This paper presents the evaluation in power consumption of a clocking technique for pipelined designs. The technique shows a dynamic power consumption saving of around 30% over a conventional global clocking mechanism. The results were obtained from a series of experiments of a systolic circuit implemented in Virtex-II devices. The conversion from a global-clocked pipelined design to the proposed technique is straightforward, preserving the original datapath design. The savings can be used immediately either as a power reduction benefit or to increase the frequency of operation of a design for the same power consumption
The demand for power-sensitive design has grown significantly in recent years due to tremendous grow...
Power consumption in clock of large high performance VLSIs can be reduced by adopting Globally Async...
Clock gating is an effective technique for minimizing dynamic power in sequential circuits. However,...
This paper presents the evaluation in power consumption of a clocking technique for pipelined design...
This paper presents a simple clocking technique to migrate classical synchronous pipelined designs t...
This paper presents the evaluation in power consumption of gated clocks pipelined circuits with diff...
This paper presents the evaluation in power consumption of gated clocks pipelined circuits with diff...
In this paper we describe an area efficient power minimization scheme “Control Generated Clocking I‘...
In this paper we describe an area efficient power minimization scheme "Control Generated Cl...
The paper investigates the reduction of dynamic power for streaming applications yielded by asynchro...
AbstractA continuous increase in the number of transistors mounted on a single chip brings about the...
Clock gating is an effective way to decrease dissipated power in synchronous design. The most effect...
Abstract: Nowadays power consumption is an important issue in high-performance digital circuits. Re...
This paper investigates the reduction of dynamic power for streaming applications yielded by asynchr...
The realization of fast datapaths in signal processing environments requires fastest logic styles w...
The demand for power-sensitive design has grown significantly in recent years due to tremendous grow...
Power consumption in clock of large high performance VLSIs can be reduced by adopting Globally Async...
Clock gating is an effective technique for minimizing dynamic power in sequential circuits. However,...
This paper presents the evaluation in power consumption of a clocking technique for pipelined design...
This paper presents a simple clocking technique to migrate classical synchronous pipelined designs t...
This paper presents the evaluation in power consumption of gated clocks pipelined circuits with diff...
This paper presents the evaluation in power consumption of gated clocks pipelined circuits with diff...
In this paper we describe an area efficient power minimization scheme “Control Generated Clocking I‘...
In this paper we describe an area efficient power minimization scheme "Control Generated Cl...
The paper investigates the reduction of dynamic power for streaming applications yielded by asynchro...
AbstractA continuous increase in the number of transistors mounted on a single chip brings about the...
Clock gating is an effective way to decrease dissipated power in synchronous design. The most effect...
Abstract: Nowadays power consumption is an important issue in high-performance digital circuits. Re...
This paper investigates the reduction of dynamic power for streaming applications yielded by asynchr...
The realization of fast datapaths in signal processing environments requires fastest logic styles w...
The demand for power-sensitive design has grown significantly in recent years due to tremendous grow...
Power consumption in clock of large high performance VLSIs can be reduced by adopting Globally Async...
Clock gating is an effective technique for minimizing dynamic power in sequential circuits. However,...