Alternatives to Ansys SPEOS
Compare Ansys SPEOS alternatives for your business or organization using the curated list below. SourceForge ranks the best alternatives to Ansys SPEOS in 2025. Compare features, ratings, user reviews, pricing, and more from Ansys SPEOS competitors and alternatives in order to make an informed decision for your business.
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Ansys Motor-CAD
Ansys
Ansys Motor-CAD is a dedicated electric machine design tool for fast multiphysics simulation across the full torque-speed operating range. Motor-CAD enables design engineers to evaluate motor topologies and concepts across the full operating range, to produce designs that are optimized for performance, efficiency and size. Motor-CAD software’s four integrated modules—EMag, Therm, Lab, Mech—enable multiphysics calculations to be performed quickly and iteratively, so users can get from concept to final design in less time. Fast calculations and streamlined data input processes leave time for Motor-CAD users to explore more motor topologies and fully assess the impact of advanced loss effects in the initial stages of an electromechanical design. The release includes powerful new features for design optimization, multi-physics analysis and system modelling for electric motors. Fast multiphysics simulation across a full torque-speed operating range. -
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Ansys Zemax OpticStudio
Ansys
Ansys Zemax OpticStudio is a comprehensive optical design software utilized globally by companies and universities to create and analyze optical systems, including imaging, illumination, and laser systems. It offers a user-friendly interface that integrates analysis, optimization, and tolerancing tools, facilitating the design of complex optical systems for a wide range of applications. The software supports both sequential and non-sequential ray tracing, enabling precise modeling of light propagation through various optical components. Advanced features include structural and thermal analysis, allowing users to assess the impact of environmental factors on optical performance. OpticStudio also provides extensive materials and optical element libraries, enhancing the accuracy of simulations. For students, Ansys offers a free version of OpticStudio, providing hands-on experience in designing and analyzing optical systems, thereby preparing them for future careers in optics. -
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LightTools
Synopsys
LightTools is a comprehensive 3D optical engineering and design software that supports virtual prototyping, simulation, optimization, and photorealistic renderings of illumination applications. It enables users to quickly create illumination designs that work right the first time, reducing prototype iterations and accelerating time to market. Key features include sophisticated solid modeling with full optical accuracy, state-of-the-art ray tracing speed with user-controlled accuracy and resolution, and the ability to create light sources from any geometric model for unlimited flexibility. LightTools offers application-specific utilities to help users quickly build complete models, extensive source and materials libraries, including LEDs and BSDF measurements, and robust data exchange support for mechanical CAD data. The software provides an interactive, dynamic link with SOLIDWORKS and includes multiple modules that can be licensed in various configurations to best match user needs. -
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Ansys Lumerical Multiphysics is a photonics component simulation software that enables the seamless design of photonic components by capturing multiphysics effects, including optical, thermal, electrical, and quantum well interactions, within a unified design environment. Tailored for design engineering workflows, this intuitive product design software offers a fast user experience, facilitating rapid design exploration and providing detailed insights into real-world product performance. It combines live physics and accurate high-fidelity simulation into an easy-to-use interface, supporting faster time-to-market. Key features include a finite element design environment, integrated multiphysics workflows, comprehensive material models, and capabilities for automation and optimization. The suite of solvers and seamless workflows in Lumerical Multiphysics accurately capture the interplay of physical effects in modeling both passive and active photonic components.
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COMSOL Multiphysics
Comsol Group
Simulate real-world designs, devices, and processes with multiphysics software from COMSOL. General-purpose simulation software based on advanced numerical methods. Fully coupled multiphysics and single-physics modeling capabilities. Complete modeling workflow, from geometry to postprocessing. User-friendly tools for building and deploying simulation apps. The COMSOL Multiphysics® software brings a user interface and experience that is always the same, regardless of engineering application and physics phenomena. Add-on modules provide specialized functionality for electromagnetics, structural mechanics, acoustics, fluid flow, heat transfer, and chemical engineering. Choose from a list of LiveLink™ products to interface directly with CAD and other third-party software. Deploy simulation applications with COMSOL Compiler™ and COMSOL Server™. Create physics-based models and simulation applications with this software platform. -
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BeamWise
BeamWise
BeamWise is a set of software tools and related services for the design of biophotonic and other complex optical systems. It is implemented using Design++, a knowledge-based engineering platform that simplifies the capture of in-house engineering expertise and streamlines the integration of legacy systems into design automation and product configuration solutions. BeamWise fills the gap between the optical and mechanical worlds by augmenting CAD tools like AutoCAD and SolidWorks with design rules and a component library, ensuring that beam alignment is maintained as design changes propagate through the system. This design automation system addresses significant challenges in optical system design, such as costly prototype iterations, time-consuming design documentation, and poor predictability of instrument performance, by automating the creation of 3D CAD models and design documentation, including drawings and parts lists. -
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CODE V Optical Design
Synopsys
Synopsys' CODE V is a powerful optical design software that enables engineers to model, analyze, optimize, and support the fabrication of imaging optical systems. It offers advanced capabilities for designing complex optical components, including freeform surfaces, and provides tools such as global synthesis for global optimization, glass expert for intelligent glass selection, and beam synthesis propagation for accurate diffraction analysis. CODE V's robust tolerancing features help reduce manufacturing costs by predicting and compensating for potential fabrication and assembly errors. The software also facilitates interoperability with other Synopsys tools, such as LightTools, for comprehensive optical and illumination system design. Comprehensive graphics capabilities (pictures, data plots, shaded displays), including 3D visualizations and diffraction-based image simulations. -
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FRED
Photon Engineering
FRED is a comprehensive tool that simulates the propagation of light through optomechanical systems using ray tracing. It supports both coherent and incoherent light propagation and allows users to assign realistic surface properties to every component in a system. Key features include fast and accurate simulation of various light sources, such as lasers, arc lamps, LEDs, ideal emitters, bulbs, and user-defined ray sets. The software offers advanced geometry, scatter, optimization, scripting, and graphic tools, along with fine-grain control of ray trace properties during simulations. It provides comprehensive post-trace analysis features and reports, real-time visualization and editing of complex optical and mechanical systems, and is highly extensible via user-defined scripts. FRED provides core capabilities for propagating light through optomechanical systems. -
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Ansys Meshing
Ansys
Mesh influences the accuracy, convergence and speed of a simulation. Ansys provides tools to produce the most appropriate mesh for accurate, efficient solutions. Ansys provides general purpose, high-performance, automated, intelligent meshing software that produces the most appropriate mesh for accurate, efficient multiphysics solutions — from easy, automatic meshing to highly crafted mesh. Smart defaults are built into the software to make meshing a painless and intuitive task, delivering the required resolution to capture solution gradients properly for dependable results. Ansys meshing solutions range from easy, automated meshing to highly crafted meshing. Methods available cover the meshing spectrum of high-order to linear elements and fast tetrahedral and polyhedral to high-quality hexahedral and mosaic. Ansys meshing capabilities help reduce the amount of time and effort spent to get to accurate results. -
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3DOptix
3DOptix
3DOptix is a cloud-based optical design and simulation platform that enables users to design, simulate, and refine optical systems efficiently. Leveraging cloud and GPU acceleration, it offers rapid analysis capabilities without the need for local installations. The platform provides access to an extensive library of off-the-shelf optical and optomechanical components, facilitating the creation of accurate digital twins of optical prototypes. Its intuitive 3D graphical interface features drag-and-drop functionality and real-time visualization, simplifying the design process. 3DOptix supports both sequential and non-sequential ray tracing, allowing for comprehensive modeling of complex optical systems. Additionally, it offers real-time collaboration tools, enabling multiple users to work on the same project simultaneously, with easy sharing via cloud links. The platform is accessible via any web browser, eliminating the need for specific hardware or software installations.Starting Price: $2,000 per year -
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Fidelity CFD
Cadence Design Systems
Accelerate engineering with the industry's only intuitive, comprehensive CFD platform for multidisciplinary design and optimization. Computational fluid dynamics (CFD) is an aspect of multiphysics system analysis that simulates the behavior of fluids and their thermodynamic properties using numerical models. Engineers use the Cadence Fidelity CFD platform design processes, such as propulsion, aerodynamics, hydrodynamics, and combustion, to improve and increase the efficiency of products by reducing time-consuming and expensive physical testing. Fidelity CFD platform provides an easy-to-use end-to-end CFD solution for multidisciplinary design and optimization, in applications such as aerospace, automotive, turbomachinery, and marine industries. The platform, with its streamlined workflows, massively parallel architecture, and state-of-the-art solver technology, provides unprecedented performance and accuracy and increases engineering efficiency for today’s design challenges. -
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LucidShape
Synopsys
Quickly and easily create reflector or lens geometry with LucidShape FunGeo. It leverages proprietary algorithms that automatically calculate and construct optical geometries based on user-defined illuminance and intensity patterns. This unique, functional approach gives you the freedom to focus on overall design objectives rather than the implementation details of complex optical components. Accelerate LucidShape illumination simulations with GPUTrace and experience a quantum leap in speed. LucidShape is the first optical simulation software to take advantage of graphics processing unit computing to deliver simulation speed increases by orders of magnitude compared to multithreading capabilities. Use LucidShape's visualization module to demonstrate luminance effects when light sources in a model are illuminated and depict all interactions between system geometry and light sources. -
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SOLIDWORKS Simulation
SolidWorks
Subject your designs to real world conditions to raise product quality while reducing prototyping and physical testing costs. SOLIDWORKS® Simulation is an easy-to-use portfolio of structural analysis tools that use Finite Element Analysis (FEA) to predict a product’s real-world physical behavior by virtually testing CAD models. The portfolio provides linear, non-linear static and dynamic analysis capabilities. SOLIDWORKS Simulation Professional enables you to optimize your design, determine product mechanical resistance, product durability, topology, natural frequencies, and test heat transfer and buckling instabilities. It can also perform sequential multi-physics simulations. SOLIDWORKS Simulation Premium lets you efficiently evaluate your designs for nonlinear and dynamic response, dynamic loading, and composite materials. SOLIDWORKS Simulation Premium includes three advanced studies: Non-Linear Static, Non-Linear Dynamic, and Linear Dynamics. -
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FLOW-3D
Flow Science
Optimize product designs and reduce time to market with FLOW-3D, a highly-accurate CFD software that specializes in solving transient, free-surface problems. FLOW-3D‘s complete multiphysics suite includes our state-of-the-art postprocessor, FlowSight. FLOW-3D provides a complete and versatile CFD simulation platform for engineers investigating the dynamic behavior of liquids and gas in a wide range of industrial applications and physical processes. FLOW-3D focuses on free surface and multi-phase applications, serving a broad range of industries including microfluidics, bio-medical devices, water civil infrastructure, aerospace, consumer products, additive manufacturing, inkjet printing, laser welding, automotive, offshore, energy and automotive. A uniquely powerful, multiphysics tool, FLOW-3D provides the functionality, ease-of-use and power that helps engineers advance their modeling objectives. -
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BeamXpertDESIGNER
BeamXpert
BeamXpertDESIGNER is a laser simulation software that enables real-time simulation of laser radiation propagation through optical systems. It offers intuitive operation with a CAD-like 3D representation, facilitating quick and precise results. The software is designed to be easy to learn, allowing users to achieve reliable outcomes after just one hour of training. Its interactive interface supports direct manipulation of optical components through drag-and-drop functionality, with real-time updates to the beam path. BeamXpertDESIGNER provides parameters such as beam diameter, waist position, and Rayleigh length, adhering to ISO 11145 and 11146 standards. The software includes a comprehensive component database featuring over 20,000 optical elements from various manufacturers, enabling users to integrate market-standard components into their designs. Additionally, it offers functionalities for analyzing and optimizing optical systems. -
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DC-AM DigitalClone for Additive Manufacturing
Sentient Science
Defining the state-of-the-art, DigitalClone for Additive Manufacturing (DC-AM) integrates a suite of metal additive manufacturing modeling and simulation capabilities for comprehensive design and analysis support with seamless interoperability. DC-AM implements a multiscale, multi-physics analysis approach linking the process - microstructure - fatigue relationship of additively manufactured parts to enable computational assessment of quality and performance. DC-AM promotes adoption of AM in safety-critical industries by providing unprecedented insight into the relationship between build conditions and the characteristics of the final part while enabling reduction in time and cost required to qualify parts and processes.Starting Price: Upon request -
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OpTaliX
Optenso
OpTaliX is a comprehensive program for computer-aided design of optical systems, thin film multilayer coatings, and illumination systems. It provides powerful features to conceptualize, design, optimize, analyze, tolerate, and document virtually any optical system. OpTaliX includes geometrical and diffraction analysis, optimization, thin film multilayer analysis and refinement, non-sequential ray tracing, physical optics propagation, polarization analysis, ghost imaging, tolerance analysis, extensive manufacturing support, user-defined graphics, illumination, macros, and many more. It is successfully used for the design of photographic and video lenses, industrial optics (beam expanders, laser scanners, reproduction, machine vision), space optics, zoom optics, medical optics, illumination devices, fiber optical telecom systems, infrared optics, X-ray optics, telescopes, eyepieces, and many more.Starting Price: €1,600 one-time payment -
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SwiftComp
AnalySwift
SwiftComp is a revolutionary multiscale, multiphysics composite simulation code that quickly and easily delivers the accuracy of 3D FEA at the efficiency of simple engineering models. In doing so, SwiftComp reduces barriers for engineers by enabling them to model composites as easily as metals using conventional structural elements in their FEA codes (without losing accuracy while capturing all the microstructural details). SwiftComp provides unified modeling for 1D (beams), 2D (plates/shells), or 3D structures, calculating all the effective properties. Use SwiftComp either independently for virtual testing of composites or as a plug-in to power your conventional structural tools with high-fidelity composites modeling. SwiftComp can compute the best structural model for use in macroscopic structural analysis, as well as perform dehomogenization to compute the pointwise stresses in the microstructure. SwiftComp directly interfaces with ABAQUS, ANSYS. -
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TRANSWELD
TRANSVALOR
In markets where the safety of welded assemblies is essential, analysis with TRANSWELD® offers a global and innovative solution to anticipate welding defects. Our simulation software integrates multi-physical models to simulate the real behavior of the metal in the liquid/mushy state to perform a complete analysis of the material evolution. TRANSWELD® also makes it possible to study the microstructure of the solid-state assembly. Then, you ensure the conformity of your welded part without going through the prototyping stage. Our software is 100% predictive. It allows you to observe your welding processes numerically by applying real conditions. For example, you can visualize the heat source movement during the simulation of laser welding or arc welding. -
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VSim
Tech-X
VSim is the Multiphysics Simulation Software used by design engineers and research scientists who require precise solutions for challenging problems. VSim’s unique combination of Finite-Difference Time-Domain (FDTD), Particle-in-Cell (PIC), and Charged Fluid (Finite Volume) methods deliver accurate results for a variety of situations, including plasma modeling. As a parallel software application, VSim can efficiently handle problems at scale, and simulations run quickly using algorithms designed for high-performance computing systems. Trusted by researchers in 30 countries, and used by engineers in industries from aerospace to semiconductor manufacturing, With documented accuracy, VSim provides results that users can trust. Created by a team of computational scientists, Tech-X’s code has been cited thousands of times in the scientific literature, and VSim can be found at many of the world’s top research institutions. -
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RayViz
Lambda Research Corporation
RayViz is a SOLIDWORKS add-in developed by Lambda Research Corporation that enables users to apply and save optical properties directly within the SOLIDWORKS CAD environment. This integration allows for the assignment of optical characteristics from the TracePro property database, which are then stored as part of the SOLIDWORKS model. Users can define light sources and perform ray tracing within SOLIDWORKS to visualize light rays and paths, facilitating tasks such as beam path verification, detection of vignetting by mechanical structures, and identification of light leakage in light guides. RayViz includes catalogs of LED sources, as well as sources with Gaussian and Lambertian beam profiles. A significant advantage of RayViz is its ability to save SOLIDWORKS models in TracePro file format, enabling comprehensive optical analysis in TracePro. If modifications are made to the SOLIDWORKS model, the "update from RayViz" option in TracePro allows for synchronization of the changes. -
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Ansys Lumerical FDTD
Ansys
Ansys Lumerical FDTD is the gold-standard for modeling nanophotonic devices, processes, and materials. The integrated design environment provides scripting capability, advanced post-processing, and optimization routines. This finely tuned implementation of the FDTD method delivers best-in-class solver performance over a broad spectrum of applications. The integrated design environment provides scripting capability, advanced post-processing and optimization routines, allowing you to focus on your design and leave the rest to us. A range of benefits allow for flexible and customizable models and simulations. Ansys Lumerical FDTD models nanophotonic devices, processes and materials so you can focus on creation. Lumerical FDTD is the gold-standard for modeling nanophotonic devices, processes and materials. This finely tuned implementation of the FDTD method delivers reliable, powerful and scalable solver performance over a broad spectrum of applications. -
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VirtualLab Fusion
LightTrans
VirtualLab Fusion is an advanced optical design software that facilitates fast physical optics modeling by connecting various field solvers through a unique operator and channel concept. This integration enables efficient simulations that balance accuracy and speed. The software offers a range of packages tailored to specific optical design needs, providing tools and functionalities to support diverse applications. With an intuitive user interface, VirtualLab Fusion simplifies the design process, allowing users to focus on innovation and optimization. The platform also provides access to tips, tricks, training, and webinars to enhance user proficiency. -
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ELEOptics
ELEOptics
ELEOptics, founded in 2019, is a company dedicated to advancing optical engineering through innovative software solutions designed to streamline design and collaboration processes. Their product suite includes Ember, a desktop application for dynamic first-order layout and third-order design analysis; Spark, a cloud-based platform that enhances teamwork with version control and project requirements tracking; ARC, an application integrated with Onshape to unify optical and mechanical design teams for seamless opto-mechanical system development; and Aurora, a cutting-edge optical physics library enabling hyperscale simulations with a user-friendly API for rapid iteration. Committed to fostering a strong optical community, ELEOptics also provides a platform for professionals to collaborate and exchange ideas, driving innovation in the field. -
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TracePro
Lambda Research Corporation
Combines Monte Carlo ray tracing, analysis, CAD import/export, and optimization methods with a complete and robust macro language to solve a wide variety of problems in illumination design and optical analysis. Using TracePro’s user-friendly, 3D CAD interface you can create TracePro models by importing lens design or CAD files, or by directly creating solid geometry. TracePro uses a true solid modeling engine to ensure consistent and robust models. TracePro’s ray tracing engine is fast and accurate. Exact ray tracing to all surfaces even imported splines ‒ no missed intersections or “leaky” rays. Analysis Mode ray tracing, unique to TracePro, is a very powerful capability that creates an interactive environment. With Analysis Mode you can analyze every surface and object both visually and quantitatively. -
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Ansys Optics
Ansys
Modeling light propagation and its impact is crucial for measuring product performance and human comfort, perception and safety. Ansys Optics uniquely simulates a system’s optical performance and evaluates the final illumination effect, predicts and validates the impact of lighting and material variations on appearance and perceived quality all in real conditions. Visualize your product before it exists to deliver the ultimate virtual customer experience. Let Ansys Optics & optical simulation software lead you to the best solution, no matter the style of your project. The software easily solves complex optical problems and refines visual appearance for perceived quality. Significantly elevate final product quality with true-to-life visual experiences and combine design and engineering processes into a single, connected workflow. Prepare and appraise virtual prototypes of a cockpit HMI in a real-time, immersive environment. -
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OnScale Solve
OnScale
OnScale is the first Cloud Engineering Simulation platform. It combines powerful multiphysics solver technology with the limitless compute power of cloud supercomputers. With OnScale, engineers can run massive numbers of full 3D multiphysics simulations in parallel to create true Digital Prototypes digital representations of physical high-tech devices that capture the complete behavior of a device over its operating envelope. With OnScale Solve we want to provide you with an awesome Cloud Engineering Simulation experience that’s easy, powerful, and gets the job done. OnScale Solve is built to run on public and private cloud supercomputers and includes a functional web-based UI, an API to efficiently integrate into any design workflow, scripting languages to fully customize engineering simulations, and plugins to enhance its modeling capabilities. OnScale Solve gives engineers the simulation capability necessary to synthetically generate data to train sophisticated AI/ML algorithms.Starting Price: $4 -
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NVIDIA Modulus
NVIDIA
NVIDIA Modulus is a neural network framework that blends the power of physics in the form of governing partial differential equations (PDEs) with data to build high-fidelity, parameterized surrogate models with near-real-time latency. Whether you’re looking to get started with AI-driven physics problems or designing digital twin models for complex non-linear, multi-physics systems, NVIDIA Modulus can support your work. Offers building blocks for developing physics machine learning surrogate models that combine both physics and data. The framework is generalizable to different domains and use cases—from engineering simulations to life sciences and from forward simulations to inverse/data assimilation problems. Provides parameterized system representation that solves for multiple scenarios in near real time, letting you train once offline to infer in real time repeatedly. -
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Energy2D
The Concord Consortium
Based on computational physics, Energy2D is an interactive multiphysics simulation program that models all three modes of heat transfer, conduction, convection, and radiation, and their coupling with particle dynamics. Energy2D runs quickly on most computers and eliminates the switches among preprocessors, solvers, and postprocessors typically needed to perform computational fluid dynamics simulations. It allows you to design "computational experiments" to test a scientific hypothesis or solve an engineering problem without resorting to complex mathematics. Work is also underway to incorporate other types of energy transformations and support multiple types of fluids. The conduction part of Energy2D is highly accurate, but the convection and radiation parts are not 100% accurate. Hence, in cases that involve convection and radiation, Energy2D results should be considered qualitative. More than 40 scientific papers have used Energy2D as a research tool.Starting Price: Free -
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OSLO
Lambda Research Corporation
OSLO (Optics Software for Layout and Optimization) is a comprehensive optical design program developed by Lambda Research Corporation. It integrates advanced ray tracing, analysis, and optimization methods with a high-speed internal compiled language, enabling users to address a wide array of challenges in optical design. OSLO's open architecture provides designers with significant flexibility to define and constrain systems according to their specific requirements. The software is capable of modeling various optical components, including refractive, reflective, diffractive, gradient index, aspheric, and freeform optics. Its robust ray tracing algorithms and analytical tools offer a solid foundation for optimizing and evaluating lenses, telescopes, and other optical systems. OSLO has been employed in designing numerous optical systems, such as space telescopes, camera lenses, zoom lenses, scanning systems, anamorphic systems, cinema systems, microscopes, ocular systems, etc. -
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OptSim
Synopsys
Synopsys OptSim is an award-winning photonic integrated circuit (PIC) and fiber-optic system simulator that enables engineers to design and optimize photonic circuits and systems. It offers state-of-the-art time- and frequency-domain split-step algorithms, providing a native photonic-domain environment for accurate simulations. OptSim can function as a standalone solution with its own graphical user interface or integrate into the OptoCompiler Photonic IC design platform. When integrated with OptoCompiler, OptSim supports electro-optic co-simulation with Synopsys PrimeSim HSPICE and PrimeSim SPICE electrical circuit simulators, and seamlessly integrates with the PrimeWave Design Environment for advanced simulation, analyses, and visualization, including parametric scans, Monte Carlo, and corner analyses. The software includes extensive libraries of photonic and electronic components and analysis tools, and supports numerous foundry process design kits (PDKs). -
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Ansys RedHawk-SC
Ansys
Ansys RedHawk-SC is the industry’s trusted gold standard voltage drop and electromigration multiphysics sign-off solution for digital designs. Its powerful analytics quickly identify any weaknesses and allow what-if explorations to optimize power and performance. Redhawk-SC’s cloud-based architecture gives it the speed and capacity to handle full-chip analysis. Signoff accuracy is certified by all major foundries for all finFET nodes, down to 3nm. Ansys RedHawk-SC enables robust, low-power digital designs without performance loss thanks to advanced power analytics that give designers comprehensive techniques to detect and correct dynamic voltage drop. Ansys RedHawk-SC’s trusted multiphysics signoff analysis is a powerful way to reduce project and technology risk. RedHawk’s algorithms are certified accurate by all major foundries for all finFET processes and are proven in thousands of tapeouts. -
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Ansys Totem
Ansys
Ansys Totem-SC is the proven, trusted industry leader for power noise and reliability signoff for analog and mixed-signal designs built on cloud-native elastic compute infrastructure. Ansys Totem-SC is the industry’s trusted gold standard voltage drop and electromigration multiphysics sign-off solution for transistor-level and mixed-signal designs. With a track record of thousands of tapeouts, Totem-SC’s cloud-based architecture gives it the speed and capacity to handle full-chip analysis. Signoff accuracy is certified by all major foundries for all finFET nodes down to 3nm. Ansys Totem-SC is a transistor-level power noise and reliability analysis platform for analog mixed-signal IP and fully custom designs. It creates IP models for SOC-level power integrity signoff with RedHawk-SC and generates compact chip models of power delivery networks for the chip and system-level. Industry-proven and foundry-certified analog and mixed-signal EM/IR solution. -
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FEATool Multiphysics
Precise Simulation
FEATool Multiphysics - "Physics Simulation Made Easy" - a fully integrated physics, FEA, and CFD simulation toolbox. FEATool Multiphysics is a fully integrated simulation platform with a unified interface for several Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) multi-physics solvers, such as OpenFOAM, SU2 Code, and FEniCS. This uniquely allows for modeling coupled physics phenomena such as found in fluid flow, heat transfer, structural, electromagnetics, acoustics, and chemical engineering applications, within a single user-friendly interface. With these capabilities, FEATool Multiphysics has become trusted tool by engineers and researchers worldwide to accelerate innovation and quickly achieve results in the energy, automotive, semi-conductor, and process industries. -
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CAESIM
Adaptive Research
Adaptive Research is pleased to announce the immediate release of the CAESIM 2024 simulation platform, providing advanced computational fluid dynamics modeling with multi-physics capabilities. The new software release provides new tools and capabilities that optimize the modeling process and provide the CFD engineer with fast simulation solutions.Starting Price: $1295/annual standard -
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OptoCompiler
Synopsys
Synopsys OptoCompiler is the industry's first unified electronic and photonic design platform, combining mature and dedicated photonic technology with Synopsys' industry-proven electronic design tools to enable engineers to produce and verify complex photonic integrated circuit designs quickly and accurately. By providing schematic-driven layout and advanced photonic layout synthesis in a single platform, OptoCompiler bridges the gap between photonic experts and integrated circuit designers to make photonic design accessible, fast, and flexible. OptoCompiler supports electronic-photonic co-design to ensure scalable design processes and offers comprehensive features for hierarchical design, enabling multiple designers to work closely together to shorten product development cycle times. The platform includes dedicated native photonic simulators, in conjunction with industry-standard electrical simulators, for accurate simulation results that account for statistical variations. -
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LiveLink for MATLAB
Comsol Group
Seamlessly integrate COMSOL Multiphysics® with MATLAB® to extend your modeling with scripting programming in the MATLAB environment. LiveLink™ for MATLAB® allows you to utilize the full power of MATLAB and its toolboxes in preprocessing, model manipulation, and postprocessing. Enhance your in-house MATLAB code with powerful multiphysics simulations. Base your geometry modeling on probabilistic or image data. Use multiphysics models together with Monte Carlo simulations and genetic algorithms. Export COMSOL models on state-space matrix format for incorporating into control systems. Interface in the COMSOL Desktop® environment enables the use of MATLAB® functions while modeling. Manipulate your models from the command line or script to parameterize the geometry, physics, or the solution scheme. -
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samadii/em
Metariver Technology Co.,Ltd
samadii/em (electromagnetic simulation software) analyzes the electromagnetic field in 3d space using the Maxwell equation and using the FEM method. samadii/em (Electromagnetics Simulation) provides a multi-physics approach and high-performance electromagnetics simulation, with Samadii you can quickly address problems from semiconductors and displays to wireless communications, etc. With samadii/em you can analyze problems in electrostatic fields, transient electromagnetics, AC electromagnetic fields, magnetostatics as well as induction electronics, including the low-frequency and high-frequency ranges. -
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Simcenter STAR-CCM+
Siemens Digital Industries
Simcenter STAR-CCM+ is a multiphysics computational fluid dynamics (CFD) software for the simulation of products operating under real-world conditions. Simcenter STAR-CCM+ uniquely brings automated design exploration and optimization to the CFD simulation toolkit of every engineer. The single integrated environment includes everything from CAD, automated meshing, multiphysics CFD, sophisticated postprocessing, and design exploration. This allows engineers to efficiently explore the entire design space to make better design decisions faster. The additional insight gained by using Simcenter STAR-CCM+ to guide your design process ultimately leads to more innovative products that exceed customer expectations. Significantly improving a battery design across its whole operating range is a challenging task, and involves the simultaneous optimization of numerous parameters. Simcenter provides a complete simulation environment for the analysis and design of the electrochemical system. -
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EMWorks
EMWorks
EMWorks provides best-in-class electromagnetic simulation software for electrical and electronics design with multiphysics capabilities. The company’s products are fully and seamlessly embedded in SOLIDWORKS and Autodesk Inventor®. Applications include electromechanical and power electronics, antennas, RF and microwave components, and power and signal integrity of high-speed interconnects. EMS is an electromagnetic field simulation software for designing and optimizing electromagnetic and electromechanical devices such as transformers, electric motors, actuators, and sensors inside SOLIDWORKS® and Autodesk® Inventor®. EMWorks2D is a 2D electromagnetic simulation software for 2D planar and axis-symmetric geometries and it is completely embedded inside SOLIDWORKS. This product enables users to do quick simulations before migrating to 3D and helps in rapid product development. -
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Sigrity X Platform
Cadence Design Systems
Step into the future with Sigrity X Platform – where innovation meets optimization. Unlock the key to flawless signal and power integrity in your PCB and IC package designs, and leap far beyond the current limits of signal integrity (SI)/power integrity (PI) technology. Imagine effortlessly navigating the complexities of electronic design, and not just meeting, but shattering your time-to-market targets with precision and ease. With Sigrity X, you're not just working with another tool; you're unlocking seamless in-design analysis synergy within the Allegro X PCB and IC Package platforms. Dive into a comprehensive suite of SI/PI analysis, in-design interconnect modeling, and PDN analysis tools designed to supercharge your performance, ensuring your projects not only meet but exceed deadlines and budgets. Harness the power of the Sigrity X Platform for flawless performance and reliability success in your next design. -
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Polaris-M
Airy Optics
Polaris-M is an optical design and polarization analysis software developed by Airy Optics, Inc., integrating ray tracing-based optical design methods with polarization calculus, 3D simulation, anisotropic materials, diffractive optic simulation, stress birefringence, and diffraction theory. Developed over a decade at the University of Arizona's Polarization Laboratory and licensed to Airy Optics in 2016, it includes over 500 functions for ray tracing, aberration calculation, polarization elements, stress birefringence, diffractive optical elements, polarization ray tracing calculus, and liquid crystal cells and optical elements. Polaris-M requires Mathematica, providing a powerful macro language for optical design and a deep set of algorithms for graphics, computer algebra, interpolation, neural networks, and numerical analysis. The software features comprehensive documentation with active help pages accessible via the F1 key, offering explanations, inputs, outputs, and live examples. -
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Ansys VRXPERIENCE Perceived Quality offers a physics-based, real-time solution for design evaluation involving lighting, colors and materials variations. Test and validate your product design in context. VRXPERIENCE Perceived Quality can instantly compare multiple design intents for materials and lighting. The process allows you to validate choices against design specifications and select lighting and material combinations in lifelike conditions. Create a virtual prototype from a 3D format and easily prepare a virtual model, helping you make choices early in the design process, in real-time optical simulation. With the live preview of Ansys VRXPERIENCE Perceived Quality immersive virtual reality visualizations, bring in physics-based lighting conditions to explore how your lighting and material choices will look in reality.
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Samadii Multiphysics
Metariver Technology Co.,Ltd
Metariver Technology Co., Ltd. is developing innovative and creative computer-aided engineering (CAE) analysis S/W based on the latest HPC technology and S/W technology including CUDA technology. We will change the paradigm of CAE technology by applying particle-based CAE technology and high-speed computation technology using GPUs to CAE analysis software. Here is an introduction to our products. 1. Samadii-DEM (the discrete element method): works with the discrete element method and solid particles. 2. Samadii-SCIV (Statistical Contact In Vacuum): working with high vacuum system gas-flow simulation. Using Monte Carlo simulation. 3. Samadii-EM (Electromagnetics): For full-field interpretation 4. Samadii-Plasma: Plasma simulation for Analysis of ion and electron behavior in an electromagnetic field. 5. Vampire (Virtual Additive Manufacturing System): Specializes in transient heat transfer analysis. additive manufacturing and 3D printing simulation software -
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Ansys Fluent
Ansys
Ansys Fluent is the industry-leading fluid simulation software known for its advanced physics modeling capabilities and industry leading accuracy. Ansys Fluent gives you more time to innovate and optimize product performance. Trust your simulation results with a software that has been extensively validated across a wide range of applications. With Ansys Fluent, you can create advanced physics models and analyze a variety of fluids phenomena—all in a customizable and intuitive space. Accelerate your design cycle with this powerful fluid simulation software. Ansys Fluent contains the best-in class physics models and can accurately and efficiently solve large , complex models. Ansys Fluent unlocks new potentials for CFD analysis. A fluid simulation software with fast pre-processing and faster solve times to help you be the fastest to break into the market. Fluent’s industry leading features enable limitless innovation, while never making a compromise on accuracy. -
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ImSym
Synopsys
Visualize images with precise, quantitative data. Streamline your development process. Deliver your next great imaging product to market faster. Provides an end-to-end model of an imaging system, including lenses, sensors, and image and signal processors (ISPs) before manufacturing. Helps design teams collaborate more efficiently. Ensures confidence that products will work right when built. Automate ImSym processes with a Python interface. Customize ISP capabilities using Python scripted routines. Provides an intuitive, integrated, collaborative workflow for an exceptional user experience. Delivers accurate results powered by industry-proven CODE V and LightTools. ImSym integrates multiple features to simulate an imaging system object using an input graphics file. ImSym’s accuracy is powered by CODE V and LightTools, the most trusted imaging and illumination optics design solutions in the industry. -
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Ansys Discovery
Ansys
Ansys Discovery features the first simulation-driven design tool combining instant physics simulation, high-fidelity simulation and interactive geometry modeling in a single easy-to-use experience. By combining interactive modeling and multiple simulation capabilities in a first-of-its-kind product, Discovery allows you to answer critical design questions earlier in the design process. This upfront approach to simulation saves time and effort on prototyping as you explore multiple design concepts in real time with no need to wait for simulation results. Ansys Discovery answers critical design questions early in your process with speed and accuracy. Boost productivity and performance by eliminating long waits for simulation results. Discovery lets engineers focus on innovation and product performance. By answering critical design questions early in the process, thus decreasing engineer labor and physical prototyping costs, Ansys Discovery allows for a ROI boost across your organization. -
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Ansys Autodyn
Ansys
Simulate the response of materials to events ranging from short duration severe mechanical loadings, high pressures and even explosions. Ansys Autodyn provides advanced solution methods without compromising ease of use. Ansys Autodyn makes it easy to quickly understand and simulate large material deformation or failure. Autodyn has a range of models to represent complex physical phenomena such as the interaction of liquids, solids and gases; the phase transitions of materials; and the propagation of shock waves. By Integrating within Ansys Workbench and its own native-user interface, Ansys Autodyn has long led the industry in ease of use, enabling you to produce accurate results with the least amount of time and effort. The smooth particle hydrodynamics (SPH) solver completes the picture to provide everything needed for explicit analysis. Ansys Autodyn lets you select from different solver technologies so the most effective solver can be used for a given part of the model. -
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Ansys HPC
Ansys
With the Ansys HPC software suite, you can use today’s multicore computers to perform more simulations in less time. These simulations can be bigger, more complex and more accurate than ever using high-performance computing (HPC). The various Ansys HPC licensing options let you scale to whatever computational level of simulation you require, from single-user or small user group options for entry-level parallel processing up to virtually unlimited parallel capacity. For large user groups, Ansys facilitates highly scalable, multiple parallel processing simulations for the most challenging projects when needed. Apart from parallel computing, Ansys also offers solutions for parametric computing, which enables you to more fully explore the design parameters (size, weight, shape, materials, mechanical properties, etc.) of your product early in the development process. -
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Ansys Vista TF
Ansys
2D throughflow simulation is a critical step in the rotating machinery design process. Vista TF provides you with quick answers and can grant a better insight to your design or expose unexpected issues. Perform initial design iterations in 2D before moving to detailed 3D analysis to reduce development time and engineering resources. Achieve stronger insight to your rotating machinery design with Ansys Vista TF. This software provides detailed 2D flow simulation and enables you to refine product performance in early design stages. A high-performance turbocharger is a critical component for engine performance. The engineers at PCA were looking for a way to optimize turbocharger performance while simultaneously finding the most efficient approach to their problems. Ansys Vista TF quickly proved to be the best answer, as it offered fast, high-quality answers contained in a streamlined workspace.