We consider the problem of verifying finite precision implementation of linear time-invariant controllers against mathematical specifications. A specification may have multiple correct implementations which are different from each other in controller state representation, but equivalent from a perspective of input-output behavior (e.g., due to optimization in a code generator). The implementations may use finite precision computations (e.g. floating-point arithmetic) which cause quantization (i.e., roundoff) errors. To address these challenges, we first extract a controller\u27s mathematical model from the implementation via symbolic execution and floating-point error analysis, and then check approximate input-output equivalence between the...
Writing accurate numerical software is hard because of many sources of unavoidable uncertainties, in...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
In this thesis, we describe and evaluate approaches for the efficient reasoning of realworld C progr...
We consider the problem of verifying finite precision implementation of linear time-invariant contro...
We consider the problem of verifying software implementations of linear time-invariant controllers a...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
© 2015 IEEE.We consider the problem of verification of software implementations of linear time-invar...
We consider the problem of verification of software implementations of linear time-invariant control...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
This paper is concerned with the problem of validation in the context of numerical computations in c...
The paper analyzes the properties of the controller coefficient perturbation resulting from using fi...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
The paper analyzes the properties of the controller coefficient perturbation resulting from using fi...
Abstract: A computationally tractable finite word length (FWL) closed-loop stability measure is deri...
Writing accurate numerical software is hard because of many sources of unavoidable uncertainties, in...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
In this thesis, we describe and evaluate approaches for the efficient reasoning of realworld C progr...
We consider the problem of verifying finite precision implementation of linear time-invariant contro...
We consider the problem of verifying software implementations of linear time-invariant controllers a...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
© 2015 IEEE.We consider the problem of verification of software implementations of linear time-invar...
We consider the problem of verification of software implementations of linear time-invariant control...
Many safety-critical cyber-physical systems have a software-based controller at their core. Since th...
This paper is concerned with the problem of validation in the context of numerical computations in c...
The paper analyzes the properties of the controller coefficient perturbation resulting from using fi...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
The paper analyzes the properties of the controller coefficient perturbation resulting from using fi...
Abstract: A computationally tractable finite word length (FWL) closed-loop stability measure is deri...
Writing accurate numerical software is hard because of many sources of unavoidable uncertainties, in...
The paper investigates the closed-loop stability issue of finite-precision realizations for digital ...
In this thesis, we describe and evaluate approaches for the efficient reasoning of realworld C progr...