Title :
Clock gated low power sequential circuit design
Author :
Dev, Mahendra Pratap ; Baghel, Deepak ; Pandey, Bishwajeet ; Pattanaik, Manisha ; Shukla, A.
Author_Institution :
VLSI Design Lab., ABV-Indian Inst. of Inf. Technol., Gwalior, Gwalior, India
Abstract :
In this work, our focus is on study and analysis of various clock gating technique and design and analysis of clock gating based low power sequential circuit at RTL level. Virtex-6 is 40-nm FPGA, on which we implement our circuit to re-assure power reduction in sequential circuit. Clock gating is implemented on smaller circuit called D flip-flop and on larger circuit called 16-bit register. The percentage of reduction in dynamic power especially clock power is verified for different device operating frequency. Here, we achieved 87.09%, 88.02%, 88.02%, and 88.01% clock power reduction in this work when clock period is 1ns, 0.1ns, 0.01ns and 0.001ns respectively. Design and implementation result shows that there is reduction in dynamic power especialy significant reduction in clock power We also achieved 15%, 14.22%, 14.58%, 14.57% and 14.57% dynamic power reduction when clock period is 10ns, 1ns, 0.1ns, 0.01ns, and 01ps respectively.
Keywords :
VLSI; clocks; field programmable gate arrays; flip-flops; integrated circuit design; D flip-flop; FPGA; RTL level; Virtex-6; clock gated low power sequential circuit design; clock power reduction; digital VLSI circuit; dynamic power; register; size 40 nm; time 0.01 ns; time 0.1 ns; time 0.1 ps; time 1 ns; time 10 ns; word length 16 bit; Clocks; Conferences; Flip-flops; Logic gates; Power demand; Power dissipation; Registers; Clock Gating; Glich Free Design; Low Power; Register Transfer Level; Sequential Circuit;
Conference_Titel :
Information & Communication Technologies (ICT), 2013 IEEE Conference on
Conference_Location :
JeJu Island
Print_ISBN :
978-1-4673-5759-3
DOI :
10.1109/CICT.2013.6558136
