Add to ORKGDue to continuous quest for greater throughput, pipelined circuits are used to support multi-cycle processing at greater clock frequencies, leaving limited design margins. Under statistical device variations, the delay distributions of the pipeline stages follow a skewed distribution in highly scaled devices. Therefore, in order to determine the maximum operating frequency of the pipelined circuits, accurate estimation of the slowest pipeline stage will have to be determined. This study shows that identifying the slowest pipeline stage using Clark's approximation will produce quite optimistic results and will lead to significant yield loss. Moreover, it has been shown that while estimating the yield, the stage delay distributions in both lo...
Process variation has become a major concern in the design of many nanometer circuits, including int...
In deep-submicrometer technologies, process variability challenges the design of high yield integrat...
Aggressive device scaling has made it imperative to account for process variations in the design flo...
Operating frequency of a pipelined circuit is determined by the delay of the slowest pipeline stage....
Abstract—Under inter-die and intra-die parameter variations, the delay of a pipelined circuit follow...
In nano-scaled large variations in process parameters produces wide delay spread in high performance...
Abstract—As process variations become a significant problem in deep sub-micron technology, a shift f...
Manufacturing process variations, leading to variability in circuit delay, can cause excessive timin...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
DoctorAggressive technology scaling in feature size has propelled designers to integrate millions of...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
Abstract—This paper presents novel techniques for timing yield optimization and for yield estimation...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
Process variation has become a major concern in the design of many nanometer circuits, including int...
In deep-submicrometer technologies, process variability challenges the design of high yield integrat...
Aggressive device scaling has made it imperative to account for process variations in the design flo...
Operating frequency of a pipelined circuit is determined by the delay of the slowest pipeline stage....
Abstract—Under inter-die and intra-die parameter variations, the delay of a pipelined circuit follow...
In nano-scaled large variations in process parameters produces wide delay spread in high performance...
Abstract—As process variations become a significant problem in deep sub-micron technology, a shift f...
Manufacturing process variations, leading to variability in circuit delay, can cause excessive timin...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
DoctorAggressive technology scaling in feature size has propelled designers to integrate millions of...
A technique for modeling the effect of variations in multiple process parameters on circuit delay pe...
Abstract—This paper presents novel techniques for timing yield optimization and for yield estimation...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
Process variation has become a major concern in the design of many nanometer circuits, including int...
In deep-submicrometer technologies, process variability challenges the design of high yield integrat...
Aggressive device scaling has made it imperative to account for process variations in the design flo...