Mixed-signal hardware security thwarts powerful electromagnetic attacks
https://www.sciencedaily.com/releases/2020/02/200219092526.htm
When these computationally secure encryption algorithms are implemented on a physical hardware, they leak critical side-channel information in the form of power consumption or electromagnetic radiation. Now, Purdue University innovators have developed technology to kill the problem at the source itself -- tackling physical-layer vulnerabilities with physical-layer solutions.
Recent attacks have shown that such side-channel attacks can happen in just a few minutes from a short distance away. Recently, these attacks were used in the counterfeiting of e-cigarette batteries by stealing the secret encryption keys from authentic batteries to gain market share.
Mixed-signal hardware security thwarts powerful electromagnetic attacks
Feb 21, 2020, 10:33pm UTC
https://www.sciencedaily.com/releases/2020/02/200219092526.htm
> When these computationally secure encryption algorithms are implemented on a physical hardware, they leak critical side-channel information in the form of power consumption or electromagnetic radiation. Now, Purdue University innovators have developed technology to kill the problem at the source itself -- tackling physical-layer vulnerabilities with physical-layer solutions.
> Recent attacks have shown that such side-channel attacks can happen in just a few minutes from a short distance away. Recently, these attacks were used in the counterfeiting of e-cigarette batteries by stealing the secret encryption keys from authentic batteries to gain market share.