IEEE floating-point arithmetic standards 754 and 854 reflect the present state of the art in designing and implementing floating-point arithmetic units. A formalism applied to a standard non-trapping mode floating-point system shows incorrectness of some numeric and non-numeric results. A software emulation of decimal floating-point computer arithmetic supporting an enhanced set of exception symbols is reported. Some implementation details, discussion of some open questions about utility and consistency of the implemented arithmetic with the IEEE Standards are provided. The potential benefit for computations with infinite symbolic elements is outlined
Abstract-This paper presents a formalization of the IEEE standard for binary floating-point arithmet...
Abstract—Automated reasoning tools often provide little or no support to reason accurately and effic...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...
Floating-point numbers have an intuitive meaning when it comes to physics-based numerical computatio...
The current IEEE-754 floating point standard was adopted 23 years ago. IEEE chartered a committee to...
The IEEE 754 standard does not distinguish between exact and inexact floating-point numbers. There i...
This handbook is a definitive guide to the effective use of modern floating-point arithmetic, which ...
International audienceThis handbook is a definitive guide to the effective use of modern floating-po...
This development provides a formal model of IEEE-754 floating-point arithmetic. This formalization, ...
GEM computer users, for better or for worse, will interact with the IEEE Standard for Binary Floatin...
this paper. In 1985, the Institute of Electrical and Electronic Engineers published IEEE Standard 75...
The widely implemented and used IEEE-754 Floating-point specification defines a method by which floa...
Floating-point arithmetic is considered an esotoric subject by many people. This is rather surprisin...
Floating-point arithmetic is considered an esotoric subject by many people. This is rather surprisin...
Abstract-This paper presents a formalization of the IEEE standard for binary floating-point arithmet...
Abstract—Automated reasoning tools often provide little or no support to reason accurately and effic...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...
Floating-point numbers have an intuitive meaning when it comes to physics-based numerical computatio...
The current IEEE-754 floating point standard was adopted 23 years ago. IEEE chartered a committee to...
The IEEE 754 standard does not distinguish between exact and inexact floating-point numbers. There i...
This handbook is a definitive guide to the effective use of modern floating-point arithmetic, which ...
International audienceThis handbook is a definitive guide to the effective use of modern floating-po...
This development provides a formal model of IEEE-754 floating-point arithmetic. This formalization, ...
GEM computer users, for better or for worse, will interact with the IEEE Standard for Binary Floatin...
this paper. In 1985, the Institute of Electrical and Electronic Engineers published IEEE Standard 75...
The widely implemented and used IEEE-754 Floating-point specification defines a method by which floa...
Floating-point arithmetic is considered an esotoric subject by many people. This is rather surprisin...
Floating-point arithmetic is considered an esotoric subject by many people. This is rather surprisin...
Abstract-This paper presents a formalization of the IEEE standard for binary floating-point arithmet...
Abstract—Automated reasoning tools often provide little or no support to reason accurately and effic...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...