Next: Introduction
Dynamic Power Optimization of Interactive Systems
Lin Zhong and Niraj K. Jha
Department of Electrical Engineering
Princeton University
Princeton, NJ 08544
{lzhong, jha}@ee.princeton.edu
Abstract:
Power has become a major concern for mobile computing systems such
as laptops and handhelds, on which a significant fraction of
software usage is interactive instead of computation-intensive. An
analysis shows that over 90% of system energy and time is spent
waiting for user input. Such idle periods provide vast
opportunities for dynamic power management (DPM) and voltage
scaling (DVS) techniques to reduce system energy. The user
interface is in charge of system-user interaction. It often has
a priori knowledge about how the user and system interact
at a given moment. In this work, we propose to utilize such
a priori knowledge and theories from the field of
Psychology to predict user delays. We show that such delay
predictions can be combined with DPM/DVS for aggressive power
optimization. We verify the effectiveness of our methodologies
using usage traces collected on a personal digital assistant (PDA)
and a system power model based on accurate measurements.
Experiments show that using predicted user delays for DPM/DVS
achieves an average of 21.9% system energy reduction with little
sacrifice in user productivity or satisfaction.
Next: Introduction
Lin Zhong
2003-12-20