This paper presents a novel yield model for integrated circuits manufacturing, considering lithography printability problems as a source of yield loss. The use of regular layouts can improve the printability of IC layouts, but it results in a significant area overhead by introducing regularity. To the best of our knowledge, this is the first approach that considers the tradeoff of cells with different levels of regularity and different area overheads during the logic synthesis, in order to improve overall design yield. A technology remapping tool with such yield model as cost function is proposed and implemented and interesting results are presented.Peer Reviewe
A new trend that is becoming dominant is to improve layout regularity so that the layouts to be pri...
Much of today’s high performance computing engines and hand-held mobile devices are products of aggr...
As the industry hits a road block with RETs that attempt to aggressively scale k1, we propose to ext...
This paper presents a novel yield model for integrated circuits manufacturing, considering lithograp...
The manufacturing complexity at the 90nm and 65nm technology nodes severally impacts the design. The...
Each reduction of the technology node has, along with improvements in IC fabricationtechnology, been...
A lithography parametric yield estimation model is presented to evaluate the lithography distortion ...
As semiconductor technology advances into the nanoscale era, optical effects such as channel narrowi...
Abstract—As semiconductor technology advances into the nanoscale era, optical effects such as channe...
Integrated circuits design faces increasing challenge as we scale down due to the increase of the ef...
2012-05-01Reduced scaling of feature sizes and process variations in CMOS nano-technologies introduc...
The gap between VLSI technology and fabrication technology leads to strong refractive effects in lit...
In nowadays nanometer technology nodes, the semiconductor industry has to deal with the new challeng...
A yield formulation model to estimate the amount of lithography distortion expected in a printed lay...
Increasing variability in today's manufacturing processes causes parametric yield loss that increase...
A new trend that is becoming dominant is to improve layout regularity so that the layouts to be pri...
Much of today’s high performance computing engines and hand-held mobile devices are products of aggr...
As the industry hits a road block with RETs that attempt to aggressively scale k1, we propose to ext...
This paper presents a novel yield model for integrated circuits manufacturing, considering lithograp...
The manufacturing complexity at the 90nm and 65nm technology nodes severally impacts the design. The...
Each reduction of the technology node has, along with improvements in IC fabricationtechnology, been...
A lithography parametric yield estimation model is presented to evaluate the lithography distortion ...
As semiconductor technology advances into the nanoscale era, optical effects such as channel narrowi...
Abstract—As semiconductor technology advances into the nanoscale era, optical effects such as channe...
Integrated circuits design faces increasing challenge as we scale down due to the increase of the ef...
2012-05-01Reduced scaling of feature sizes and process variations in CMOS nano-technologies introduc...
The gap between VLSI technology and fabrication technology leads to strong refractive effects in lit...
In nowadays nanometer technology nodes, the semiconductor industry has to deal with the new challeng...
A yield formulation model to estimate the amount of lithography distortion expected in a printed lay...
Increasing variability in today's manufacturing processes causes parametric yield loss that increase...
A new trend that is becoming dominant is to improve layout regularity so that the layouts to be pri...
Much of today’s high performance computing engines and hand-held mobile devices are products of aggr...
As the industry hits a road block with RETs that attempt to aggressively scale k1, we propose to ext...