Compare the Top IC Design Software for Cloud as of December 2024

What is IC Design Software for Cloud?

IC design software is software used to create and simulate integrated circuits (ICs), essential for developing semiconductor chips in electronics. It provides a platform for designing complex circuits, from schematic capture to layout and verification, ensuring that the IC functions as intended. The software incorporates features like circuit simulation, timing analysis, and power optimization to help engineers design efficient and high-performance chips. It is widely used in industries like consumer electronics, telecommunications, and automotive, where precision and innovation in chip design are critical. By streamlining the IC design process, this software reduces development time and cost, while ensuring reliable and scalable semiconductor solutions. Compare and read user reviews of the best IC Design software for Cloud currently available using the table below. This list is updated regularly.

  • 1
    PDN Analyzer
    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.
    Starting Price: $163 per month
  • 2
    Ansys Exalto
    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.
  • 3
    PathWave RFIC Design

    PathWave RFIC Design

    Keysight Technologies

    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.
  • 4
    Ansys Electronics Desktop (AEDT)
    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.
  • 5
    Sigrity X Advanced SI

    Sigrity X Advanced SI

    Cadence Design Systems

    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.
  • 6
    Sigrity X OptimizePI

    Sigrity X OptimizePI

    Cadence Design Systems

    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.
  • 7
    Sigrity X PowerSI

    Sigrity X PowerSI

    Cadence Design Systems

    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.
  • 8
    SiLogy

    SiLogy

    SiLogy

    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.
  • 9
    Tessent

    Tessent

    Siemens

    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.
  • 10
    Sigrity X Platform

    Sigrity X Platform

    Cadence Design Systems

    Step into the future with Sigrity X Platform – where innovation meets optimization. Unlock the key to flawless signal and power integrity in your PCB and IC package designs, and leap far beyond the current limits of signal integrity (SI)/power integrity (PI) technology. Imagine effortlessly navigating the complexities of electronic design, and not just meeting, but shattering your time-to-market targets with precision and ease. With Sigrity X, you're not just working with another tool; you're unlocking seamless in-design analysis synergy within the Allegro X PCB and IC Package platforms. Dive into a comprehensive suite of SI/PI analysis, in-design interconnect modeling, and PDN analysis tools designed to supercharge your performance, ensuring your projects not only meet but exceed deadlines and budgets. Harness the power of the Sigrity X Platform for flawless performance and reliability success in your next design.
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