Survivability of embryonic memories: analysis and design principles

Author

Prodan, Lucian ; Udrescu, Mihai ; Vladutiu, Mircea

Author_Institution

Adv. Comput. Syst. & Archit. Lab., Politehnica Univ., Timisoara, Romania

fYear

2005

fDate

29 June-1 July 2005

Firstpage

280

Lastpage

289

Abstract

This paper proposes an original approach to the reliability analysis for Embryonics (Mange and Tomassini, 1998), by introducing the accuracy threshold measure, borrowed from fault-tolerant quantum computing theory, as one of the main parameters for our qualitative assessment. The validity of this technique is proven by comparison with the classical reliability results; furthermore, it brings new perspectives on designing reliable embryonic memory structures at both the molecular and the cellular levels. Appropriate design principles are provided on both information encoding (concatenated codes) and storage (fault tolerant memory structures).

Keywords

biocomputing; fault tolerant computing; memory architecture; accuracy threshold measure; concatenated codes; embryonic memory; fault tolerant computing; fault tolerant memory structures; information encoding; quantum computing theory; reliability analysis; Availability; Computer architecture; Embryo; Fault tolerance; Fault tolerant systems; Hardware; Laboratories; Quantum computing; Reliability theory; Space exploration;

fLanguage

English

Publisher

ieee

Conference_Titel

Evolvable Hardware, 2005. Proceedings. 2005 NASA/DoD Conference on

ISSN

1550-6029

Print_ISBN

0-7695-2399-4

Type

conf

DOI

10.1109/EH.2005.44

Filename

1508511