Top Down Digital VLSI Design

• Author : Hubert Kaeslin
• Publisher : Morgan Kaufmann
• Release : 04 December 2014

Top-Down VLSI Design: From Architectures to Gate-Level Circuits and FPGAs represents a unique approach to learning digital design. Developed from more than 20 years teaching circuit design, Doctor Kaeslin’s approach follows the natural VLSI design flow and makes circuit design accessible for professionals with a background in systems engineering or digital signal processing. It begins with hardware architecture and promotes a system-level view, first considering the type of intended application and letting that guide your design choices. Doctor Kaeslin presents

• Author : Anonim
• Publisher : Unknown
• Release : 01 July 2022

• Author : Suman Lata Tripathi,Sobhit Saxena,Sanjeet K. Sinha,Govind S. Patel
• Publisher : John Wiley & Sons
• Release : 15 December 2021

Master digital design with VLSI and Verilog using this up-to-date and comprehensive resource from leaders in the field Digital VLSI Design Problems and Solution with Verilog delivers an expertly crafted treatment of the fundamental concepts of digital design and digital design verification with Verilog HDL. The book includes the foundational knowledge that is crucial for beginners to grasp, along with more advanced coverage suitable for research students working in the area of VLSI design. Including digital design information from the

• Author : Hubert Kaeslin
• Publisher : Cambridge University Press
• Release : 28 April 2008

Top-down approach to practical, tool-independent, digital circuit design, reflecting how circuits are designed.

• Author : Henry Chang,Edoardo Charbon,Umakanta Choudhury,Alper Demir,Eric Felt,Edward Liu,Enrico Malavasi,Alberto Sangiovanni-Vincentelli,Iasson Vassiliou
• Publisher : Springer Science & Business Media
• Release : 28 June 2011

Analog circuit design is often the bottleneck when designing mixed analog-digital systems. A Top-Down, Constraint-Driven Design Methodology for Analog Integrated Circuits presents a new methodology based on a top-down, constraint-driven design paradigm that provides a solution to this problem. This methodology has two principal advantages: (1) it provides a high probability for the first silicon which meets all specifications, and (2) it shortens the design cycle. A Top-Down, Constraint-Driven Design Methodology for Analog Integrated Circuits is part of an ongoing research effort

• Author : John Michael Williams
• Publisher : Springer
• Release : 17 June 2014

This book is structured as a step-by-step course of study along the lines of a VLSI integrated circuit design project. The entire Verilog language is presented, from the basics to everything necessary for synthesis of an entire 70,000 transistor, full-duplex serializer-deserializer, including synthesizable PLLs. The author includes everything an engineer needs for in-depth understanding of the Verilog language: Syntax, synthesis semantics, simulation and test. Complete solutions for the 27 labs are provided in the downloadable files that accompany the book. For readers

• Author : Fernando Medeiro,Belén Pérez Verdú,Angel Rodríguez-Vázquez
• Publisher : Springer Science & Business Media
• Release : 18 April 2013

The interest for :I:~ modulation-based NO converters has significantly increased in the last years. The reason for that is twofold. On the one hand, unlike other converters that need accurate building blocks to obtain high res olution, :I:~ converters show low sensitivity to the imperfections of their building blocks. This is achieved through extensive use of digital signal pro cessing - a desirable feature regarding the implementation of NO interfaces in mainstream CMOS technologies which are better suited for implementing

• Author : Gary K. Yeap
• Publisher : Springer Science & Business Media
• Release : 06 December 2012

Practical Low Power Digital VLSI Design emphasizes the optimization and trade-off techniques that involve power dissipation, in the hope that the readers are better prepared the next time they are presented with a low power design problem. The book highlights the basic principles, methodologies and techniques that are common to most CMOS digital designs. The advantages and disadvantages of a particular low power technique are discussed. Besides the classical area-performance trade-off, the impact to design cycle time, complexity, risk, testability

• Author : Sina Balkir,Günhan Dündar,A. Selçuk Ögrenci
• Publisher : CRC Press
• Release : 27 June 2003

The explosive growth and development of the integrated circuit market over the last few years have been mostly limited to the digital VLSI domain. The difficulty of automating the design process in the analog domain, the fact that a general analog design methodology remained undefined, and the poor performance of earlier tools have left the analog

• Author : Mohammed Ismail,José E. Franca
• Publisher : Springer Science & Business Media
• Release : 06 December 2012

Very large scale integration (VLSI) technologies are now maturing with a current emphasis toward submicron structures and sophisticated applications combining digital as well as analog circuits on a single chip. Abundant examples are found on today's advanced systems for telecom munications, robotics, automotive electronics, image processing, intelli gent sensors, etc .. Exciting new applications are being unveiled in the field of neural computing where the massive use of analog/digital VLSI technologies will have a significant impact. To match such a

• Author : Wayne Wolf
• Publisher : Pearson Education
• Release : 14 January 2002

For Electrical Engineering and Computer Engineering courses that cover the design and technology of very large scale integrated (VLSI) circuits and systems. May also be used as a VLSI reference for professional VLSI design engineers, VLSI design managers, and VLSI CAD engineers. Modern VSLI Design provides a comprehensive “bottom-up” guide to the design of VSLI systems, from the physical design of circuits through system architecture with focus on the latest solution for system-on-chip (SOC) design. Because VSLI system designers face

• Author : Seetharaman Ramachandran
• Publisher : Springer Science & Business Media
• Release : 14 June 2007

This book provides step-by-step guidance on how to design VLSI systems using Verilog. It shows the way to design systems that are device, vendor and technology independent. Coverage presents new material and theory as well as synthesis of recent work with complete Project Designs using industry standard CAD tools and FPGA boards. The reader is taken step by step through different designs, from implementing a single digital gate to a massive design consuming well over 100,000 gates. All the design codes

• Author : Michael Stefano Fritz Schaffner
• Publisher : BoD – Books on Demand
• Release : 24 October 2018

Multiview autostereoscopic displays (MADs) make it possible to view video content in 3D without wearing special glasses, and such displays have recently become available. The main problem of MADs is that they require several (typically 8 or 9) views, while most of the 3D video content is in stereoscopic 3D today. To bridge this content-display gap, the research community started to devise automatic multiview synthesis (MVS) methods. Common MVS methods are based on depth-image-based rendering, where a dense depth map of the

• Author : Ralf Seepold,Arno Kunzmann
• Publisher : Springer Science & Business Media
• Release : 06 December 2012

Reuse Techniques for VLSI Design is a reflection on the current state of the art in design reuse for microelectronic systems. To that end, it is the first book to garner the input of leading experts from both research and application areas. These experts document herein not only their more mature approaches, but also their latest research results. Firstly, it sets out the background and support from international organisations that enforce System-on-a-Chip (SoC) design by reuse- oriented methodologies. This overview

• Author : Farimah Farahmandi,Yuanwen Huang,Prabhat Mishra
• Publisher : Springer Nature
• Release : 22 November 2019

This book describes a wide variety of System-on-Chip (SoC) security threats and vulnerabilities, as well as their sources, in each stage of a design life cycle. The authors discuss a wide variety of state-of-the-art security verification and validation approaches such as formal methods and side-channel analysis, as well as simulation-based security and trust validation approaches. This book provides a comprehensive reference for system on chip designers and verification and validation engineers interested in verifying security and trust of heterogeneous SoCs.