This development provides a formal model of IEEE-754 floating-point arithmetic. This formalization, including formal specification of the standard and proofs of important properties of floating-point arith-metic, forms the foundation for verifying programs with floating-point computation. There is also a code generation setup for floats so that we can execute programs using this formalization in functional pro-gramming languages. The definitions of the IEEE standard in Isabelle is ported from HOL Light [1]
The current IEEE-754 floating point standard was adopted 23 years ago. IEEE chartered a committee to...
Floating-point computations are quickly finding their way in the design of safety- and mission-criti...
This paper presents an implementation of an extension of the ACSL specication language in the Frama-...
This development provides a formal model of IEEE-754 floating-point arithmetic. This formalization, ...
Abstract—Automated reasoning tools often provide little or no support to reason accurately and effic...
Abstract-This paper presents a formalization of the IEEE standard for binary floating-point arithmet...
This handbook aims to provide a complete overview of modern floating-point arithmetic, including a d...
IEEE floating-point arithmetic standards 754 and 854 reflect the present state of the art in designi...
Floating-point numbers have an intuitive meaning when it comes to physics-based numerical computatio...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...
International audienceThis handbook is a definitive guide to the effective use of modern floating-po...
This paper overviews the application of formal verification techniques to hardware ingeneral, and to...
In addition to specifying details of floating point formats and arithmetic operations, the IEEE 754 ...
Throughout academia and industry, formal verification techniques have become essential for asserting...
. Since they often embody compact but mathematically sophisticated algorithms, operations for comput...
The current IEEE-754 floating point standard was adopted 23 years ago. IEEE chartered a committee to...
Floating-point computations are quickly finding their way in the design of safety- and mission-criti...
This paper presents an implementation of an extension of the ACSL specication language in the Frama-...
This development provides a formal model of IEEE-754 floating-point arithmetic. This formalization, ...
Abstract—Automated reasoning tools often provide little or no support to reason accurately and effic...
Abstract-This paper presents a formalization of the IEEE standard for binary floating-point arithmet...
This handbook aims to provide a complete overview of modern floating-point arithmetic, including a d...
IEEE floating-point arithmetic standards 754 and 854 reflect the present state of the art in designi...
Floating-point numbers have an intuitive meaning when it comes to physics-based numerical computatio...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...
International audienceThis handbook is a definitive guide to the effective use of modern floating-po...
This paper overviews the application of formal verification techniques to hardware ingeneral, and to...
In addition to specifying details of floating point formats and arithmetic operations, the IEEE 754 ...
Throughout academia and industry, formal verification techniques have become essential for asserting...
. Since they often embody compact but mathematically sophisticated algorithms, operations for comput...
The current IEEE-754 floating point standard was adopted 23 years ago. IEEE chartered a committee to...
Floating-point computations are quickly finding their way in the design of safety- and mission-criti...
This paper presents an implementation of an extension of the ACSL specication language in the Frama-...