Hibernus: Sustaining Computation During Intermittent Supply for Energy-Harvesting Systems

Author

Balsamo, Domenico ; Weddell, Alex S. ; Merrett, Geoff V. ; Al-Hashimi, Bashir M. ; Brunelli, Davide ; Benini, Luca

Author_Institution

Dept. of Electron. & Comput. Sci., Univ. of Southampton, Southampton, UK

Volume

7

Issue

1

fYear

2015

fDate

Mar-15

Firstpage

15

Lastpage

18

Abstract

A key challenge to the future of energy-harvesting systems is the discontinuous power supply that is often generated. We propose a new approach, Hibernus, which enables computation to be sustained during intermittent supply. The approach has a low energy and time overhead which is achieved by reactively hibernating: saving system state only once, when power is about to be lost, and then sleeping until the supply recovers. We validate the approach experimentally on a processor with FRAM nonvolatile memory, allowing it to reactively hibernate using only energy stored in its decoupling capacitance. When compared to a recently proposed technique, the approach reduces processor time and energy overheads by 76%-100% and 49%-79% respectively.

Keywords

energy harvesting; ferroelectric storage; power engineering computing; random-access storage; FRAM nonvolatile memory; Hibernus; decoupling capacitance; discontinuous power supply; energy overhead reduction; energy-harvesting systems; intermittent supply; processor time reduction; Capacitance; Energy harvesting; Ferroelectric films; Microcontrollers; Nonvolatile memory; Random access memory; Registers; Checkpointing; embedded software; energy harvesting;

fLanguage

English

Journal_Title

Embedded Systems Letters, IEEE

Publisher

ieee

ISSN

1943-0663

Type

jour

DOI

10.1109/LES.2014.2371494

Filename

6960060