USENIX | The Advanced Computing Systems Association

Towards the Detection of Inconsistencies in Public Security Vulnerability Reports

Dong Y, Guo W, Chen Y, Xing X, Zhang Y, Wang G. 2019. Towards the Detection of Inconsistencies in Public Security Vulnerability Reports. 28th USENIX Security Symposium (USENIX Security 19). :869--885.

Robust Website Fingerprinting Through the Cache Occupancy Channel

Shusterman A, Kang L, Haskal Y, Meltser Y, Mittal P, Oren Y, Yarom Y. 2019. Robust Website Fingerprinting Through the Cache Occupancy Channel. 28th USENIX Security Symposium (USENIX Security 19). :639--656.

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{XONN}: {XNOR-based} Oblivious Deep Neural Network Inference

M. Riazi S, Samragh M, Chen H, Laine K, Lauter K, Koushanfar F. 2019. {XONN}: {XNOR-based} Oblivious Deep Neural Network Inference. 28th USENIX Security Symposium (USENIX Security 19). :1501--1518.

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{“Johnny}, you are {fired!”} – Spoofing {OpenPGP} and {S/MIME} Signatures in Emails

Müller J, Brinkmann M, Poddebniak D, Böck H, Schinzel S, Somorovsky J, Schwenk J. 2019. {“Johnny}, you are {fired!”} – Spoofing {OpenPGP} and {S/MIME} Signatures in Emails. 28th USENIX Security Symposium (USENIX Security 19). :1011--1028.

{TESSERACT}: Eliminating Experimental Bias in Malware Classification across Space and Time

Pendlebury F, Pierazzi F, Jordaney R, Kinder J, Cavallaro L. 2019. {TESSERACT}: Eliminating Experimental Bias in Malware Classification across Space and Time. 28th USENIX Security Symposium (USENIX Security 19). :729--746.

Scalable Scanning and Automatic Classification of {TLS} Padding Oracle Vulnerabilities

Merget R, Somorovsky J, Aviram N, Young C, Fliegenschmidt J, Schwenk J, Shavitt Y. 2019. Scalable Scanning and Automatic Classification of {TLS} Padding Oracle Vulnerabilities. 28th USENIX Security Symposium (USENIX Security 19). :1029--1046.

When the Signal is in the Noise: Exploiting Diffix's Sticky Noise

Gadotti A, Houssiau F, Rocher L, Livshits B, de Montjoye Y-A. 2019. When the Signal is in the Noise: Exploiting Diffix's Sticky Noise. 28th USENIX Security Symposium (USENIX Security 19). :1081--1098.

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{AntiFuzz}: Impeding Fuzzing Audits of Binary Executables

Güler E, Aschermann C, Abbasi A, Holz T. 2019. {AntiFuzz}: Impeding Fuzzing Audits of Binary Executables. 28th USENIX Security Symposium (USENIX Security 19). :1931--1947.

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Darwin: A Genomics Co-processor Provides up to 15,000X Acceleration on Long Read Assembly

[Anonymous]. 2019. Darwin: A Genomics Co-processor Provides up to 15,000X Acceleration on Long Read Assembly. 2019 USENIX Annual Technical Conference (USENIX ATC 19).

Darwin: A Genomics Co-processor Provides up to 15,000X Acceleration on Long Read Assembly

[Anonymous]. 2019. Darwin: A Genomics Co-processor Provides up to 15,000X Acceleration on Long Read Assembly. 2019 {USENIX} Annual Technical Conference ({USENIX} {ATC} 19).

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