UID:
almahu_9948026648202882
Format:
1 online resource (809 p.)
Edition:
1st edition
ISBN:
1-280-96684-X
,
9786610966844
,
0-08-047479-9
Series Statement:
The Morgan Kaufmann series in systems on silicon
Content:
This book is a comprehensive guide to new DFT methods that will show the readers how to design a testable and quality product, drive down test cost, improve product quality and yield, and speed up time-to-market and time-to-volume.· Most up-to-date coverage of design for testability. · Coverage of industry practices commonly found in commercial DFT tools but not discussed in other books. · Numerous, practical examples in each chapter illustrating basic VLSI test principles and DFT architectures.· Lecture slides and exercise solutions for all chapters are now available.·
Note:
Description based upon print version of record.
,
Front cover; Title page; Copyright page; Table of contents; Preface; In the Classroom; Acknowledgments; Contributors; About the Editors; 1 Introduction; Importance of Testing; Testing During the VLSI Lifecycle; VLSI Development Process; Design Verification; Yield and Reject Rate; Electronic System Manufacturing Process; System-Level Operation; Challenges in VLSI Testing; Test Generation; Fault Models; Stuck-At Faults; Transistor Faults; Open and Short Faults; Delay Faults and Crosstalk; Pattern Sensitivity and Coupling Faults; Analog Fault Models; Levels of Abstraction in VLSI Testing
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Register-Transfer Level and Behavioral Level Gate Level; Switch Level; Physical Level; Historical Review of VLSI Test Technology; Automatic Test Equipment; Automatic Test Pattern Generation; Fault Simulation; Digital Circuit Testing; Analog and Mixed-Signal Circuit Testing; Design for Testability; Board Testing; Boundary Scan Testing; Concluding Remarks; Exercises; Acknowledgments; References; 2 Design for Testability; Introduction; Testability Analysis; SCOAP Testability Analysis; Combinational Controllability and Observability Calculation
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Sequential Controllability and Observability Calculation Probability-Based Testability Analysis; Simulation-Based Testability Analysis; RTL Testability Analysis; Design for Testability Basics; Ad Hoc Approach; Test Point Insertion; Structured Approach; Scan Cell Designs; Muxed-D Scan Cell; Clocked-Scan Cell; LSSD Scan Cell; Scan Architectures; Full-Scan Design; Muxed-D Full-Scan Design; Clocked Full-Scan Design; LSSD Full-Scan Design; Partial-Scan Design; Random-Access Scan Design; Scan Design Rules; Tristate Buses; Bidirectional I/O Ports; Gated Clocks; Derived Clocks
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Combinational Feedback Loops Asynchronous Set/Reset Signals; Scan Design Flow; Scan Design Rule Checking and Repair; Scan Synthesis; Scan Configuration; Scan Replacement; Scan Reordering; Scan Stitching; Scan Extraction; Scan Verification; Verifying the Scan Shift Operation; Verifying the Scan Capture Operation; Scan Design Costs; Special-Purpose Scan Designs; Enhanced Scan; Snapshot Scan; Error-Resilient Scan; RTL Design for Testability; RTL Scan Design Rule Checking and Repair; RTL Scan Synthesis; RTL Scan Extraction and Scan Verification; Concluding Remarks; Exercises; Acknowledgments
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References 3 Logic and Fault Simulation; Introduction; Logic Simulation for Design Verification; Fault Simulation for Test and Diagnosis; Simulation Models; Gate-Level Network; Sequential Circuits; Logic Symbols; Unknown State u; High-Impedance State Z; Intermediate Logic States; Logic Element Evaluation; Truth Tables; Input Scanning; Input Counting; Parallel Gate Evaluation; Timing Models; Transport Delay; Inertial Delay; Wire Delay; Functional Element Delay Model; Logic Simulation; Compiled-Code Simulation; Logic Optimization; Logic Levelization; Code Generation; Event-Driven Simulation
,
Nominal-Delay Event-Driven Simulation
,
English
Additional Edition:
ISBN 1-4933-0086-5
Additional Edition:
ISBN 0-12-370597-5
Language:
English