49 #ifndef Xyce_N_DEV_Resistor3_h
50 #define Xyce_N_DEV_Resistor3_h
71 static const char *
name() {
return "Resistor";}
112 void registerLIDs(
const std::vector<int> & intLIDVecRef,
113 const std::vector<int> & extLIDVecRef );
118 const std::vector< std::vector<int> > &
jacobianStamp()
const;
119 void registerJacLIDs(
const std::vector< std::vector<int> > & jacLIDVec );
138 void varTypes( std::vector<char> & varTypeVec );
140 void getLIDs(
int & lpos,
int & lneg,
int & lbra)
226 #ifndef Xyce_NONPOINTER_MATRIX_LOAD
318 virtual bool updateState (
double * solVec,
double * staVec,
double * stoVec);
321 virtual bool loadDAEVectors (
double * solVec,
double * fVec,
double * qVec,
double * bVec,
double * storeLeadF,
double * storeLeadQ,
double * leadF,
double * leadQ,
double * junctionV);
322 virtual bool loadDAEMatrices (Linear::Matrix & dFdx, Linear::Matrix & dQdx);
static Device * factory(const Configuration &configuration, const FactoryBlock &factory_block)
virtual bool processInstanceParams()
processInstanceParams
double getMaxTimeStepSize()
const std::vector< std::vector< int > > & jacobianStamp() const
bool updatePrimaryState()
void getLIDs(int &lpos, int &lneg, int &lbra)
Pure virtual class to augment a linear system.
Master(const Configuration &configuration, const FactoryBlock &factory_block, const SolverState &ss1, const DeviceOptions &do1)
static bool isLinearDevice()
static std::vector< std::vector< int > > jacStampPDE
virtual bool updateState(double *solVec, double *staVec, double *stoVec)
Updates the devices state information.
void varTypes(std::vector< char > &varTypeVec)
Instance(const Configuration &configuration, const InstanceBlock &IB, Model &Viter, const FactoryBlock &factory_block)
static void loadInstanceParameters(ParametricData< Instance > &instance_parameters)
virtual bool processParams()
processParams
DeviceMaster instantiates a device as described by the device traits T.
void registerLIDs(const std::vector< int > &intLIDVecRef, const std::vector< int > &extLIDVecRef)
The FactoryBlock contains parameters needed by the device, instance and model creation functions...
virtual void forEachInstance(DeviceInstanceOp &op) const
Apply a device instance "op" to all instances associated with this model.
bool updateIntermediateVars()
void addInstance(Instance *instance)
Instance & operator=(const Instance &)
double * fBraEquNegNodePtr
void registerStateLIDs(const std::vector< int > &staLIDVecRef)
The Device class is an interface for device implementations.
void registerJacLIDs(const std::vector< std::vector< int > > &jacLIDVec)
double * fPosEquPosNodePtr
std::vector< Instance * > InstanceVector
double * fBraEquBraVarPtr
Class Configuration contains device configuration data.
static const char * primaryParameter()
std::vector< Instance * > instanceContainer
double * fNegEquBraVarPtr
virtual bool loadDAEMatrices(Linear::Matrix &dFdx, Linear::Matrix &dQdx)
Populates the device's Jacobian object with these pointers.
double * fBraEquPosNodePtr
Model & operator=(const Model &)
static const char * name()
ModelBlock represents a .MODEL line from the netlist.
The DeviceTraits template describes the configuration of a device.
virtual std::ostream & printOutInstances(std::ostream &os) const
Manages parameter binding for class C.
double * fNegEquNegNodePtr
double * fPosEquBraVarPtr
InstanceBlock represent a device instance line from the netlist.
bool isLinearDevice() const
static void loadModelParameters(ParametricData< Model > &model_parameters)
void loadNodeSymbols(Util::SymbolTable &symbol_table) const
Populates and returns the store name map.
static const char * deviceTypeName()
static std::vector< std::vector< int > > jacStamp
static ParametricData< Instance > parMap_
virtual bool loadDAEVectors(double *solVec, double *fVec, double *qVec, double *bVec, double *storeLeadF, double *storeLeadQ, double *leadF, double *leadQ, double *junctionV)
Populates the device's ExternData object with these pointers.