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Line 180: Circuits work properly even when the inputs are misaligned temporally. As a result, stochastic systems can be designed to work with inexpensive locally generated clocks instead of using a global clock and an expensive clock distribution network.<ref>{{Cite book \| last1 = Najafi \| first1 = M. H. \| last2 = Lilja \| first2 = D. J. \| last3 = Riedel\| first3 = M. D. \| last4 = Bazargan \| first4 = K. ~~\| doi = 10.1109/ASPDAC.2016.7428060~~ \| title ~~= Polysynchronous stochastic circuits \| journal~~ = 2016 21st Asia and South Pacific Design Automation Conference (ASP-DAC) \| chapter = Polysynchronous stochastic circuits \| doi = 10.1109/ASPDAC.2016.7428060 \| pages = 492–498 \| year = 2016 \| isbn = 978-1-4673-9569-4 \| s2cid = 8973285 }}</ref> Finally, stochastic computing provides an estimate of the solution Line 228: ''latching'', where feedback between different components can achieve a deadlocked state.<ref> {{cite ~~journal~~book \| last1=Winstead \| first1=C. Line 237: \| last4=Schlegel \| first4=C. \| ~~journal~~title=~~IEEE~~Proceedings. International Symposium on Information Theory, 2005. ISIT 2005▼ \| ~~title~~chapter=Stochastic iterative decoders ▲\| journal=IEEE International Symposium on Information Theory \| ___location=Adelaide Australia \|date=September 2005

Stochastic computing: Difference between revisions