Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001. Home/Search Document Details and Download
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Intrusion-Tolerant Architectures: Concepts and Design - Veríssimo, Neves.. (Correct)
.... In fact, the term intrusion tolerance has been used for the first time in [19] and a sequel of that work lead to a specific system developed in the DELTA4 project [16] In the following years, a number of isolated works, mainly on protocols, took place that can be put under the IT umbrella [10, 31, 22, 2, 24, 4, 21], but only recently did the area develop explosively, with two main projects on both sides of the Atlantic, the OASIS and the MAFTIA projects, doing structured work on concepts, mechanisms and architectures. One main reason is concerned with the fact that distributed systems present fundamental ....
....services: reliable multicast, atomic multicast and membership protocols [31] SecureRing is a view synchronous group communication system based on the Totem single ring protocols [22] Both Rampart and SecureRing can be used to build servers using the state machine replication approach. Fleet [24] use Byzantine quorum systems [2] to build IT data stores, respectively for data abstractions like variables and locks, and for Java objects. The protocol suite CLIQUES supports group key agreement operations for dynamic groups of processes [4, 3] More recently, two projects have focused on ....
Malkhi, D., Reiter, M.K., Tulone, D., Ziskind, E.: Persistent objects in the Fleet system. In: Proceedings of the 2nd DARPA Information Survivability Conference and Exposition (DISCEX II). (2001)
Pond: the OceanStore Prototype - Rhea, Eaton, Geels, Weatherspoon.. (2003) (29 citations) (Correct)
....distributed file system, using Byzantine fault tolerance for directories only. The ITTC project [40] and the COCA project [42] both build certificate authorities (CAs) using threshold signatures; the later combines this scheme with a quorum based Byzantine fault tolerant algorithm. The Fleet [16] persistent object system also uses a quorum based algorithm. Quorum based Byzantine agreement requires less communication per replica than the state machine based agreement used in OceanStore; however, it tolerates proportionally less faults. It was this tradeoff that led us to our architecture; ....
D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the fleet system. In DISCEX II, 2001.
Intrusion-Tolerant Architectures: Concepts and Design - Veríssimo, Neves.. (Correct)
.... In fact, the term intrusion tolerance has been used for the first time in [19] and a sequel of that work lead to a specific system developed in the DELTA 4 project [16] In the following years, a number of isolated works, mainly on protocols, took place that can be put under the IT umbrella [10, 34, 23, 2, 27, 4, 22], but only recently did the area develop explosively, with two main projects on both sides of the Atlantic, the OASIS and the MAFTIA projects, doing structured work on concepts, mechanisms and architectures. One main reason is concerned with the fact that distributed systems present fundamental ....
....services: reliable multicast, atomic multicast and membership protocols [34] SecureRing is a view synchronous group communication system based on the Totem single ring protocols [23] Both Rampart and SecureRing can be used to build servers using the state machine replication approach. Fleet [27] use Byzantine quorum systems [2] to build IT data stores, respectively for data abstractions like variables and locks, and for Java objects. The protocol suite CLIQUES supports group key agreement operations for dynamic groups of processes [4, 3] More recently, two projects have focused on ....
Malkhi, D., Reiter, M.K., Tulone, D., Ziskind, E.: Persistent objects in the Fleet system. In: Proceedings of the 2nd DARPA Information Survivability Conference and Exposition (DISCEX II). (2001)
Byzantine-Tolerant Erasure-Coded Storage - Garth Goodson Jay Self-citation (Reiter) (Correct)
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Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001.
Efficient Byzantine-tolerant erasure-coded storage - Garth Goodson Jay (2003) (6 citations) Self-citation (Reiter) (Correct)
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Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001.
A Protocol Family for Versatile Survivable Storage - Infrastructures Garth Goodson Self-citation (Reiter) (Correct)
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Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001.
Efficient Byzantine-tolerant erasure-coded storage - Garth Goodson Jay (2004) (6 citations) Self-citation (Reiter) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition, pages 126--136. IEEE, 2001.
Byzantine-Tolerant Erasure-Coded Storage - Garth Goodson Jay (2003) Self-citation (Reiter) (Correct)
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Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001.
From Byzantine Agreement to Practical Survivability - Malkhi (2002) (1 citation) Self-citation (Malkhi) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone and E. Ziskind. Persistent objects in the Fleet system. In Proceedings of DARPA's second DARPA Information Survivability Conference and Exposition (DISCEX II), 2001.
Aquarius: A Data-Centric approach to CORBA - Chockler, Malkhi, Merimovich.. (2003) Self-citation (Malkhi) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone and E. Ziskind. Persistent Objects in the Fleet System. InDARPA's second DARPA Information Survivability Conference and Exposition (DISCEX II), California, June 2001.
Efficient Byzantine-tolerant erasure-coded storage - Garth Goodson Jay (2003) (6 citations) Self-citation (Reiter) (Correct)
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Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001.
A Protocol Family for Versatile Survivable Storage.. - Goodson, Wylie.. (2003) (1 citation) Self-citation (Reiter) (Correct)
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Dahlia Malkhi, Michael K. Reiter, Daniela Tulone, and Elisha Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 January 2001.
Appears in the Proceedings of the International.. - Efficient.. Self-citation (Reiter) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition, pages 126--136. IEEE, 2001.
From Process-Centric to Data Centric Replication - Malkhi (2002) Self-citation (Malkhi) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone and E. Ziskind. Persistent Objects in the Fleet System. DARPA's second DARPA Information Survivability Conference and Exposition (DISCEX II).
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D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the Fleet system. In Proceedings of the 2nd DARPA Information Survivability Conference and Exposition, June 2001.
Efficient Consistency for Erasure-Coded Data Via.. - Goodson, Wylie.. (2003) (5 citations) Self-citation (Reiter) (Correct)
....machines. An alternative to replicated state machines is Byzantine quorum systems [38] of which our protocols can be viewed as employing a particular type. Byzantine quorums have been used to implement shared objects with semantics similar to those offered by replicated state machines (e.g. [37]) and with correspondingly higher cost than we encounter here. Herlihy and Tygar [22] were perhaps the first to apply quorums to the problem of protecting the confidentiality and integrity of replicated data against a threshold of Byzantine faulty servers, as we do here. However, in contrast to ....
D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the Fleet system. DARPA Information Survivability Conference and Exposition (Anaheim, CA, 12--14 June 2001.
e-SAFE: An Extensible, Secure and Fault Tolerant Storage System - Arnab Paul Sandip (2005) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the fleet system. In The 2nd DARPA Information Survivability Conference and Exposition.
How to Tolerate Half Less One Byzantine Nodes in.. - Correia, Neves.. (2004) (Correct)
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D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the Fleet system. In Proceedings of the 2nd DARPA Information Survivability Conference and Exposition (DISCEX II), June 2001.
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D. Malkhi, M. K. Reiter, D. Tulone, and E. Ziskind. Persistent objects in the fleet system. In The 2nd DARPA Information Survivability Conference and Exposition.
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