In the following basic principles of algorithms computing guaranteed bounds are developed from a theoretical and a practical point of view. Some fundamental theoretical facts are repeated where, for more detailed information, the reader is referred to the literature (...) Furthermore practical aspects are discussed, especially how the process of computing a guaranteed result really works performed by means of checking assumptions of mathematical theorems. This checking process is performed automatically. The various steps from the mathematical theorem down to the practical verification are described in detail. In contrast, standard floating-point algorithms usually deliver good approximations to the solution of a given numerical problem b...
(eng) We present a new tool that generates bounds on the values and the round-off errors of programs...
Formal verification of complex algorithms is challenging. Verifying their implementations goes beyon...
In this thesis we present an approach to automated verification of floating point programs. Existing...
In the following basic principles of algorithms computing guaranteed bounds are developed from a the...
The computational results of traditional numerical algorithms on computers are usually good approxim...
International audienceFloating-point arithmetic is ubiquitous in modern computing, as it is the tool...
We present a method for formal verification of transcendental hardware and software algorithms that ...
International audienceComputer arithmetic has applied formal methods and formal proofs for years. As...
International audienceFloating-point arithmetic is a very efficient solution to perform computa-tion...
Traditional design of numerical software with result verification is based on the assumption that we...
International audienceFloating-point numbers are limited both in range and in precision, yet they ar...
Formal verification of complex algorithms is challenging. Verifying their implementations goes beyo...
Naive computations with real numbers on computers may cause serious errors. In traditional numerical...
International audienceFloating-point numbers are limited both in range and in precision, yet they ar...
(eng) We present a new tool that generates bounds on the values and the round-off errors of programs...
Formal verification of complex algorithms is challenging. Verifying their implementations goes beyon...
In this thesis we present an approach to automated verification of floating point programs. Existing...
In the following basic principles of algorithms computing guaranteed bounds are developed from a the...
The computational results of traditional numerical algorithms on computers are usually good approxim...
International audienceFloating-point arithmetic is ubiquitous in modern computing, as it is the tool...
We present a method for formal verification of transcendental hardware and software algorithms that ...
International audienceComputer arithmetic has applied formal methods and formal proofs for years. As...
International audienceFloating-point arithmetic is a very efficient solution to perform computa-tion...
Traditional design of numerical software with result verification is based on the assumption that we...
International audienceFloating-point numbers are limited both in range and in precision, yet they ar...
Formal verification of complex algorithms is challenging. Verifying their implementations goes beyo...
Naive computations with real numbers on computers may cause serious errors. In traditional numerical...
International audienceFloating-point numbers are limited both in range and in precision, yet they ar...
(eng) We present a new tool that generates bounds on the values and the round-off errors of programs...
Formal verification of complex algorithms is challenging. Verifying their implementations goes beyon...
In this thesis we present an approach to automated verification of floating point programs. Existing...