Hardware Error Detection Using An-codes
ChapterComputer Safety, Reliability, and Security Volume 6351 of the series Lecture Notes in Computer Science pp 169-182ANB- and ANBDmem-Encoding: Detecting Hardware Errors in SoftwareUte SchiffelAffiliated withDepartment of Computer Science, Technische Universtät Dresden, André SchmittAffiliated withDepartment of Computer Science, Technische Universtät Dresden, Martin SüßkrautAffiliated withDepartment of Computer Science, Technische Universtät Dresden, Christof FetzerAffiliated withDepartment of Computer Science, Technische Universtät Dresden Buy this eBook * Final gross prices may vary according to local VAT. Get Access Abstract It is expected that commodity hardware is becoming less reliable because of the continuously decreasing feature sizes of integrated circuits. Nevertheless, more and more commodity hardware with insufficient error detection is used in critical applications. One possible solution is to detect hardware errors in software using arithmetic AN-codes. These codes detect hardware errors independent of the actual failure modes of the underlying hardware. However, measurements have shown that AN-codes still exhibit large rates of undetected silent data corruptions (SDC). These high rates of undetected SDCs are caused by the insufficient protection of control and data flow through AN-codes. In contrast, ANB- and ANBD-codes promise much higher error detection rates because they also detect errors in control and data flow. We present our encoding compiler that automatically applies either an AN-, ANBor ANBD-code to an application. Our error injections show that AN-, ANB-, and ANBD-codes successfully detect errors and more important that indeed ANB- and ANBD-codes reduce the SDC rate more effectively than AN-codes. The difference between ANBD- and ANB-codes is also visible but less pronounced. Page %P Close Plain text Look Inside Chapter Metrics Provided by Bookmetrix Reference tools Export citation EndNote (.ENW) JabRef (.BIB) Mendeley (.BIB) Papers (.RIS) Zotero (.RIS) BibTeX (.BIB) Add to Papers Other actions About this Book Reprints and Permissions Share Share this content on Facebook Share this content on Twitter Share this content on LinkedIn Supplementary Material (0) References (21) References1.The Paparazzi Project (2009), http://paparazzi.enac.fr/wiki/Main_Page 2.Avizienis, A.: Arithmetic error codes: Cost and effectiveness studies for application in digital system design. Transactions on Computers (1971)3.Barnaby, H.J.: Will radiation-hardening-by-design (RHBD) work? Nuclear and Plasma Sciences, Society News (2005)4.Bolchini, C., Miele, A.
is experimenting with adspdfHardware Error Detection Using AN-Codes258 PagesHardware Error Detection Using http://link.springer.com/chapter/10.1007%2F978-3-642-15651-9_13 AN-CodesUploaded byUte SchiffelFiles1of 2diss.pdfwww.qucosa.de/fileadmi...Viewsconnect to downloadGetpdfREAD PAPERHardware Error Detection Using AN-CodesDownloadHardware Error Detection Using AN-CodesUploaded byUte SchiffelLoading PreviewSorry, preview is http://www.academia.edu/3139232/Hardware_Error_Detection_Using_AN-Codes currently unavailable. You can download the paper by clicking the button above.GET pdf ×CloseLog InLog InwithFacebookLog InwithGoogleorEmail:Password:Remember me on this computerorreset passwordEnter the email address you signed up with and we'll email you a reset link.Need an account?Click here to sign up Job BoardAboutPressBlogPeoplePapersTermsPrivacyCopyrightWe're Hiring!Help Center Find new research papers in:PhysicsChemistryBiologyHealth SciencesEcologyEarth SciencesCognitive ScienceMathematicsComputer Science Academia © 2016
Bioinformatics, Technical Informatics and HPC, Image Processing, Machine Learning abstract Commercial off-the-shelf http://wissenschaft.dresden.de/calendar/en/event/785 (COTS) hardware is becoming less reliable because of the continuously decreasing feature sizes of integrated circuits. Nevertheless, due to economic reasons, more and more COTS hardware with insufficient error detection is used in critical applications. We present software-implemented solutions for detecting execution errors caused by this unreliable hardware. Thereby, hardware error we prevent faulty output due to unreliable hardware and instead facilitate the handling of these errors. Therefore, we use arithmetic codes that independent of the hardware used facilitate the detection of errors that modify data during storage or transport and errors that disturb computations as well. Last update: 20.05.2011 07:35. hardware error detection iCal venue TUD Informatik - APB (INF 1004 (Ratssaal)) Nöthnitzer Straße 4601069 Dresden homepage https://navigator.tu-dresden.de/etplan/apb/00 organizer TUD Informatik Nöthnitzer Straße 4601069 Dresden telefon +49 (0) 351 463-38465 fax +49 (0) 351 463-38221 homepage http://www.inf.tu-dresden.de Scan this code with your smartphone and get directly this event in your calendar. Increase the image size by clicking on the QR-Code if you have problems to scan it. editor login venues series news help imprint to the top Automatic database synchronisation lists all public talks at scientific institutes in Dresden. At the moment there are 9643 events by 72 organizers in our database. The Dresden Science Calendar is based on technology by Sandstein Neue Medien GmbH and is being further developed at the Center for Information Services and High Performance Computing of TU Dresden in close cooperation with the Max Planck Institute of Molecular Cell Biology and Genetics and Sandstein Ne
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