Professional Software Archive

Lumerical DEVICE 7.11.1416,Lumerical 2017bKey DEVICE applications include: Semiconductor devicesOptoelectronicsPhotovoltaic devicesMetamaterialsThermal tuning/switchingPlasmonicsSolvers Available:DEVICE CT DEVICE HTIntegrated design environment, charge transport solver Integrated design environment, heat transfer solverDEVICE DGTD Integrated design environment, optical solver Design EnvironmentBuild 1D, 2D, or 3D modelsImport from STL, GDSII, STEPParameterizable simulation objectsGeometry-linked sources and monitorsDomain partitioned solidsDEVICE CAD EnvironmentAdaptive Finite-Element MeshRepresent arbitrary geometries efficientlyAutomatic refinement based on geometry, materials, doping, and optical or heat generationsAdaptive MeshOptical modeling (DEVICE DGTD)Discontinuous Galerkin Time DomainObject-conformal meshing free of staircasingHigher polynomial ordersGaussian vector beamsFar-field and grating projectionsBloch boundary conditionsRequires DEVICE DGTD licenseRead more on DEVICE DGTD here. DGTD Heat transfer modeling (DEVICE HT)Steady state and transientHeat transportElectrical conductive transportRequires DEVICE HT licenseDEVICE Heat TransferCharge Transport modeling (DEVICE CT)Drift-diffusion solverDC and transient...

Lumerical MODE Solutions 7.11.1416,Lumerical 2017bKey MODE Solutions applications include: Integrated OpticsTapersCouplers and ResonatorsBragg GratingsThermal tuning / switchingElectro-optic modulatorsSurface plasmon waveguidesGraphene waveguidesFibersTransmission Lines3D CAD EnvironmentBuild 1D, 2D, or 3D modelsDefine custom surfaces and volumesImport from STL, GDSII or imagesImport spacial refractive index dataParameterizable simulation objectsMODE CAD EnvironmentAdvanced Conformal MeshCompatible with dispersive and high-index contrast materialsSubmesh sensitivity to geometryHigh accuracy for coarse meshRead our Conformal Mesh Whitepaper (requires registration)Conformal MeshModal AnalysisSpatial field analysisModal frequency analysisOverlap analysisBend loss, confinement factor, modal area analysisModal AnalysisBidirectional Eigenmode Expansion (EME) PropagationIdeal for large propagation lengths in waveguide or fiber devicesAutomatically sweep device length and periodicityRead the EME solver physics overviewEME Propagation2.5D variational FDTD (varFDTD) PropagationRapid analysis of planar waveguide geometriesAchieve close to 3D FDTD accuracy with...

Lumerical FDTD Solutions 8.19.1416,Lumerical 2018Key FDTD Solutions applications include: CMOS Image SensorsSolar CellsOLEDsIntegrated OpticsSurface MetrologySurface PlasmonsMetamaterialsPhotonic CrystalsLiquid CrystalsGraphene3D CAD EnvironmentBuild 1D, 2D, or 3D modelsDefine custom surfaces and volumesImport from STL, GDSII or imagesImport spacial refractive index dataParameterizable simulation objectsFDTD CAD EnvironmentAdvanced Conformal MeshCompatible with dispersive and high-index contrast materialsSubmesh sensitivity to geometryHigh accuracy for coarse meshRead our Conformal Mesh Whitepaper (requires registration)Conformal MeshMulti-coefficient ModelsAccurately represent real materials over broad wavelength rangeAutomatically generate from sampled data or user defined functionsRead our Multi-coefficient Model Whitepaper (requires registration)Multi-coefficient ModelsNonlinearity and AnisotropySpatially varying anisotropyWide range of nonlinear, negative index, and gain modelsDefine new material models with flexible material pluginsFDTD NonlinearityBroadband Fixed-angle Source Technique (BFAST)Inject light at a fixed angle over a broad spectrum...

MSC.MARC.V2017.1_Advanced Nonlinear Simulation SolutionMarc is a powerful, general-purpose, nonlinear finite element analysis solution to accurately simulate the product behavior under static, dynamic and multi-physics loading scenarios. Marc\’s versatility in modeling nonlinear material behaviors and transient environmental conditions makes it ideal to solve your complex design problems.Product:MSC.MARC.V2017.1_Advanced Nonlinear Simulation Solution Lanaguage:english Platform:Win7/WIN8 Size:1DVD

Crosslight APSYS 2018 APSYS, Advanced Physical Models of Semiconductor Devices, is based on 2D/3D finite element analysis of electrical, optical and thermal properties of compound semiconductor devices, with silicon as a special case. Emphasis has been placed on band structure engineering and quantum mechanical effects. Inclusion of various optical modules also makes this simulation package attractive for applications involving photosensitive or light emitting devices. Applications Diodes, transistors and various other types of silicon devices LEDs and OLEDs Solar cells Photodetectors (PD) High electron mobility transistors (HEMT) Heterojunction bipolar transistors (HBT) Resonant tunneling diodes (RTD) Quantum well infrared photodetectors (QWIP) Small MOS devices with strong quantum mechanical effects (Quantum-MOS) Power devices Features Restart from previous saved status Industry leading numerical convergence...

Siemens.FEMAP.v11.4.2.Win64Femap Version 11.4.2 Find out what’s new in the latest version of Femap. Femap releases with a regular cadence and each new version contains valuable and exciting new capabilities that enhance usability and improve workflows. New functionality is added in each release typically in the areas of visualization, geometry manipulation, finite element meshing and model creation, solver support, postprocessing and results review, and customization. Keep up to date with the latest additions to the product, and see how they can improve your simulation processes. Femap with NX NastranInteractively supports a broad range of capabilities [Femap – NX Nastran Features Image 1] The range of capabilities in the base module includes linear and statics, normal modes, buckling, basic nonlinear and heat...

Bricsys.BricsCAD.Platinum.v18.1.06.1A powerful CAD platform, with features familiar to you from native .dwg applications. BricsCAD unifies advanced 2D design with the intelligence of 3D direct modeling. For Windows, Linux, and Mac. BricsCAD offers powerful tools for direct solid modeling using our geometric constraints solver. Direct modeling operations apply to all ACIS solid geometry, whether created in BricsCAD or imported. Furthermore, a key feature of the BricsCAD direct editing capabilities is the preservation of design intent, vastly simplifying the work on complex designs. Assembly modeling allows you to organize .dwg files in hierarchical structures of mechanical components to model complex products. Assemble your products with both top-down and bottom-up design and compose your assembly with ease with the powerful 3D constraints between...

ITI.TRANSCENDATA.CADFIX.V11.SP2 ADfix removes barriers that prevent the reuse of solid models by ? ? providing an extensive set of geometry manipulation tools for importing ? ? CAD/CAM/CAE data, repairing it, and exporting the data in the most ? ? suitable form for reuse in the downstream system. ? ? ? ? Through a user-friendly Wizard interface, the geometry repair and ? ? preparation process ensures that the model is correctly defined and ? ? suitably flavored for the downstream application by detecting and ? ? repairing a range of CAD geometry issues. CADfix also offers model ? ? de-featuring utilities which are very popular with CAE analysis users ? ? who require automated de-featuring operations (i.e. joining or ? ?...

Tekla.Structures.v2017i.SP1Model, load, analyze and design buildings in a fraction of the time. From scheme design all the way through to detailed design, one single model covers all your structural analysis and design requirements, encompassing both gravity and lateral systems. There is no need for multiple design models. The Tekla solution is fully automated and packed with many unique features for optimized concrete and steel building design, so you can compare alternative design schemes, manage changes easily and collaborate seamlessly with BIM platforms. Because all the structural analysis & design functions are combined into a single solution, there are no additional modules or software packages to purchase, maintain, learn or integrate with.Automated structural calculations Producing accurate, transparent and well-presented calculations is...

PetraSim integrates the TOUGH family of codes into a user interface that allows the analyst to focus on the model, while automatically handling the complex details of simulator input and results. The TOUGH2 versions of PetraSim include the corresponding simulation software at no extra cost. 3D Model Creation PetraSim supports completely interactive 3D model creation. The user can import existing 3D layer data and use it to define the model geometry. Users can assign material properties to the layers and define wells through the model. PetraSim LayersMesh Generation PetraSim supports multiple meshing options. The most basic is a rectangular mesh in which cells are assigned properties based on the region in which they are located. This mesh provides the most...