All Classes
| Class | Description |
|---|---|
| AllPaths | |
| AllPathsNode | |
| AMMS |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_AP |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_CS |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_DF |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_FPA |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_KSP |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_MBM |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_MSP |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AMMS_SPV |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| AP |
The Acceptance Prone.
|
| ArgParsing | |
| ARTO |
The proposed by Italo
|
| ASMC |
This is a new algorithm to solve the RMSCA problem in SDM-EON.
|
| Batch | |
| BatchArrivalEvent |
Methods to treat the incoming of a Batch object.
|
| BatchDepartureEvent |
Methods to treat the outgoing of a Flow object.
|
| BulkData |
The BulkData class defines an object that can be thought of as a data amount transfer request
,going from a source node to a destination node within a specific deadline.
|
| BulkDataArrivalEvent |
Methods to treat the incoming of a BulkData object.
|
| BulkDepartureEvent |
Methods to treat the outgoing of a Flow object.
|
| CASD |
This is a sample algorithm for the Routing and Spectrum Core Alocation problem.
|
| CASD_PushPull |
This is a sample algorithm for the Routing and Spectrum Core Alocation problem.
|
| Classifier | |
| CombinationsBatch |
This class find all combinations of Batch calls of Batch with k calls
|
| ControlPlane |
The Control Plane is responsible for managing resources and connection within
the network.
|
| ControlPlaneForRA |
This is the interface that provides several methods for the
RWA Class within the Control Plane.
|
| Core |
The Space Division Multiplexing Elastic Optical Network (SDM-EON) Core represents a Fiberlink core in an optical
network divided by slots.
|
| CS |
The proposed Rui Wang Complete Sharing (CS).
|
| DatacenterGroup | |
| DF |
The Degree of Fragmentation.
|
| Dijkstra |
Dijkstra's routing algorithm.
|
| Distribution |
Extends Java Random Class in order to provide good random number sequences.
|
| DP |
This is a sample algorithm for the Routing and Spectrum Alocation problem.
|
| DSP | |
| EAMGSP |
The proposed Pedro M Moura, Energy Aware Multigraph Shortest Path Algorithm (EAMGSP)
[Modulation best Power Consumption].
|
| Edge | |
| EEABE |
Classe AARSASJ
|
| EEKSP |
The proposed Jorge Lopez Vizcaino, KSP best Power Consumption (EEKSP).
|
| EONLightPath | |
| EONLink |
The Elastic Optical Network (EON) Link represents a Fiberlink in an optical
network divided by slots.
|
| EONOXC | |
| EONPhysicalTopology | |
| Event |
Event objects have only one attribute: scheduled time.
|
| EventScheduler |
The simulator's timeline is not defined by time itself, but by
events.
|
| FFCA |
This is a sample algorithm for the Routing and Spectrum Core Alocation problem.
|
| Flow |
The Flow class defines an object that can be thought of as a flow
of data, going from a source node to a destination node.
|
| FlowArrivalEvent |
Methods to treat the incoming of a Flow object.
|
| FlowDepartureEvent |
Methods to treat the outgoing of a Flow object.
|
| FPA |
The proposed P S Khodashenas.
|
| GraphStatus | |
| HamPcycle | |
| KSP |
The proposed Xin Wan.
|
| KSP_ProtectionDLP | |
| KSP_ProtectionGrooming | |
| KSP_RMLSA |
The proposed Xin Wan.
|
| KSP_RMSCA |
This is a sample algorithm for the Routing and Spectrum Core Alocation
problem.
|
| KSP_RSCA |
This is a sample algorithm for the Routing and Spectrum Core Alocation
problem.
|
| KSP_SNR |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| KSPOffline | |
| LayeredGraph |
The "layered graph" is constructed from some weighted graphs your edges is
constructed between layers (weighted graphs).
|
| LightPath |
In an optical network, a lightpath is a clear optical path which may traverse
several links in the network.
|
| Link | |
| LoadObject | |
| MAdapAP |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapCS |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapDF |
The proposed m-Adap by Xin Wan in this RSA solver.
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| MAdapFPA |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapKSP |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapKSP_SNR |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapMSP |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapSchema |
This class is a adaptive modulation model, that uses some RA class in your implementation.
|
| MAdapSP |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapSP_SNR |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapSPTG |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapSPV |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MAdapSPV_SNR |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| Main |
The Main class takes care of the execution of the simulator,
which includes dealing with the arguments called (or not) on
the command line.
|
| MBM |
The proposed m-Adap by Xin Wan in this RSA solver.
|
| MBM_RSA |
The my proposed to use the optical agregation.
|
| MBM_SBVT |
The my proposed to use the optical agregation using SBVT schema.
|
| MBM_SR |
The my proposed to use the optical agregation.
|
| Modulation | |
| MSP |
The proposed Xin Wan.
|
| MultiPath | |
| MultiPathProtect | |
| MultiWeightEdge | |
| My2RSA |
This is a sample algorithm for the Routing and Spectrum Alocation problem.
|
| My2RSA |
This is a sample algorithm for the Routing and Spectrum Alocation problem.
|
| My2RWA |
This is a sample algorithm for the Grooming problem.
|
| My3RSA |
This is a sample algorithm for the Grooming problem in EON.
|
| My4RSA |
This is a sample algorithm for Rounting Modulation Level Spectrum Allocation (RMLSA) problem.
|
| MyRSA |
This is a sample algorithm for the Routing and Spectrum Alocation problem.
|
| MyRWA |
This is a sample algorithm for the Routing and Wavelength Assignment problem.
|
| MyStatistics | |
| OrdinaryEvent |
Methods to treat the outgoing of a Flow object.
|
| OXC |
The Optical Cross-Connects (OXCs) can switch the optical signal coming
in on a wavelenght of an input fiber link to the same wavelength in an
output fiber link.
|
| Path |
A path is nothing more than a list of lightpaths.
|
| PCycle | |
| PhysicalImpairments | |
| PhysicalTopology |
The physical topology of a network refers to he physical layout of devices on
a network, or to the way that the devices on a network are arranged and how
they communicate with each other.
|
| PP |
The proposed Rui Wang Pseudo Partition (PP).
|
| PrintFile | |
| PseudoControlPlane |
This class is designed only for use by adaptive modulation models that use RA
class in its implementation.
|
| PseudoControlPlane2 |
This class is designed only for use by adaptive modulation models that use RA
class in its implementation.
|
| RA |
This is the interface that provides some methods for the RA class.
|
| RABulk | |
| RSAMF |
The RSAMF algorithm.
|
| RSAMFPF |
The RSAMF algorithm.
|
| SaveObject | |
| SimulationRunner |
Simply runs the simulation, as long as there are events
scheduled to happen.
|
| Simulator |
Centralizes the simulation execution.
|
| SP_RMLSA |
This is a sample algorithm for the Routing and Spectrum Alocation problem.
|
| SP_RMSCA |
This is a sample algorithm for the Routing and Spectrum Core Alocation problem.
|
| SP_RSA |
This is a sample algorithm for the Routing and Spectrum Alocation problem.
|
| SP_RSCA |
This is a sample algorithm for the Routing and Spectrum Core Alocation problem.
|
| SPTG |
The proposed Zheyu Fan.
|
| SPV |
The proposed Xin Wan.
|
| Tracer |
Generates a trace file that contains information about what happened during
the simulation, such as arriving and departing flows, created lightpaths,
and accepted or blocked flows.
|
| TrafficGenerator |
Generates the network's traffic based on the information passed through the
command line arguments and the XML simulation file.
|
| VirtualTopology |
The virtual topology is created based on a given Physical Topology and on the
lightpaths specified on the XML file.
|
| WDMLightPath | |
| WDMLink |
The Wavelength Division Multiplexing (WDM) Link represents a Fiberlink in an
optical network.
|
| WDMOXC | |
| WDMPhysicalTopology | |
| WeightedGraph |
A weighted graph associates a label (weight) with every edge in the graph.
|
| WeightedGraphLPCandidates |
A weighted graph associates a label (weight) with every edge in the graph.
|
| WeightedGraphMultiWeight |
This graphs shows the reach of each node in each modulation level to all nodes in topology.
|
| WeightedGraphMultiWeightEdge | |
| WeightedMultiGraph | |
| WeightedMultiGraphMultiWeight | |
| WR |
The proposed Xin Wan.
|
| YenKSP |