magnetic flux density [T] type = scalar [toroidal_field_max] datadir = basicdiagn identifier = BtMax name = Maximum of toroidal magnetic field ylabel = Magnetic flux density [T] type = scalar [plasma_current_mean] datadir = basicdiagn identifier = IplaMean name = Mean of plasma current ylabel = Current [A] type = scalar [rogowski_current_max] datadir = basicdiagn identifier = IrogowskiMax name = Maximum of current measured by Rogowski coil ylabel = Current [A] type = scalar [plasma_current_decay] datadir = basicdiagn identifier = plasma_current_decay name = Maximal plasma current decay ylabel = Current [A/s] type = scalar [plasma_start] datadir = basicdiagn identifier = PlasmaStart name = Time of plasma lifespan beginning ylabel = Time [s] type = scalar [plasma_end] datadir = basicdiagn identifier = PlasmaEnd name = Time of plasma lifespan end ylabel = Time [s] type = scalar [plasma_life] datadir = basicdiagn identifier = PlasmaTimeLength name = Time of plasma lifespan ylabel = Time [s] type = scalar [breakdown_voltage] datadir = basicdiagn identifier = BreakDownVoltage name = Loop voltage during breakdown ylabel = Voltage [V] type = scalar [breakdown_time] datadir = basicdiagn identifier = BreakDownTime name = Time of breakdown ylabel = Time [s] type = scalar [breakdown_field] datadir = basicdiagn identifier = BreakDownBt name = Toroidal mag. field during breakdown ylabel = Magnetic flux density [T] type = scalar [transformator_saturation] datadir = basicdiagn identifier = TransformatorSaturation name = Saturation of iron core divided by maximum ylabel = Relative saturation [-] type = scalar [chamber_resistance] datadir = basicdiagn identifier = ChamberResistance name = Chamber resistance from fitting of I chamber ylabel = Resistance [Ohm] type = scalar [chamber_resistance_old] datadir = basicdiagn identifier = ChamberResistance_old name = Chamber resistance from UloopMax and IrogMax ylabel = Resistance [Ohm] type = scalar [chamber_inductance] identifier = ChamberInduktance ylabel = Inductance [H] name = Inductance of chamber (to IPLA) datadir = basicdiagn type = scalar [Lb] identifier = ToroidalMagneticFieldCoilInductance ylabel = Inductance [H] name = Inductance tororoidal magnetic field coils datadir = basicdiagn type = scalar [Cb] identifier = TororoidalMagneticFieldCapacitor ylabel = Capacity [F] name = Total capacity of tororoidal magnetic field capacitors datadir = basicdiagn type = scalar [Cbd] identifier = BreakDownElectricFieldCapacitor ylabel = Capacity [F] name = Total capacity of breakdown field capacitors datadir = basicdiagn type = scalar [Ccd] identifier = CurrentDriveElectricFieldCapacitor ylabel = Capacity [F] name = Total capacity of current drive field capacitors datadir = basicdiagn type = scalar [Cst] identifier = StabilizationCapacitor ylabel = Capacity [F] name = Total capacity of stabilization field capacitors datadir = basicdiagn type = scalar [electron_confinement_time] datadir = basicdiagn identifier = ElectronConfinementTimeFirstApprox name = First approximation of electron confinement time ylabel = Time [s] type = scalar [electron_confinement_t98] datadir = analysis/Basics/0612AdvancedAnalysis.ON/ identifier = t_98 name = Tau 98 extrapolation of confinement time ylabel = Time [s] type = scalar [total_magnetic_flux] datadir = basicdiagn identifier = TotalMagneticFlux name = Total magnetic flux ylabel = Flux [Vs] type = array ## diagnostics / analysis [plasma_position_z] datadir = diagnostics/Magnetic/0612PlasmaPosition_TO.ON/results identifier = Z_position name = Plasma position in vertical direction ylabel = Position Z [m] xlabel = Time [s] type = array [plasma_position_r] datadir = diagnostics/Magnetic/0612PlasmaPosition_TO.ON/results identifier = R_position name = Plasma position in horizontal direction ylabel = Position R [m] xlabel = Time [s] type = array [mirnov_coils:position_z] datadir = diagnostics/Magnetic/1110MirnovCoils_JK.ON/ identifier = position_z name = plasma vertical position from mirnov coils type = array ylabel = Z [m] [mirnov_coils:position_r] datadir = diagnostics/Magnetic/1110MirnovCoils_JK.ON/ identifier = position_r name = plasma horizontal position from mirnov coils type = array ylabel = R [m] [plasma_radius] datadir = diagnostics/Magnetic/0612PlasmaPosition_TO.ON/results identifier = plasma_radius name = Plasma radius ylabel = Radius [m] xlabel = Time [s] type = array [plasma_position:reliability] datadir = diagnostics/Magnetic/0612PlasmaPosition_TO.ON/results identifier = residuum name = Number corresponding to quality of fit ylabel = [-] type = scalar [electron_density] datadir = diagnostics/Microwaves/0712Interferometer.ON/results identifier = electron_density name = Electron density ylabel = [m$^{-3}$] xlabel = Time [s] type = array [electron_density_LM] datadir = diagnostics/Microwaves/0315Interferometer_LM.ON/results identifier = electron_density name = Electron density ylabel = [m$^{-3}$] xlabel = Time [s] type = array [electron_density_line] datadir = diagnostics/Microwaves/0712Interferometer.ON/results identifier = electron_density_line name = Line electron density ylabel = [m$^{-2}$] xlabel = Time [s] type = array [electron_density_mean] datadir = diagnostics/Microwaves/0712Interferometer.ON/results identifier = electron_density_mean name = Mean line electron density ylabel = [m$^{-3}$] type = scalar [electron_density:reliability] datadir = diagnostics/Microwaves/0712Interferometer.ON/results identifier = reliability name = Total difference in phase ylabel = [-] type = scalar [electron_density_equilibrium] datadir = basicdiagn identifier = StateEqElectronDensity name = Approximation of electron density through equilibrium state ylabel = Particle density [m$^{-3}$] type = scalar [current_toroidal_coils] datadir = diagnostics/Magnetic/0515Flukes.ON identifier = I_toroidal_coils name = Current in toroidal coils ylabel = Current [A] xlabel = Time [s] type = array [current_cd_coils] datadir = diagnostics/Magnetic/0515Flukes.ON identifier = I_current_drive_coils name = Current in current drive coils xlabel = Time [s] ylabel = Current [A] type = array [current_breakdown_coils] datadir = diagnostics/Magnetic/0515Flukes.ON identifier = I_breakdown_coils name = Current in breakdown coils ylabel = Current [A] xlabel = Time [s] type = array [current_stabilization_coils] datadir = diagnostics/Magnetic/0515Flukes.ON identifier = I_stabilization_coils name = Current in stabilization coils ylabel = Current [A] xlabel = Time [s] type = array ################ radiation ########################### [spectrometr:data] identifier = spectra.txt_Data_.txt xlabel = Time [ms] name = Spectral resolved radiation datadir = diagnostics/Radiation/1111Spectrometer.ON/data/ type = other ylabel = None [spectrometr:data_calib] identifier = spectrum_calibrated xlabel = Time [ms] name = Spectral resolved radiation, relativey calibrated datadir = diagnostics/Radiation/1111Spectrometer.ON/data/ type = other ylabel = None [spectrometr:impurities_concentration] identifier = density xlabel = Time [ms] ylabel = relative concentration name = Plasma impurities concentration datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = array [spectrometr:total_radiated_power] identifier = TotalPower xlabel = Time [ms] ylabel = Power [a.u.] name = Total radiated power in range 200-1200 nm datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = array [spectrometr:resid_spectra] identifier = residual_spectra xlabel = wavelength [nm] ylabel = intensity [a.u.] name = Total residual spectra datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = array [spectrometr:temperature] identifier = temperature xlabel = Time [ms] ylabel = T_e [eV] name = Electron temperature datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = array [spectrometr:projections] identifier = projection xlabel = Time [ms] ylabel = relative intensity [-] name = Ion radiation projection to spectra datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = array [spectrometr:projections_basis] identifier = components xlabel = $\lambda$ [nm] ylabel = relative intensity [-] name = Ion projection basis datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = other [spectrometr:energy_coefficients] identifier = energy_constants name = constant to recalculation of the ion intensity to the power datadir = analysis/Radiation/1212Impurities_TO.ON/data/ type = other ylabel = a.u. # ['H','O','He','C','N','M1','MIV'] [spectrometr:mean_relative_density_H] identifier = H xlabel = Element name = Mean relative density H datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_relative_density_O] identifier = O xlabel = Element name = Mean relative density O datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_relative_density_He] identifier = He xlabel = Element name = Mean relative density He datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_relative_density_C] identifier = C xlabel = Element name = Mean relative density C datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_relative_density_N] identifier = N xlabel = Element name = Mean relative density N datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_relative_density_M1] identifier = M1 xlabel = Element name = Mean relative density M1 datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_relative_density_MIV] identifier = MIV xlabel = Element name = Mean relative density MIV datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = a.u. [spectrometr:mean_temperature] identifier = temperature name = Mean estimated temperature datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = T [eV] [spectrometr:mean_radiation_power] identifier = meanPower name = Mean radiated power datadir = analysis/Radiation/1212Impurities_TO.ON/HistoricalAnalysis type = scalar ylabel = Power [W] [IDA:IDA_ions_projections] identifier = IDA_ions_projections name = Ions radiation projections from IDA datadir = analysis/Radiation/1212Impurities_TO.ON/data type = other ylabel = a.u. #################################################################x [camera:output_power_tomo] identifier = power xlabel = Time [s] ylabel = Power [a.u.] name = Plasma output power datadir = diagnostics/Radiation/0211FastCamera.ON/tomography/ type = array [camera:position_horizontal_tomo] identifier = xmass xlabel = Time [s] ylabel = Horizontal distance from tokamak center [m] name = Horizontal plasma position (using camera) datadir = diagnostics/Radiation/0211FastCamera.ON/tomography/ type = array [camera:position_vertical_tomo] identifier = ymass xlabel = Time [s] ylabel = Vertical distance from tokamak center [m] name = Vertical plasma position (using camera) datadir = diagnostics/Radiation/0211FastCamera.ON/tomography/ type = array [camera:color_emiss_1] identifier = colors_1 xlabel = Time [s] ylabel = Color emissivity [a.u.] name = Emissivity of RGB colors measured by camera 1 datadir = diagnostics/Radiation/0211FastCamera.ON/tomography/ type = array [camera:color_emiss_2] identifier = colors_2 xlabel = Time [s] ylabel = Color emissivity [a.u.] name = Emissivity of RGB colors measured by camera 2 datadir = diagnostics/Radiation/0211FastCamera.ON/tomography/ type = array ############# probes ######################### [floating_potential] datadir = diagnostics/ParticleFlux/1112RakeProbePavelka.ON/ identifier = floating_potential name = Rake probe - Floating potential ylabel = U [V] xlabel = Time [s] type = array [electron_temp_probe] datadir = diagnostics/ParticleFlux/1012RakeProbe.ON/ identifier = Te_probe name = Rake probe - Electron temperature ylabel = T [eV] xlabel = Time [s] type = array [dpr_l_outer_manipulator] datadir = diagnostics/ParticleFlux/0318DoubleRakeProbe.ON/ identifier = l_outer_manipulator name = Length of doule rake probe manipulater outside ylabel = l [mm] type = scalar