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This page contains information about the use of Cadence design tools in classes and research programs in the Electrical and Computer Engineering Department at Tufts University. For more information on Cadence® University Software Programs, please visit http://www.cadence.com/support/university/ww_usp.aspx.
- EE103: Introduction to VLSI Design The course provides an introduction to CMOS VLSI design and use of CAD tools. Students will learn a complete custom VLSI design flow. It consists of set of cadence laboratory exercises and a final project of modest complexity. Students have implemented projects like ALU, Multipliers, USB Controller and Encoders/Decoders in the class of 2009.
- EE147: Analog and Mixed Signal MOS Integrated Circuit Design The course consists of four parts. The first part introduces the practical aspects of analog and mixed signal MOS IC design method and design considerations, examples of applications. The second part covers the details of the components models, layout and matching, basic circuit building blocks of current sources, gain stages, two stage opamp, advanced current source, opamp circuit, opamp designs, feedback, noise model and analysis. The third part covers the details of switched capacitor (SC) circuits from Z-transform, sample hold circuit, SC filters, SC gain circuit, noise and nonlinear effects in SC circuits. The last part introduces the fundamentals of data converters. Cadence laboratory exercises are integral part of the course.
- EE148: Silicon Radio Frequency IC Design I The course deals with bipolar, CMOS and BiCMOS implementations of radio frequency circuits. There are associated laboratories where Electronic Design Automation (EDA) tool from Cadence will be used for circuit simulations. Students will learn from this course how to design low noise amplifiers, mixers, and other RF circuits widely used in RF industry.
- EE194-DOC: Devices and Circuits for Optical Communications The course deals with the study of the technology, devices and circuits for optical communication system design. The focus of the course is on integrated circuit implementation. Cadence laboratory exercises and final projects will be used to design various building blocks for such systems.
Principal Investigator: Dr. Sameer Sonkusale
The goal of the Nanolab is to pursue research and education in the area of integrated circuits and systems for sensing, processing, and communication of information with emphasis on implementation in submicron and nanoscale CMOS technology. Some projects include Data Converter Design, Sensors and Instrumentation, and Analog Low Power VLSI design
Principal Investigator: Dr. Valencia Joyner
The Advanced Integrated Circuits and Systems Lab under Prof. Joyner conducts research in the general area of high performance integrated circuits, with a particular focus on analog and mixed-signal integrated circuits that interface with photonic elements for imaging, sensing, and wireless communications. The research work is interdisciplinary with collaborators in the physical and biological sciences.
- Dr. Sameer Sonkusale (ECE department)
- Dr. Valencia Joyner (ECE department)
- Dr. Karen Panetta (ECE department)
- Dr. Mohammed Afsar (ECE department)
- Dr. Soha Hassoun (CS department)
The following tools from Cadence are frequently used at Tufts University. These tools are part of the Custom Integrated Circuit Design suite. To name a few, we use the Virtuoso Schematic Editor, Virtuoso Layout Suite, Virtuoso Analog Design Environment, Virtuoso Spectre Circuit Simulator, and Virtuoso Multi-mode Simulator.
- Cadence Tutorial at Tufts University
- HSpice Tutorial at Tufts University
- Cadence Analog Artist and SPECTRE Tutorial at Tufts University
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