One application of equivalence checking is to establish correspondence between a high-level, abstract design and a low-level implementation. We propose a new partitioning technique for the case in which the two designs are substantially different and traditional equivalence-point insertion fails. The partitioning is performed in tandem in both models, exploiting the structure present in the high-level model. The approach generates many but tractable SAT/SMT queries. We present experimental data quantifying the benefit of our partitioning method for both combinational and sequential equivalence checking of difficult arithmetic circuits and control-intensive circuits
Equivalence checking tools often use a flip-flop matching step to avoid the state space traversal. D...
ABSTRACT. In this paper we develop a theory of equivalence checking (EC) and logic synthesis of circ...
This paper presents a method for verifying that two hierarchical combinational circuits implement th...
Abstract — Combinational equivalence checking is an essential task in circuit design. In this paper ...
Because general algorithms for sequential equivalence checking require a state space traversal of th...
The paper explores several ways to improve the speed and capacity of combinational equivalence check...
Full sequential equivalence checking by state space traversal has been shown to be unpractical for l...
128 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1998.We address the issue of trans...
Checking the functional equivalence of sequential circuits is an important practical problem. Becaus...
We propose a novel technique to improve SAT-based Combinational Equivalence Checking (CEC). The idea...
In this paper, we address the problem of verifying the equivalence of two sequential circuits. State...
We introduce a new equivalence checking method based on abstract BDDs (aBDDs). The basic idea is the...
This paper was first presented at the Symposium on Complexity of Computer Computations, IBM Thomas J...
[[abstract]]In this paper, we address the problem of verifying the equivalence of two sequential cir...
A short version of this report was published at SPIN'2008.Equivalence checking is a classical verifi...
Equivalence checking tools often use a flip-flop matching step to avoid the state space traversal. D...
ABSTRACT. In this paper we develop a theory of equivalence checking (EC) and logic synthesis of circ...
This paper presents a method for verifying that two hierarchical combinational circuits implement th...
Abstract — Combinational equivalence checking is an essential task in circuit design. In this paper ...
Because general algorithms for sequential equivalence checking require a state space traversal of th...
The paper explores several ways to improve the speed and capacity of combinational equivalence check...
Full sequential equivalence checking by state space traversal has been shown to be unpractical for l...
128 p.Thesis (Ph.D.)--University of Illinois at Urbana-Champaign, 1998.We address the issue of trans...
Checking the functional equivalence of sequential circuits is an important practical problem. Becaus...
We propose a novel technique to improve SAT-based Combinational Equivalence Checking (CEC). The idea...
In this paper, we address the problem of verifying the equivalence of two sequential circuits. State...
We introduce a new equivalence checking method based on abstract BDDs (aBDDs). The basic idea is the...
This paper was first presented at the Symposium on Complexity of Computer Computations, IBM Thomas J...
[[abstract]]In this paper, we address the problem of verifying the equivalence of two sequential cir...
A short version of this report was published at SPIN'2008.Equivalence checking is a classical verifi...
Equivalence checking tools often use a flip-flop matching step to avoid the state space traversal. D...
ABSTRACT. In this paper we develop a theory of equivalence checking (EC) and logic synthesis of circ...
This paper presents a method for verifying that two hierarchical combinational circuits implement th...