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Packages that use CircField | |
spis.Circ.Circ | |
spis.Circ.CircField | |
spis.Top.SC |
Uses of CircField in spis.Circ.Circ |
Fields in spis.Circ.Circ declared as CircField | |
private CircField |
RCCabsCirc.bias
Potential sources between a node and the node it is connected to by a source potential source potential which is maintained in the reduced matrices |
private CircField |
RCCabsCirc.pot
potential at circuit nodes |
private CircField |
RCCabsCirc.redPot
potential at reduced circuit nodes |
private CircField |
RCCabsCirc.redCharge
charge at reduced circuit nodes |
private CircField |
RCCabsCirc.tmpR
temporary circuit field (on reduced node set) stored to avoid heavy memory allocations/deallocations |
private CircField |
RCCabsCirc.tmpN
temporary cricuit fields (on non-reduced node set) stored to avoid heavy memory allocations/deallocations |
Methods in spis.Circ.Circ that return CircField | |
CircField |
RCCabsCirc.getPot()
Returns the potential on the circuit nodes (pointer). |
abstract CircField |
Circ.getPot()
Provides the potential on the circuit nodes |
Methods in spis.Circ.Circ with parameters of type CircField | |
void |
RCCabsCirc.integrate(float dt,
CircField intensity)
performs one step of time integration over time dt, based on the net current collection intensity. |
void |
RCCabsCirc.setPot(CircField potential)
sets the potential to the provided values, and also initialises what can be deduced form the potential: charges and reduced versions of potentials and charges (one reduced value per group of nodes connected by a potential source, internal data to the class). |
void |
RCCabsCirc.setPot(CircField potential,
java.util.Vector potSources)
sets the potential to the provided values, and also initialises what can be deduced form the potential: charges and reduced versions of potentials and charges (one reduced value per group of nodes connected by a potential source, internal data to the class). |
abstract void |
Circ.integrate(float dt,
CircField intensity)
performs one step of time integration over time dt, based on the net current collection intensity. |
Uses of CircField in spis.Circ.CircField |
Subclasses of CircField in spis.Circ.CircField | |
class |
DirCircField
Class Name : DirCircField Project ref : SPIS project File name : DirCircField.java File type : class Copyright : ONERA, 2 Av. |
Methods in spis.Circ.CircField with parameters of type CircField | |
void |
DirCircField.linComb(float a1,
CircField c,
float a2)
performs the following linear comination o nthis circuit field: this = a1 this + a2 c. |
void |
DirCircField.increment(CircField c)
Increments the current CircField by the passed CircField. |
abstract void |
CircField.linComb(float a1,
CircField c,
float a2)
performs the following linear comination o nthis circuit field: this = a1 this + a2 c. |
abstract void |
CircField.increment(CircField c)
Increments the current CircField by the passed CircField. |
Constructors in spis.Circ.CircField with parameters of type CircField | |
DirCircField(CircField circField)
Copy constructor |
Uses of CircField in spis.Top.SC |
Fields in spis.Top.SC declared as CircField | |
protected CircField |
RCCabsSC.intens
net collected intensity |
protected CircField |
RCCabsSC.circFieldBuffer
circuit field buffer |
Methods in spis.Top.SC with parameters of type CircField | |
void |
RCCabsSC.mapSurfToCirc(ScalSurfField sf,
CircField cf,
int flag)
Maps a scalar surface field onto a circuit field. |
void |
RCCabsSC.mapWireToCirc(ScalSurfField sf,
CircField cf)
Maps an edge-centred surface field living on wire elements onto a circuit field. |
void |
RCCabsSC.mapCircToSurf(CircField cf,
ScalSurfField sf,
int flag)
Maps a circuit field onto a scalar surface field. |
void |
RCCabsSC.mapCircToWire(CircField cf,
ScalSurfField sf)
Maps a circuit field onto an edge-centred surface field living on 1D wires only. |
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