L-Edit MEMS Alternatives

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.

By performing structural analyses on fully featured CAD assemblies within minutes, SimSolid is the game-changing simulation technology for designers, engineers, and analysts. It eliminates geometry preparation and meshing: the two most time-consuming, expertise-extensive and error-prone tasks performed in a conventional structural simulation. Multiple design scenarios can be simulated quickly under real-life conditions. Early CAD models, in any common format, can be used. SimSolid tolerance of imprecise geometry means that, unlike CAD-embedded simulation tools, there is no need to simplify complex geometries before analyzing designs. SimSolid supports all typical connections (bolt/nut, bonded, welds, rivets, sliding) and analysis of linear static, modal, thermal properties, along with more complex coupled, nonlinear, transient dynamic effects.

Go beyond traditional RF simulation to design, analyze, and verify radio frequency integrated circuits (RFICs). Achieve confidence with steady-state and nonlinear solvers for design and verification. Wireless standard libraries accelerate the validation of complex RFICs. Model components on silicon chips accurately. Optimize designs with sweeps and load-pull analysis. Simulate RF designs in the Cadence Virtuoso and Synopsys Custom Compiler environments. Increase performance using Monte Carlo and yield analysis. Assess error vector magnitude (EVM) for the latest communication standards early in the design phase. Use the latest foundry technology immediately. Monitoring system IC specifications such as EVM via RF simulation early in the RFIC design phase is a must. Simulations include effects of layout parasitics, complex modulated signals, and digital control circuitry. With Keysight RFPro Circuit, you can simulate in both the frequency and time domain.

Go beyond traditional RF simulation to design, analyze, and verify radio frequency integrated circuits (RFICs). Achieve confidence with steady-state and nonlinear solvers for design and verification. Wireless standard libraries accelerate the validation of complex RFICs. Before taping out an RFIC, verification of IC specifications via RF simulation is a must. Simulations include effects of layout parasitics, complex modulated signals, and digital control circuitry. With PathWave RFIC Design, you can simulate in both the frequency and time domain and bring your designs to and from Cadence Virtuoso. Accurately model components on silicon chips. Optimize designs with sweeps and load-pull analysis. Integrate RF designs in the Cadence Virtuoso environment. Increase performance using Monte Carlo and yield analysis. Simplify debugging with safe operating area warnings. Utilize the latest foundry technology immediately.

Precision offers vendor-independent FPGA synthesis. It provides best-in-class performance and area, high-reliability design capabilities, and tight links to simulation and formal equivalency checking. Precision's products are tightly integrated with Siemens' FormalPro LEC for equivalency checking and HDL Designer for design capture and design verification using ModelSim/Questa. Precision RTL, Siemens's entry-level FPGA synthesis product, offers best-in-class quality results with a vendor-independent FPGA synthesis solution. Many space and mil-aero applications require specialized FPGAs with built-in protection from SEEs. NanoXplore introduces new FPGAs targeting this market. Precision Synthesis, in close partnership with NanoXplore, is the first to offer full synthesis support for the NG-Ultra device. Precision has seamless integration with the NXmap P&R tool to complete the design flow from RTL to gates to bitstream generation.

Sigrity X Advanced SI technology offers leading-edge signal integrity analysis for PCB and IC packaging designs, covering DC to over 56GHz with advanced features like automated die-to-die SI analysis, topology exploration, and simulation for high-speed interfaces. Supporting IBIS-AMI models and customizable compliance kits, it ensures your designs meet rigorous standards while leveraging frequency domain, time domain, and statistical analysis methods.

Foundry-certified, the AFS Platform delivers nm SPICE accuracy, 5x faster than traditional SPICE and >2x faster than parallel SPICE simulators. Offering the fastest nm circuit verification platform for analog, RF, mixed-signal, and custom digital circuits. Now includes new eXTreme technology. For large post-layout circuits, the new AFS eXTreme technology delivers over 100M-element capacity and is 3x faster than post-layout simulators. Supports all leading digital solvers. Best-in-class usability, allowing maximum reuse of verification infrastructure. Advanced verification and debug capabilities to improve verification coverage. Improved design quality, and time-to-market. SPICE accurate, high-sigma verification. 1000x faster than brute-force simulation. Easy to use, and deploy. AFS eXTreme technology is available at no additional cost.

The use of Ansys Electronics solution suite minimizes testing costs, ensures regulatory compliance, improves reliability, and drastically reduces your product development time. All this while helping you build the best-in-class and cutting-edge products. Leverage the simulation capability from Ansys to solve the most critical aspects of your designs. With our solutions, we help you solve the most critical aspects of your product designs through simulation. If you work with antenna, RF, microwave, PCB, package, IC design, or even an electromechanical device, we provide you with the industry gold standard simulators. These solutions help you solve any electromagnetic, temperature, SI, PI, parasitic, cabling, and vibration challenges in your designs. We build on this with complete product simulation, allowing you to achieve first-pass success designing an airplane, car, cellphone, laptop, wireless charger, or any other system.

Design your photonic integrated circuit in a layout-centric flow. The designer can implement their design using either a drag-and-drop or a script-driven methodology. Both of those are in the same full custom IC design layout editor that drives the physical verification and tape-out processes. L-Edit Photonics enables the fast creation of a photonic design using a drag-and-drop methodology in an IC layout editor, without having to write a single line of code. Once the design is completed, a netlist can be extracted for photonic simulation. PIC design in a complete IC layout editor, Create a layout without writing a line of code. Supports a layout-centric design flow where a schematic is not needed. Schematic flow optional with S-Edit. A simulation netlist can be created as input into a photonic simulator. Photonic simulation is supported through integration with our partners. Photonic PDKs are available from multiple foundries.

Ansys Exalto is a post-LVS RLCk extraction software solution that enables IC designers to accurately capture unknown crosstalk among different blocks in the design hierarchy by extracting lumped-element parasitics and generating an accurate model for electrical, magnetic and substrate coupling. Exalto interfaces with most LVS tools and can complement the RC extraction tool of your choice. Ansys Exalto post-LVS RLCk extraction lets IC designers accurately predict electromagnetic and substrate coupling effects for signoff on circuits that were previously "too big to analyze.” The extracted models are back-annotated to the schematic or netlist, and support all circuit simulators. The proliferation of RF and high-speed circuits in modern silicon systems has raised electromagnetic coupling to a first order effect that must be accurately modeled to reliably achieve silicon success.

Ansys Icepak is a CFD solver for electronics thermal management. It predicts airflow, temperature, and heat transfer in IC packages, PCBs, electronic assemblies/enclosures, and power electronics. Ansys Icepak provides powerful electronic cooling solutions that utilize the industry-leading Ansys Fluent computational fluid dynamics (CFD) solver for thermal and fluid flow analyses of integrated circuits (ICs), packages, printed circuit boards (PCBs), and electronic assemblies. The Ansys Icepak CFD solver uses the Ansys Electronics Desktop (AEDT) graphical user interface (GUI). Perform conduction, convection, and radiation conjugate heat transfer analyses, with many advanced capabilities to model laminar and turbulent flows, and species analysis including radiation and convection. Ansys’ complete PCB design solution enables you to simulate PCBs, ICs, and packages and accurately evaluate an entire system.

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.

To help you tackle increasingly challenging issues related to simultaneous switching noise, signal coupling, and target voltage levels, Cadence® Sigrity X PowerSI® technology provides fast, accurate, and detailed electrical analysis of full IC packages or PCBs. It is cloud ready and can be used pre-layout to develop power- and signal-integrity guidelines, as well as post-layout to verify performance and improve a design without needing a prototype. Using Sigrity X PowerSI electromagnetic (EM) field solver technology, you can readily perform a broad range of studies to identify trace and via coupling issues, power/ground fluctuations caused by simultaneously switching outputs, and design regions that are under or over voltage targets. PowerSI technology also lets you perform extraction of frequency-dependent network parameter models and lets you visualize complex spatial relationships.

Designing at advanced process nodes requires a new place-and-route paradigm to manage the increasing complexity. Aprisa is a detail-route-centric physical design platform for the modern SoC. Aprisa digital implementation is an RTL2GDSII solution that offers complete synthesis and place-and-route functionality for top-level hierarchical designs and block-level implementation. It's tape-out quality correlation with signoff tools, both for STA timing and DRC, reduces design closure and ensures optimal performance, power, and area (PPA). Aprisa delivers optimal PPA out-of-the-box. This helps physical designers reduce the effort at each step of the place-and-route flow and achieve faster time-to-market Unified architecture and common analysis engines ensure excellent timing and DRC correlation between implementation steps and with signoff tools, greatly reducing the number of flow iterations and ECOs.

Oasys-RTL addresses the need for higher capacity, faster runtimes, improved QoR, and physical awareness by optimizing at a higher level of abstraction and using integrated floorplanning and placement capabilities. Oasys-RTL provides better quality results by enabling physical accuracy, floorplanning, and fast optimization iterations to get to design closure on time. The power-aware synthesis capabilities include support for multi-threshold libraries, automatic clock gating, and UPF-based multi-VDD flow. During synthesis, Oasys-RTL inserts all the appropriate level shifters, isolation cells, and retention registers depending on the power intent as defined in the UPF. Oasys-RTL can create a floorplan directly from the design RTL using design dataflow and timing, power, area, and congestion constraints. It considers regions, fences, blockages, and other physical guidance using the advanced floorplan editing tools and automatically places macros, pins, and pads.

The Solido variation-aware design, IP validation, library characterization, and simulation solutions, powered by proprietary AI-enabled technologies, are used by 1000s of designers at the top semiconductor companies worldwide. Integrated suite of AI-accelerated SPICE, Fast SPICE, and mixed-signal simulators designed to help customers dramatically accelerate critical design and verification for next-generation analog, mixed-signal, and custom IC designs. Providing the industry's fastest, most comprehensive integrated IP validation solution, providing complete, seamless IP QA from design to tape-out, across all design views and IP revisions. Comprehensive AI-powered design environment for nominal and variation-aware verification of custom IC circuitry enabling full design coverage in orders-of-magnitude fewer simulations, with the accuracy of brute-force techniques. Providing fast, accurate library characterization tools powered by machine learning.

Ansys Maxwell is an EM field solver for electric machines, transformers, wireless charging, permanent magnet latches, actuators and other electr mechanical devices. It solves static, frequency-domain and time-varying magnetic and electric fields. Maxwell also offers specialized design interfaces for electric machines and power converters. With Maxwell, you can precisely characterize the nonlinear, transient motion of electromechanical components and their effects on the drive circuit and control system design. By leveraging Maxwell’s advanced electromagnetic field solvers and seamlessly linking them to the integrated circuit and systems simulation technology, you can understand the performance of electromechanical systems long before building a prototype in hardware. Maxwell offers a trusted simulation of low-frequency electromagnetic fields in industrial components.

To ensure you get high performance at a system and component level, while at the same time saving between 15% and 50% in decoupling capacitor (decap) costs, Cadence® Sigrity X OptimizePI™ technology does a complete AC frequency analysis of boards and IC packages. Supporting both pre- and post-layout studies, it quickly pinpoints the best decap selections and placement locations to meet your power-delivery network (PDN) needs at the lowest possible cost. Sigrity X OptimizePI technology is built on proven Cadence hybrid electromagnetic circuit analysis technology in combination with the unique Sigrity optimization engine to help you quickly pinpoint the best possible decap selections and placement locations.

Altium’s PDN Analyzer tool integrates directly with Altium Designer so you can easily troubleshoot and detect issues like insufficient or excessive copper, uncontrolled voltage drops, marginal voltage at critical power pins, copper islands or peninsulas and similar issues that may be present with the power system in your PCB design. PDN refers to the power system on printed circuit boards for active circuits. This system includes all interconnections from the voltage regulator module and the metallization of pads and die on integrated circuits that are used to supply and return power current. IC supply voltage limits must be met across the entire length of the power delivery network. Accurately validating your power budget means considering minimum and maximum device limits, worst-case voltage drops, and combined return-path currents. PDN Analyzer shows you exactly where these problems arise.

Our next-generation web platform empowers chip developers and verification engineers to design and debug 10x faster. Build and run thousands of tests in parallel at the push of a button with Verilator. Seamlessly share test results and waveforms with anyone in your organization, tag coworkers directly on signals, track test and regression failures. We use Verilator to compile Dockerized simulation binaries and distribute test runs across our compute cluster. Then we collect the results and log files and optionally rerun failing tests to generate waveforms. With Docker, we can ensure that test runs are consistent and reproducible. SiLogy makes chip developers more productive by enabling faster design and debug times. Before SiLogy, the state-of-the-art for debugging a failing test involved copying lines from log files, debugging from waveforms on a local machine, or rerunning a simulation that might have taken days to run.

PowerPro offers the most comprehensive set of features to RTL designers to “design-for-low-power”. It offers power estimation for both RTL and Gate-level designs, early power checks to quickly find power issues during RTL development, and clock and memory gating to optimize the design for power. PowerPro offers the most comprehensive set of features to RTL designers to “design-for-low-power”. It offers power analysis for both RTL and gate-level designs, early power checks to quickly find power issues during RTL development, and clock and memory gating to optimize the design for power. PowerPro delivers highly accurate estimations that are within 10% of signoff. This technology is built on advanced engines that enable a broad spectrum of analysis capabilities. PowerPro’s automatic power optimization delivers low-power RTL automatically with integrated logic equivalence checking. PowerPro’s automatic optimization is the only proven low-power RTL generation technology in the market today.

Deliver a faster time to market by reducing design complexity using high-quality DFT. Tessent silicon lifecycle management solutions include advanced debug, safety & security features, and in-life data analytics to meet the evolving challenges of today’s silicon lifecycle. Create an infrastructure that makes designs more testable. Silicon lifecycle management solutions achieve high-quality tests, identify defects and hidden yield limiters, and move beyond test into system debugging and validation. This ecosystem of tools effectively analyzes data to provide critical system insights that can then be used for in-life monitoring. Ensure the highest test quality, accelerate yield ramp, and improve safety, security, and reliability across the silicon lifecycle using best-in-class solutions for DFT, debug, and in-life monitoring plus powerful data analytics. Decrease time to yield, manage manufacturing excursions, and recover yield caused by systematic defects.

Revit Building Information Modelling software helps engineers, designers and contractors across the mechanical, electrical and plumbing (MEP) disciplines model to a high level of detail and co-ordinate with building project contributors. Streamline the engineering design process with Revit. Use a single model to enhance the communication of design intent, before construction begins. Conduct simulations and interference detection earlier in the design process. Use conceptual energy analysis data for engineering-driven calculations. Design, model and document building systems in the context of a full building information model, including architectural and structural components. Model for MEP fabrication with tools that automate the fabrication model layout. Prepare a model for detailed co-ordination of fabrication and installation. Revit helps team improve accuracy, and speed delivery.

Synopsys HSPICE circuit simulator is the industry's "gold standard" for accurate circuit simulation and offers foundry-certified MOS device models with state-of-the-art simulation and analysis algorithms. With over 25 years of successful design tape outs, HSPICE is the industry's most trusted and comprehensive circuit simulator. For on-chip simulation, analog designs, RF design, custom digital design, standard cell design and characterization, memory design and characterization, and device model development. For off-chip signal integrity simulation, silicon-to-package-to-board-to-backplane analysis and simulation. HSPICE is a key part of the Synopsys analog/mixed-signal (AMS) verification suite, a solution built to address the most critical issues in AMS verification. HSPICE is the industry’s “gold standard” for accurate circuit simulation and offers foundry-certified MOS device models with state-of-the-art simulation and analysis algorithms.

form•Z pro is a powerful 3D design application featuring a variety of modeling personalities and tools with an easy to use interface to express and communicate your imagination. It is based on advanced 3D solid and surface modeling methods that maintain accurate representations as you progress from design to visualization, layout, animation and fabrication. Object Symmetry creates a plane of symmtrey for an object. Subsequent operations to the object maintain symmetry by updaing the opposte sids of the model to match. The symmetry functionality has special consideration for NURBs curves, NURB surfaces and Sub-D objects. Reference Files are simply data from one project displayed inside another project. Reference files allow for complex static data to be mainteined in external files and supports coloboration where files can be shaered between team members as a design evolves. Python is a easy to use yet rich scripting language.

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.

Pointcarré is a disruptive and very strong software for creating and developing fabrics. It is a modular, easy and fast package for separating and varying designs for ink-jet and cylinder printing, creating yarn-dyed, jacquard, knit and 3D simulation fabrics. An extra gear for your fabrics, an opportunity for creatives who will finally be able to work in an environment with truly effective tools in the graphic and technical processing of fabrics. Commercials will be able to anticipate the market and amaze customers with true-to-life digital samples. You can draw the motifs directly in ratio, clean and reduce the colors of the images with a few clicks and create variations automatically.

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.

The TRIADEM StylePlugs are textile design plugins for Adobe Photoshop. They expand the powerful tools of Photoshop to textile functionalities to create fabric designs. They are the ideal tool for fashion and textile designers who create their designs with standard graphics software. There are plug-ins for print design, repeat design, coloring and fabric simulation. Fashion and Textile design PlugIns for Adobe Photoshop. The Weaver plugin helps you create high-quality dobby weaving designs such as checks, stripes and madras in many different variations. Access to the collection color list allows you to choose from the appropriate yarn colors. Repeater allows you to create repeats, all-overs using standard drops or defining them as you wish, scaling rotating and mirroring each individual pattern in the repeat. Textildesign Plugin to create, print and edit colorlists.

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.

Master the art of tiling with SEDDI Textura. Our easy-to-use suite of tiling tools empowers anyone to craft the perfect pattern repeat it, and see it come to life in real-time. No more toggling between software—save time and streamline your design process. SEDDI Textura’s neural network has been trained with high-quality mechanical and optical data from thousands of fabrics and tested with best-in-class methodology. With just a simple quality scan and a few fabric data points like composition and weight, SEDDI Textura’s AI quickly and accurately simulates the real-world behavior of textiles. Unleash your creativity with ease. SEDDI Textura’s material editor makes it simple to experiment with colorways, and fabric finish presets like satins and metallics. Then export digital fabrics in the format of your choice, whether ZIP, U3MA, or SBSAR, we’ve got you covered. Create, edit, manage, and approve digital textiles in one platform.

GoldSim is the premier Monte Carlo simulation software solution for dynamically modeling complex systems in engineering, science and business. GoldSim supports decision-making and risk analysis by simulating future performance while quantitatively representing the uncertainty and risks inherent in all complex systems. Organizations worldwide use GoldSim simulation software to evaluate and compare alternative designs, plans and policies in order to minimize risks and make better decisions in an uncertain world. Water resources, water supply and hydrological modeling projects typically involve simulating systems made up of many component parts that are interrelated, and in some cases, poorly characterized. In most situations, the hydrological system is driven by stochastic variables (i.e., precipitation, evaporation, demand) and involves uncertain processes, parameters, and events.

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.

Produce more accurate estimates for MEP building system projects throughout detailing, fabrication, and installation. Use Fabrication ESTmep™ software to gain insight into project costs and generate competitive bids.CADmep/ESTmep/CAMduct share common content enabling flexible workflows to produce detailed models for estimation. Import models for cost estimation. Create more competitive bids quicker with design line. Manipulate databases for quick cost iterations. Show clients multiple service pricing options. Visualize job cost and cost analysis by color. Autodesk Fabrication ESTmep is a cost estimation software tool that lets mechanical, electrical, and plumbing (MEP) contractors produce more accurate cost estimates for MEP building systems projects throughout the detailing, fabrication, and installation workflows. Select from thousands of manufacturer’s items and pattern templates, including 54 newly added imperial ranges.

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.

An analytics-driven, simulation-based digital twin is a connected, virtual replica of an in-service physical asset — in the form of an integrated multidomain system simulation —that mirrors the life and experience of the asset. Hybrid digital twins enable system design and optimization and predictive maintenance, and they optimize industrial asset management. By implementing Ansys Twin Builder, you can improve top-line revenue, manage bottom-line costs and both gain and retain a competitive advantage. Ansys Twin Builder enables you to quickly create a digital twin–a connected replica of an in-service asset. This allows for enhanced lifecycle management and true predictive maintenance, saving costs to help maintain a competitive advantage.

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.

Style3D Studio is a 3D fashion design software with a self-developed engine that supports CPU and GPU outputs in real-time. You can accurately visualize the fabric, fit, and silhouette of your designs as fast as you can imagine it. Our true-to-life 3D garments make it easy to fine-tune the fit of your designs — even for drape-sensitive fabrics, like lightweight wovens and jerseys. With 100% accurate digital samples, you can explore every idea and inspiration freely in the most sustainable way - at no cost. We provide software solutions and personalized onboarding models for enterprises. Also, we provide a tailored plan, offering multiple training options that best suit your design needs.

From digital twins for virtual commissioning to system-level models for complex engineering design projects, MapleSim is an advanced modeling tool that helps you reduce development time, lower costs, and diagnose real-world performance issues. Remove vibrations with better control code, not hardware upgrades. Diagnose root-cause performance issues with detailed simulation results. Validate new design performance before physical prototyping. MapleSim is an advanced system-level modeling and simulation tool that applies modern techniques to dramatically reduce model development time, provide greater insight into system behavior, and produce fast, high-fidelity simulations. Scale and connect as the needs of your simulations grow more complex. Take your designs further with our flexible modeling language. Combine components across different domains in a virtual prototype. Solve tough machine performance problems.

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.

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.

With ProSteel software you can efficiently create accurate 3D models for structural steel, metal work, and steel assemblies. You can then quickly generate design drawings, fabrication details, and schedules that automatically update whenever the 3D model changes. Additionally, detailed output to CNC machines automates the steel fabrication process. ProSteel fully supports your construction and planning tasks for structural steel and metal work in a 3D modeling environment. Working with AutoCAD or MicroStation, you get an intuitive and integrated multi-material modeler perfectly suited to layout complex structures, produce shop drawings, assemble all your connections, and manage your bills of materials. Quickly extract 2D drawings that automatically update when the 3D model changes. Easily exchange information with other disciplines thanks to interoperability with other Bentley and third-party applications.

Digital Fashion Pro Fashion Design Software is a super easy, complete fashion designing system, consisting of hundreds of customizable clothing templates, hundreds of real digital fabrics, materials & textures, button & zipper templates, apparel effect & stitch simulation templates, fashion graphics, model poses, fast track step by step video training & eGuide, plus includes a free graphics editing program. These features work in harmony, giving you the power and freedom to create! Take your product development to the next level. The DFP Style Blast Edition (25 items) also includes The Official Step by Step Guide to starting your own clothing line + list of over 250 clothing manufacturers/fashion suppliers that can make your clothing. Get Everything You Need to Start Your Clothing Line! Men and Women Vector Clothing Templates Featuring basic fronts and backs of: Pants, Shorts, Tanks, Tees, Polos, etc.

SIMULATE is a purpose-built Discrete Event Simulation (DES) solution for Original Equipment Manufacturers (OEMs) to model complex, 3D mining environments using fully customizable, brand-specific mining equipment. SIMULATE is a platform used by OEMs globally to provide accurate, quantifiable, and productive equipment and service solutions for mining clients. Users of SIMULATE can showcase and articulate equipment value that is quantified and proven through simulated demonstrations. OEMs can leverage customer data to build a ‘digital twin’ of any mining operation, open pit or underground, to deliver an accurate representation of any mine site's haulage operations, actively demonstrating the value their equipment and services can provide. SIMULATE uses the most widely used haulage calculation engine in the mining industry, ensuring that you and your customers are on the same page. Increase profitability through improved operations.

Integrated signal integrity, power integrity, 3D electromagnetic modeling & electrical rule checking for high-speed digital designs. HyperLynx combines ease of use with automated workflows to make high-speed design analysis accessible to mainstream system designers. This allows problems to be identified and resolved early in the design cycle. HyperLynx works with multiple PCB tools and is an ideal addition to any PCB design flow. The HyperLynx family provides a complete analysis flow that combines best-practice design rule checking with comprehensive signal and power integrity simulation. Integrated 3D EM solvers create highly accurate interconnect models. Evaluate design tradeoffs with pre-layout analysis and validate designs prior to fab with post-layout analysis. Supports SerDes channels, DDRx memory interfaces, and general-purpose signal integrity. Design and validate a board’s power-delivery network (PDN) to meet impedance goals in an easy-to-use environment.

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.

To address any specific domain, every part of Eclipse Papyrus may be customized: UML profile, model explorer, diagram notation and style, properties views, palette and creation menus, and much more. Eclipse Papyrus enables model-based techniques: model-based simulation, model-based formal testing, safety analysis, performance/trade-offs analysis, architecture exploration. Eclipse Papyrus is an industrial-grade open source Model-Based Engineering tool. Eclipse Papyrus has notably been used successfuly in industrial projects and is the base platform for several industrial modeling tools. Eclipse Papyrus provides also a complete support to SysML in order to enable model-based system engineering. All the modeling features of Eclipse Papyrus are designed to be customizable and to maximize reuse.

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.

An online weld and material tracking system designed for small to mid rage organizations requiring a system to cater for weld and material traceability requirements covering all the facets of your fabrication requirements. NOTE: this module can be configured to handle multiple sub-contracting fabricators, allowing for the complete tracking and amalgamation of each subcontractor's fabricated data. The system allows for full-depth analysis and reporting of all stages of your fabrication and assembly processes by recording, monitoring, tracking, and reporting on materials and welds performed and allocated for full quality audit and assurance purposes. We have designed this system to be used anywhere, any time on the shop floor, the office or remotely via web-enabled devices giving you the flexibility and versatility to monitor track and report in real-time 24 hours a day, 7 days per week.

SketchChair is a free, open-source software tool that allows anyone to easily design and build their own digitally fabricated furniture. Digital manufacturing processes open up a world of opportunity for producing unique individualized objects, but we think there is a lack of accessible digital tools that allow anybody to use these processes to design and make their own functional, personalized products. We hope that SketchChair will give anybody the opportunity to design a unique one-off original chair that is personal to them. Within the program, you can upload chairs you have created, adding them to a growing collection of open-source designs in the SketchChair design library. Any of these chairs are freely available to be downloaded and edited by anybody, allowing chair designs to evolve as users continually refine and modify them. SketchChair is an open-source project and has been made possible thanks to our supporters.