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Explains the principles of algorithms used in arithmetic operations on digital computers:Basic arithmetic operations like addition, subtraction, multiplication, and division in fixed-point and floating-point number systems.
More complex operations such as square root extraction and evaluation of exponential, logarithmic, and trigonometric functions.
NEW!Sections on floating-point adders, floating-point exceptions, general carry-look-ahead adders, prefix adders, Ling adders, and fused multiply-add units.
New algorithms and implementations have been added to almost all chapters. An on-line JavaScript-based simulator for many of the algorithms contained in the book is available at www.ecs.umass.edu/ece/koren/arith/simulator.
Israel Koren is currently a Professor of Electrical and Computer Engineering at the University of Massachusetts, Amherst. He has been a consultant to several companies including Analog Devices, AMD, Digital Equipment Corp., IBM, Intel, National Semiconductor and Tolerant Systems Dr. Koren’s current research interests are Models for Yield of VLSI circuits, Techniques for Yield and Reliability Enhancement, Fault-Tolerant Architectures, Real-time systems and Computer Arithmetic. He has published extensively in the IEEE Transactions.
Forward to the Second Edition Preface Conventional Number Systems Unconventional Fixed-Radix Number Systems Sequential Algorithms for Multiplication and Division Binary Floating-Point Numbers Fast Addition High-Speed Multiplication Fast Division Division through Multiplication Evaluation of Elementary Function Logarithmic Number System The Residue Number System Index