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LeoExample - class spis.Top.Simulation.LeoExample.
Class Name : LeoExample (generic Simulation)
Project ref : SPIS project
File name : LeoExample.java
File type : class
Copyright : ONERA, 2 Av.
LeoExample(ThreeDUnstructVolMesh, ThreeDUnstructSurfMesh, ThreeDUnstructSurfMesh) - Constructor for class spis.Top.Simulation.LeoExample
Default constructor
LeoExample(RCCabsSC, MmfPlasma) - Constructor for class spis.Top.Simulation.LeoExample
Constructor with spacecraft and plasma, which can only be called by the Top object, not from the framework, unless Jython code is enhanced to build a SC and a plasma.
LeoExample() - Constructor for class spis.Top.Simulation.LeoExample
temporary constructor without meshes, to allow to build this from the framework without meshes
LimitedExp - class spis.Util.Func.LimitedExp.
Class Name : LimitedExp
Project ref : SPIS project
File name : LimitedExp.java
File type : class
Copyright : ONERA, 2 Av.
LimitedExp(float, float, float, float) - Constructor for class spis.Util.Func.LimitedExp
Constructor with y0, x0, x1 and exponent constants to define f(x) = y0*exp((x-x1)/x0) for negative exponential argument and f(x) = y0 * (1 + (x-x1)/(x0*exponent))^exponent for (x-x1)/x0 > 0.
Ln - class spis.Util.Func.Ln.
Class Name : Ln
Project ref : SPIS project
File name : Ln.java
File type : class
Copyright : ONERA, 2 Av.
Ln(float, float) - Constructor for class spis.Util.Func.Ln
Constructor with y0 and x0 constants to define f(x) = y0*ln(x/x0).
LocalMaxwellSurfDistrib - class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib.
Class Name : LocalMaxwellSurfDistrib (Maxwellian Surface Distribution)
Project ref : SPIS project
File name : LocalMaxwellSurfDistrib.java
File type : class
Copyright : ONERA, 2 Av.
LocalMaxwellSurfDistrib(SurfMesh, ScalSurfField, ScalSurfField, LocalMaxwellSurfSampler) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib
Default constructor.
LocalMaxwellSurfDistrib(SurfMesh, LocalMaxwellSurfSampler) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib
constructor with minimal data, default initialisation of surface fields is performed: surface-centered flux and temperature ScalSurfFields are generated.
LocalMaxwellSurfDistrib(SurfMesh, Part, float, float) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib
Quick constructor:
- a default sampler is generated from particle type, and typical flux and temperature of the emitted particles (the latter are used to determined sampled particle weights),
- 0 flux and temperature fields are generated (surface-centred)
LocalMaxwellSurfDistrib(SurfMesh, ScalSurfField, ScalSurfField, Part) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib
Constructor without sampler: can be used for some distributions, which do not need to produce samples following that distribution (e.g. result distributions, but not sources of PICVolDistrib-utions)
LocalMaxwellSurfDistrib(SurfMesh, Part) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib
Constructor without sampler: can be used for some distributions, which do not need to produce samples following that distribution (e.g. result distributions, but not sources of PICVolDistrib-utions).
LocalMaxwellSurfDistrib(GlobalParameter[], LocalParameter[], String, SurfMesh, Integer) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistrib
Constructor based on UI-defined parameters
LocalMaxwellSurfDistribWithMachNotOperational - class spis.Surf.SurfDistrib.LocalMaxwellSurfDistribWithMachNotOperational.
Class Name : LocalMaxwellSurfDistribWithMachNotOperational
Project ref : SPIS project
File name : LocalMaxwellSurfDistribWithMachNotOperational.java
File type : class
Copyright : ONERA, 2 Av.
LocalMaxwellSurfDistribWithMachNotOperational(SurfMesh, ScalSurfField, ScalSurfField, ScalSurfField, LocalMaxwellSurfSampler) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistribWithMachNotOperational
Default constructor
LocalMaxwellSurfDistribWithMachNotOperational(GlobalParameter[], LocalParameter[], String, SurfMesh, Integer) - Constructor for class spis.Surf.SurfDistrib.LocalMaxwellSurfDistribWithMachNotOperational
 
LocalMaxwellSurfSampler - class spis.Util.List.LocalMaxwellSurfSampler.
Class Name : LocalMaxwellSurfSampler
Project ref : SPIS project
File name : LocalMaxwellSurfSampler.java
File type : class
Copyright : ONERA, 2 Av.
LocalMaxwellSurfSampler(Part, ScalSurfField, ScalSurfField) - Constructor for class spis.Util.List.LocalMaxwellSurfSampler
Default constructor
LocalMaxwellSurfSampler1 - class spis.Util.List.LocalMaxwellSurfSampler1.
Class Name : LocalMaxwellSurfSampler1
Project ref : SPIS project
File name : LocalMaxwellSurfSampler1.java
File type : class
Copyright : ONERA, 2 Av.
LocalMaxwellSurfSampler1(Part, ScalSurfField, ScalSurfField, float, float) - Constructor for class spis.Util.List.LocalMaxwellSurfSampler1
Default constructor (mode 0): minimum and maximum weights of the provided particles are explicit given to the constructor
LocalMaxwellSurfSampler1(Part, float, float, ScalSurfField, ScalSurfField) - Constructor for class spis.Util.List.LocalMaxwellSurfSampler1
Quick constructor (mode 0, similarly as the default constructor): the supplied typical flux and temperature allow an automatic setting of the minimum/maximum weigths (based on default average particle number per cell SpisDefaultSampling.avPartNbPerCell)
LocalMaxwellSurfSampler1(Part, ScalSurfField, ScalSurfField, float) - Constructor for class spis.Util.List.LocalMaxwellSurfSampler1
mode 1 constructor: super-particle weight will be determined at sampling time based on the desired number of particle par cell (to be used when no estimate of the generated flux can be done at the moment of Sampler construction).
LocalParameter - class spis.Top.Default.LocalParameter.
Class Name : LocalParameter
Project ref : SPIS project
File name : LocalParameter.java
File type : class
Copyright : ONERA, 2 Av.
LocalParameter(String, String, Object, String, String) - Constructor for class spis.Top.Default.LocalParameter
Default constructor.
LocalParameter(String, float[], int, Object, String, String) - Constructor for class spis.Top.Default.LocalParameter
Dirty constructor for scalar field, for faster use from Jython UI layer
l0 - Variable in class spis.Surf.InteractModel.DoublePowerLawRangeFunction
length unit in meters (usually 1e-10 m = 1 Angstrom)
largband(int[][], int[], int) - Static method in class spis.Solver.Poisson.PoissonInit
Compute the bandwidth
lastColCurStorage - Variable in class spis.Util.Monitor.ElecSuperNodeMonitor
last storage of collected currents
lastDensityMap - Variable in class spis.Util.Monitor.FieldMonitor
last density monitoring step
lastEmCurStorage - Variable in class spis.Util.Monitor.ElecSuperNodeMonitor
last storage of emitted currents
lastPlasmaPotMap - Variable in class spis.Util.Monitor.FieldMonitor
last plasma potential monitoring step
lastPotStorage - Variable in class spis.Util.Monitor.ElecSuperNodeMonitor
last potential storage
lastScCurMap - Variable in class spis.Util.Monitor.FieldMonitor
last SC local current monitoring step
lastScPotMap - Variable in class spis.Util.Monitor.FieldMonitor
last SC local potential monitoring step
launchMenu() - Method in class spis.Top.Top.Top
Launches the test menu for SPIS/NUM.
lenNodeWire - Variable in class spis.Solver.Poisson.ConjGrad3DUnstructPoissonSolver
lenNodeWire[i] is the distance of node i to the wire
linComb(float, CircField, float) - Method in class spis.Circ.CircField.CircField
performs the following linear comination o nthis circuit field: this = a1 this + a2 c.
linComb(float, CircField, float) - Method in class spis.Circ.CircField.DirCircField
performs the following linear comination o nthis circuit field: this = a1 this + a2 c.
linComb(float, SurfField, float) - Method in class spis.Surf.SurfField.ScalSurfField
Computes the linear combination a1*this + a2*field and affects it to this (field must be a scalar field)
linComb(float, SurfField, float) - Method in class spis.Surf.SurfField.SurfField
Computes the linear combination a1*this + a2*this and affects it to this field, (the SurfField field must be of same subtype as this)
linComb(float, SurfField, float) - Method in class spis.Surf.SurfField.VectSurfField
Computes the linear combination a1*this + a2*field and affects it to this field (field must also be a VectSurfField)
linComb(float, FloatScalTable, float) - Method in class spis.Util.Table.FloatScalTable
Performs the following linear comination on this table: this = a1 this + a2 t.
linComb(float, VectTable, float) - Method in class spis.Util.Table.VectTable
Performs the following linear comination on this table: this = a1 this + a2 t.
linComb(float[], float, float[], float) - Static method in class spis.Util.Vect.Vect
returns the linear combination of two vectors
linComb(float[], float, float[], float, float[], float) - Static method in class spis.Util.Vect.Vect
returns the linear combination of three vectors
linComb(float[], float, float[], float, float[], float, float[], float) - Static method in class spis.Util.Vect.Vect
returns the linear combination of four vectors
linComb(float, ScalVolField, float) - Method in class spis.Vol.VolField.ScalVolField
Performs the following linear comination on this field: this = a1 this + a2 f (on the spot)
linear - Variable in class spis.Solver.Poisson.PoissonSolver
Flag to select the default behaviour of the Poisson solver: the default call of solve() will either call solveLinear() or call solveNonLinear depending of this flag
linearPoisson - Static variable in class spis.Top.Default.GlobalParameter
Name of the following parameter: 0- no: non-linear Poisson solver in use 1- yes: linear Poisson solver in use - (default value: 0, type: int)
linearSystemSolve(FloatScalTable, FloatScalTable) - Method in class spis.Util.Matrix.Matrix
Solves the linear system matrix x = y, and returns x.
linkInFluxes() - Method in class spis.Surf.InteractModel.MultipleInteractor
links individual interactor in fluxes to the global inFlux: they are set equal to the global inFlux
linkOutFluxes() - Method in class spis.Surf.InteractModel.MultipleInteractor
links the global outFlux to the individual interactor out fluxes: // * If the global outFlux is:
// * - a null pointer or a MultipleSurfDistrib, it is redefined // * as a MultipleSurfDistrib with components = the out fluxes of each interactor
// * - a SurfDistrib different type of MultipleSurfDistrib, no mapping, the // * out fluxes of the interactors are mapped to and added to this type of SurfDistrib // * (not yet implemented).
localParameters - Static variable in class spis.Top.Default.Global
Local parameters (material type...)
localParameters - Variable in class spis.Top.Simulation.SimulationFromUIParams
Local parameters (material type...)
localParameters - Variable in class spis.Top.Top.Top
Local parameters (meterial Id...)
log(float) - Static method in class spis.Util.Phys.Phys
Logarithm function in simple precision, which is enough for physicists!
logFile - Static variable in class spis.Util.io.SpisIO
 

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