Alternatives to Synthelyzer™ ECAD Plugin

OrCAD® X is a unified PCB design software platform. It offers significant improvements to ease of use, performance and automation. Our product suite includes applications for schematic, PCB layout, simulation and data management. OrCAD X Capture, a schematic design solution for electrical circuit creation and documentation, is one of OrCAD's most popular products. PSpice®, our virtual SPICE simulation engine integrated into Capture, allows you to prototype and verify your designs using industry-leading native analog, mixed signal, and advanced analysis engines. OrCAD X Presto and OrCAD X PCB editor are two PCB layout tools that allow designers to easily collaborate between ECAD/MCAD teams and build better PCBs faster. OrCAD X Presto is our new, simplified interface for novice designers, electrical engineers and PCB designers focused on quick turn PCB designs.

𝗕𝗤𝗥'𝘀 𝘀𝗼𝗳𝘁𝘄𝗮𝗿𝗲 𝘀𝘂𝗶𝘁𝗲 𝗽𝗿𝗼𝘃𝗶𝗱𝗲𝘀 𝗽𝗮𝘁𝗲𝗻𝘁𝗲𝗱 𝗮𝘂𝘁𝗼𝗺𝗮𝘁𝗲𝗱 𝗲𝗹𝗲𝗰𝘁𝗿𝗼𝗻𝗶𝗰 𝗱𝗲𝘀𝗶𝗴𝗻 𝗮𝗻𝗮𝗹𝘆𝘀𝗶𝘀 𝗮𝗻𝗱 𝗼𝗽𝘁𝗶𝗺𝗶𝘇𝗮𝘁𝗶𝗼𝗻 𝘁𝗼𝗼𝗹𝘀 𝘁𝗼 𝘀𝘁𝗿𝗲𝗮𝗺𝗹𝗶𝗻𝗲 𝘆𝗼𝘂𝗿 𝗱𝗲𝘀𝗶𝗴𝗻𝘀: 𝗦𝘆𝗻𝘁𝗵𝗲𝗹𝘆𝘇𝗲𝗿𝗧𝗠 𝗘𝗖𝗔𝗗 𝗣𝗹𝘂𝗴𝗶𝗻 turbocharges PCB design with real-time stress analysis, derating, and thermal simulation. Its seamless integration into ECAD systems ensures optimal component selection and prevents costly errors. 𝗳𝗶𝗫𝘁𝗿𝗲𝘀𝘀® is your reliability engineering powerhouse. With advanced FMECA, stress, and failure predictions, you can extend product lifespan and minimize downtime. Combined with Synthelyzer™, it delivers unparalleled design optimization. 𝗖𝗶𝗿𝗰𝘂𝗶𝘁𝗛𝗮𝘄𝗸™accelerates time-to-market by detecting design flaws early in the process. Its advanced verification capabilities and stress analysis provide a robust foundation for reliable products. 𝗮𝗽𝗺𝗢𝗽𝘁𝗶𝗺𝗶𝘇𝗲𝗿® maximizes asset value and operational efficiency. Through LCC analysis and predictive maintenance, you'll reduce costs, optimize spare parts inventory, and ensure uninterrupted operations. 𝗖𝗔𝗥𝗘® ensures product safety and regulatory compliance. Our comprehensive

Altium Designer® offers a unified design environment backed by over 35 years of innovation and development. From schematic to PCB layout and interactive differential pair routing, to design documentation and a seamless ECAD/MCAD integration, Altium Designer empowers engineers with a single view of every aspect of the PCB design process. By accessing all design tools in one place, engineers can complete their entire design process within the same intuitive environment and deliver high-quality products quickly. Features of Altium Designer include stackup planning, anonymous sharing, data management, 3D visualization, multi-board assembly, documentation, output configuration, and more. With the addition of Altium 365, users can choose between accessing the program online and on-premises.

The Cadence AWR Design Environment Platform is a powerful tool that accelerates the development of RF/microwave products by enhancing engineering productivity and reducing turnaround time. This seamlessly integrated platform provides engineers with advanced high frequency circuit and system simulations coupled with in-design electromagnetic/thermal analyses to create manufacturing-ready high-frequency intellectual property. The user interface is intuitive and powerful, designed to increase engineering productivity. It offers smart, customizable designs flows that cater to today's high frequency semiconductor and PCB technologies. A unified design system facilitates front-to back physical design flow. Electrical and layout design entries can be dynamically linked to ensure that components placed into an electrical schematic will automatically generate a synchronized layout.

SOLIDWORKS PCB allows you to design Printed Circuit Boards (PCBs), quickly and with the unique collaboration between electrical design teams. It provides a clear advantage in areas where ECAD-MCAD collaboration can be crucial for the overall success of electronic product development. Single board rigid-flex PCB design is possible by defining rigid-flex regions, layers and stack thicknesses. To ensure correct layout, the rigid-flex layer stack regions are defined using bend lines and angles. SOLIDWORKS PDM-based design software and the SOLIDWORKS PDM Connector allow you to manage your project, design files, and documentation. Securely store and index design data to make it easy to find, eliminate data loss and version control concerns, and collaborate from multiple locations. Unmatched ECAD/MCAD integration and collaboration with SOLIDWORKS, which unifies design data.

RFICs can be designed, analyzed, and verified using a variety of simulation methods. Gain confidence using steady-state and nonlinear solutions for design and verification. Wireless standard libraries speed up the validation of complex RFICs. Model silicon chips accurately. Optimize designs using sweeps and load pull analysis. Simulate RF designs using Cadence Virtuoso or Synopsys Custom Compiler. Monte Carlo and yield analyses can be used to increase performance. Early in the design phase, assess the error vector magnitude (EVM), for the latest communication standard. Use the latest technology in foundries immediately. Early in the RFIC development phase, it is essential to monitor system IC specifications like EVM using RF simulation. Simulations include effects from parasitics on layouts, complex modulated signal, and digital circuitry. Keysight RFPro Circuit allows you to simulate in the frequency and time domain.

PathWave ADS provides integrated design guidance via templates to make it easier to get started. It is easy to find the part that you need with the extensive component libraries. Automatic sync allows you to visualize the physical layout and create schematic designs. Data allows teams to visualize whether their designs are meeting specifications. PathWave ADS's data display and analytics capabilities produce graphs, charts and diagrams that will give you design confidence. With wizards, templates, and design guides, you can quickly accelerate your design. The entire design flow includes schematic, layout and circuit. As frequency and speed increase on printed circuit boards (PCBs), signal and power integrity become more important. Electronic device failures can be caused by transmission line effects. To simulate the board accurately, it is necessary to model vias, traces, and interconnects.

Synopsys Saber consists of SaberEXP and SaberRD for high-precision virtual prototypes in multi-domain power electronic design. Saber allows engineers to run complex simulations involving varying component tolerances. They can also generate best- and worst-case scenarios and easily conduct "what if" studies. The industry-leading accuracy reduces development costs by reducing prototypes. SaberEXP, a piecewise linear (PWL), quick converging simulation for power electronics with seamless export to SaberRD. SaberRD is a design and simulation environment that integrates mechatronics, with the best-in class analysis for power electronics. SaberES Designer, a tool for optimizing wiring, materials and costs, can be integrated into industry CAD systems. Use robust, systematic design methods to meet performance and reliability targets in a compressed schedule.

With powerful optimization tools and fast simulation, analyze RF and microwave systems. Automatic circuit synthesis technology allows you to explore performance trade-offs. PathWaveRF Synthesis (Genesys), provides basic functionality that is suitable for all RF and microwave circuit board and subsystem designers. PathWave Circuit Design allows you to identify RF design mistakes that are not obvious from spreadsheet calculations. This entry-level environment includes circuit, system and electromagnetic simulators. It will give you confidence in your design reviews prior to hardware realization. You can see your matching network being synthesized and optimized in just a few mouse clicks. Transfer the design to PathWave Advanced Designer System (ADS), and it will be included in a more complicated design.

Multipurpose, full-wave 3D electromagnetic (EM), simulation software for designing, simulating and optimizing high-frequency electronic products, such as antennas, components and interconnects. Ansys HFSS 3D electromagnetic (EM), simulation software is used to design and simulate high-frequency electronic products, such as antennas and antenna arrays, RF and microwave components, high speed interconnects and filters, connectors and IC packages. Ansys HFSS software is used by engineers around the world to design high-frequency, fast electronics for communication systems, advanced driver assistance system (ADAS), satellites, IoT products, and other areas. Engineers can address complex EMI, RF, microwave, IC and PCB problems with HFSS's unmatched capability. Ansys HFSS simulation suite includes a wide range of solvers that can be used to solve diverse electromagnetic problems.

Microwave Office is a powerful tool for the design of passive components, such as filters, couplers and attenuators. It also supports active devices that operate under small-signal conditions, such as buffer amplifiers and low noise amplifiers. The linear configuration allows for simulation of S parameters (Y/Z/H/ABCD), linear stability, noise figure and return loss/voltage-standing-wave ratio (VSWR) as well as real time tuning, optimization and yield analysis. All E-series Microwave Office Portfolios include synchronous schematic/layout editors, 2D/3D viewer, libraries of high-frequency transmitted transmission models, surface mount vendor component RF model with footprints and measurement-based simulations. Microwave Office PCB supports analysis of RF/microwave systems with the APLAC HB Simulator and its powerful multirate HB, time-variant simulation engine and transient-assisted-HB.

During interactive editing, automatically heal damaged copper areas. Design selections made by the user can be easily refined. Move components and enclosures interactively in a 3D environment, with real-time detection of clashes. If you have specific technology requirements, you can benefit from advanced features like embedded components, chip-on-board, and flexi-rigid designs. Pulsonix allows you to create your own BOMs, PCB acceptance reports and netlists. You can use our standard formats or create them yourself. Construction lines are unique to Pulsonix and allow you to define your own lines to guide your design. Construction lines allow you to create complex board outlines, or align irregular shapes. Define rules to automatically create naming conventions for existing and new styles.

The Cadence Allegro X Design Platform is the best solution to navigate modern electronic complexity and support any PCB needs. It is a full-stack platform that provides a highly integrated and scalable environment for advanced system design. The Allegro X Design Platform allows your global teams to collaborate effectively and simultaneously to reduce project risk, lower production costs and guarantee design compliance. With Allegro X, electrical engineers and PCB designers can make data-driven decisions using integrated analysis workflows and constraints to reduce turnaround time, ensure product reliability and first-time right manufacturing success.

You can quickly design advanced board layouts using interactive routing and the intelligent SitusTM Autorouting technology. With Native 3D™, PCB editing and STEP support, you can collaborate effortlessly with your mechanical design team. Advanced electronics can be accurately simulated and shipped using integrated XSPICE digital and analog simulations. With hierarchical schematic capture and constraint-driven PCB layout technology, you can quickly transform your ideas into reality. With an intuitive interface and customizable workflow, you can instantly get started on your next design project. Altium designer and EAGLE compatibility allow you to access your entire design history. With real-time availability and pricing data from hundreds of suppliers, you will never miss another deadline. With the Circuitstudio content library, you can quickly create custom parts.

EAGLE (electronic design automation) software allows printed circuit board (PCB), designers to seamlessly connect schematic diagrams and component placement. It also includes comprehensive library content. EAGLE offers a variety of PCB layout tools that will help you bring your design to life. Drag and drop reusable blocks between your projects. To ensure your schematic stays on track, validate your design using a complete set electronic rule checks. All changes are automatically synchronized between your layout and schematic, so you can concentrate on the creative process. You can control your design flow and avoid any unexpected surprises by using fully customizable PCB design rules. You can rest assured that your next design will be completed with worry-free libraries. Our growing catalog allows you to find and place parts dynamically.

CircuitMaker is more than an Altium EDA software tool. It's a community of creative people, sharing design content, and working together to create circuits and electronic products for a better tomorrow. You need tools that don't limit your creativity or hold you back from turning great ideas into products. CircuitMaker gives you all the power to create high-quality schematics and Printed Circuit Boards. There are no artificial limitations on board area or layer count. It's also free. CircuitMaker is a place where you can find great reference designs and promote and rate other projects. You can even create teams to collaborate on design projects. We believe you deserve better tools to help you turn your great ideas into reality. CircuitMaker was born. CircuitMaker is not only a community for electronic design content but also Schematic and PCB design software.

PCB Layout is a high level engineering tool for board design. It features smart manual routing of high speed and differential signals, shape based autorouter and advanced verification. It also has wide import/export capabilities. The design requirements are defined by net class rules, class-to class rules, and the specific settings by object types for each layer or class. DipTrace's design process includes real-time DRC. This allows for quick reporting of errors before they are made. The board can be viewed in 3D, and exported for mechanical CAD modeling. The final product will be of highest quality thanks to the design rule check. This includes detailed detailing, net connectivity verification, comparing to the source schematic, and an in-depth description. DipTrace is a single environment that allows for direct circuit-to board converting, updating from schematic, back annotation, and more. Nets can be divided into net classes using custom settings and rules that vary from class to class. Via styles can be used to organize through and blind/buried vias.

Calibre Design Solutions, the industry leader in IC verification delivers a complete IC Verification and DFM Optimization EDA platform, which speeds up designs from creation to manufacture, addressing all signoff requirements. Calibre Design Solutions provides the most accurate, trusted and best-performing IC verification and DFM optimization available in the EDA market. The platform offers foundries, IDMs and fabless companies comprehensive, innovative verification technologies for all nodes, processes, and nodes. Calibre reliability checks are performed against electrical and physical design guidelines and layouts are optimized to reduce the risk early or catastrophic IC failures. The shift-left strategy in Calibre provides innovative tools and techniques to reduce signoff iterations, tape out time and ensure quality results. Cloud computing provides 24/7/365 access a highly scalable cluster of high-performance hardware that is specifically tuned for EDA.

Ansys Electronics' solution suite reduces product development time, minimizes costs, and ensures regulatory compliance. All of this while helping you create the best-in class and cutting-edge product. Use the simulation capabilities of Ansys for the most critical aspects in your designs. We help you solve the most important aspects of your product design through simulation. We provide the best simulators for any design work you do, whether it is antenna, RF or microwave, PCB, package or IC design, electromechanical device, etc. These solutions will help you overcome any electromagnetic, temperature and parasitic challenges, as well as SI, PI and parasitic issues. We then build on this by providing complete product simulations, allowing you first-pass success when designing an airplane, car or other system.

The schematic editor allows you to create unlimited designs. There are no paywalls for unlocking features. A built-in schematic editor and an official library of schematic symbols will help you quickly get started with your designs. Professional PCB layouts can be made with up to 32 copper layers. KiCad now includes a push-and-pull router that can route differential pairs and adjust trace lengths interactively. KiCad also includes a 3D viewer that you can use to view your design in an interactive canvas. To inspect details that are difficult or impossible to see in a 2D view, you can rotate and pan around. Multiple rendering options make it possible to change the board's aesthetic or hide and show certain features. The schematic capture in KiCad is fast and efficient. It also includes all the tools necessary to do so. The interface is focused on productivity. As large designs can be broken into hierarchical subsheets, there are no limits to their complexity.

Overcome challenges of managing and integrating vast amounts of data

BQR’s fiXtress provides a powerful tool for electronic product reliability analysis. Derating analysis can identify components that are over-stressed or over-designed and may need to be changed. Stress-based MTBF predictions provide a realistic estimate for the mean time until product failure after derating analysis. FiXtress is an advanced Design for Reliability suite that can be added to any Electronic Design Automation tool. FiXtress modules are available as standalone modules or in combination with other modules to create a comprehensive DfR solution. Unique thermal analysis that estimates average temperature rise on the cold plate for accurate stress derating.

Ansys Sherlock, a reliability-physics-based electronic design tool, provides fast and accurate life predictions at the component and board levels for electronic hardware in early design stages. Ansys Sherlock automates the design analysis of electronic hardware. It provides accurate and fast life predictions at the component, board, and system levels during early design stages. Sherlock bypasses the 'test-fail-fix-repeat' cycle by empowering designers to accurately model silicon-metal layers, semiconductor packaging, printed circuit boards (PCBs) and assemblies to predict failure risks due to thermal, mechanical and manufacturing stressors--all before prototype. Sherlock quickly converts embedded libraries containing more than 500,000 parts into computational fluid dynamics and finite element analysis models. Each model includes accurate geometries, material characteristics, and stress information.

Over 1 million real-time updated parts have been created. This allows you to focus on the design and you can also create or import your common libraries. EasyEDA, China's largest distributor of electronic components, supports direct links to more that 200,000 in-stock components at LCSC. Designers have access to stock, prices, and orders at any stage of design. It offers the same features as the online version but has more design areas. We have made many improvements to the product, so we recommend it. It is easy to use. You can use it faster if you have previously used other PCB tools. You can design faster, lighter, and less resource-hungry. Register and log in to use the service, there is no activation required. Local backup automatically with document retrieval at any time. You will also have backups on the cloud server. This doubles your data security.

ModelSim simulates RTL and gate-level code. This increases design quality and productivity through platform-independent compilation. The single kernel simulator technology allows transparent mixing of VHDL with Verilog. ModelSim is a cost-effective HDL simulation that offers an unprecedented level in verification capabilities. It is ideal for verifying small and medium-sized FPGAs, especially those with complex, mission critical functionality. ModelSim's advanced coverage capabilities are valuable metrics for systematic testing. ModelSim is easy to use, which lowers the barrier to leveraging verification resources. All coverage data is stored in UCDB, a highly efficient database. Coverage results are available interactively, after simulation, or following a merging of multiple simulation runs. FPGA designers can debug their designs using an easy-to-use, unified environment.

Our DesignSpark PCB is free and can help you explore more design options for your company, which will lead to greater innovation. This software's core features include a powerful software engine that allows you to create schematics and design layouts for PCB boards. Our free design tools and resources will help you bring your best ideas to life, from initial conception through production. Our complete suite can seamlessly integrate into your existing design workflow, whether you need a single tool or a variety of technical information. There are no restrictions on the size of your schematic or the number of sheets you can use in your design. You can use as many layers as necessary for your next PCB design. There are no restrictions on the number or number of connections and no limit on the number of nodes or pads. Your maximum size PCB is 1m X1m.

You can find bugs early and increase confidence in your design with formal properties and formal checks. Formalize your application early in the design process. Formal cover traces can be used to enhance your design understanding and answer tough questions about the design. Formal safety properties can be used to create traces that are shorter and more informative than simulation. Formal proofs are used to verify your design. You can also use mutation cover to increase confidence in your simulation-based verification strategy. Test cases can be written faster if you guide the process with formal cover trace. Unbounded and boundless verification of safety properties. Cover properties: Reachability-check and bounds detection

Electronic designs are becoming more complex, making them harder to detect errors. These errors can result in high costs and hundreds or hours of work. It is important to detect these errors early on in order to prevent damage. In many cases, these mistakes are only discovered during the testing phase or on the customer's premises. BQR CircuitHawk, a unique and powerful (patent-based) tool for electrical circuit stress analysis and design error detection is available. CircuitHawk detects errors in the design phase before layout and production. So, during the final verification, no errors in schematics, connectivity, or stress are detected. CircuitHawk reduces design cycles and the time to market. This saves money and improves corporate reputation. CircuitHawk integrates design error detection, thermal, MTBF, and service life predictions at the schematic level before PCB layout and manufacturing.

Proteus was developed back in the days MS-DOS. After 30 years of continuous development, we are proud to present one of the most efficient and cost-effective PCB tools available. Our philosophy has been to continuously improve and innovate. This resulted in a modern software suite that is packed with powerful, time-saving features that will help you design PCBs more quickly. Proteus purchase is just the beginning of a long-lasting business relationship. A world-class technical support service is included in the price of the software. Each professional purchase will be assigned a member of our team as your technical support contact. This allows you to easily ask questions and get direct access to Labcenter support. Although we may not be able solve all your problems immediately, we will do our best. Our success is due to our customers.

You can design, share, and manufacture all from one place without having to install or configure anything. Altium Designer allows you to connect directly to the platform without having to change the way that you design electronics. Altium 365 doesn't require additional licenses and is included in your subscription. Transparency in reviews and design sharing will help you bring better-quality products to market quicker than your competitors. You can share, in real-time and without leaving your design space, the status and progress of your projects with your team members, manufacturers, clients, and anyone else who can review and comment. Anybody with Internet access can view, compare, contrast, and comment on your projects without the need for additional Altium Designer licenses. You can make electronic and mechanical collaboration challenges a competitive advantage by working seamlessly between domains without losing sight or time.

Fritzing is a free open-source hardware initiative that makes electronic components accessible to anyone as a creative tool. We offer a tool, a website and services in the spirit Arduino and Processing. This creates a creative environment that allows users to document and share their prototypes with others, teach electronic in a classroom and layout and manufacture professional circuit boards. Fritzing is available on Windows, macOS and Linux. With Fritzing Fab, you can quickly and easily turn your circuit into a custom-made PCB. Fritzing will only be a creative platform when many people use it to share and learn. Share your projects and let us know if it meets your needs. Fritzing provides several ways to create the part you need. Parts are organized in "bins" that can be accessed through the parts palette.

6SigmaET is an electronic thermal modeling tool that uses advanced computational Fluid Dynamics (CFD), to create precise models of electronic equipment. Our thermal simulation software is specifically designed for electronics. It offers unparalleled intelligence, automation, and accuracy to help you meet all your requirements and overcome any thermal design challenges. 6SigmaET is the fastest-growing thermal simulator software in the electronics cooling market since its inception in 2009. 6SigmaET's versatility allows you to simulate the thermal performance electronic components, from the smallest ICs up to the most powerful servers. Watch one of our videos to learn more about 6SigmaET's benefits for your industry. Or, browse our case studies. You can import the entire CAD geometry and PCB designs into 6SigmaET to perform thermal analysis. This will reduce the time it takes to create models.

Ansys Icepak solves thermal management problems using CFD. It predicts airflow, temperature, and heat transfer in IC packages, PCBs, electronic assemblies/enclosures, and power electronics. Ansys Icepak offers powerful electronic cooling solutions using the industry-leading Ansys Fluent CFD solver to perform thermal and fluid flow analysis of integrated circuits, packages, printed circuit board (PCBs), electronic assemblies and enclosures. Ansys' Icepak CFD solution uses the Ansys Electronics Desktop GUI (GUI). Perform heat transfer analysis conjugated with conduction, convection and radiation. Advanced capabilities include laminar and turbulent flow modeling, species analysis, including radiation and convection. Ansys PCB Design Solution allows you to simulate PCBs and ICs and accurately evaluate a system.

Design Force is a revolutionary innovation in electrical design. It allows you to break down the boundaries of your electrical design process. The process of designing a product is becoming more complex. This often involves technologies that are difficult or impossible to use ECAD tools to address. Design Force allows design teams to access system-level design information as early as the planning and conceptual phases. This allows them to layout each product board while simultaneously considering the entire system view. Design Force uses the most current industry hardware and software. Users can design in a native 3D environment. This allows them to achieve optimal performance by using native 64-bit, multithreading, multicore processors. Design Force is compatible with multiple client-server implementations. You can also work from your corporate cloud.

ColdStream is an engineering platform for thermal simulation that runs in the cloud. It supports your entire thermal management process, from thermal design to thermal analysis. Diabatix's Thermal Simulation Software allows your business to accelerate product development by using only the latest technologies. Get insights on temperature distribution, heat dissipation and fluid flow, thermal resistance and thermal radiation, cooling capability, and more. ColdStream will find the most suitable heat sinks for your electronic devices and products. In just a few simple clicks, you can upload your geometry, configure the thermal simulator operating conditions, and set the design objectives for your heat sinks.

Physical and Operational (POM Suite) is a comprehensive package that allows for steady-state, transient, and small-signal analysis to be performed on electric power system networks. This suite can be used in planning and operation environments. It is designed for large analyses and offers parallel and multithreading computations. POM Suite can be used via a GUI (graphical user interface) or a command-line interface. One simulation run can simulate millions of N-1-1 and N-2 contingencies. Automatic optimal corrective measures to reduce voltage violations, thermal violations, and steady-state instability violations. Automated optimal corrective actions to reduce transient stability violations. Modelling complex user-definable Remedial Action Schemas (RAS) actions. Automating and significantly expediting studies to conform with NERC Standards. Automated AC transfer/load pockets and contingency analyses with visualization.

Cadence Celsius PowerDC technology offers efficient DC analysis to ensure reliable power delivery. This includes electrical/thermal simulations for maximum accuracy. The Celsius PowerDC technology quickly identifies areas of excessive IR drop and thermal hotspots to minimize the risk of failure of your design. Highly accurate, even with complex designs that have multiple voltage domains, complex plane structures and multiple voltage domains, providing conclusive IR analysis for board and package. DC simulations can be automatically set up using PowerTree Technology (source/sink defintions) captured during the schematic stage of design. Support for multi-structures, including stacked boards, multiple die, and all popular packaging types.

Simcenter Flotherm, with its 34 years of development, user feedback and extensive experience in electronic cooling simulations for thermal analysis, is the leading software solution. It accelerates development from IC packages, PCBs, and enclosures to large systems, such as data centres. Fast, accurate CFD simulations of electronics cooling can improve electronics thermal management and reliability from the initial pre-CAD exploration through to final verification. Simcenter Flotherm is a tool that integrates into the electronics development workflow to allow thermal engineers to run simulations, and to provide accurate results in a timely manner. It also provides feedback to other engineering functions. It supports thermal management and simulation-based decisions from early-stage architectural to final thermal design validation. This helps reduce development time and eliminates the risk of expensive reliability-related warranty costs, or any late-stage respins.

Vampire (Virtual Additive Manufacturing System): This software simulates 3D printing in order to predict and analyze the results. It also performs heat transfer analysis and deformation analysis based on thermal expansion and prediction. It is important to identify and address various manufacturing problems in advance, as 3D additive manufacturing can be expensive and time-consuming. This can be done by using analysis techniques that are suitable for additive manufacturing. Vampire offers key tools to build a smart preprocessing system for this purpose.

CST Studio Suite is a powerful 3D EM analysis package that allows you to design, analyze, and optimize electromagnetic components and systems. CST Studio Suite contains electromagnetic field solvers that can be used for applications across the EM spectrum. The solvers are able to be coupled together to perform hybrid simulations. This gives engineers the flexibility to analyze entire systems consisting of multiple components efficiently and in a straightforward manner. The integration of EM simulation into the design flow is made possible by co-designing with other SIMULIA software. This drives the development process at the earliest stages. EM analysis is often used to analyze the performance and efficiency in antennas and filters, electromagnetic interference and compatibility, the exposure of the body to EM field, electro-mechanical effects of motors and generators and thermal effects of high-power devices.

MSC Nastran is a multidisciplinary application for structural analysis that engineers use to perform static, dynamic and thermal analysis in the linear and nonlinear domains. It also includes automated structural optimization and award-winning embedded fatigue analysis technologies. All of this is enabled by high performance computing. MSC Nastran is used by engineers to ensure structural systems are strong, stiff, and durable. This helps to prevent structural failures (excess stress, resonance, buckling or other detrimental deformations) which could compromise structural function and safety. MSC Nastran can also be used to improve structural designs' economy and passenger comfort. Creating industry-leading product differentiations or optimizing existing designs can lead to industry advantages. Reduce downtime and costs by resolving structural problems that may arise during product service.

Ansys medini analysis implements key safety analyses methods (HAZOP and HARA, FHA. FTA. FME(C.A., FMEDA. etc.). All in one tool. It supports the efficient and consistent executions of safety standards-required analysis activities. Ansys Medini Analy is a model-based, integrated tool that supports safety analysis for safety-critical electronic and software (SW), controlled systems. It allows for consistent and efficient use of industry guidelines, which are specifically tailored to industry standards like ISO 26262, IEC 601508, ARP 4761 or ISO 21448. Ansys medini analysis eliminates inconsistencies in functional safety analysis and accelerates the certification process. Engineers can see a reduction in the time it takes to perform functional safety analysis. Automate safety analysis in electronic or software systems.

Simulating and analyzing your product design will reduce the cost of physical prototyping and increase your products' durability and reliability. It is crucial to your product development to use digital prototypes to understand the performance of your designs in real-world situations. Creo Simulation was designed exclusively for engineers. It includes structural, thermal and vibration analysis solutions, as well as a comprehensive set finite element analysis (FEA). You can validate and analyze the performance of 3D virtual prototypes with Creo Simulation before you even make the first part. We offer unique and flexible simulation solutions to our customers. This section will give you a better understanding of what we can do to meet your needs. Contact a Creo representative if you have any questions regarding our tool stack.

Revit electrical design software. AutoCAD offers electrical and HVAC design software. Revit models can be used to create electrical designs. Create a one-line riser diagram and size feeders. Calculate voltage drop correctly! You can also perform short-circuit analysis. Complete electrical design program in familiar AutoCAD environment. Integrate your calculations with drafting. Create panel schedules, one-line diagrams, fault and voltage drops, and much more. In the familiar AutoCAD environment, you can create a complete HVAC design program. You can easily design, size, and draft your HVAC ductwork.

nCode DesignLife is an online design tool that identifies key locations and calculates realistic fatigue life from leading finite element results for metals and composites. Designers can do more than simple stress analysis. They can simulate actual loading conditions and avoid costly design changes. Products can include functions for fatigue of welds and vibration fatigue, crack growth detection, fatigue in composites, and thermo-mechanical fatigue analysis. Advanced technology for multiaxial, vibration, crack growth and thermo-mechanical fatigue. A graphical interface that makes it easy to perform fatigue analysis using the most popular FEA results data such as ANSYS, Nastran and Altair OptiStruct. Multi-threaded and distributed processing capabilities to process large finite element models as well as complete usage schedules.

Synopsys HSPICE circuit sim is the industry's standard for circuit simulation. It features foundry-certified MOS model models with state of the art simulation and analysis algorithms. HSPICE, with over 25 years of success in design tape outs and a comprehensive circuit simulator, is the industry's most trusted. On-chip simulation: analog designs, RF, custom digital, standard cell design and character, memory design and characterisation, device model development. For off-chip signal integrity simulation, silicon-to-package-to-board-to-backplane analysis and simulation. HSPICE is a key component of Synopsys analog/mixed signal (AMS) verification suite. It addresses the most important issues in AMS verification. HSPICE is the industry's standard for circuit simulation accuracy and offers MOS device models that have been foundry-certified. It also includes state-of-the art simulation and analysis algorithms.

Ansys Maxwell solves EM fields for electric machines, transformers and wireless charging. It also works with actuators, permanent magnet latches and other electrmechanical devices. It can solve static, frequency-domain, and time-varying electric fields. Maxwell also offers specialized interfaces for power converters and electric machines. Maxwell allows you to precisely characterize the transient, nonlinear motion of electromechanical components as well as their effects on the drive circuit design and control system design. Maxwell's electromagnetic field solvers can be seamlessly linked to the integrated circuit or systems simulation technology to enable you to understand the performance of electromechanical system before you build a prototype in hardware. Maxwell provides a reliable simulation of low-frequency electromagnetic field in industrial components.

Multisim™, a software that integrates industry-standard spice simulation with an interactive schematic environment, allows you to instantly visualize and analyze electronic circuit behavior. Its intuitive interface allows teachers to reinforce circuit theory and improve theory retention throughout their engineering curriculum. Multisim™, which adds powerful circuit simulation and analysis into the design flow, helps researchers and designers decrease iterations and save development costs. Multisim™, for Education, is circuit teaching software for power electronics courses and labs. Multisim™, provides engineers with the SPICE simulation and analysis tools and PCB design tools to quickly iterate on designs, improve prototype performance, and speed up prototyping.

Simulate all heat transfer phenomena from convection and radiation to storage and dissipation. Simulate both steady-state and dynamic environmental influences. TAITherm is as powerful as it is easy to use. It can solve for solar and thermal radiation as well as convection and conduction in ever-changing environments. TAITherm eliminates the need for complex thermal simulations, and ensures your design will perform optimally in real-world scenarios. TAITherm has been used by thousands engineers and teams worldwide. TAITherm is used by our customers for a wide range of applications, including the latest advancements and technologies in automotive, electronics wearables, military, architecture, and other fields. Thermal simulations and thermal analyses are helping our customers push the boundaries of technology. They increase usability, safety and effectiveness for their industries.

Beyond traditional RF simulation, design, analyze, verify radio frequency integrated circuits. Design and verification can be done with confidence using both nonlinear and steady-state solvers. Complex RFICs can be validated faster using wireless standard libraries. Verification of IC specifications via RF simulation must be done before taping out an RFIC. Simulators can simulate the effects of layout parasitics, complex modulated signal, and digital control circuitry. PathWave RFIC Design allows you to simulate in both frequency and time domains and can bring your designs to Cadence Virtuoso. Simulate components on silicon chips accurately. Optimize designs using sweeps and load-pull analysis. Incorporate RF designs into the Cadence Virtuoso environment. Performance can be increased with Monte Carlo and yield analysis. Safe operating area warnings simplify debugging. Use the most recent foundry technology right away.