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Spectral Logic and Its Applications for the Design of Digital Devices

Book Description

Spectral techniques facilitate the design and testing of today's increasingly complex digital devices

There is heightened interest in spectral techniques for the design of digital devices dictated by ever increasing demands on technology that often cannot be met by classical approaches. Spectral methods provide a uniform and consistent theoretic environment for recent achievements in this area, which appear divergent in many other approaches. Spectral Logic and Its Applications for the Design of Digital Devices gives readers a foundation for further exploration of abstract harmonic analysis over finite groups in the analysis, design, and testing of digital devices. After an introduction, this book provides the essential mathematical background for discussing spectral methods. It then delves into spectral logic and its applications, covering:

  • Walsh, Haar, arithmetic transform, Reed-Muller transform for binary-valued functions and Vilenkin-Chrestenson transform, generalized Haar, and other related transforms for multiple-valued functions

  • Polynomial expressions and decision diagram representations for switching and multiple-value functions

  • Spectral analysis of Boolean functions

  • Spectral synthesis and optimization of combinational and sequential devices

  • Spectral methods in analysis and synthesis of reliable devices

  • Spectral techniques for testing computer hardware

This is the authoritative reference for computer science and engineering professionals and researchers with an interest in spectral methods of representing discrete functions and related applications in the design and testing of digital devices. It is also an excellent text for graduate students in courses covering spectral logic and its applications.

Table of Contents

  1. Cover Page
  2. Title Page
  3. Copyright
  4. Contents
  5. PREFACE
  6. ACKNOWLEDGEMENTS
  7. LIST OF FIGURES
  8. LIST OF TABLES
  9. ACRONYMS
  10. CHAPTER 1: LOGIC FUNCTIONS
    1. 1.1 DISCRETE FUNCTIONS
    2. 1.2 TABULAR REPRESENTATIONS OF DISCRETE FUNCTIONS
    3. 1.3 FUNCTIONAL EXPRESSIONS
    4. 1.4 DECISION DIAGRAMS FOR DISCRETE FUNCTIONS
    5. 1.5 SPECTRAL REPRESENTATIONS OF LOGIC FUNCTIONS
    6. 1.6 FIXED-POLARITY REED–MULLER EXPRESSIONS OF LOGIC FUNCTIONS
    7. 1.7 KRONECKER EXPRESSIONS OF LOGIC FUNCTIONS
    8. 1.8 CIRCUIT IMPLEMENTATION OF LOGIC FUNCTIONS
  11. CHAPTER 2: SPECTRAL TRANSFORMS FOR LOGIC FUNCTIONS
    1. 2.1 ALGEBRAIC STRUCTURES FOR SPECTRAL TRANSFORMS
    2. 2.2 FOURIER SERIES
    3. 2.3 BASES FOR SYSTEMS OF BOOLEAN FUNCTIONS
    4. 2.4 WALSH RELATED TRANSFORMS
    5. 2.5 BASES FOR SYSTEMS OF MULTIPLE-VALUED FUNCTIONS
    6. 2.6 PROPERTIES OF DISCRETE WALSH AND VILENKIN–CHRESTENSON TRANSFORMS
    7. 2.7 AUTOCORRELATION AND CROSS-CORRELATION FUNCTIONS
    8. 2.8 HARMONIC ANALYSIS OVER AN ARBITRARY FINITE ABELIAN GROUP
    9. 2.9 FOURIER TRANSFORM ON FINITE NON-ABELIAN GROUPS
  12. CHAPTER 3: CALCULATION OF SPECTRAL TRANSFORMS
    1. 3.1 CALCULATION OF WALSH SPECTRA
    2. 3.2 CALCULATION OF THE HAAR SPECTRUM
    3. 3.3 CALCULATION OF THE VILENKIN–CHRESTENSON SPECTRUM
    4. 3.4 CALCULATION OF THE GENERALIZED HAAR SPECTRUM
    5. 3.5 CALCULATION OF AUTOCORRELATION FUNCTIONS
  13. CHAPTER 4: SPECTRAL METHODS IN OPTIMIZATION OF DECISION DIAGRAMS
    1. 4.1 REDUCTION OF SIZES OF DECISION DIAGRAMS
    2. 4.2 CONSTRUCTION OF LINEARLY TRANSFORMED BINARY DECISION DIAGRAMS
    3. 4.3 CONSTRUCTION OF LINEARLY TRANSFORMED PLANAR BDD
    4. 4.4 SPECTRAL INTERPRETATION OF DECISION DIAGRAMS
  14. CHAPTER 5: ANALYSIS AND OPTIMIZATION OF LOGIC FUNCTIONS
    1. 5.1 SPECTRAL ANALYSIS OF BOOLEAN FUNCTIONS
    2. 5.2 ANALYSIS AND SYNTHESIS OF THRESHOLD ELEMENT NETWORKS
    3. 5.3 COMPLEXITY OF LOGIC FUNCTIONS
    4. 5.4 SERIAL DECOMPOSITION OF SYSTEMS OF SWITCHING FUNCTIONS
    5. 5.5 PARALLEL DECOMPOSITION OF SYSTEMS OF SWITCHING FUNCTIONS
  15. CHAPTER 6: SPECTRAL METHODS IN SYNTHESIS OF LOGIC NETWORKS
    1. 6.1 SPECTRAL METHODS OF SYNTHESIS OF COMBINATORIAL DEVICES
    2. 6.2 SPECTRAL METHODS FOR SYNTHESIS OF INCOMPLETELY SPECIFIED FUNCTIONS
    3. 6.3 SPECTRAL METHODS OF SYNTHESIS OF MULTIPLE-VALUED FUNCTIONS
    4. 6.4 SPECTRAL SYNTHESIS OF DIGITAL FUNCTIONS AND SEQUENCES GENERATORS
  16. CHAPTER 7: SPECTRAL METHODS OF SYNTHESIS OF SEQUENTIAL MACHINES
    1. 7.1 REALIZATION OF FINITE AUTOMATA BY SPECTRAL METHODS
    2. 7.2 ASSIGNMENT OF STATES AND INPUTS FOR COMPLETELY SPECIFIED AUTOMATA
    3. 7.3 STATE ASSIGNMENT FOR INCOMPLETELY SPECIFIED AUTOMATA
    4. 7.4 SOME SPECIAL CASES OF THE ASSIGNMENT PROBLEM
  17. CHAPTER 8: HARDWARE IMPLEMENTATION OF SPECTRAL METHODS
    1. 8.1 SPECTRAL METHODS OF SYNTHESIS WITH ROM
    2. 8.2 SERIAL IMPLEMENTATION OF SPECTRAL METHODS
    3. 8.3 SEQUENTIAL HAAR NETWORKS
    4. 8.4 COMPLEXITY OF SERIAL REALIZATION BY HAAR SERIES
    5. 8.5 PARALLEL REALIZATION OF SPECTRAL METHODS OF SYNTHESIS
    6. 8.6 COMPLEXITY OF PARALLEL REALIZATION
    7. 8.7 REALIZATION BY EXPANSIONS OVER FINITE FIELDS
  18. CHAPTER 9: SPECTRAL METHODS OF ANALYSIS AND SYNTHESIS OF RELIABLE DEVICES
    1. 9.1 SPECTRAL METHODS FOR ANALYSIS OF ERROR CORRECTING CAPABILITIES
    2. 9.2 SPECTRAL METHODS FOR SYNTHESIS OF RELIABLE DIGITAL DEVICES
    3. 9.3 CORRECTING CAPABILITY OF SEQUENTIAL MACHINES
    4. 9.4 SYNTHESIS OF FAULT-TOLERANT AUTOMATA WITH SELF-ERROR CORRECTION
    5. 9.5 COMPARISON OF SPECTRAL AND CLASSICAL METHODS
  19. CHAPTER 10: SPECTRAL METHODS FOR TESTING OF DIGITAL SYSTEMS
    1. 10.1 TESTING AND DIAGNOSIS BY VERIFICATION OF WALSH COEFFICIENTS
    2. 10.2 FUNCTIONAL TESTING, ERROR DETECTION, AND CORRECTION BY LINEAR CHECKS
    3. 10.3 LINEAR CHECKS FOR PROCESSORS
    4. 10.4 LINEAR CHECKS FOR ERROR DETECTION IN POLYNOMIAL COMPUTATIONS
    5. 10.5 CONSTRUCTION OF OPTIMAL LINEAR CHECKS FOR POLYNOMIAL COMPUTATIONS
    6. 10.6 IMPLEMENTATIONS AND ERROR-DETECTING CAPABILITIES OF LINEAR CHECKS
    7. 10.7 TESTING FOR NUMERICAL COMPUTATIONS
    8. 10.8 OPTIMAL INEQUALITY CHECKS AND ERROR-CORRECTING CODES
    9. 10.9 ERROR DETECTION IN COMPUTER MEMORIES BY LINEAR CHECKS
    10. 10.10 LOCATION OF ERRORS IN ROMs BY TWO ORTHOGONAL INEQUALITY CHECKS
    11. 10.11 DETECTION AND LOCATION OF ERRORS IN RANDOM-ACCESS MEMORIES
  20. CHAPTER 11: EXAMPLES OF APPLICATIONS AND GENERALIZATIONS OF SPECTRAL METHODS ON LOGIC FUNCTIONS
    1. 11.1 TRANSFORMS DESIGNED FOR PARTICULAR APPLICATIONS
    2. 11.2 WAVELET TRANSFORMS
    3. 11.3 FIBONACCI TRANSFORMS
    4. 11.4 TWO-DIMENSIONAL SPECTRAL TRANSFORMS
    5. 11.5 APPLICATION OF THE WALSH TRANSFORM IN BROADBAND RADIO
  21. APPENDIX A
  22. REFERENCES
  23. INDEX