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This is the textbook for Dr. Hongjiang Song's EEE598: VLSI Analog Circuit Design Based Symmetry class in Ira A. Fulton Schools of Engineering at Arizona State University. The course introduces structural VLSI analog circuit design concepts and techniques for analog circuit blocks and systems, such as the operational amplifiers, PLL/DLL, bandgap reference, A/D D/A converters. Symmetry principles and associated circuit constraints, structures and methods are adopted to mitigate VLSI PVT and other variations for better circuit performance, functionality, and design productivity across multiple VLSI process nodes.
This is one of a book in a VLSI circuit design book series Dr. Hongjiang Song published under the VLSI signal processing circuit techniques. This text covers various state-of-the-arts circuit design techniques based on VLSI symmetry principles. These methods offer inherently low PVT sensitivity for VLSI analog circuit design with superior scalability and performance.
This book covers various VLSI circuit noise effects and VLSI noise processing circuit implementations. All materials are organized in am unified framework with VLSI noise modeling and noise processing circuits across various VLSI signal domains.
This is a texbook developed for a VLSI circuit design course series (EEE598) that the author has been offering in the Schools of Engineering at Arizona State University. The materials are organized into eighteen special topics covering the principles, the circuit design techniques and the applications of VLSI modulation in signal processing, data conversion, power amplification and power management.
This reference was developed for a graduate level course (EEE598: Structural VLSI Analog Circuit Design Based on Symmetry) offered in the School of Electrical, Computer and Energy Engineering at Arizona State University. The materials are organized in 24 topics including the collection of design problems in structural VLSI analog circuit design
This book is based on a collection of the past exams for the VLSI Analog Signal Processing Circuits class (EEE598) the author offered in the School of Engineering at Arizona State University. The topics cover various aspects of the design, analysis and application of VLSI analog signal processing circuits. This book is intended to be used together with the VLSI Analog Signal Processing Circuits textbook by the same author. It can also be used alone for the experienced readers.
This book is based on a collection of homework problems, design projects and sample interview questions for the VLSI High-Speed I/O Circuits class (EEE598) the author offered in the School of Engineering at Arizona State University. The materials cover various aspects of the design, analysis and application of VLSI high-speed I/O circuits. This book is intended to be used together with the VLSI High-Speed I/O Circuits textbook by the same author. It can also be used alone for the experienced readers.
Nature-inspired VLSI circuit technology offers unique approach for studying, analyzing, designing, and implementing VLSI circuits through perception, reasoning and action mimicking the nature. Such circuit technology covers various aspects of nature-inspired VLSI circuit design techniques, such as the design rule bases, design principles, computing and information processing algorithms, sensing and interfacing techniques, energy harvesting and power management.
This text is developed from the notes of a VLSI circuit design class (EEE598) the author offered in Engineering School at Arizona State University. The materials cover the structural design approaches of VLSI operational amplifier circuits based on the symmetry principle, symmetry circuit structures, prototype circuits, and symmetry scaling/transformation techniques.