The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network symbolically. That is, during simulator operation the user can set an input to either 0, 1, or a Boolean variable. The simulator then computes the behavior of the circuit as a function of the past and present input variables. By using heuristically efficient Boolean function manipulation algorithms, the verification of a circuit by symbolic simulation can proceed much more quickly than by exhaustive logic simulation. In this paper we present our concept of symbolic simulation, derive an algorithm for switch-level symbolic simulation, and present experimental measurements from MOSSYM
This paper presents a method to automatically recog-nize and model single and multi-output logic gat...
Journal ArticleWe present a symbolic simulation based verification approach which can be applied to ...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...
A logic simulator can prove the correctness of a digital circuit when it can be shown that only circ...
technical reportThis thesis addresses the issues related to the symbolic simulation-based verificati...
Symbolic simulation involves evaluating circuit behavior using special symbolic values to encode a r...
A logic simulator can prove the correctness of a digital circuit if it can be shown that only circui...
The switch-level model describes the logical behavior of digital systems implemented in metal oxide ...
The switch-level model describes the logical behavior of digital circuits implemented in metal ox...
Symbolic switch-level simulation has been extensively applied to the functional verification of comp...
The use of formal methods to verify the correctness of digital circuits is less constrained by the g...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
Switch-level simulation has become an indispensable tool in the verification of large MOS circuits. ...
We present a way to abstract functional units in symbolic simulation of actual circuits, thus achiev...
Abstract. We present a way to abstract functional units in symbolic simulation of actual circuits, t...
This paper presents a method to automatically recog-nize and model single and multi-output logic gat...
Journal ArticleWe present a symbolic simulation based verification approach which can be applied to ...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...
A logic simulator can prove the correctness of a digital circuit when it can be shown that only circ...
technical reportThis thesis addresses the issues related to the symbolic simulation-based verificati...
Symbolic simulation involves evaluating circuit behavior using special symbolic values to encode a r...
A logic simulator can prove the correctness of a digital circuit if it can be shown that only circui...
The switch-level model describes the logical behavior of digital systems implemented in metal oxide ...
The switch-level model describes the logical behavior of digital circuits implemented in metal ox...
Symbolic switch-level simulation has been extensively applied to the functional verification of comp...
The use of formal methods to verify the correctness of digital circuits is less constrained by the g...
Symbolic trajectory evaluation is a new approach to formal hardware verification combining the cir...
Switch-level simulation has become an indispensable tool in the verification of large MOS circuits. ...
We present a way to abstract functional units in symbolic simulation of actual circuits, thus achiev...
Abstract. We present a way to abstract functional units in symbolic simulation of actual circuits, t...
This paper presents a method to automatically recog-nize and model single and multi-output logic gat...
Journal ArticleWe present a symbolic simulation based verification approach which can be applied to ...
Ternary system modeling involves extending the traditional set of binary values {01} with a third va...