SIMULATIONS EMPOWERING YOUR INNOVATIONS
SIMULATIONS EMPOWERING YOUR INNOVATIONS
5621 Arapahoe Ave | Boulder | CO 80303Telephone: +1-303-448-0727
[email protected] Arapahoe Ave | Boulder | CO 80303
Telephone: +1-303-448-0727
8Powerful Software at Your ServiceVSim packages make it possible to simulate electromagnetic, charged particle, and kinetic plasma phenomena quickly and accurately with its cutting edge algorithms and high performance. Choose a package of features to get a tailor-made solution to common problems, or combine packages to obtain a customized software package for your specific needs. For example, you can use our electromagnetics package for solving for fields inside of high field cavities then later add features from our microwave devices to study the effects of field emissions.
With VSim, you can start from our wide range of examples both demonstrating classical physics problems and real world devices spanning plasma discharges, ion thrusters, satellite charging, RADAR antennas, vacuum electronics, photonic devices, or particle accelerator components.
Electromagnetics, Particle, and Plasma High Performance Application
Flexible Pricing With VSim’s flexible pricing model, you pay only for the capabilities you need. Whether you need a custom set
of physics capabilities, or want to separate the front end graphical user interface from the physics engine, we
will work with you to meet your requirements. For example, you can purchase VSim with its GUI interface for
your workstation then buy only the physics engine portion of the product to run on your cluster. This means
that you do not have to pay for an extra VSim workstation license to be able to use your cluster’s computing
power to run simulations. Our sales team is happy to answer your questions to match our product to your
problem and resources.
Scalable Simulations for Your Hardest Problems Since VSim supports massively parallel computing and scales to tens of thousands of processor cores, new
problems that were previously unsolvable are now within reach. VSim works on Linux, Windows, and Mac
OS X platforms. Our competitive pricing means that the more computing cores you need, the less you pay
per core, whether you use batch computing on clusters, or large single computing jobs.
About Tech-X CorporationTech-X Corporation is committed to technical excellence and innovation. Our scientists and software
engineers work together to deliver quantifiable results. We combine the academic research with a
commercial software company sensibility to deliver high quality, cutting edge software that takes
advantage of the latest hardware and software advances.
Consulting ServicesTech-X offers consulting and training services for all of its simulation software. In addition to the free
support that comes with every purchase of a VSim product, we have our experts ready to help you use
VSim to its fullest extent to solve your most challenging problems.
VSim 8 Package List
VSim and Tech-X are registered trademarks of Tech-X Corporation. VMesh™ trademark application pending. All other trademarks are the property of their respective owners.
Fast, Powerful FDTD for Electromagnetics
VSim for Microwave Devices displays detailed profile and particle distribution data using VSim’s advanced graphic interface. Simulation examples of devices and components are included, giving you a jump start on creating your own simulations. Diagnostics provide performance information, including power, voltage, electron current, and electron phase space.
First principle modeling of Electron Beam and Microwave Devices
VSim for Electromagnetics provides high accuracy in record time. Cutting edge, Finite-Difference, Time-Domain (FDTD) algorithms, which include the ability to handle dielectric boundaries with large abrupt changes in permittivity, make VSim for Electromagnetics the clear choice for generating engineering outputs that can be used for design of electromagnetic devices.
GaAs & Diamond Semiconductor Simulation Modeling
VSim for Semiconductor Devices simulates electron transport in GaAs, modeling drift-diffusion evolution of electrons in GaAs at different applied fields.
With VSim for Semiconductor Devices, you can model charge generation and transport in Diamond. You can also simulate transport of free charge carriers in Diamond, due to drift in applied external fields, and their diffusion, due to scattering with phonons.
VSim for Plasma Discharges State-of-the-art kinetic modeling
VSim for Electromagnetics Fast, Powerful FDTD for Electromagnetics
VSim for Microwave DevicesFirst principle modeling of
Electron Beam and Microwave Devices
VSim for Semiconductor Devices GaAs and Diamond semiconductor simulation modeling
VSim for Plasma AccelerationFeature-rich capabilities for
modeling plasma acceleration
5621 Arapahoe Ave | Boulder | CO 80303Telephone: +1-303-448-0727
[email protected] Arapahoe Ave | Boulder | CO 80303
Telephone: +1-303-448-0727
VSim for Plasma Discharges enables you to see the resolution of kinetic effects, which are not observable in fluid simulations. For the first time ever you can perform numerically efficient kinetic simulation of arbitrary pressure gas discharges. VSimPD does full kinetics for arbitrary pressure gas discharges and provides the rich physics for sputter. With VSimPD, you will have the ability to solve full size problems including R-Z geometry.
VSim Packages Choose the right package for your needs.
PAckAgEFEAturEScONtINuEDSTATICSElectrostatics l l l l l l
Electrostatic open boundaries l
Magnetostatics l
FLUIDCold relativistic fluid l
Euler fluid l
PARTICLES Charged particles l l l l l
Variably weighted charged particles l l l l l
Non relativistic particles l l l l l
Relativistic charged particles l l l l l
Tagged particles (for particle tracking) l l l l l
Depositors and interpolators, area weighting and 1st order l l l l l
Depositors and interpolators, higher order l l
Partially transparent absorbers l
Particle combining and splitting l
Multipactor power-scanning species l
Linear delta-f particles l
Nonlinear delta-f particles l
Boltzmann electrons l
INTERACTION WITH MATERIALSAbsorbing slab boundaries l l l l l l
Emitting slab boundaries l l l l l l
Reflecting slab boundaries l l l
Absorbing embedded boundaries l l l
Reflecting embedded boundaries l l l
Electron induced secondary electron emission/multipacting l l l
Emitting embedded boundaries l l l
Ion induced secondary electron emission l
Sputtering l
Thermionic emission (Richardson-Dushman) l
Field emission (Forbes, Fowler-Nordheim, Jensen) l
Space-charge limited (Child-Langmuir) emission l
Laser-induced emission l
Charge generation (Diamond only) l
Charge transport (Diamond only) l
Electron transport in GaAs l
Emission-reflection at material interfaces l
SPECIES INTERACTIONSParticle-Particle Interactions Please see Plasma Reactions Table on
VSim Plasma Acceleration and VSim Plasma Discharges
description page of this brochure for a complete list.
l l
Particle-Fluid Interactions l l
Field Fluid Interactions l l
PArtIcLE rEActIONSPARTICLE -PARTICLE INTERACTIONS
Elastic scattering l
Impact ionization l l
Recombination l
Charge exchange l
Impact excitation l
Field ionization l l
PARTICLE-FLUID INTERACTIONS
Elastic scattering l
Impact ionization l l
Recombination l
Charge exchange l
Impact excitation l
FIELD-FLUID INTERACTIONS
Field ionization l
Reiser model l l
EEDL l l
User defined (functional form or text file input) l l
LXCat cross-section l l
PAckAgEFEAturESGENERALWorks in all dimensionalities l l l l l l
Distributed memory parallelism l l l l l l
Periodic Boundaries l l l l l l
Histories l l l l l l
Prescribed fields (functional, user defined, or imported) l l l l l l
Open source data format with visualization annotations l l l l l l
GPU acceleration l
GRIDCAD importation (STL, STEP, POLY, VTK formats) l l l l l
VMesh™ fast meshing l l l l
Embedded boundaries l l l
Cylindrical coordinates l l l
Spatially varying grid l l l
Moving Window l
POST-PROCESSINGFrequency extraction l
Particle binning l l l l l l
Spectograph analysis l l l l l
Customizable Python scripts l l l l l l
ELECTROMAGNETICSExplicit electromagnetics l l l l l l
Current sources l l l l l l
Charge densities l l l l l l
Conducting slab boundaries l l l l l l
Slab isotropic dielectrics l l l l l l
Matched absorbing layer boundaries l l l l l
Embedded boundary isotropic dielectrics l l l l l
Perfectly matched layer boundaries l l l
Port boundaries (ingoing and outgoing) l l l l l
ADVANCED ELECTROMAGNETICSSpatial filtering of fields (useful for numerical Cerenkov) l l l
Embedded boundary conductors l l l
S-parameter calculations l l
Linear plasma dielectric l l
Auxiliary differential equations l
Anisotropic dielectrics l
Full field/scattered field l
Boosted frame l
Envelope model l
Controlled dispersion l
PML boundaries with conrolled dispersion l
Far field calculations l
Circuit model l
Feedback control l l
GPU electromagnetics l
VSim for Plasma Acceleration offers you the algorithms necessary to handle accurate modeling of complex plasma acceleration simulations, along with efficient parallel capability for large-scale computations. Designed for plasma-based accelerator researchers in national laboratories or academia, VSimPA provides the necessary algorithms to handle accurate modeling of inherently complex plasma acceleration simulations with efficient parallel capability for very large-scale computations.
Feature-rich capabilities for modelling Plasma Acceleration
State-of-the-art kinetic modeling
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