BEGIN:VCALENDAR
PRODID:-//Microsoft Corporation//Outlook MIMEDIR//EN
VERSION:1.0
BEGIN:VEVENT
DTSTART:20121114T210000Z
DTEND:20121114T213000Z
LOCATION:255-EF
DESCRIPTION;ENCODING=QUOTED-PRINTABLE:ABSTRACT: This paper describes and evaluates a scalable and=0Aefficient resiliency scheme based on the concept of containment=0Adomains. Containment domains are a programming construct=0Athat enables applications to express resiliency needs and interact=0Awith the system to tune and specialize error detection,=0Astate preservation and restoration, and recovery schemes. Containment=0Adomains have weak transactional semantics and are=0Anested to take advantage of the machine hierarchy and to enable=0Adistributed and hierarchical state preservation, restoration,=0Aand recovery as an alternative to non-scalable and inefficient=0Acheckpoint-restart. We evaluate the scalability and efficiency of=0Acontainment domains using generalized trace-driven simulation=0Aand analytical analysis and show that containment domains are=0Asuperior to both checkpoint restart and redundant execution=0Aapproaches.
SUMMARY:Containment Domains - A Scalable, Efficient, and Flexible Resiliency Scheme for Exascale Systems
PRIORITY:3
END:VEVENT
END:VCALENDAR
BEGIN:VCALENDAR
PRODID:-//Microsoft Corporation//Outlook MIMEDIR//EN
VERSION:1.0
BEGIN:VEVENT
DTSTART:20121114T210000Z
DTEND:20121114T213000Z
LOCATION:255-EF
DESCRIPTION;ENCODING=QUOTED-PRINTABLE:ABSTRACT: This paper describes and evaluates a scalable and=0Aefficient resiliency scheme based on the concept of containment=0Adomains. Containment domains are a programming construct=0Athat enables applications to express resiliency needs and interact=0Awith the system to tune and specialize error detection,=0Astate preservation and restoration, and recovery schemes. Containment=0Adomains have weak transactional semantics and are=0Anested to take advantage of the machine hierarchy and to enable=0Adistributed and hierarchical state preservation, restoration,=0Aand recovery as an alternative to non-scalable and inefficient=0Acheckpoint-restart. We evaluate the scalability and efficiency of=0Acontainment domains using generalized trace-driven simulation=0Aand analytical analysis and show that containment domains are=0Asuperior to both checkpoint restart and redundant execution=0Aapproaches.
SUMMARY:Containment Domains - A Scalable, Efficient, and Flexible Resiliency Scheme for Exascale Systems
PRIORITY:3
END:VEVENT
END:VCALENDAR