Microwind 3.5 Full Version Download
Microwind is a software tool for designing and simulating integrated circuits (ICs) at the nanometer scale. It integrates schematic capture, layout editing, circuit simulation, and verification in one platform. Microwind supports various technologies, such as CMOS, FinFET, and nsFET (nanosheet FET). It is widely used for teaching and research purposes in universities and industries.
In this article, we will show you how to download and install the full version of Microwind 3.5, which is the latest version as of September 2023. We will also provide some features and benefits of using Microwind 3.5 for your IC design projects.
How to Download and Install Microwind 3.5
To download and install Microwind 3.5, you need to follow these steps:
Go to the official website of Microwind and click on the "Downloads" tab.
Scroll down to the "Setup Packages" section and click on the "Microwind 3.5" link.
You will be redirected to a page where you can choose your operating system (Windows, Linux, or Mac OS) and your license type (free or paid).
Fill in the required information and click on the "Download" button.
You will receive an email with a link to download the setup file of Microwind 3.5.
Open the setup file and follow the instructions to install Microwind 3.5 on your computer.
After the installation is complete, you can launch Microwind 3.5 from your desktop or start menu.
Features and Benefits of Microwind 3.5
Microwind 3.5 is the most advanced version of Microwind so far. It has many new and exciting features that make it a powerful tool for IC design and simulation. Some of these features are:
Microwind 3.5 supports nsFET technology, which is a novel transistor architecture that uses nanosheets instead of fins to form the channel. nsFETs have higher performance, lower power consumption, and better scalability than FinFETs. You can design and simulate nsFET circuits using Microwind 3.5 with a 3nm rule file.
Microwind 3.5 also supports FinFET technology, which is a three-dimensional transistor structure that uses fins to enhance the gate control over the channel. FinFETs have lower leakage current, higher drive current, and better threshold voltage control than planar CMOS transistors. You can design and simulate FinFET circuits using Microwind 3.5 with a 14nm rule file.
Microwind 3.5 has a built-in analog simulator that allows you to verify your circuit behavior without using external simulators. You can perform DC analysis, AC analysis, transient analysis, noise analysis, and Monte Carlo analysis using Microwind 3.5.
Microwind 3.5 has a user-friendly schematic editor (DSCH) that allows you to draw mixed-signal circuits with ease. You can use various components, such as logic gates, flip-flops, counters, multiplexers, analog blocks, etc., to create your circuit schematic.
Microwind 3.5 has a precision layout editor (Nano lambda) that allows you to draw your circuit layout with accuracy. You can use various tools, such as grid snap, alignment, rotation, mirroring, copy-paste, etc., to create your circuit layout.
Microwind 3.5 has a comprehensive verification module that allows you to check your circuit for errors and faults. You can perform design rule check (DRC), layout versus schematic (LVS), parasitic extraction (PEX), fault simulation (FS), etc., using Microwind 3.5.
These are some of the features and benefits of using Microwind 3.5 for your IC design and simulation projects. Microwind 3.5 is a complete tool that covers all the aspects of IC design from concept to completion. It is easy to learn and use, and it can help you design beyond your imagination.
In this article, we have shown you how to download and install the full version of Microwind 3.5, which is the latest version as of September 2023. We have also provided some features and benefits of using Microwind 3.5 for your IC design and simulation projects. Microwind 3.5 is a software tool that integrates schematic capture, layout editing, circuit simulation, and verification in one platform. It supports various technologies, such as CMOS, FinFET, and nsFET. It is widely used for teaching and research purposes in universities and industries. We hope you find this article helpful and informative. If you have any questions or feedback, please feel free to contact us.