03281nam a22002177a 4500003000400000005001700004008004100021020002200062028005800084040002400142082001700166100002000183245001600203250000900219260004500228300000800273500100600281504067601287520108401963650001603047OSt20190523155606.0190523b ||||| |||| 00| 0 eng d a978-0-19-809486-8 bAllied Informatics, Jaipurc6195d20/05/2019q2019-20 aBSDUbEnglishcBSDU a621.395bDAS aDas, Debaprasad aVLSI Design b2nd  aNew DelhibOxford University Pressc2015 a626 aThis second edition of VLSI Design is a comprehensive textbook designed for undergraduate students of electrical, electronics, and electronics and communication engineering. It provides a thorough understanding of the fundamental concepts and design of VLSI systems. Beginning with an introduction to VLSI systems and basic concepts of MOS transistors, the book then proceeds to describe the various concepts of VLSI, such as the structure and operation of MOS transistors and inverters, standard cell library design and its characterization, analog and digital CMOS logic design, semiconductor memories, and BiCMOS technology and circuits. It then provides an exhaustive step-wise discussion of the various stages involved in designing a VLSI chip (which includes logic synthesis, timing analysis, floor planning, placement and routing, verification, and testing). In addition, the book includes chapters on FPGA architecture, VLSI process technology, subsystem design, and low-power logic circuits. aContents Chapter 1: Introduction to VLSI Systems Chapter 2: MOS Transistors Chapter 3: MOS Inverters Chapter 4: Standard Cell Library Design and Characterization Chapter 5: Analog CMOS Design Chapter 6: Digital CMOS Logic Design Chapter 7: Semiconductor Memories Chapter 8: BiCMOS Technology and Circuits Chapter 9: Logic Synthesis Chapter 10: Timing Analysis Chapter 11: Physical Design—Floorplanning, Placement, and Routing Chapter 12: Verification and Reliability Analysis Chapter 13: IC Packaging Chapter 14: VLSI Testing Chapter 15: Field Programmable Gate Array Chapter 16: VLSI Process Technology Chapter 17: Subsystem Design Chapter 18: Low Power Logic Circuits aFeatures All the steps of VLSI design have been incorporated keeping in mind the industry perspective Terminologies used exclusively in the real design process are followed throughout the book Connection between VLSI design and CAD tools is also drawn in this book Different state-of-the-art electronic design automation (EDA) tools have been explained in detail Numerous review questions and unsolved problems provided as end-chapter exercises to help readers assess their understanding of the concepts discussed New to the Second Edition Chapters on MOS inverters, sub-system design, semiconductor memories, and low power logic circuits Sections on resonant tunnelling diodes, single electron transistors, spin transistors, ballistic electron devices, organic field effect transistors, carbon nanotubes, molecular transistors, small signal analysis of single-stage amplifiers, working principle of bistable circuits, and design of CMOS D flip-flops Revised and expanded coverage of topics such as PLD, Elmore delay model, Domino and NORA CMOS logic, and gate and device sizing aElectronics