Understanding Usenix Security 17 Binsim Trace Based Semantic Binary Diffing
Welcome to our comprehensive guide on Usenix Security 17 Binsim Trace Based Semantic Binary Diffing. BinSim
Key Takeaways about Usenix Security 17 Binsim Trace Based Semantic Binary Diffing
- Tim Blazytko, Moritz Contag, Cornelius Aschermann, and Thorsten Holz, Ruhr-Universität Bochum Current state-of-the-art ...
- Jun Xu, The Pennsylvania State University; Dongliang Mu, Nanjing University; Xinyu Xing, Peng Liu, and Ping Chen, The ...
- Sangho Lee, Ming-Wei Shih, Prasun Gera, Taesoo Kim, and Hyesoon Kim, Georgia Institute of Technology; Marcus Peinado, ...
- Zhenyu Ning and Fengwei Zhang, Wayne State University Existing malware analysis platforms leave detectable fingerprints like ...
- David Kohlbrenner and Hovav Shacham, UC San Diego The duration of floating-point instructions is a known timing side channel ...
Detailed Analysis of Usenix Security 17 Binsim Trace Based Semantic Binary Diffing
Zheng Leong Chua, Shiqi Shen, Prateek Saxena, and Zhenkai Liang, National University of Singapore Function type signatures ... BLens: Contrastive Captioning of Grant Ho, UC Berkeley; Aashish Sharma, The Lawrence Berkeley National Labratory; Mobin Javed, UC Berkeley; Vern Paxson, ...
USENIX Security
In summary, understanding Usenix Security 17 Binsim Trace Based Semantic Binary Diffing gives us a better perspective.