Concurrent users
Unlimited
Authorized users
Authorized users
Document Delivery Supplied
Can lend chapters, not whole ebooks
Title
Formal verification of floating-point hardware design : a mathematical approach / David M. Russinoff.
Edition
Second edition.
ISBN
9783030871819 (electronic bk.)
3030871819 (electronic bk.)
9783030871802
3030871800
Published
Cham : Springer, [2022]
Copyright
©2022
Language
English
Description
1 online resource : illustrations
Item Number
10.1007/978-3-030-87181-9 doi
Call Number
QA76.9.F67 R87 2022
Dewey Decimal Classification
004.01/51
Summary
This is the first book to focus on the problem of ensuring the correctness of floating-point hardware designs through mathematical methods. Formal Verification of Floating-Point Hardware Design, Second Edition advances a verification methodology based on a unified theory of register-transfer logic and floating-point arithmetic that has been developed and applied to the formal verification of commercial floating-point units over the course of more than two decades, during which the author was employed by several major microprocessor design companies. The theory is extended to the analysis of several algorithms and optimization techniques that are commonly used in commercial implementations of elementary arithmetic operations. As a basis for the formal verification of such implementations, high-level specifications of the basic arithmetic instructions of several major industry-standard floating-point architectures are presented, including all details pertaining to the handling of exceptional conditions. The methodology is illustrated in the comprehensive verification of a variety of state-of-the-art commercial floating-point designs developed by Arm Holdings. This revised edition reflects the evolving microarchitectures and increasing sophistication of Arm processors, and the variation in the design goals of execution speed, hardware area requirements, and power consumption. Many new results have been added to Parts IIII (Register-Transfer Logic, Floating-Point Arithmetic, and Implementation of Elementary Operations), extending the theory and describing new techniques. These were derived as required in the verification of the new RTL designs described in Part V.
Bibliography, etc. Note
Includes bibliographical references and index.
Access Note
Access limited to authorized users.
Source of Description
Description based on print version record.
Part I - Register-Transfer Logic
Basic Arithmetic Functions
Bit Vectors
Logical Operations
Part II - Floating-Point Arithmetic
Floating-Point Numbers
Floating-Point Formats
Rounding
IEEE-Compliant Square Root
Part III - Implementation of Elementary Operations
Addition
Multiplication
SRT Division and Square Root
FMA-Based Division
Part IV - Comparative Architectures: SSE, x87, and Arm
SSE Floating-Point Instructions
x87 Instructions
Arm Floating-Point
Instructions
Part V - Formal Verification of RTL Designs
The RAC Modeling Language
Double-Precision Multiplication and Scaling
Double-Precision Addition and FMA
Multi-Precision Radix-8 SRT Division
64-bit Integer Division
Multi-Precision Radix-4 SRT Square Root
Multi-Precision Radix-2 SRT Division
Fused Multiply-Add of a Graphics Processor.