Revision as of 16:59, 4 December 2015 edit BD2412 (talk \| contribs) Autopatrolled, Administrators 2,527,835 edits m →{{Anchor\|MEMORY}}Lockstep memory: Fixing links to disambiguation pages, replaced: HP → HP using AWB ← Previous edit		Revision as of 08:31, 9 July 2016 edit undo Califp (talk \| contribs) 2 edits mNo edit summary Next edit →
Line 23: \| url = https://software.intel.com/en-us/blogs/2014/07/11/independent-channel-vs-lockstep-mode-drive-you-memory-faster-or-safer \| title = Independent Channel vs. Lockstep Mode{{snd}} Drive your Memory Faster or Safer \| date = 2014-07-11 \| accessdate = 2014-09-09019 \| author = Thomas Willhalm \| publisher = [[Intel]] }}</ref><ref name="hp-proliant-guidelines">{{cite web Line 44: {{Main\|Dual modular redundancy}} Where the computing systems are duplicated, but both actively process each step, it is difficult to arbitrate between them if their outputs differ at the end of a step. For this reason, it ~~is common practice to run~~ DMR systems as "master/slave" configurations with the slave as a "hot-standby" to the master, rather than in lockstep. Since there is no advantage in having the slave unit actively process each step, a common method of working is for the master to copy its state at the end of each step's processing to the slave. Should the master fail at some point, the slave is ready to continue from the previous known good step. While either the lockstep or the DMR approach (when combined with some means of detecting errors in the master) can provide redundancy against hardware failure in the master, they do not protect against software failure. If the master fails because of a software error, it is highly likely that the slave - in attempting to repeat the execution of the ~~step~~ ~~which failed - will simply~~y repeat ~~the same error and~~th ~~fail~~ail in the same way, an example of a [[common mode failure]]. == Triple modular redundancy ==

Lockstep (computing): Difference between revisions