The program TRANALYZE generates a gate-level representation of an MOS transistor circuit. The resulting model contains only four-valued unit and zero delay logic primitives, suitable for evaluation by conventional gate-level simulators and hardware simulation accelerators. TRANALYZE has the same generality and accuracy as switch-level simulation, generating models for a wide range of technologies and design styles, while expressing the detailed effects of bidirectional transistors, stored charge, and multiple signal strengths. It produces models with size comparable to ones generated by hand. </p
The design and verification of a electronic circuit requires much expertise and intelligent tools an...
In this dissertation, the use of extracted functional models in some typical Computer-Aided-Design a...
Each year semiconductor manufacturers spend millions of dollars in the development of new products. ...
The program TRANALYZE generates a gate-level representation of an MOS transistor circuit. The result...
The program TRANALYZE generates a gate-level representation of an MOS transistor circuit. The result...
This paper presents a method to automatically recog-nize and model single and multi-output logic gat...
The paper describes a new technique for extracting clock level finite state machines (FSMs) from tra...
The switch-level model describes the logical behavior of digital circuits implemented in metal ox...
The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network sym...
The switch-level model describes the logical behavior of digital systems implemented in metal oxide ...
Our goal is to transform a low-level circuit design into a more abstract representation. This is don...
The model is implemented as a charge controlled model using object-oriented pro-gramming and automat...
This paper describes an algorithm for the simulation of gate-level logic. Multiple logic levels are ...
Symbolic simulation involves evaluating circuit behavior using special symbolic values to encode a r...
NUMBER OF PAGES: xiii+394We use a formal tool to extract Finite State Machines (FSM) based represent...
The design and verification of a electronic circuit requires much expertise and intelligent tools an...
In this dissertation, the use of extracted functional models in some typical Computer-Aided-Design a...
Each year semiconductor manufacturers spend millions of dollars in the development of new products. ...
The program TRANALYZE generates a gate-level representation of an MOS transistor circuit. The result...
The program TRANALYZE generates a gate-level representation of an MOS transistor circuit. The result...
This paper presents a method to automatically recog-nize and model single and multi-output logic gat...
The paper describes a new technique for extracting clock level finite state machines (FSMs) from tra...
The switch-level model describes the logical behavior of digital circuits implemented in metal ox...
The program MOSSYM simulates the behavior of a MOS circuit represented as a switch-level network sym...
The switch-level model describes the logical behavior of digital systems implemented in metal oxide ...
Our goal is to transform a low-level circuit design into a more abstract representation. This is don...
The model is implemented as a charge controlled model using object-oriented pro-gramming and automat...
This paper describes an algorithm for the simulation of gate-level logic. Multiple logic levels are ...
Symbolic simulation involves evaluating circuit behavior using special symbolic values to encode a r...
NUMBER OF PAGES: xiii+394We use a formal tool to extract Finite State Machines (FSM) based represent...
The design and verification of a electronic circuit requires much expertise and intelligent tools an...
In this dissertation, the use of extracted functional models in some typical Computer-Aided-Design a...
Each year semiconductor manufacturers spend millions of dollars in the development of new products. ...