Energy Efficient Clock Distribution h Low -Leakage Multi-Vt Buffers

Anil Kumar Gundu; Volkan Kursun

Energy Efficient Clock Distribution h Low -Leakage Multi-Vt Buffers

Anil Kumar Gundu
, Volkan Kursun

Department of Electronic and Computer Engineering

Research output: Contribution to conference › Conference Paper › peer-review

Abstract

A new low power clock distribution network with multi-threshold -voltage (multi -Vi) repeaters is presented in this paper. A repeater circuit with two inputs and two outputs is employed for suppressing leakage currents in gated clock distribution networks. The standby leakage power consumption is reduced by 50.93% with the proposed clock tree as compared to the conventional 3 level H-tree operating with a power supply voltage of 0.8V in a 45nin CMOS technology. In addition to providing significant power savings in idle clock distribution networks, the proposed circuit technique also lowers the total energy consumption of partially active networks. Depending on the percent of segments that experience local clock gating, the total energy consumed by the proposed clock network is 6.78% to 80.43% lower as compared to the conventional clock tree with a power supply voltage of 0.4V and a clock frequency of 10MHz.

Original language	English
Pages	113-118
Publication status	Published - Jul 2019
Event	29th IEEE International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS 2019) - Duration: 1 Jul 2019 → 1 Jul 2019

Conference

Conference	29th IEEE International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS 2019)
Period	1/07/19 → 1/07/19

ISBNs

['9781728121031']

Keywords

Clock gating
H -tree
Multi threshold CMOS
Multi-Vt repeater
Synchronous systems-on -chip

Access to Document

https://hdl.handle.net/1783.1/105215

Cite this

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title = "Energy Efficient Clock Distribution h Low -Leakage Multi-Vt Buffers",

abstract = "A new low power clock distribution network with multi-threshold -voltage (multi -Vi) repeaters is presented in this paper. A repeater circuit with two inputs and two outputs is employed for suppressing leakage currents in gated clock distribution networks. The standby leakage power consumption is reduced by 50.93\% with the proposed clock tree as compared to the conventional 3 level H-tree operating with a power supply voltage of 0.8V in a 45nin CMOS technology. In addition to providing significant power savings in idle clock distribution networks, the proposed circuit technique also lowers the total energy consumption of partially active networks. Depending on the percent of segments that experience local clock gating, the total energy consumed by the proposed clock network is 6.78\% to 80.43\% lower as compared to the conventional clock tree with a power supply voltage of 0.4V and a clock frequency of 10MHz.",

keywords = "Clock gating, H -tree, Multi threshold CMOS, Multi-Vt repeater, Synchronous systems-on -chip",

author = "Gundu, \{Anil Kumar\} and Volkan Kursun",

year = "2019",

month = jul,

language = "English",

pages = "113--118",

note = "29th IEEE International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS 2019) ; Conference date: 01-07-2019 Through 01-07-2019",

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TY - CONF

T1 - Energy Efficient Clock Distribution h Low -Leakage Multi-Vt Buffers

AU - Gundu, Anil Kumar

AU - Kursun, Volkan

PY - 2019/7

Y1 - 2019/7

N2 - A new low power clock distribution network with multi-threshold -voltage (multi -Vi) repeaters is presented in this paper. A repeater circuit with two inputs and two outputs is employed for suppressing leakage currents in gated clock distribution networks. The standby leakage power consumption is reduced by 50.93% with the proposed clock tree as compared to the conventional 3 level H-tree operating with a power supply voltage of 0.8V in a 45nin CMOS technology. In addition to providing significant power savings in idle clock distribution networks, the proposed circuit technique also lowers the total energy consumption of partially active networks. Depending on the percent of segments that experience local clock gating, the total energy consumed by the proposed clock network is 6.78% to 80.43% lower as compared to the conventional clock tree with a power supply voltage of 0.4V and a clock frequency of 10MHz.

AB - A new low power clock distribution network with multi-threshold -voltage (multi -Vi) repeaters is presented in this paper. A repeater circuit with two inputs and two outputs is employed for suppressing leakage currents in gated clock distribution networks. The standby leakage power consumption is reduced by 50.93% with the proposed clock tree as compared to the conventional 3 level H-tree operating with a power supply voltage of 0.8V in a 45nin CMOS technology. In addition to providing significant power savings in idle clock distribution networks, the proposed circuit technique also lowers the total energy consumption of partially active networks. Depending on the percent of segments that experience local clock gating, the total energy consumed by the proposed clock network is 6.78% to 80.43% lower as compared to the conventional clock tree with a power supply voltage of 0.4V and a clock frequency of 10MHz.

KW - Clock gating

KW - H -tree

KW - Multi threshold CMOS

KW - Multi-Vt repeater

KW - Synchronous systems-on -chip

UR - https://www.webofscience.com/wos/woscc/full-record/WOS:000556107300019

M3 - Conference Paper

SP - 113

EP - 118

T2 - 29th IEEE International Symposium on Power and Timing Modeling, Optimization and Simulation (PATMOS 2019)

Y2 - 1 July 2019 through 1 July 2019

ER -

Energy Efficient Clock Distribution h Low -Leakage Multi-Vt Buffers

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