- #Simulation of pmd compensation using optisystem software#
- #Simulation of pmd compensation using optisystem free#
It can be arranged by system layout, component, or system. OptiSystem offers a cost analysis table for the system being designed. It can do calculations, layout creation, and post-processing. The script language is able to manipulate and control OptiSystem. Parameters can be entered using arithmetical expressions and global parameters can be shared among components and subsystems by using the standard VB Script language. OptiSystem has a hierarchical description of components and systems that allows for the simulation to be as precise as required. This includes the system, subsystem, and component levels. It is important to have models at various abstraction levels in order to make a simulation tool flexible, efficient and flexible. OptiSystem’s Bidirectional optical fiber component makes it possible to model and measure Rayleigh and Brillouin scattering effects. This includes linear, stochastic, and nonlinear impairments like FWM, self-phase, and cross-phase modulation. Advanced optical fiber models that are highly parametrized can be used for characterizing single-mode and multi-mode signals propagation. They also support serial-parallel or parallel-serial conversions, flip flops, and other binary logic operators. These functions and operations include signal addition, subtraction, bias generators, gain and signal addition, normalizers as well as down-samplers. WDM analysis tools are also included, listing signal power, gain, and noise figure for each channel. Eye diagrams, polarization states, constellation diagrams, and more.
#Simulation of pmd compensation using optisystem software#
Since 1994, Optiwave software has been licensed to over 1000 companies and universities from more than 70 countries.Īdvanced visualization tools can produce OSA Spectra and signal chirp. It also meets the growing demand for an easy-to-use tool to design optical systems. OptiSystem was created to meet the needs of researchers, optical telecom engineers, and system integrators as well as students.
#Simulation of pmd compensation using optisystem free#
OptiSystem’s components are able to model optical channels in free space and perform spatial analysis of multimode signal coupling between devices (multimode generators, spatial connectors thin lenses, spatial visualizers), as well as spatial modeling of multi-mode signals. A wide range of passive and active optical components are available to create a variety of sub-system and component designs. Optiwave is a leader in the development and use of innovative software tools to design, simulate, and optimize components, links, and systems for photonics nanotechnology, optoelectronics, and optical networks. It allows for transmission layer optical communication system planning and design from component to system levels, and visual analysis and scenarios. Intuitive and flexible measurement post-processing graphical interface acts like a virtual laboratory instrument.OptiSystem, a powerful, innovative, and rapidly evolving software design tool allows users to simulate, plan, and test almost any type of optical link in the transmission layers of a wide range of optical networks, from LAN, SAN, and MAN to ultralong-haul.Extensive library of predefined manufacturer components makes it easy to model commercially available devices.Best Fit Laser Toolkit™ makes customizing powerful rate-equation laser model parameters to fit desired performance characteristics easily.Application Programming Interface (API) for programming languages such as C/C++ for the development of custom user models.Co-simulation with embedded SPICE engine, and interfaces with EDA tools such as Synopsys HSPICE for a mixed-domain electrical and optical simulation.Interfaces with device-level design tools such as BeamPROP and LaserMOD provide a powerful mixed-level design flow for optoelectronic circuits and systems.Interfaces with laboratory test equipment such as Agilent and Luna to merge simulation with experiment.MATLAB interface makes it easy to develop custom user models using the m-file language and/or the Simulink modeling environment.Only design tool with multiple engines implementing both the Time Domain Split Step and the Frequency Domain Split Step for the most accurate and efficient simulation of any optical link architecture.Support for multiple parameter-scans-based optimization.