A strategy to enhance the speed and power characteristics of an industrial circuit is demonstrated in this paper. It is shown that nonzero clock skew scheduling can improve circuit performance while relaxing the strict timing constraints of the critical data paths within a high speed system. A software tool implementing a nonzero clock skew scheduling algorithm is described together with a methodology that generates the required clock signal delays. Furthermore, a technique that significantly reduces the power dissipated in the noncritical data paths is demonstrated. The application of this technique combined with nonzero clock skew scheduling to the slower data paths is also described. Speed improvements of up to 18 % and power savings gre...
The presence of large current peaks on the power and ground lines is a serious concern for designers...
Clock scheduling is studied to improve the performance of synchronous sequential circuits. The perfo...
Clock gating is an effective technique for minimizing dynamic power in sequential circuits. However,...
Clock skew scheduling has been traditionally considered as a tool for improving the clock period in ...
Paper presented at the Midwest Symposium on Circuits and Systems, San Juan, Puerto Rico.This paper d...
In a synchronous clock distribution network with negligible skews, digital circuits switch simultane...
This dissertation addresses timing and synchronization methodologies that are critical to the design...
Among the most challenging tasks of advanced-node IC design is power reduction. In the advanced tech...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
A new method of achieving the target output with a less number of clock pulses has been introduced. ...
This paper investigates the application of simultaneous retiming and clock scheduling for optimizing...
Many design techniques have been proposed to optimize the performance of a digital system implemente...
In synchronous circuit design, data is processed in an orderly fashion with the help of sequential e...
Abstract—Power supply noise is fundamentally caused by large current peaks. Since large current peak...
In this paper we describe an area efficient power minimization scheme “Control Generated Clocking I‘...
The presence of large current peaks on the power and ground lines is a serious concern for designers...
Clock scheduling is studied to improve the performance of synchronous sequential circuits. The perfo...
Clock gating is an effective technique for minimizing dynamic power in sequential circuits. However,...
Clock skew scheduling has been traditionally considered as a tool for improving the clock period in ...
Paper presented at the Midwest Symposium on Circuits and Systems, San Juan, Puerto Rico.This paper d...
In a synchronous clock distribution network with negligible skews, digital circuits switch simultane...
This dissertation addresses timing and synchronization methodologies that are critical to the design...
Among the most challenging tasks of advanced-node IC design is power reduction. In the advanced tech...
Synchronous clock distribution continues to be the dominant timing methodology for very large scale ...
A new method of achieving the target output with a less number of clock pulses has been introduced. ...
This paper investigates the application of simultaneous retiming and clock scheduling for optimizing...
Many design techniques have been proposed to optimize the performance of a digital system implemente...
In synchronous circuit design, data is processed in an orderly fashion with the help of sequential e...
Abstract—Power supply noise is fundamentally caused by large current peaks. Since large current peak...
In this paper we describe an area efficient power minimization scheme “Control Generated Clocking I‘...
The presence of large current peaks on the power and ground lines is a serious concern for designers...
Clock scheduling is studied to improve the performance of synchronous sequential circuits. The perfo...
Clock gating is an effective technique for minimizing dynamic power in sequential circuits. However,...