Agile application-aware adaptation for mobility
Proceedings of the sixteenth ACM symposium on Operating systems principles
Energy-aware adaptation for mobile applications
Proceedings of the seventeenth ACM symposium on Operating systems principles
ASPLOS IX Proceedings of the ninth international conference on Architectural support for programming languages and operating systems
COM/DCOM Blue Book: Fast Paced Learning
COM/DCOM Blue Book: Fast Paced Learning
Programming the Microsoft Windows Driver Model with CDROM
Programming the Microsoft Windows Driver Model with CDROM
ECOSystem: managing energy as a first class operating system resource
Proceedings of the 10th international conference on Architectural support for programming languages and operating systems
Dynamic Power Management for Nonstationary Service Requests
IEEE Transactions on Computers
The Case for Higher-Level Power Management
HOTOS '99 Proceedings of the The Seventh Workshop on Hot Topics in Operating Systems
PowerScope: A Tool for Profiling the Energy Usage of Mobile Applications
WMCSA '99 Proceedings of the Second IEEE Workshop on Mobile Computer Systems and Applications
Operating systems techniques for reducing processor energy consumption
Operating systems techniques for reducing processor energy consumption
Determinants for success in online learning communities
International Journal of Web Based Communities
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A vital resource for ubiquitous computing systems is energy. Today, energy has been elevated to the status of a first class operating system resource. A major challenge to the ubiquitous computing is how to manage the power consumption in a computer system so as to achieve goals in system performance, quality of service, complexity, cost, and energy conservation. Power-aware computing involves a wide range of systems, from mobile and embedded systems to high-performance servers. In this paper, we describe a Windows based power management tool called RPM that is used to provide power management for local and remote computer systems. The remote control feature of RPM is realised through the Distributed COM protocol. RPM manages the power consumption for an entire computer system, a CPU, or devices. Because it programs the hardware chipset power management registers directly, RPM is not dependent on CMOS setting for CPU power management. The system administrator can also use RPM as a tool for system and device diagnosis. Preliminary results indicate that RPM is a useful tool.