Aggregated roundoff errors caused by floating-point arithmetic can make numerical code highly unreliable. Verified postconditions for floating-point functions can guarantee the accuracy of their results under specific preconditions on the function inputs, but how to systematically find an adequate precondition for a desired error bound has not been explored so far. We present two novel techniques for automatically synthesizing preconditions for floating-point functions that guarantee that user-provided accuracy requirements are satisfied. Our evaluation on a standard benchmark set shows that our approaches are complementary and able to find accurate preconditions in reasonable time
International audiencePrograms with floating-point computations are often derived from mathematical ...
This paper presents an abstract interpretation framework for the round-off error analysis of floatin...
Floating-point computations are quickly finding their way in the design of safety- and mission-crit...
Aggregated roundoff errors caused by floating-point arithmetic can make numerical code highly unreli...
We present a detailed study of roundoff errors in probabilistic floating-point computations. We deri...
We present a new tool that generates bounds on the values and the round-off errors of programs using...
In this thesis we present an approach to automated verification of floating point programs. Existing...
Rigorous a priori error bounds for floating-point computations are derived. We will show that using ...
We present a detailed study of roundoff errors in probabilistic floating-point computations. We deri...
International audiencePrograms with floating-point computations are often derived from mathematical ...
International audienceFloating-point numbers are limited both in range and in precision, yet they ar...
International audienceHigh confidence in floating-point programs requires proving numerical properti...
This paper introduces a static analysis technique for computing formally verified round-off error bo...
Invited paper - MACIS 2015 (Sixth International Conference on Mathematical Aspects of Computer and I...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...
International audiencePrograms with floating-point computations are often derived from mathematical ...
This paper presents an abstract interpretation framework for the round-off error analysis of floatin...
Floating-point computations are quickly finding their way in the design of safety- and mission-crit...
Aggregated roundoff errors caused by floating-point arithmetic can make numerical code highly unreli...
We present a detailed study of roundoff errors in probabilistic floating-point computations. We deri...
We present a new tool that generates bounds on the values and the round-off errors of programs using...
In this thesis we present an approach to automated verification of floating point programs. Existing...
Rigorous a priori error bounds for floating-point computations are derived. We will show that using ...
We present a detailed study of roundoff errors in probabilistic floating-point computations. We deri...
International audiencePrograms with floating-point computations are often derived from mathematical ...
International audienceFloating-point numbers are limited both in range and in precision, yet they ar...
International audienceHigh confidence in floating-point programs requires proving numerical properti...
This paper introduces a static analysis technique for computing formally verified round-off error bo...
Invited paper - MACIS 2015 (Sixth International Conference on Mathematical Aspects of Computer and I...
Verification of programs using floating-point arithmetic is challenging on several accounts. One of ...
International audiencePrograms with floating-point computations are often derived from mathematical ...
This paper presents an abstract interpretation framework for the round-off error analysis of floatin...
Floating-point computations are quickly finding their way in the design of safety- and mission-crit...