A design rule checking program for VLSI circuit layouts with Manhattan geometries is presented. The layout model is described along with the way the authors implemented the check through few and simple primitives for describing parameteric rules. A single main function for the geometrical test is outlined and how the authors succeeded in limiting the checking time through an algorithm characterized by a linear computational complexity is given. How it was mapped on a mesh of transputers is also discussed
Modern microprocessors such as Intel's Pentium chip typically contain many millions of transistors. ...
This paper describes an IC layout methodology based on arbitrary outline cells, prevention of overla...
Design verification is an essential step in the production of a custom integrated circuit because of...
An efficient geometrical design rule checker is proposed, based on operations on quadtrees, which re...
This thesis describes a new approach to the problem of Geometrical Design Rule Checking (DRC). Previ...
In this paper we provide a distributed solution to perform Design Rule Checking (DRC) of a layout by...
Previous efforts to build hardware accelerators for VLSI layout Design Rule Checking (DRC) were hobb...
Design rules in an integrated circuit layout are a set of constraints on the feature size and dimens...
The development of a theoretical basis for a technology-independent, false-error free, hierarchical ...
Integrated circuit fabrication technologies place certain restrictions on the relationships with and...
The halo algorithm, a new and efficient hierarchical algorithm for corner-based design rule checking...
This paper describes a uniform and new approach to a technology independent and hierarchical artwork...
A program implementing a novel approach to layout verification is presented. The approach uses topol...
A Fortran Coded Design Rule Checker was written to analyze the output file of the RIT Integrated Cir...
Abstract—Computer-aided design (CAD) tools are now making it possible to automate many aspects of th...
Modern microprocessors such as Intel's Pentium chip typically contain many millions of transistors. ...
This paper describes an IC layout methodology based on arbitrary outline cells, prevention of overla...
Design verification is an essential step in the production of a custom integrated circuit because of...
An efficient geometrical design rule checker is proposed, based on operations on quadtrees, which re...
This thesis describes a new approach to the problem of Geometrical Design Rule Checking (DRC). Previ...
In this paper we provide a distributed solution to perform Design Rule Checking (DRC) of a layout by...
Previous efforts to build hardware accelerators for VLSI layout Design Rule Checking (DRC) were hobb...
Design rules in an integrated circuit layout are a set of constraints on the feature size and dimens...
The development of a theoretical basis for a technology-independent, false-error free, hierarchical ...
Integrated circuit fabrication technologies place certain restrictions on the relationships with and...
The halo algorithm, a new and efficient hierarchical algorithm for corner-based design rule checking...
This paper describes a uniform and new approach to a technology independent and hierarchical artwork...
A program implementing a novel approach to layout verification is presented. The approach uses topol...
A Fortran Coded Design Rule Checker was written to analyze the output file of the RIT Integrated Cir...
Abstract—Computer-aided design (CAD) tools are now making it possible to automate many aspects of th...
Modern microprocessors such as Intel's Pentium chip typically contain many millions of transistors. ...
This paper describes an IC layout methodology based on arbitrary outline cells, prevention of overla...
Design verification is an essential step in the production of a custom integrated circuit because of...