Boolean functional decomposition techniques built on top of Shannon cofactoring are applied to obtain specialized 4-level forms called Projected Circuits, or P-circuits. We describe their minimization by heuristic and guaranteed approximation algorithms exploiting structural don’t care conditions, and prove properties for special cases about cost estimation and testability. A specific application is synthesis for minimum switching activity, with small area penalty, where the decomposition moves toward the output critical signals with the highest switching activity. We report encouraging experiments for decomposition targeting power consumption or simply area
Boolean functional decomposition techniques built on top of Shannon cofactoring have been discussed ...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
Boolean functional decomposition techniques built on top of Shannon cofactoring are applied to obtai...
Boolean functional decomposition techniques built on top of Shannon cofactoring are applied to obtai...
This chapter investigates some restructuring techniques based on decomposition and factorization, ...
This chapter investigates some restructuring techniques based on decomposition and factorization, ...
We investigate restructuring techniques based on decomposition/factorization, with the objective to ...
We investigate restructuring techniques based on decomposition/factorization, with the objective to ...
We investigate restructuring techniques based on decomposition/factorization, with the objective to ...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
Boolean functional decomposition techniques built on top of Shannon cofactoring have been discussed ...
Boolean functional decomposition techniques built on top of Shannon cofactoring have been discussed ...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
Boolean functional decomposition techniques built on top of Shannon cofactoring are applied to obtai...
Boolean functional decomposition techniques built on top of Shannon cofactoring are applied to obtai...
This chapter investigates some restructuring techniques based on decomposition and factorization, ...
This chapter investigates some restructuring techniques based on decomposition and factorization, ...
We investigate restructuring techniques based on decomposition/factorization, with the objective to ...
We investigate restructuring techniques based on decomposition/factorization, with the objective to ...
We investigate restructuring techniques based on decomposition/factorization, with the objective to ...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
Boolean functional decomposition techniques built on top of Shannon cofactoring have been discussed ...
Boolean functional decomposition techniques built on top of Shannon cofactoring have been discussed ...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...
In this paper we propose a novel approach to the synthesis of minimal-sized lattices, based on the d...