El Mahdi El Mhamdi at 13:32, 27 January 2020

2020-01-27T13:32:17Z

El Mahdi El Mhamdi: Created page with "In a large distributed systems, it is very likely that some components will fail. Robustness of distributed systems therefore requires that the behaviour of the systems is una..."

2020-01-27T13:31:27Z

Created page with "In a large distributed systems, it is very likely that some components will fail. Robustness of distributed systems therefore requires that the behaviour of the systems is una..."

New page

In a large distributed systems, it is very likely that some components will fail. Robustness of distributed systems therefore requires that the behaviour of the systems is unaffected by the failure of a fraction of its components.

The hardest type of failure is when the component behaves arbitrarily badly and not simply crashes and stops responding to the other components of the system. This type of failure is referred to as "Byzantine" as introduced by Lamport, Shostak, and Pease in 1982 [[https://web.archive.org/web/20170205142845/http://lamport.azurewebsites.net/pubs/byz.pdf|LSP1982]]

← Older revision		Revision as of 13:32, 27 January 2020
Line 1:		Line 1:
	In a large distributed systems, it is very likely that some components will fail. Robustness of distributed systems therefore requires that the behaviour of the systems is unaffected by the failure of a fraction of its components.		In a large distributed systems, it is very likely that some components will fail. Robustness of distributed systems therefore requires that the behaviour of the systems is unaffected by the failure of a fraction of its components.

−	The hardest type of failure is when the component behaves arbitrarily badly and not simply crashes and stops responding to the other components of the system. This type of failure is referred to as "Byzantine" as introduced by Lamport, Shostak, and Pease in 1982 [[https://web.archive.org/web/20170205142845/http://lamport.azurewebsites.net/pubs/byz.pdf\|LSP1982]]	+	The hardest type of failure is when the component behaves arbitrarily badly and not simply crashes and stops responding to the other components of the system. This type of failure is referred to as "Byzantine" as introduced by Lamport, Shostak, and Pease in 1982 [[https://web.archive.org/web/20170205142845/http://lamport.azurewebsites.net/pubs/byz.pdf\|LSP1982]] as the Byzantine generals thought experiment.

Byzantine fault tolerance - Revision history

El Mahdi El Mhamdi at 13:32, 27 January 2020

El Mahdi El Mhamdi: Created page with "In a large distributed systems, it is very likely that some components will fail. Robustness of distributed systems therefore requires that the behaviour of the systems is una..."