Computer Arithmetic: Algorithms and Hardware Designs, Second Edition

Computer Arithmetic: Algorithms and Hardware Designs, Second Edition
  • Hardcover: 672 pages
  • Publisher: Oxford University Press; 2nd edition (October 28, 2009)
  • Language: English
  • ISBN-10: 0195328485
  • ISBN-13: 978-0195328486
eBook Description:

Computer Arithmetic: Algorithms and Hardware Designs, Second Edition

Ideal for graduate and senior undergraduate courses in computer arithmetic and advanced digital design, Computer Arithmetic: Algorithms and Hardware Designs, Second Edition, provides a balanced, comprehensive treatment of computer arithmetic. It covers topics in arithmetic unit design and circuit implementation that complement the architectural and algorithmic speedup techniques used in high-performance computer architecture and parallel processing. Using a unified and consistent framework, the text begins with number representation and proceeds through basic arithmetic operations, floating-point arithmetic, and function evaluation methods. Later chapters cover broad design and implementation topics-including techniques for high-throughput, low-power, fault-tolerant, and reconfigurable arithmetic. An appendix provides a historical view of the field and speculates on its future.

An indispensable resource for instruction, professional development, and research, Computer Arithmetic: Algorithms and Hardware Designs, Second Edition, combines broad coverage of the underlying theories of computer arithmetic with numerous examples of practical designs, worked-out examples, and a large collection of meaningful problems. This second edition includes a new chapter on reconfigurable arithmetic, in order to address the fact that arithmetic functions are increasingly being implemented on field-programmable gate arrays (FPGAs) and FPGA-like configurable devices. Updated and thoroughly revised, the book offers new and expanded coverage of saturating adders and multipliers, truncated multipliers, fused multiply-add units, overlapped quotient digit selection, bipartite and multipartite tables, reversible logic, dot notation, modular arithmetic, Montgomery modular reduction, division by constants, IEEE floating-point standard formats, and interval arithmetic.

Evaluate & Comment:

Overall rating
  • 5 Starts
    0
  • 4 Starts
    0
  • 3 Starts
    0
  • 2 Starts
    0
  • 1 Starts
    0

Top