<--- Back to Details
First PageDocument Content
Computer security / Cryptography / Trusted computing / Computer architecture / X86 instructions / Elliptic curve cryptography / Enhanced privacy ID / Software Guard Extensions / Digital signature / Public-key cryptography / Trusted Execution Technology / CPU cache
Date: 2018-08-09 16:06:58
Computer security
Cryptography
Trusted computing
Computer architecture
X86 instructions
Elliptic curve cryptography
Enhanced privacy ID
Software Guard Extensions
Digital signature
Public-key cryptography
Trusted Execution Technology
CPU cache

CacheQuote: Efficiently Recovering Long-term Secrets of SGX EPID via Cache Attacks

Add to Reading List

Source URL: web.eecs.umich.edu

Download Document from Source Website

File Size: 641,87 KB

Share Document on Facebook

Similar Documents

Cryptography / Post-quantum cryptography / Trusted Computing / Public-key cryptography / Quantum cryptography / Key size / Advanced Encryption Standard process

Practical Post-Quantum Cryptography for Trusted Computing Matthias J. Kannwischer, PhD Student Workshop on Trusted Computing and its Applications 25 January 2018

DocID: 1xTFq - View Document

2016 Intl IEEE Conferences on Ubiquitous Intelligence & Computing, Advanced and Trusted Computing, Scalable Computing and Communications, Cloud and Big Data Computing, Internet of People, and Smart World Congress Buy you

DocID: 1vdXi - View Document

High Assurance Platform (HAP) High Assurance Challenges Rob Dobry Trusted Computing NSA Commercial Solutions Center

DocID: 1uEep - View Document

Thoughts about Trusted Computing Joanna Rutkowska Confidence, Krakow, Poland, May 15-16, 2009 EuSecWest, London, UK, May 27-28, 2009

DocID: 1t8NU - View Document

Trusted Computing Protecting Client Privacy with Trusted Computing at the Server Current trusted-computing initiatives usually involve large

DocID: 1t0LN - View Document