Asynchronous Byzantine Fault Tolerance

URI: https://gptkb.org/entity/Asynchronous_Byzantine_Fault_Tolerance

GPTKB entity

Statements (66)

Predicate	Object
gptkbp:instance_of	gptkb:organization
gptkbp:bfsLayer	5
gptkbp:bfsParent	gptkb:Fantom_Blockchain
gptkbp:applies_to	gptkb:Cloud_Computing_Service
gptkbp:handles	Byzantine faults
https://www.w3.org/2000/01/rdf-schema#label	Asynchronous Byzantine Fault Tolerance
gptkbp:introduced	gptkb:Leslie_Lamport
gptkbp:is_challenged_by	data loss network partitioning resource constraints network delays system complexity node failures asynchronous message passing adversarial conditions malicious nodes
gptkbp:is_characterized_by	asynchronous communication
gptkbp:is_compared_to	Synchronous Byzantine Fault Tolerance
gptkbp:is_critical_for	secure communication
gptkbp:is_designed_for	distributed systems
gptkbp:is_evaluated_by	performance metrics latency measurements reliability assessments scalability tests throughput tests failure recovery tests robustness tests
gptkbp:is_implemented_in	gptkb:Tendermint gptkb:Hot_Stuff Paxos algorithm PBFT (Practical Byzantine Fault Tolerance)
gptkbp:is_influenced_by	gptkb:battle distributed algorithms cryptographic protocols
gptkbp:is_part_of	distributed computing secure distributed systems secure communications protocols decentralized networks fault-tolerant computing
gptkbp:is_related_to	data integrity consensus algorithms error detection system resilience fault-tolerant systems trust models
gptkbp:is_studied_in	gptkb:computer_science gptkb:software_framework algorithm design network security
gptkbp:is_supported_by	digital signatures cryptographic techniques hash functions error correction codes network redundancy replication techniques consensus protocols
gptkbp:is_used_in	gptkb:software_framework gptkb:engine multi-agent systems smart contracts financial systems peer-to-peer networks Io T systems cryptocurrency systems
gptkbp:provides	fault tolerance
gptkbp:requires	majority of honest nodes