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dc.contributor.authorDrozd, Oleksandr-
dc.contributor.authorДрозд, Олександр Валентинович-
dc.contributor.authorДрозд, Александр Валентинович-
dc.contributor.authorNowakowski, Grzegorz-
dc.contributor.authorНоваковський, Гжегож-
dc.contributor.authorНоваковский, Гжегож-
dc.contributor.authorSachenko, Anatoliy-
dc.contributor.authorСаченко, Анатолій-
dc.contributor.authorСаченко, Анатолий-
dc.contributor.authorAntoniuk, Viktor-
dc.contributor.authorАнтонюк, Віктор Вікторович-
dc.contributor.authorАнтонюк, Виктор Викторович-
dc.contributor.authorKochan, Volodymyr-
dc.contributor.authorКочан, Володимир-
dc.contributor.authorКочан, Владимир-
dc.contributor.authorDrozd, Myroslav-
dc.contributor.authorДрозд, Мирослав Олександрович-
dc.contributor.authorДрозд, Мирослав Александрович-
dc.date.accessioned2021-03-24T10:21:20Z-
dc.date.available2021-03-24T10:21:20Z-
dc.date.issued2021-
dc.identifier.citationDrozd, O., Nowakowski, G., Sachenko, A., Antoniuk, V., Kochan, V., Drozd, M. (2021). Power-Oriented Monitoring of Clock Signals in FPGA Systems for Critical Application. Sensors, Vol. 21, 792, p. 16-21.en
dc.identifier.citationPower-Oriented Monitoring of Clock Signals in FPGA Systems for Critical Application / O. Drozd, G. Nowakowski, A. Sachenko, V. Antoniuk, V. Kochan, M. Drozd // Sensors. - 2021. - Vol. 21, 792. - P. 16-21.en
dc.identifier.urihttps://www.mdpi.com/1424-8220/21/3/792-
dc.identifier.urihttps://doi.org/10.3390/s21030792-
dc.identifier.urihttp://dspace.opu.ua/jspui/handle/123456789/11467-
dc.description.abstractThis paper presents a power-oriented monitoring of clock signals that is designed to avoid synchronization failure in computer systems such as FPGAs. The proposed design reduces power consumption and increases the power-oriented checkability in FPGA systems. These advantages are due to improvements in the evaluation and measurement of corresponding energy parameters. Energy parameter orientation has proved to be a good solution for detecting a synchronization failure that blocks logic monitoring circuits. Key advantages lay in the possibility to detect a synchronization failure hidden in safety-related systems by using traditional online testing that is based on logical checkability. Two main types of power-oriented monitoring are considered: detecting a synchronization failure based on the consumption and the dissipation of power, which uses temperature and current consumption sensors, respectively. The experiments are performed on real FPGA systems with the controlled synchronization disconnection and the use of the computeraided design (CAD) utility to estimate the decreasing values of the energy parameters. The results demonstrate the limited checkability of FPGA systems when using the thermal monitoring of clock signals and success in monitoring by the consumption current.en
dc.language.isoen_USen
dc.publisherMDPI stays neutralwith regard to jurisdictional claims inpublished maps and institutional affil-iationsen
dc.subjectsafety-related systemen
dc.subjecttemperature and current consumption sensorsen
dc.subjectcomponenten
dc.subjectconsumed and dissipated poweren
dc.subjectFPGA-designingen
dc.subjectclock signalen
dc.subjectlogical and power-oriented checkabilityen
dc.subjecthidden faultsen
dc.titlePower-Oriented Monitoring of Clock Signals in FPGA Systems for Critical Applicationen
dc.typeArticle in Scopusen
opu.kafedraКафедра комп’ютерних інтелектуальних систем та мережuk
opu.citation.journalSensorsen
opu.citation.volume21en
opu.citation.firstpage1en
opu.citation.lastpage16en
opu.citation.issue3en
opu.staff.iddrozd@opu.uaen
opu.staff.idmyroslav.drozd@opu.uaen
opu.staff.idantoniuk@opu.uaen
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