Alternatives to CircuitLogix

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.

TopSpice is a true analog/digital/behavioral mixed-mode circuit simulator for the PC. It is the most advanced SPICE simulation in its price range. It also offers compatibility, an integrated design environment that is easy to use, from schematic capture to graphic waveform analysis. TopSpice allows you to design using either text netlists (SPICE) or schematic drawings. All design and simulation features are available in either the schematic editor or netlist editor. TopSpice comes with a full-featured mixed mode mixed-signal simulator that can simulate circuits containing any combination of analog devices and digital functions, as well as high-level behavioral block. TopSpice allows you to verify and optimize the design of your system down to the transistor.

One animated circuit is equivalent to a thousand equations or diagrams. The schematic is accompanied by animations of voltages and currents. This gives a great insight into the operation of the circuit. The real-time simulation engine was custom-built to be fast and interactive. Simulate everything from simple logic gates and resistors to complex transistor-level designs and mixed-signal circuits with just one click. You can adjust potentiometers and LED current-limiting resistors while the simulation is running. Your changes will be reflected in real-time. The mini-waveforms that appear on top of the schematic wires are different for digital and analogue signals. Digital wires are color coded, while constant analog voltages are shown in numbers. In the XY mode, any pair of time domain signals can be plotted. The grid ticks and oscilloscope scale are automatically updated to convenient values when the data changes.

You can learn electronics by using the examples in PROTO application and trying out many components. You can use transistors, diodes and resistors. You can easily analyze signals using a channel oscilloscope. During simulation you can check voltages and currents as well as many other variables. Check signals using the multichannel oscilloscope, and tune your circuits in real-time. Our app will help you with your Raspberry Pi or Arduino project. You can use PROTO to simulate logic circuits and perform digital electronics analysis.

TINA-TI offers all the traditional DC, transient, and frequency domain analyses of SPICE plus much more. TINA's extensive post-processing capabilities allow you to format the results in any way you like. Virtual instruments let you select input waveforms, and probe circuit nodes voltages and waveforms. TINA's Schematic Capture is a quick and easy way to get started. TINA-TI requires around 500MB. It is easy to install and can be uninstalled if desired. We bet you won't. TINA is a Texas Instruments-exclusive product from DesignSoft. This complimentary version is fully-functional but does not include some of the features that are available in the full version.

The MPLAB®, Mindi™, Analog Simulator reduces design time and design risks by simulating analog circuits before hardware prototyping. The simulation tool uses a SIMetrix/SIMPLIS simulation platform, which allows for the use of SPICE and piecewise linear modeling. This simulation environment can be used to simulate a wide range of simulation requirements. This simulation interface can be paired with Microchip's proprietary model files to model specific Microchip components as well as generic circuit devices. This simulation tool runs locally on your computer. The simulation tool is free to download and does not require an Internet connection. Also, the simulation run time does not depend on remote servers. The simulation results are fast and accurate. The simulation tool can be run directly on your PC.

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.

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.

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.

The Allegro PSpice System Designer uses core Cadence PSpice technology to provide fast and accurate simulations. This package provides utilities for sensitivity analysis and goal-based multiparameter optimization, component stress, reliability analysis, and Monte Carlo analysis to estimate yield. Parametric plotter analyzes interdependence between parameters and converts simulation data to meaningful results. Allegro Design Entry HDL can be used to generate schematics that can be used to drive PCB layout. This will reduce design time and eliminate redrawing errors. It has a large collection of models and behavioral modeling techniques that make it easy to refine the analog/digital interface. Analog and mixed-signal designs can be analysed quickly and accurately. PSpice technology is used at the core to perform fast and accurate simulations.

Easy-wire mode allows you to connect elements with less clicks, and therefore less frustration. The unit-aware evaluation of expressions allows you to plot arbitrary signals, such as differential or power dissipation. You can design and analyze circuits faster with in-browser simulation. This allows you to test your circuit before you ever pick up a soldering tool. Advanced simulation capabilities include frequency domain (small signal simulation), stepping circuit parameters across a range, arbitrary Laplace function blocks, etc. With configurable plotting window, vertical and horizontal marker, and calculations for signals, you can work with multiple signals with ease. With just a few mouse clicks, you can create generic rectangular symbols to represent IC or system level wiring diagrams.

TINACloud is a cloud-based, multi-language version of TINA that runs in your browser. It can be accessed from anywhere in the world. TINACloud is available for a fraction the price of TINA. If you buy a license to download TINA, we offer a special bundle that includes TINACloud and all new private licenses. This page is dedicated exclusively to TINACloud. Click here for more information about the TINA offline software that you can download and install on your computer. TINACloud is a powerful online circuit simulator that can be used to analyze and design analog, digital, VHDL and mixed electronic circuits. It also allows you to test microcontroller applications and RF, communication and optoelectronic devices.

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.

It is a full-featured, accurate design environment that combines speed and accuracy. It can simulate power supply designs 10-50x faster than SPICE. SIMetrix Classic has all the features and uses the same GUI, including its hierarchical diagram editor and waveform view. Locates the steady-state operating point of a switch system without having the transient startup conditions simulated. Conversion of SPICE transistors and diodes to SIMPLIS format. Converts SPICE by running a SPICE Simulation to extract parameters. The advanced digital library includes a variety of digital functions, such as counters ADCs DACs.

There are many circuit simulators on the market. Just look at their ads: industry standard, high performance, fast, and extremely fast. SPICE), easy-to-use, highly intuitive. Try it out yourself to see if the tool is worth your time. Many NL5 users have already done this. I hope they'll share their inspiring stories soon. What can you expect from NL5? It is neither a replacement for SPICE nor a new SPICE. NL5 is superior for some tasks, good for others, and not suitable for some.

The Electromagnetic simulation (EM) gives you insight before physical prototyping. You can customize EM simulations to increase speed and accuracy. Integrate EM analysis into your circuit simulations. EM simulations can take several hours to run. Integrating your EM simulation software and PathWave circuit design software can reduce import and export times. To maximize efficiency, integrate EM analysis and circuit simulations. 3D EM solid modeling environment to create arbitrary 3D objects or import existing 3D models from other CAD settings. Prerequisite to prepare a 3D geometry for 3DEM simulation. This includes defining ports, boundary conditions, and material properties. 3D EM solid modeling and Finite Difference Time Domain simulator. Compliance testing for Specific Absorption Rates (SAR) or Hearing Aid Compatibility.

Multiphysics software from COMSOL allows you to simulate real-world designs, processes, and devices. Multipurpose simulation software that uses advanced numerical methods. Fully coupled multiphysics and single physics modeling capabilities. The entire modeling process, from geometry to postprocessing. Easy-to-use tools for creating and deploying simulation applications. The COMSOL Multiphysics® software provides a consistent user interface regardless of engineering application or physics phenomena. Add-on modules offer specialized functionality for electromagnetics and structural mechanics. You can choose from a variety of LiveLink™, products to interface with CAD or other third-party software. COMSOL Server™ and COMSOL Compiler™, allow you to deploy simulation applications. This software platform allows you to create simulation applications and physics-based models.

Ansys Exalto, a post-LVS RLCk extractor software solution, allows IC designers to capture unknown crosstalk between different blocks in their design hierarchy. It extracts lumped-element parasitics from the design hierarchy and generates an accurate model for electrical and magnetic coupling. Exalto interfaces well with most LVS tools, and can be used in conjunction with the RC extraction tool you choose. Ansys Exalto post LVS RLCk extraction allows IC designers to accurately predict electromagnetic and substrate-coupling effects for signoff on circuits previously "too large to analyze." The extracted models can be back-annotated to any schematic or netlist and support all circuit simulators. Modern silicon systems have seen a rise in RF and high speed circuits. This has made electromagnetic coupling a first-order effect that must be accurately modelled to ensure silicon success.

Our online circuit simulation bridges the gap between theory, and practice through an intuitive interface. It allows you design, simulate and share electronic circuits, while observing the interaction of components in real time. Directly manipulating the behavior of circuits makes learning more engaging. DCACLab is a powerful tool for educators. It enhances their lessons with interactive diagrams, live demonstrations, and video. Students can experiment and learn in a safe environment, which will lead to a better understanding of electronics. DCACLab turns frustration into hands-on understanding and learning. Discover the power of an interactive multimeter. It provides a realistic and enriching learning experience with its functions to measure ohms, voltages, and resistances. With ease and understanding, dive into the world of electronic.

It is based upon a complete representation for the qubit state, but avoids the explicit representation in terms of matrices of gates and other quantum operation. Intel-QS uses the MPI (message-passing-interface) protocol to handle communication between the distributed resources used to store and manipulate quantum states. Intel-QS is built as a library that, when linked to an application program, allows the user to benefit from the high-performance implementations of circuit simulations. The library can run on a wide range of systems, including laptops and HPC server systems.

The graphical interface of the schematic capture tool allows you to explore schematics, produce simulation results and further explore them through the waveform viewer. The speed at which you can grasp the circuit, its correctness and its limitations is crucial to circuit design. LTspice is faster than many other simulation tools, and allows you to iterate designs in a short time. The keyboard shortcuts in LTspice are a quick and easy way to access commands that you would normally only be able to access by clicking on the menu or toolbar. Our vast collection of technical resources covers a wide range LTspice-related topics. Learn how to add third-party model, work with symbols and more.

Pharos combines Ansys’ unparalleled EM engine power with a proprietary circuit simulation engine to perform coupling analysis. It also provides a ranking of potential EM-crosstalk aggressors per victim. Designers can identify the most vulnerable nets to help them make design decisions that will manage EM crosstalk and reduce risk. Pharos combines an unparalleled extraction engine power with a built in simulation engine to perform EM analysis. It also ranks potential EM crosstalk aggressors per victim network. This allows designers to concentrate on the most important nets in the design. It is difficult, if not impossible to identify all EM crosstalk vulnerable victim/aggressor net pair due to increasing design complexity and the wide range of magnetic field interference.

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.

Today's companies are faced with complex design challenges as well as tight budgets. eCADSTAR is much more than a PCB layout software. It includes simulation, 3D MCAD integration and wire harness support. All built on the most recent technology to provide enterprise-level performance at a reasonable cost. eCADSTAR's intuitive UI makes it a compelling choice for designers. eCADSTAR's design capabilities can be leveraged to simplify and accelerate your design process. The digitally connected library, intuitive schematic capture and tools to accelerate PCB Layout Engineering allow engineers to spend less time manipulating the tool, and more time doing what they love: innovating creative solutions for today’s technological challenges. The test plan is one of the most tedious parts of the design process. Without adequate upfront simulation, validation can be expensive in both time and money. eCADSTAR's capabilities for Spice simulation and SI/PI analysis deliver test cycle time reductions.

Since over 25 years, PSIM has been the leading simulation and design software in power electronics and motor drives. PSIM's intuitive, user-friendly GUI and robust simulation engine are the perfect solution for users to meet their simulation and design requirements. PSIM can perform quick power converter losses calculations, motor drive efficiency calculation, conducted EMI analysis and analog/digital controls. PSIM offers automatic embedded code for rapid control prototyping. With PSIM's Design Suites, users are able to design power supplies, electromagnetic (EMI) filters and motor drive systems quickly.

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.

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.

These platforms, which are designed for the USA and Australia markets, provide time-division multiplexing and serial and analog circuit-based apps reliable and efficient access next-generation IP networks with cost redundancy and efficiency advantages. The CTP2056 Circuit to Packet Platform connects legacy and IP worlds to support circuit-switched applications. This 4U rack-mountable chassis is designed for Australian and U.S. markets. It offers maximum flexibility with up 56 circuit emulation interfacings. The CTP2024 Circuit to Packet platform bridges legacy and IP for circuit-switched applications. This rack-mountable 2U chassis is designed for Australian and U.S. markets. It supports up to 24 circuit emulator interfaces and optional redundant electricity. The CTP2008 Circuit-Switched Applications Platform bridges legacy worlds with IP. This 1 U rack-mountable chassis supports up to eight software-configurable circuit emulation interfaces.

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.

Fusion 360 brings together design, engineering, electronics and manufacturing in one software platform. Get integrated CAD, CAM, CAE & PCB on a single development platform. EAGLE Premium, HSMWorks and Team Participant are also included. You also have access to consumptive services such as cloud simulation, generative design, and cloud rendering. A comprehensive range of modeling tools is available to help you design products. You can ensure the form, fit and function of your products using a variety of analysis methods. You can create and edit sketches using sketch constraints, dimensions, as well as a powerful suite if sketch tools. Edit and repair imported geometry from non native file formats. You can make design changes without worrying too much about time-based features. Edit complex parametric surfaces to repair, patch or design geometry. You can create history-based features such as extrude, revolve and loft that are updated with design changes.

Simulink allows you to simulate your system before you move on to hardware. You can explore and implement designs you wouldn't normally consider without having to code C, C++, or HDL code. You can explore a wide range of design options by modeling the system under testing and the physical plant. To simulate the behavior of all components of the system, your entire team can use a multi-domain environment. Your simulations can be packaged and shared with clients, suppliers, or collaborators. You can reduce the cost of prototypes by testing your system in conditions that are too risky or too time-consuming. Rapid prototyping and hardware-in-the loop testing can validate your design. You can trace your design from requirements to code. Instead of writing thousands upon lines of code manually, generate high-quality C or HDL code automatically. This code behaves in the same way that Simulink's model. You can then deploy it directly to your embedded processor or FPGA/ASIC.

Cadence®, Sigrity™, OptimizePI™, technology performs a complete AC frequency analysis on boards and IC packages to ensure high performance at both the system and component levels. It supports both pre-layout and post-layout studies and quickly pinpoints the best placement locations and decap selections to meet your power-delivery networks (PDN) requirements at the lowest cost. Sigrity OptimizePI technology uses proven Cadence hybrid electromagnetic circuit analysis technology and the unique Sigrity optimization engines to quickly pinpoint the best decap selections or placement locations.

Ansys Totem SC is the industry's trusted leader in power noise and reliability signoffs for analog and mixed signal designs that are built on cloud-native elastic computing infrastructure. Ansys Totem SC is the industry's most trusted standard for voltage drop and electromigration multiphysics signoff solutions for transistor-level and mixed signal designs. Totem-SC has a proven track record of thousands upon thousands of tapeouts. Its cloud-based architecture gives it speed and capacity to handle full-chip analyses. All major foundries have certified signoff accuracy for all finFET nodes below 3nm. Ansys Totem SC is a transistor level power noise and reliability analysis platform that can analyze analog mixed-signal IP as well as fully custom designs. It generates IP models for RedHawk SC-level power integrity signoff and compact chip models for power delivery networks at the chip- and system-level. Industry-proven, foundry-certified analog/mixed-signal EM/IR solution.

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.

* Access rich, real-time and responsive energy and carbon data from multiple meters and circuits, instantly viewed on any web-based device • Energy and carbon reports that are user-friendly with key metrics and in compliance with ESOS and SECR. • An easy-to-read interface that simplifies complex energy data across circuit, machine, and meter levels, allowing for energy consumption and carbon emission improvements throughout the entire business • Consolidated and integrated data dashboards that allow for faster decision-making and highlight the actions needed to improve the company’s carbon and energy performance • Annotations and alerts to track progress towards reaching net zero targets and energy saving

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.

Syntronik, a cutting-edge virtual synthesizer, raises the bar in sound quality. It combines the most advanced sampling techniques with a new hybrid model and synthesis engine. Syntronik contains 17 incredible Synths. You can purchase them as a set or separately. There are over 2,000 preset sounds that cover a wide range of 38 vintage synthesizers. Syntronik's synth engine goes beyond traditional sampling thanks a brand-new analog modeled filter section that was created by IK, the pioneer of virtual circuit modeling. This is combined with DRIFT™, a proprietary technology that accurately reproduces the behavior of oscillators in real hardware synths. Syntronik is the ultimate source for inspiration.

AllSpice accelerates your time to market. It allows modern revision control and collaboration for native digital designs. Transform those three-hour-long, in person, and difficult-to-schedule meetings to digital, asynchronous review sessions. Run your design reviews like a pull request. Automate your review packages. Automate your review packages by creating PCB, schematic, or BOM redlines that highlight your design changes. It's like a software diff but for circuits and not code. Never make the same mistake twice. To remind you and your team what to do next, create checklists and templates that automatically populate for new design reviews. Better design reviews are key to agile hardware development. You can submit design updates and get feedback by sharing them with others. Give people outside of your team, such as mechanical or firmware engineers, a browser view of your designs.

You can go beyond math-based modeling by using a complete RF-aware design process. This workflow includes decades of Keysight measurement science in RF instruments, which is available for all system architects. PathWave System Design is the best platform for prototyping complex RF systems. It offers faster simulation speeds, near-circuit fidelity and libraries for radar, electronic warfare satellite, 5G and WiFi. Plus, it integrates with many partners. Your system designs can only be improved by statistical models for propagation or channels. With the help of tools like STK by AGI, Ansys Company, dynamic kinematic modeling is possible for electronic warfare, radar, satellite, 5G and automotive. Trusted reference libraries based on Keysight measurement science are essential for advanced cellular system designers. Researchers working on the next generation communications signals require a flexible platform to develop and test physical layers.

This tool can be used to explore end-to-end signal or power topologies. It also allows you to perform signal-integrity and transient power-integrity analysis together. Also, you can include complex interconnect models and connect them to a single driver/receiver/discreet symbol that automatically replicates the circuit for each of the ports on the interconnect model. This solution targets source-synchronous parallel interfaces, such as DDRx memory designs. You can start with models that are quickly generated, connected, and pre-layout capabilities (including via wizard). As the design becomes more refined, you can swap in more detailed models to reflect actual hardware behavior. Concurrent simulation accounts the effects of conductor and dielectric losses, reflections and inter-symbol interferences (ISI), crosstalk and simultaneous switching noise.

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.

FactoryLogix by Aegis Software redefines the meaning of Manufacturing Execution Software. FactoryLogix combines state-of the-art technology with a suite of software modules to transform manufacturing operations. FactoryLogix is an end-to-end platform that covers all aspects of manufacturing, from product launch through material logistics, manufacturing execution, and powerful analytics and dashboards. This gives manufacturers the speed, visibility and control they need to be competitive.

FLEXTHOR uses FCR as a service, which is automatic and responds proportionally to network frequency deviations. Any brand/manufacturer of PV inverter or EV charging station. Smart meter. Battery systems. Electrical smart loads. Our mobile app and IoT edge device can be used to monitor energy assets. All data is stored in the cloud. FLEXTHOR is able to connect to any available energy asset on the premises. Prosumers are able to integrate EV chargers, Home batteries and other energy assets regardless of whether their brand is participating or not. FLEXTHOR puts the full control of prosumer energy in their hands by letting them choose the cloud services they want to use. Allow your customers to trade or sell energy with other members in your community. Allow your customers to benefit from direct trading, generating more revenue through surplus energy and reducing grid-supplied loads.

E-Coord is a great tool for analyzing time-current curves of overcurrent protection devices. You can select the devices that you want from the list to get started. E-Coord allows you to add or modify the data. You can download the functional demo version to see why E-Coord has been chosen by many professional engineers. The Elite Software E-Coord Program allows for the selective coordination and use of circuit breakers and fuses by providing an instantaneous review on their time-current curves within a proposed electrical protection system. E-Coord can reveal curve overlaps and also analyze the melting and clearing I2T values of each fuse to determine if there are any time-current overlaps that cannot be seen on a plot. E-Coord comes with a library that includes over 2,000 protection devices from many manufacturers.

Our advances in ultra-low power circuits and wireless communications allow us to power our always-on Eversensors with low levels of energy harvested from the environment. This creates the foundation for our full-stack Industrial IoT solution. Batteryless Eversensors not only are easier to install, but they can also be deployed in a larger scale. They also cost less to operate. At the other end of the system, Evercloud transforms new data into actionable insights. Systems of self-sustaining sensor systems unlock the promise and the scale of the Factory of the Future, so that enterprises can maximize their returns on Industrial IoT investment, reducing costs instantly, optimizing asset usage, and improving sustainability in a variety of now-connected environments.

Products must work and be affordable. Reality AI combines machine learning and advanced signal processing math to deliver fast, efficient machine-learning inference. This allows for smart product features using inexpensive hardware. An engineer won't deploy a solution he doesn't understand. Reality AI Tools®, which provides visualizations of model function in terms frequency and time domains, allows you to explain to colleagues and stakeholders how models work. Machine learning projects cost 80% more to implement and collect data. Reality AI Tools®, can help you identify the most cost-effective combinations, locate the best sensors, and produce minimum component specifications. It can also help reduce the cost of data collection by identifying instrumentation and data processing issues as data is collected.

Match supplier product codes with ElectroPlan Cost Items to calculate cost and price. Import of plan images from PDF documents or graphics files. This will provide floor plans for a project. Additional details can be added to the plans by adding lines, rectangles, rectangles and rectangles with text, text, images, logos, etc. Lighting Circuit Counter allows you to set switches automatically and adjust prices and materials/time calculations. A plan grid guide is used to help with component alignment. It creates a neat and ordered layout. Import whole plans larger that the screen size or a specific area. Import project details and plans from a previously saved project into the current project. Data Export allows ElectroPlan data to easily be imported into other software programs.

FlexLogger allows you to create flexible, scalable data-logging system with NI DAQ hardware. No programming is required. You can create sensor-specific configuration workflows that allow you to quickly set up, visualize and log a variety of synchronized measurements from analog and digital sensors, as well as vehicle communication buses. You can also generate voltage and current or digital signals to drive actuators and control set points. FlexLogger automatically saves metadata about your test configuration. This allows you to quickly trace test results and compare them across multiple tests. The integrated data viewer allows you to interactively view test results and draw conclusions. FlexLogger automatically synchronizes mixed signal measurements so that you can accurately analyze data across different sources to ensure physical components work according to design specifications.

Altium's PDN Analyzer tool integrates with Altium Designer. This allows you to easily troubleshoot issues such as insufficient or excessive copper or uncontrolled voltage drops. You can also detect marginal voltage at critical power points, copper islands or peninsulas, and other issues that could be present in your PCB power system. PDN is the power system for active circuits on printed circuit boards. This includes all interconnections between the voltage regulator module, the metallization pads and die on integrated devices that are used for supply and return power. The entire length of the power delivery network must meet the IC supply voltage limits. Validating your power budget accurately means taking into account the minimum and maximum device limits, worst case voltage drops, combined return-path currents, and other factors. PDN Analyzer will show you exactly where these problems are.

> is a software architecture and tool suite for quantum computing. It includes a programming langage, optimization and scheduling algorithm, and quantum simulations. > can be used to translate a quantum algorithm written in the form of a high-level program into the low-level machine instructions for a quantum device. > is being developed by the quantum architectures and computation Group (QuArC) at Microsoft Research. >. > allows the simulation of Hamiltonians, quantum circuits, quantum stabilizer circuits, and quantum noise models, and supports client, service, and cloud operation.