D. Patterson, A. Brown, P. Broadwell, G. Candea, M. Chen, J. Cutler, P. Enriquez, A. Fox, E. K yc yman, M. Merzbacher, D. Oppenheimer, N. Sastry, W. Tetzlaff, J. Traupman, and N. Treuhaft. Recovery-Oriented Computing (ROC): Motivation, definition, techniques, and case studies. Technical Report CSD-02-1175, UC Berkeley Computer Science, Mar. 2002. Home/Search Document Not in Database Summary Related Articles Check |
This paper is cited in the following contexts:
Automatic Data Structure Repair for Self-Healing Systems - Brian Demsky Massachusetts (2003) (2 citations) (Correct)
....The goal is to enhance the reliability and reduce the development time of the inconsistency detection and repair software. 5. 2 Recovery Oriented Computing Researchers in the area of recovery oriented computing have developed a variety of techniques to help software recover from runtime errors [14]. One of these techniques, recursive restartability, composes large systems out of many smaller modules that are individually rebootable [4] The goal is to build systems in which faults can be isolated at the module level by rebooting. In some cases, the consequences of an error may not be ....
D. A. Patterson and et al. Recovery-oriented computing (ROC): Motivation, de nition, techniques , and case studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science,
Service Continuations: An Operating System Mechanism for.. - Sultan, Bohra, Iftode (2003) (1 citation) (Correct)
....previous work [32] where memory mapped communication was used for fast failover of nodes in a cluster by establishing efficient checkpoints in the memory of other nodes. A mechanism similar to SC can be developed and used in the area of system restartability for recovery oriented computing (ROC) [16]. Restarting a system may be necessary, for example, because its internal state has been corrupted due to software bugs, environmental factors, etc. OS mechanisms may be used to preserve some portion of system and application state that can be salvaged, like that associated with serviced clients. ....
D. Patterson et al. Recovery Oriented Computing (ROC): Motivation, Definition, Techniques, and Case Studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, Mar. 2002.
Using Remote Memory Communication for Self-Healing Systems - Sultan, Bohra, Neamtiu.. (Correct)
....the Back Door approach to self healing, and describe a preliminary prototype we developed as proof of concept. 1. INTRODUCTION As computer systems become more complex, tolerance to failures and recoverability without compromising performance have emerged as guiding principles for system design [19]. The need for such features is exacerbated by the increasing demand for performance critical, highly available services. Self healing systems (SHS) are becoming increasingly interesting because they present the aforementioned features. They have been studied in various contexts (software ....
....execution, i.e. it creates no background traffic in the system; iii) does not involve failed nodes for state extraction during recovery, thereby it can recover a session even if its node is impaired by severe hardware OS faults. 6. RELATED WORK Recent initiatives in industry [14] and academia [19] seek to move the thrust of future computing systems from performance to selfmanaged, self configuring, self healing systems. Several middleware solutions for software rejuvenation [13] selfhealing [3] problem determination in complex systems [7] have been proposed. The techniques used in such ....
D. Patterson et al. Recovery Oriented Computing (ROC): Motivation, Definition, Techniques, and Case Studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, Mar. 2002.
Automatic Detection and Repair of Errors in Data Structures - Demsky, Rinard (2002) (5 citations) (Correct)
....very simple data structure that can be used to rebuild the more sophisticated internal database data structures whenever they become inconsistent. There has recently been renewed interest in applying many of these classical techniques in new computational environments such as Internet services [12]. Our approach di#ers from these classical approaches in that it is designed to repair inconsistent data structures in place and continue executing rather than roll back to a known consistent state. Our approach can enable systems to recover even from persistent errors such as file system ....
D. A. Patterson and et al. Recovery-oriented computing (ROC): Motivation, definition, techniques, and case studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, March 15, 2002.
Pinpoint: Problem Determination in Large, Dynamic.. - Chen, Kiciman.. (2002) (1 citation) (Correct)
....such as request sampling can be used to reduce logging overhead. We also plan to automate our statistical analysis process and integrate it with an alert system to provide on line analysis of live systems. In addition, we plan to integrate Pinpoint with other recovery oriented computing techniques [10] to further reduce mean time to recovery (MTTR) 6. Conclusions This paper presents a new problem determination framework for large, dynamic systems that provides high accuracy in identifying faults and produces relatively few false positives. This framework, Pinpoint, requires no ....
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D. PATTERSON ET AL. Recovery Oriented Computing (ROC): Motivation, Definition, Techniques, and Case Studies. Tech. Rep. CSD-02-1175, UC Berkeley Computer Science, 2002.
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D. Patterson et al. Recovery-Oriented Computing (ROC): Motivation, Definition, Techniques and Case Studies. Technical Report UCB||CSD-02-1175, UC Berkeley Computer Science, March 2002.
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D. Patterson, A. Brown, P. Broadwell, G. Candea, M. Chen, J. Cutler, P. Enriquez, A. Fox, E. K yc yman, M. Merzbacher, D. Oppenheimer, N. Sastry, W. Tetzlaff, J. Traupman, and N. Treuhaft. Recovery-Oriented Computing (ROC): Motivation, definition, techniques, and case studies. Technical Report CSD-02-1175, UC Berkeley Computer Science, Mar. 2002.
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D. A. Patterson and et al. Recovery-oriented computing (ROC): Motivation, definition, techniques, and case studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, March 15, 2002.
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D. A. Patterson and et al. Recovery-oriented computing (ROC): Motivation, definition, techniques, and case studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, March 15, 2002.
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D. Patterson, A. Brown, P. Broadwell, G. Candea, M. Chen, J. Cutler, P. Enriquez, A. Fox, E. Kycyman, M. Merzbacher, D. Oppenheimer, N. Sastry, W. Tetzla#, J. Traupman, and N. Treuhaft. Recovery-Oriented Computing (ROC): Motivation, definition, techniques, and case studies. Technical Report CSD-02-1175, UC Berkeley Computer Science, Mar. 2002.
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D. Patterson et al. Recovery Oriented Computing (ROC): Motivation, Definition, Techniques, and Case Studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, Mar. 2002.
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D. A. Patterson and et al. Recovery-oriented computing (ROC): Motivation, definition, techniques, and case studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, March 15, 2002.
Automatic Data Structure Repair for Self-Healing Systems - Demsky, Rinard (2003) (2 citations) (Correct)
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D. A. Patterson and et al. Recovery-oriented computing (ROC): Motivation, de nition, techniques , and case studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science,
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D. Patterson et al. Recovery-Oriented Computing (ROC): Motivation, Definition, Techniques and Case Studies. Technical Report UCB||CSD-02-1175, UC Berkeley Computer Science, March 2002.
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D. Patterson et al. Recovery Oriented Computing (ROC): Motivation, Definition, Techniques, and Case Studies. Technical Report UCB//CSD-02-1175, UC Berkeley Computer Science, Mar. 2002.
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