This paper describes a decentralized consistency protocol for survivable storage that exploits data versioning within storage-nodes. Versioning enables the protocol to efficiently provide linearizability and wait-freedom of read and write operations to erasure-coded data in asynchronous environments with Byzantine failures of clients and servers. Exploiting versioning storage-nodes, the protocol shifts most work to clients. Reads occur in a single round-trip unless clients observe concurrency or write failures. Measurements of a storage system using this protocol show that the protocol scales well with the number of failures tolerated, and that it outperforms a highly-tuned instance of Byzantine-tolerant state machine replication
International audienceWe present an optimal emulation of a server based regular read/write storage i...
Abstract—Byzantine-fault-tolerant replication enhances the availability and reliability of Internet ...
Abstract—Replication is a well-established approach to in-creasing database availability. Many datab...
This paper describes a decentralized consistency protocol for survivable storage that exploits data ...
This paper describes a decentralized consistency protocol for survivable storage that exploits data ...
This paper describes a decentralized consistency protocol for survivable storage that exploits local...
Abstract: "This paper describes the design, implementation and performance of a family of protocols ...
This paper describes the design, implementation and performance of a family of protocols for surviva...
This paper describes a consistency protocol that exploits versioning storage-nodes. The protocol pro...
This paper describes a consistency protocol that exploits versioning storage-nodes. The protocol pro...
This paper presents an erasure-coded Byzantine fault-tolerant block storage protocol that is nearly ...
Survivable storage systems mask faults. A protocol family shifts the decision of which types of faul...
This project investigates the challenge of achieving the stringent atomic read-modify-write (aRMW) s...
Abstract—Byzantine-fault-tolerant replication enhances the availability and reliability of Internet ...
Existing Byzantine fault tolerant (BFT) storage solutions that achieve strong consistency and high a...
International audienceWe present an optimal emulation of a server based regular read/write storage i...
Abstract—Byzantine-fault-tolerant replication enhances the availability and reliability of Internet ...
Abstract—Replication is a well-established approach to in-creasing database availability. Many datab...
This paper describes a decentralized consistency protocol for survivable storage that exploits data ...
This paper describes a decentralized consistency protocol for survivable storage that exploits data ...
This paper describes a decentralized consistency protocol for survivable storage that exploits local...
Abstract: "This paper describes the design, implementation and performance of a family of protocols ...
This paper describes the design, implementation and performance of a family of protocols for surviva...
This paper describes a consistency protocol that exploits versioning storage-nodes. The protocol pro...
This paper describes a consistency protocol that exploits versioning storage-nodes. The protocol pro...
This paper presents an erasure-coded Byzantine fault-tolerant block storage protocol that is nearly ...
Survivable storage systems mask faults. A protocol family shifts the decision of which types of faul...
This project investigates the challenge of achieving the stringent atomic read-modify-write (aRMW) s...
Abstract—Byzantine-fault-tolerant replication enhances the availability and reliability of Internet ...
Existing Byzantine fault tolerant (BFT) storage solutions that achieve strong consistency and high a...
International audienceWe present an optimal emulation of a server based regular read/write storage i...
Abstract—Byzantine-fault-tolerant replication enhances the availability and reliability of Internet ...
Abstract—Replication is a well-established approach to in-creasing database availability. Many datab...