Add to ORKGAnd-Inverter Graphs (AIGs) are a popular way to represent Boolean functions (like circuits). AIG simplification algorithms can dramatically reduce an AIG, and play an important role in modern hardware verification tools like equivalence checkers. In practice, these tricky algorithms are im-plemented with optimized C or C++ routines with no guarantee of correctness. Meanwhile, many interactive theorem provers can now employ SAT or SMT solvers to automatically solve finite goals, but no theorem prover makes use of these advanced, AIG-based approaches. We have developed two ways to represent AIGs within the ACL2 theorem prover. One repre-sentation, Hons-AIGs, is especially convenient to use and reason about. The other, Aignet, is the opposite;...
Reversible logic synthesis is one of the best suited ways which act as the intermediate step for syn...
Ubiquitous computer technology is driving increasing integration of digital computing with continuou...
This article proposes a new logic synthesis and verification paradigm based on circuit simulation. I...
And-Inverter Graphs (AIGs) are a popular way to represent Boolean functions (like circuits). AIG sim...
AND-INV graphs (AIGs) are Boolean networks composed of two-input AND-gates and inverters. They can b...
Restructuring techniques for And-Inverter Graphs (AIG), such as rewriting and refactoring, are power...
Restructuring techniques for And-Inverter Graphs (AIG), such as rewriting and refactoring, are power...
In this paper, we present Majority-Inverter Graph (MIG), a novel logic representation structure for ...
Structural representation and technology mapping of a Boolean function is an important problem in th...
We propose effective algorithms for exact synthesis of Boolean logic networks using satisfiability m...
Majority-inverter graphs (MIGs) are a multi-level logic representation of Boolean functions with rem...
A Field-Programmable Gate Array (FPGA) is a general re-configurable device for implementing logic ci...
Restructuring techniques for And-Inverter Graphs (AIG), such as rewriting and refactoring, are power...
We present a Boolean logic optimization framework based on Majority-Inverter Graph (MIG). An MIG is ...
Abstract Verification has grown to dominate the cost of electronic system design, consuming about 60...
Reversible logic synthesis is one of the best suited ways which act as the intermediate step for syn...
Ubiquitous computer technology is driving increasing integration of digital computing with continuou...
This article proposes a new logic synthesis and verification paradigm based on circuit simulation. I...
And-Inverter Graphs (AIGs) are a popular way to represent Boolean functions (like circuits). AIG sim...
AND-INV graphs (AIGs) are Boolean networks composed of two-input AND-gates and inverters. They can b...
Restructuring techniques for And-Inverter Graphs (AIG), such as rewriting and refactoring, are power...
Restructuring techniques for And-Inverter Graphs (AIG), such as rewriting and refactoring, are power...
In this paper, we present Majority-Inverter Graph (MIG), a novel logic representation structure for ...
Structural representation and technology mapping of a Boolean function is an important problem in th...
We propose effective algorithms for exact synthesis of Boolean logic networks using satisfiability m...
Majority-inverter graphs (MIGs) are a multi-level logic representation of Boolean functions with rem...
A Field-Programmable Gate Array (FPGA) is a general re-configurable device for implementing logic ci...
Restructuring techniques for And-Inverter Graphs (AIG), such as rewriting and refactoring, are power...
We present a Boolean logic optimization framework based on Majority-Inverter Graph (MIG). An MIG is ...
Abstract Verification has grown to dominate the cost of electronic system design, consuming about 60...
Reversible logic synthesis is one of the best suited ways which act as the intermediate step for syn...
Ubiquitous computer technology is driving increasing integration of digital computing with continuou...
This article proposes a new logic synthesis and verification paradigm based on circuit simulation. I...