Here are the classes, structs, unions and interfaces with brief descriptions:

[detail level 12345]

►NCPS
►NBase
►NPh1
CCapacitor
CCurrentSource
CInductor
CPiLine
CResistor
CSVC	Static VAR compensator (SVC)
CSwitch	Dynamic Phasor Three-Phase Switch
CTransformer
CVoltageSource
►NPh3
CCapacitor
CInductor
CPiLine
CResistor
CSwitch	Dynamic Phasor Three-Phase Switch
CTransformer
CVoltageSource
CAvVoltageSourceInverterDQ	Base model of average inverter
CAvVoltageSourceInverterDQWithStateSpace	Base model of average inverter
CReducedOrderSynchronGenerator
CSynchronGenerator	Base synchronous generator model
►NCIM
Chas_value_member
Chas_value_member< T, std::void_t< decltype(std::declval< const T & >().value)> >
CInvalidTopology
CReader
►NDP
►NPh1
►CAvVoltageSourceInverterDQ
CControlPreStep
CControlStep
►CCapacitor	Capacitor model
CMnaPostStepHarm
CMnaPreStepHarm
CCurrentSource	Dynamic phasor ideal current source
CDPDQInterface	Class providing interface with DP domain for all components in DQ domain
►CInductor	Inductor
CMnaPostStepHarm
CMnaPreStepHarm
►CInverter	Single phase inverter model
CMnaPostStepHarm
CMnaPreStepHarm
CNetworkInjection	Network injection model
CPiLine	PI-line dynamic phasor model
CPQLoadCS	PQ-load represented by a current source
►CProfileVoltageSource
CMnaPostStepHarm
CMnaPreStepHarm
CReducedOrderSynchronGeneratorVBR	Base class for DP VBR synchronous generator model single phase
CResIndSeries	Resistor inductor series element
►CResistor	Dynamic phasor resistor model
CMnaPostStepHarm
CRxLine
CRXLoad	Constant impedance load model consisting of RLC elements
CRXLoadSwitch	Constant impedance load model consisting of RLC elements
CSVC	SVC
CSwitch	Dynamic phasor switch
CSynchronGenerator3OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 3rd order synchronous generator model
CSynchronGenerator4OrderPCM	4 Order Synchronous generator model for transient stability analysis
CSynchronGenerator4OrderTPM	4 Order Synchronous generator model for transient stability analysis
CSynchronGenerator4OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 4th order synchronous generator model
CSynchronGenerator5OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 5th type 2 order synchronous generator model Ref: Milano, Documentation for PSAT version 2.1.6, June 2, 2011, chapter 17.1.2
CSynchronGenerator6aOrderVBR	Voltage-Behind-Reactance (VBR) implementation of 6th order synchronous generator model Marconato's model (Milano, Power System modelling and scripting, chapter 15)
CSynchronGenerator6bOrderVBR	Voltage-Behind-Reactance (VBR) implementation of 6th order synchronous generator model Anderson - Fouad's model (Milano, Power System modelling and scripting, chapter 15)
CSynchronGenerator6OrderPCM	6 Order Synchronous generator model for transient stability analysis
CSynchronGeneratorIdeal	Ideal voltage source representing a synchronous generator
CSynchronGeneratorIter	Base class for DP VBR synchronous generator model single phase
►CSynchronGeneratorTrStab	Synchronous generator model for transient stability analysis
CAddBStep
CTransformer	Transformer that includes an inductance and resistance
CvarResSwitch	Switch with variable resistance to avoid numerical oscillations, when an inductive current is suddenly interrupted. It is useful as a fault switch especially on a faulted generator or transformer winding
►CVoltageSource	Ideal Voltage source model
CMnaPostStepHarm
CMnaPreStepHarm
CVoltageSourceNorton	Resistive dynamic phasor voltage source
CVoltageSourceRamp
►NPh3
CCapacitor	Capacitor model
CInductor	Inductor
CResistor
CSeriesResistor
CSeriesSwitch	Dynamic phasor three-phase switch
CSynchronGeneratorDQ	Synchronous generator model in dq-reference frame
►CSynchronGeneratorDQODE
CODEPreStep
CSynchronGeneratorDQTrapez
CSynchronGeneratorVBR
CVoltageSource	Ideal Voltage source model
►NEMT
►NPh1
►NSSN
CFull_Serial_RLC	Full_Serial_RLC
CCapacitor	Capacitor model
CCurrentSource	Ideal current source model
CInductor	Inductor
CResistor	EMT Resistor
CSSNTypeI2T	SSNTypeI2T Model for a one phase, two terminal I-type SSN component which can be represented using a state space equation system x' = A * x + B * u y = C * x + D * u with x: state vector, y: output vector, u: input vector, where u represents external current (mIntfCurrent), y represents external voltage (mIntfVoltage), x represents any component states
CSSNTypeV2T	SSNTypeV2T Model for a one phase, two terminal V-type SSN component which can be represented using a state space equation system x' = A * x + B * u y = C * x + D * u with x: state vector, y: output vector, u: input vector, where u represents external voltage (mIntfVoltage), y represents external current (mIntfCurrent), x represents any component states
CSwitch	One phase EMT switch
CVoltageSource	Ideal Voltage source model
CVoltageSourceNorton	Voltage source as Norton equivalent
CVoltageSourceRamp
►NPh3
►NSSN
CCapacitor	Capacitor model
CFull_Serial_RLC	Full_Serial_RLC
CInductor	Inductor
►CAvVoltageSourceInverterDQ
CControlPreStep
CControlStep
CAvVoltSourceInverterStateSpace	Average inverter model with LC filter
CCapacitor	Capacitor model
CControlledCurrentSource	Ideal current source model
CControlledVoltageSource	Controlled Ideal Voltage source model
CCurrentSource	Ideal current source model
CInductor	Inductor
CNetworkInjection	Network injection model
CPiLine	PI-line dynamic phasor model
CReducedOrderSynchronGeneratorVBR	Base class for EMT VBR simplefied synchronous generator models
CResistor	EMT Resistor
CRxLine
CRXLoad	TODO: currently modelled as an impedance, which obviously doesn't have a constant power characteristic Model as current source and read from CSV files
CSeriesResistor	EMT three-phase resistor
CSeriesSwitch	EMT three-phase switch
CSwitch	Dynamic phasor switch
CSynchronGenerator3OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 3rd order synchronous generator model
CSynchronGenerator4OrderPCM	4 Order Synchronous generator model for transient stability analysis
CSynchronGenerator4OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 4th order synchronous generator model
CSynchronGenerator5OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 5th type 2 order synchronous generator model Ref: Milano, Documentation for PSAT version 2.1.6, June 2, 2011, chapter 17.1.2
CSynchronGenerator6aOrderVBR	Voltage-Behind-Reactance (VBR) implementation of 6th order synchronous generator model Marconato's model (Milano, Power System modelling and scripting, chapter 15)
CSynchronGenerator6bOrderVBR	Voltage-Behind-Reactance (VBR) implementation of 6th order synchronous generator model Anderson - Fouad's model (Milano, Power System modelling and scripting, chapter 15)
CSynchronGeneratorDQ	Synchronous generator model in dq-reference frame
►CSynchronGeneratorDQODE
CODEPreStep
CSynchronGeneratorDQTrapez
CSynchronGeneratorIdeal	Ideal voltage source representing a synchronous generator
►CSynchronGeneratorTrStab	Synchronous generator model for transient stability analysis
CAddBStep
CSynchronGeneratorVBR
CTransformer	Transformer that includes an inductance and resistance
CVoltageSource	Ideal Voltage source model
CVoltageSourceNorton	Voltage source with Norton equivalent model
►NGraph
CEdge
CElement
CGraph
CNode
►NSignal
CCosineFMGenerator	Model to generate signals containing a frequency ramp
CDCGenerator	Model to generate sinusoidal signals
►CDecouplingLine
CPostStep
CPreStep
►CDecouplingLineEMT
CPostStep
CPreStep
►CDecouplingLineEMT_Ph3
CPostStep
CPreStep
CExciter
►CFIRFilter
CStep
CFrequencyRampGenerator	Model to generate signals containing a frequency ramp
►CIntegrator
CPreStep
CStep
►CPLL
CPreStep
CStep
►CPowerControllerVSI
CPreStep
CStep
CSignalGenerator	Model to generate generic signals
CSineWaveGenerator	Model to generate sinusoidal signals
CTurbineGovernor	Turbine governor model to be used with synchronous generator
CTurbineGovernorType1
►NSP
►NPh1
►CAvVoltageSourceInverterDQ
CControlPreStep
CControlStep
CCapacitor
CInductor	Static phasor inductor model
CLoad
CNetworkInjection	Network injection model
CPiLine	PI-line static phasor model
CPQNode
CPVNode
CReducedOrderSynchronGeneratorVBR	Base class for SP VBR synchronous generator model single phase
CResistor	Static phasor resistor model
CRXLine
CShunt
CSolidStateTransformer
CSwitch	Dynamic phasor switch
CSynchronGenerator
CSynchronGenerator3OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 3rd order synchronous generator model
CSynchronGenerator4OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 4th order synchronous generator model
CSynchronGenerator5OrderVBR	Voltage-Behind-Reactance (VBR) implementation of 5th type 2 order synchronous generator model Ref: Milano, Documentation for PSAT version 2.1.6, June 2, 2011, chapter 17.1.2
CSynchronGenerator6aOrderVBR	Voltage-Behind-Reactance (VBR) implementation of 6th order synchronous generator model Marconato's model (Milano, Power System modelling and scripting, chapter 15)
CSynchronGenerator6bOrderVBR	Voltage-Behind-Reactance (VBR) implementation of 6th order synchronous generator model Anderson-Fouad's model (Milano, Power System modelling and scripting, chapter 15)
►CSynchronGeneratorTrStab	Synchronous generator model for transient stability analysis
CAddBStep
CTransformer	Transformer that includes an inductance and resistance
CvarResSwitch	Switch with variable resistance to avoid numerical oscillations, when an inductive current is suddenly interrupted. It is useful as a fault switch especially on a faulted generator or transformer winding
CVDNode
CVoltageSource	Ideal Voltage source model
CVoltageSourceInverter
►NPh3
CCapacitor	Capacitor model
CInductor	Inductor
CResistor
CRxLine
CVoltageSource	Ideal Voltage source model
►NUtils
CRgb
CAccessException
CAttribute
CAttributeBase
CAttributeCmp
CAttributeDynamic
CAttributeEq
CAttributeList	Base class of objects having attributes to access member variables
CAttributePointer
CAttributeStatic
CAttributeUpdateTask
CAttributeUpdateTaskBase
CCompositePowerComp	Base class for composite power components
CCSVReader	Reads load profiles (csv files only) and assign them to the corresponding load object
CCSVReaderIterator
CCSVRow
CDAEInterface
CException
CIdentifiedObject
CInvalidArgumentException
CInvalidAttributeException
CLogger
CMath
CMNAInterface	Interface to be implemented by all models used by the MNA solver
►CMNASimPowerComp	Base class for all MNA components that are transmitting power
CMnaPostStep
CMnaPreStep
CMNAStampUtils
CMNASwitchInterface	MNA interface to be used by switching devices
CMNASyncGenInterface	Interface to be used by synchronous generators
CMNATearInterface
CMNAVariableCompInterface	MNA interface to be used by elements that require recomputing of the system matrix
CODEInterface
CODEintInterface
CPFSolverInterfaceBranch	Common base class of all Component templates
CPFSolverInterfaceBus	Common base class of all Component templates
CPowerProfile
CPQData
►CSimNode
CMnaPostStepHarm
CSimPowerComp	Base class for all components that are transmitting power
CSimSignalComp
CSimTerminal
CSystemError
CSystemTopology
CTask	Tasks to be defined by every component
CTopologicalNode
CTopologicalPowerComp
CTopologicalSignalComp
CTopologicalTerminal
CTypeException
►NDPsim
►Ncuda
CCudaMatrix
►CVector
Citerator
CAttributeEvent
CBarrier
CBarrierTask
►CCommandLineArgs
CArgument
CCounter
CDAESolver	Solver class which uses Differential Algebraic Equation(DAE) systems
►CDataLogger
CStep
CDataLoggerInterface
CDenseLUAdapter
►CDiakopticsSolver
CLogTask
CPostSolveTask
CPreSolveTask
CSolveTask
CSubnetSolveTask
CDirectLinearSolver
CDirectLinearSolverConfiguration
CEvent
CEventComparator
CEventQueue
►CGpuDenseAdapter
CGpuData	Variables for solving one Equation-system (All pointer are device-pointer)
CGpuMagmaAdapter
CGpuSparseAdapter
CInterface
►CInterfaceQueued
CPostStep
CPreStep
CReaderThread
CWriterThread
CInterfaceVillas	Interface type that can be used to import and export simulation attributes over any node type supported by VILLASnode
►CInterfaceVillasQueueless	Interface type that can be used to import and export simulation attributes over any node type supported by VILLASnode
CPostStep
CPreStep
CInterfaceWorker
CInterfaceWorkerVillas
CKLUAdapter
CMnaSolver	Solver class using Modified Nodal Analysis (MNA)
►CMnaSolverDirect	Solver class using Modified Nodal Analysis (MNA)
CLogTask
CSolveTask
CSolveTaskHarm
CSolveTaskRecomp
CMnaSolverFactory
►CMnaSolverPlugin
CLogTask
CSolveTask
CODEintSolver	Solver class which uses ODE systems
►CODESolver	Solver class for ODE (Ordinary Differential Equation) systems
CSolveTask
COpenMPLevelScheduler
►CPFSolver	Solver class using the nonlinear powerflow (PF) formulation
CSolveTask
CPFSolverPowerPolar	Powerflow solver class considering power mismatch and voltages in polar coordinates
►CRealTimeDataLogger
CStep
CRealTimeSimulation	Extending Simulation class by real-time functionality
►CScheduler
CRoot
CSchedulingException
CSequentialScheduler
►CSimulation	The Simulation holds a SystemTopology and a Solver
CLoggerMapping
CSolver	Base class for more specific solvers such as MNA, ODE or IDA
CSolverException
CSparseLUAdapter
CSwitchConfiguration	Holds switching time and which system should be activated
CSwitchEvent
CSwitchEvent3Ph
CThreadLevelScheduler
CThreadListScheduler
CThreadScheduler
►CTimer
COverrunException
CUnsupportedSolverException
►Nstd
Chash< CPS::AttributePointer< T > >
CCreator
CDerivedCreator
Cdps_magma_data
Cdpsim_csr_matrix
Cdpsim_mna_plugin
CFactory
CFactoryRegistration
Coption
CPyInterfaceVillas
CSharedFactory
CSystemError
CUniqueFactory