Disaster recovery planning: for computers and communication resources
Disaster recovery planning: for computers and communication resources
Disaster Recovery Planning: Preparing for the Unthinkable
Disaster Recovery Planning: Preparing for the Unthinkable
Xen and the art of virtualization
SOSP '03 Proceedings of the nineteenth ACM symposium on Operating systems principles
Geographically Distributed System for Catastrophic Recovery
LISA '02 Proceedings of the 16th USENIX conference on System administration
Protecting host-based intrusion detectors through virtual machines
Computer Networks: The International Journal of Computer and Telecommunications Networking
Grid-based large-scale Web3D collaborative virtual environment
Proceedings of the twelfth international conference on 3D web technology
Virtualization for Security: Including Sandboxing, Disaster Recovery, High Availability, Forensic Analysis, and Honeypotting
Black-box performance models for virtualized web service applications
Proceedings of the first joint WOSP/SIPEW international conference on Performance engineering
Using virtualization for high availability and disaster recovery
IBM Journal of Research and Development
Disaster recovery as a cloud service: economic benefits & deployment challenges
HotCloud'10 Proceedings of the 2nd USENIX conference on Hot topics in cloud computing
Disaster recovery planning with virtualization technologies in banking industry
Proceedings of the International Conference & Workshop on Emerging Trends in Technology
Distributed and Cloud Computing: From Parallel Processing to the Internet of Things
Distributed and Cloud Computing: From Parallel Processing to the Internet of Things
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Currently, organizations are increasingly aware of the need to protect their computer infrastructure to maintain continuity of operations. This process involves a number of different concerns including: managing natural disasters, equipment failure, and security breaches, poor data management, inadequate design, and complex/impractical design. The purpose of this article is to delineate how virtualization of hosts and cloud computing can be used to address the concerns resulting in improved computer infrastructure that can easily be restored following a natural disaster and which features fault tolerant hosts/components, isolates applications security attacks, is simpler in design, and is easier to manage. Further, because this technology has been out for a number of years and its capabilities have matured an attempt has been made to describe those capabilities as well as document successful applications.