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BEGIN:VEVENT
DTSTAMP:20240626T180033Z
LOCATION:Level 2 Exhibit Hall
DTSTART;TZID=America/Los_Angeles:20240625T170000
DTEND;TZID=America/Los_Angeles:20240625T180000
UID:dac_DAC 2024_sess233_ESS016@linklings.com
SUMMARY:Development of SystemC-based Security VP for In-House SED SSD Firm
 ware Verification and Application of libFuzzer
DESCRIPTION:Engineering Track Poster\n\nCHANGWON KIM (Samsung)\n\nDue to d
 ifficulties in supporting Open Source Project in the Embedded System envir
 onment and limitations in applying fuzzing technology, we used SystemC-bas
 ed full-path SSD VP, but it was not easy to apply due to performance issue
 s and many unnecessary functions for SED verification. \n\nAccordingly, we
  developed Security VP by removing unnecessary parts and introduced State 
 Machine-based libFuzzer to improve the problem.\n\nAs a result, the execut
 ion time of Security VP was shortened to 82.5% compared to full-path VP, a
 nd code coverage was improved by 15.2%. In particular, the number of comma
 nds used to achieve specific coverage was reduced by 98.7%, and the number
  of commands used to achieve overall coverage was also reduced by 85.4%.\n
 \nTopic: Back-End Design, Embedded Systems, Front-End Design, IP
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