This dissertation investigates the problems of two distinctive formal verification techniques for verifying large scale multiplier circuits and proposes two approaches to overcome some of these problems. The first technique is equivalence checking based on recurrence relations, while the second one is the symbolic computation technique which is based on the theory of Gröbner bases. This investigation demonstrates that approaches based on symbolic computation have better scalability and more robustness than state-of-the-art equivalence checking techniques for verification of arithmetic circuits. According to this conclusion, the thesis leverages the symbolic computation technique to verify floating-point designs. It proposes a new algebraic ...
Hardware design verification is the most challenging part in overall hardware design process. It is ...
One of the most severe short-comings of currently available equiva-lence checkers is their inability...
Until recently, verifying multipliers with formal methods was not feasible, even for small input wor...
This dissertation investigates the problems of two distinctive formal verification techniques for ve...
Digitale Schaltungen modellieren digitale Komponenten und arithmetische Operationen und sind daher e...
The paper presents an algebraic approach to functional verification of gate-level, integer arithmeti...
thesisFormal verification of arithmetic circuits checks whether or not a gate-level circuit correctl...
One of the most severe short-comings of currently available equivalence checkers is their inability ...
Despite a considerable progress in verification and abstraction of random and control logic, advance...
Despite a considerable progress in verification of random and control logic, advances in formal veri...
In this thesis we describe some computer algebra techniques for the formal verification of logic or ...
We propose a method based on unrolling the inductive definition of binary number multiplication to v...
Abstract—One of the most sev ere shortcomings of currently av ailable equiv alence checkers is their...
dissertationAbstraction plays an important role in digital design, analysis, and verification, as it...
The use of formal methods to verify the correctness of digital circuits is less constrained by the g...
Hardware design verification is the most challenging part in overall hardware design process. It is ...
One of the most severe short-comings of currently available equiva-lence checkers is their inability...
Until recently, verifying multipliers with formal methods was not feasible, even for small input wor...
This dissertation investigates the problems of two distinctive formal verification techniques for ve...
Digitale Schaltungen modellieren digitale Komponenten und arithmetische Operationen und sind daher e...
The paper presents an algebraic approach to functional verification of gate-level, integer arithmeti...
thesisFormal verification of arithmetic circuits checks whether or not a gate-level circuit correctl...
One of the most severe short-comings of currently available equivalence checkers is their inability ...
Despite a considerable progress in verification and abstraction of random and control logic, advance...
Despite a considerable progress in verification of random and control logic, advances in formal veri...
In this thesis we describe some computer algebra techniques for the formal verification of logic or ...
We propose a method based on unrolling the inductive definition of binary number multiplication to v...
Abstract—One of the most sev ere shortcomings of currently av ailable equiv alence checkers is their...
dissertationAbstraction plays an important role in digital design, analysis, and verification, as it...
The use of formal methods to verify the correctness of digital circuits is less constrained by the g...
Hardware design verification is the most challenging part in overall hardware design process. It is ...
One of the most severe short-comings of currently available equiva-lence checkers is their inability...
Until recently, verifying multipliers with formal methods was not feasible, even for small input wor...