In deep sub-micron technologies, process variations can cause significant path delay and clock skew uncertainties thereby lead to timing failure and yield loss. In this paper, we propose a comprehensive clock scheduling methodology that improves timing and yield through both pre-silicon clock scheduling and post-silicon clock tuning. First, an optimal clock scheduling algorithm has been developed to allocate the slack for each path according to its timing uncertainty. To balance the skew that can be caused by process variations, programmable delay elements are inserted at the clock inputs of a small set of flip-flops on the timing critical paths. A delay-fault testing scheme combined with linear programming is used to identify and eliminate...
UnrestrictedAs VLSI fabrication process continues to advance and device and interconnect dimensions ...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
The move to deep submicron processes has brought about new problems that designers must contend with...
Eliminating timing violations using clock tree optimization (CTO) persist to be a tedious problem in...
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...
Timing margin (slack) needs to be carefully managed to ensure a satisfactory timing yield. We propos...
A simple but effective technique for timing yield enhancement is presented. The proposed technique t...
Abstract — Process variations cause design performance to become unpredictable in deep sub-micron te...
Timing error is now getting increased attention due to the high rate of error-occurrence on ...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
MasterThe variations of process parameters have increased due to the continued scaling down of semic...
With the decreasing of integrate circuit’s feature size, the process parameters of chips have seriou...
textThis work deals with the problem of parametric failures in Integrated Circuits (ICs), focussing...
UnrestrictedAs VLSI fabrication process continues to advance and device and interconnect dimensions ...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
The move to deep submicron processes has brought about new problems that designers must contend with...
Eliminating timing violations using clock tree optimization (CTO) persist to be a tedious problem in...
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...
Timing margin (slack) needs to be carefully managed to ensure a satisfactory timing yield. We propos...
A simple but effective technique for timing yield enhancement is presented. The proposed technique t...
Abstract — Process variations cause design performance to become unpredictable in deep sub-micron te...
Timing error is now getting increased attention due to the high rate of error-occurrence on ...
Uncertainty in circuit performance due to manufacturing and environmental variations is increasing w...
textTiming analysis is a key sign-off step in the design of today's chips, but technology scaling in...
MasterThe variations of process parameters have increased due to the continued scaling down of semic...
With the decreasing of integrate circuit’s feature size, the process parameters of chips have seriou...
textThis work deals with the problem of parametric failures in Integrated Circuits (ICs), focussing...
UnrestrictedAs VLSI fabrication process continues to advance and device and interconnect dimensions ...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
The move to deep submicron processes has brought about new problems that designers must contend with...