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Do you want to be a successful VLSI Engineer? Then these 10 best VLSI Design books we listed here help you to do so.
VLSI is definitely a fascinating technology of creating an integrated circuit (IC) by combining thousand and millions of transistors into a single chip. If you wish to learn this fascinating technology then starting it all with a book is a great idea.
To save your precious time in finding some good books out there, we have researched and compiled a list of the 10 best vlsi design books that can help you learn about every aspect of it so that you can become an expert in the field of VLSI.
The motive of this article is not to promote any particular book, but to make you aware of a world which exists beyond video tutorials, blogs and podcasts.
10 Best VLSI Design Books
These are the 10 Best VLSI Design Books which we would like to recommend you to learn everything about Very Large Scale Integration design.
These books are the go to source for many students who want to make their career in VLSI design; Recommended by many VLSI Engineers. We have compiled this list of 10 Best VLSI Design Books by keeping in mind that they are suitable for beginners, intermediate learners as well as experts.
Let’s take an overview of these 10 best VLSI Design books one by one and find which book is more suitable for you to start.
Basic VLSI Design textbook covers several topics such as nMos, BiCMOS, CMOS and gallium arsenide technologies in every aspect. It presents readers with a direct and inclusive treatment of VLSI design processes and rules of designs. This is particularly helpful for novice digital system designers or students.
This book contains several chapters on review of microelectronics, introduction to MOS technology, MOS and BiCMOS circuit design processes, basic electrical properties of MOS and BiCMOS circuits, MOS circuit scaling, basic concepts of circuits, subsystem design processes, subsystem design and layout, illustration of the design processes, memory, registers and aspects of system timings, computational elements, practical aspects and testability, ultra-fast VLSI circuits and systems, CMOS design projects, introduction to GaAs technologies and a few other references for further reading.
This book includes a successful and innovative design methodology based on the ring diagrams for GaAs circuits. It also includes an expanded and better coverage of arithmetic circuits, scaling and an in-depth treatment of the micro technologies meant for the design of different VLSI circuits.
(1) Basic VLSI Design offers a lucid treatment of the important aspects of silicon circuits.
(2) It also gives readers a well-founded and logical development of design processes and parameters.
For both introductory and advanced courses in VLSI design, this authoritative, comprehensive textbook is highly accessible to beginners, yet offers unparalleled breadth and depth for more experienced readers.
CMOS VLSI Design: A Circuits and Systems perspective presents broad and in-depth coverage of the entire field of modern CMOS VLSI Design. The authors draw upon extensive industry and classroom experience to introduce today’s most advanced and effective chip design practices. They present extensively updated coverage of every key element of VLSI design, and illuminate the latest design challenges with 65 nm process examples.
This is one of the best VLSI design books contains unsurpassed circuit-level coverage, as well as a rich set of problems and worked examples that provide deep practical insight to readers at all levels.
Aimed primarily for undergraduate students pursuing courses in VLSI design, the book emphasizes the physical understanding of underlying principles of the subject. It not only focuses on circuit design process obeying VLSI rules but also on technological aspects of fabrication.VHDL modelling is discussed as the design engineer is expected to have good knowledge of it.
Various modelling issues of VLSI devices are focused which includes necessary device physics to the required level. With such an in-depth coverage and practical approach practising engineers can also use this as ready reference.
Key Features: (1) Numerous practical examples (2) Testing of CMOS devices (3) Questions with solutions that reflect the common doubts a beginner encounters (4) BiCMOS technological issues (5) Industry trends (6) Device fabrication technology (7) Emphasis on VHDL
This book provides a comprehensive treatment of modern VLSI design. It stresses the relationship among high-level system considerations, logic design, and silicon circuitry and fabrication in a manner that allows the reader to understand the field as a single composite discipline.
The approach emphasizes the unique features of state-of-the-art CMOS VLSI that sets it apart from traditional digital systems design.
CMOS: Circuit Design, Layout, and Simulation is an updated guide to the practical design of both analog and digital integrated circuits. The author – a noted expert on the topic – offers a contemporary review of a wide range of analog/ digital circuit blocks including: phase-locked-loops, delta-sigma sensing circuits, voltage/current references, op-amps, the design of data converters, and switching power supplies.
CMOS includes discussions that detail the trade-offs and considerations when designing at the transistor-level. The companion website contains numerous examples for many computer-aided design (CAD) tools. Using the website enables readers to recreate, modify, or simulate the design examples presented throughout the book. In addition, the author includes hundreds of end-of-chapter problems to enhance understanding of the content presented.
(1) Provides in-depth coverage of both analog and digital transistor-level design techniques
(2) Discusses the design of phase- and delay-locked loops, mixed-signal circuits, data converters, and circuit noise
(3) Explores real-world process parameters, design rules, and layout examples
(4) Contains a new chapter on Power Electronics
Written for students in electrical and computer engineering and professionals in the field, this book a practical guide to understanding analog and digital transistor-level design theory and techniques.
Digital Integrated Circuits maintains a consistent, logical flow of subject matter throughout. Addresses today’s most significant and compelling industry topics, including: the impact of interconnect, design for low power, issues in timing and clocking, design methodologies, and the tremendous effect of design automation on the digital design perspective. For readers interested in digital circuit design.
It provides a more unified treatment of digital and analog circuit design while strengthening the coverage of CMOS. With its streamlined and up-to-date coverage, more engineers will turn to this resource to explore key concepts in the field.
This book goes into a lot of depth in the analysis and design of modern devices in Analog IC’s. It does not assume anything and gives the reader insight on how all the models are derived (SPICE, HYBRID-PI etc). It goes into excellent detail for dealing with hand calculations which will give you a first order analysis of the circuit in question (with reasonable accuracy).
Learn the basic properties and designs of modern VLSI devices, as well as the factors affecting performance, with this thoroughly updated second edition. The first edition has been widely adopted as a standard textbook in microelectronics in many major US universities and worldwide.
The internationally renowned authors highlight the intricate interdependencies and subtle trade-offs between various practically important device parameters, and provide an in-depth discussion of device scaling and scaling limits of CMOS and bipolar devices. Equations and parameters provided are checked continuously against the reality of silicon data, making the book equally useful in practical transistor design and in the classroom.
Every chapter has been updated to include the latest developments, such as MOSFET scale length theory, high-field transport model and SiGe-base bipolar devices.
CMOS Digital Integrated Circuits: Analysis and Design is the most complete book on the market for CMOS circuits. Appropriate for electrical engineering and computer science, this book starts with CMOS processing, and then covers MOS transistor models, basic CMOS gates, interconnect effects, dynamic circuits, memory circuits, BiCMOS circuits, I/O circuits, VLSI design methodologies, low-power design techniques, design for manufacturability and design for testability.
This book provides rigorous treatment of basic design concepts with detailed examples. It typically addresses both the computer-aided analysis issues and the design issues for most of the circuit examples. Numerous SPICE simulation results are also provided for illustration of basic concepts. Through rigorous analysis of CMOS circuits in this text, students will be able to learn the fundamentals of CMOS VLSI design, which is the driving force behind the development of advanced computer hardware.
Design and optimization of integrated circuits are essential to the creation of new semiconductor chips, and physical optimizations are becoming more prominent as a result of semiconductor scaling. Modern chip design has become so complex that it is largely performed by specialized software, which is frequently updated to address advances in semiconductor technologies and increased problem complexities. A user of such software needs a high-level understanding of the underlying mathematical models and algorithms. On the other hand, a developer of such software must have a keen understanding of computer science aspects, including algorithmic performance bottlenecks and how various algorithms operate and interact.
VLSI Physical Design: From Graph Partitioning to Timing Closure introduces and compares algorithms that are used during the physical design phase of integrated-circuit design, wherein a geometric chip layout is produced starting from an abstract circuit design. The emphasis is on essential and fundamental techniques, ranging from hypergraph partitioning and circuit placement to timing closure.
Once the logic becomes complex and the circuits becomes big then testing the circuits also become complex and tougher. To make it easy HDL (Hardware Description Language) was invented. There are mostly three types of HDLs used; VHDL, Verilog and SystemVerilog. These languages are used to configure the IC. To learn these HDL’s we have also listed out some of the best books available in the market. Must read these book suggestions if you want to learn HDL’s.