Fault Tolerant Control for Spaceborne Dual Ring Counters with Selective Overriding

Among primary asynchronous sequential circuits, ring counters are used as an important building block in various spaceborne digital systems. As they are subject to adverse effects of radiation, it is imperative that they be given fault tolerance mechanism for robust operation. This article presents...

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Veröffentlicht in:	Indian journal of science and technology 2015-01, Vol.8 (S1), p.1-1
Hauptverfasser:	Yang, Jung-Min, Jung, Im Y., Kwak, Seong Woo
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Sprache:	eng
Schlagworte:	Circuits Design engineering Digital systems Fault tolerance Fault tolerant Faults Modular Modules VHDL
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container_title	Indian journal of science and technology
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creator	Yang, Jung-Min Jung, Im Y. Kwak, Seong Woo
description	Among primary asynchronous sequential circuits, ring counters are used as an important building block in various spaceborne digital systems. As they are subject to adverse effects of radiation, it is imperative that they be given fault tolerance mechanism for robust operation. This article presents a corrective control scheme for tolerating state transition faults in ring counters. The considered ring counter has the structure of Double Modular Redundancy, in which some selected memory bits of each ring counter module can override the counterpart values of the other module. With this structure, researchers can design a static corrective controller that tolerates any state transition fault occurring to the dual ring counter. Though the state information is unavailable, they can implement a simple fault tolerant control scheme, using corrective control. The proposed control scheme is validated in VHDL experiments.
doi_str_mv	10.17485/ijst/2015/v8iS1/57432
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As they are subject to adverse effects of radiation, it is imperative that they be given fault tolerance mechanism for robust operation. This article presents a corrective control scheme for tolerating state transition faults in ring counters. The considered ring counter has the structure of Double Modular Redundancy, in which some selected memory bits of each ring counter module can override the counterpart values of the other module. With this structure, researchers can design a static corrective controller that tolerates any state transition fault occurring to the dual ring counter. Though the state information is unavailable, they can implement a simple fault tolerant control scheme, using corrective control. 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As they are subject to adverse effects of radiation, it is imperative that they be given fault tolerance mechanism for robust operation. This article presents a corrective control scheme for tolerating state transition faults in ring counters. The considered ring counter has the structure of Double Modular Redundancy, in which some selected memory bits of each ring counter module can override the counterpart values of the other module. With this structure, researchers can design a static corrective controller that tolerates any state transition fault occurring to the dual ring counter. Though the state information is unavailable, they can implement a simple fault tolerant control scheme, using corrective control. The proposed control scheme is validated in VHDL experiments.</abstract><doi>10.17485/ijst/2015/v8iS1/57432</doi><tpages>1</tpages></addata></record>
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subjects	Circuits Design engineering Digital systems Fault tolerance Fault tolerant Faults Modular Modules VHDL
title	Fault Tolerant Control for Spaceborne Dual Ring Counters with Selective Overriding
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