Byzantine Fault Tolerant (BFT) replication leverages highly available cloud services and can facilitate the implementation of distributed ledgers, e.g., the blockchain. Systems providing BFT State Machine Replication (SMR) work under severe system assumptions, for example, that less than a third of replicas may suffer a Byzantine failure. Infrequent arbitrary violations of such design assumptions, may lead the system to an unintended state, and render it unavailable thereafter, requiring human intervention. Self-stabilization is a highly desirable system property that can complement Byzantine fault tolerant systems, and allow them to both tolerate Byzantine-failures and automatically recovery from any unintended state that assumption violat...
This technical report was superseded by report DI-TR-09-15This paper presents two Byzantine fault-to...
Abstract—The reliability and availability of distributed services can be ensured using replication. ...
textExperiences with computer systems indicate an inconvenient truth: computers fail and they fail i...
Byzantine faults in distributed systems can have very destructive consequences for services built on...
textWe are increasingly relying on online services to store, access, share, and disseminate critical...
This paper argues for a new approach to building Byzantine fault tolerant replication systems. We ob...
Byzantine-Fault-Tolerant (BFT) state machine replication is an appealing technique to tolerate arbit...
Abstract—One of the main reasons why Byzantine fault-tolerant (BFT) systems are currently not widely...
Abstract. In this paper, we describe the design and implementation of BChain, a Byzantine fault-tole...
With the growth of computer services in Internet, the availability and integrity of these services, ...
textByzantine fault-tolerance techniques are useful because they tolerate arbitrary faults regardle...
Critical infrastructures have to withstand advanced and persistent threats, which can be addressed u...
International audienceWe study a well-known communication abstraction called Byzantine Reliable Broa...
State machine replication (SMR) is a generic technique for implementing fault-tolerant distributed s...
Byzantine-Fault-Tolerant (BFT) state machine replica-tion is an appealing technique to tolerate arbi...
This technical report was superseded by report DI-TR-09-15This paper presents two Byzantine fault-to...
Abstract—The reliability and availability of distributed services can be ensured using replication. ...
textExperiences with computer systems indicate an inconvenient truth: computers fail and they fail i...
Byzantine faults in distributed systems can have very destructive consequences for services built on...
textWe are increasingly relying on online services to store, access, share, and disseminate critical...
This paper argues for a new approach to building Byzantine fault tolerant replication systems. We ob...
Byzantine-Fault-Tolerant (BFT) state machine replication is an appealing technique to tolerate arbit...
Abstract—One of the main reasons why Byzantine fault-tolerant (BFT) systems are currently not widely...
Abstract. In this paper, we describe the design and implementation of BChain, a Byzantine fault-tole...
With the growth of computer services in Internet, the availability and integrity of these services, ...
textByzantine fault-tolerance techniques are useful because they tolerate arbitrary faults regardle...
Critical infrastructures have to withstand advanced and persistent threats, which can be addressed u...
International audienceWe study a well-known communication abstraction called Byzantine Reliable Broa...
State machine replication (SMR) is a generic technique for implementing fault-tolerant distributed s...
Byzantine-Fault-Tolerant (BFT) state machine replica-tion is an appealing technique to tolerate arbi...
This technical report was superseded by report DI-TR-09-15This paper presents two Byzantine fault-to...
Abstract—The reliability and availability of distributed services can be ensured using replication. ...
textExperiences with computer systems indicate an inconvenient truth: computers fail and they fail i...