The Autonomic Operating System Research Project - Achievements and Future Directions
Författare
Summary, in English
Traditionally, hypervisors, operating systems, and runtime systems have been providing an abstraction layer over the bare-metal hardware. Traditional abstractions, however, do not consider for non-functional requirements such as system-level constraints or users' objectives.
As these requirements are gaining increasing importance, researchers are looking into making user-specified and system-level objectives first-class citizens in the computer systems' realm.
This paper describes the Autonomic Operating System (AcOS) project; AcOS enhances commodity operating systems with an autonomic layer that enables self-* properties through adaptive resource allocation. With AcOS, we investigate intelligent resource allocation to achieve user-specified service-level objectives on application performance and to respect system-level thresholds on CPU temperature. We give a broad overview of \system, elaborate on its achievements, and discuss research perspectives.
As these requirements are gaining increasing importance, researchers are looking into making user-specified and system-level objectives first-class citizens in the computer systems' realm.
This paper describes the Autonomic Operating System (AcOS) project; AcOS enhances commodity operating systems with an autonomic layer that enables self-* properties through adaptive resource allocation. With AcOS, we investigate intelligent resource allocation to achieve user-specified service-level objectives on application performance and to respect system-level thresholds on CPU temperature. We give a broad overview of \system, elaborate on its achievements, and discuss research perspectives.
Avdelning/ar
Publiceringsår
2013
Språk
Engelska
Dokumenttyp
Konferensbidrag
Ämne
- Control Engineering
Conference name
Design and Automation Conference (DAC 2013)
Conference date
2013-06-02
Conference place
Austin, Texas, United States
Status
Inpress
Forskningsgrupp
- LCCC