Printable electronics could cause a proliferation of smart, connected devices, from household appliances that can communicate with each other to medical diagnostic sensors that can be placed on the body to forgo invasive procedures. Led by Penn State, an international team of researchers developed a low-cost, low-heat transfer technique that can print biodegradable electronics
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Home > Press > Graphene key for novel hardware security
A team of Penn State researchers has developed a new hardware security device that takes advantage of microstructure variations to generate secure keys.
CREDIT
Jennifer McCann,Penn State
Abstract:
As more private data is stored and shared digitally, researchers are exploring new ways to protect data against attacks from bad actors. Current silicon technology exploits microscopic differences between computing components to create secure keys, but artificial intelligence (AI) techniques can be used to predict these keys and gain access to data. Now, Penn State researchers have designed a way to make the encrypted keys harder to crack.
Graphene key for novel hardware security
As more private data is stored and shared digitally, researchers are exploring new ways to protect data against attacks from bad actors. Current silicon technology exploits microscopic differences between computing components to create secure keys, but artificial intelligence (AI) techniques can be used to predict these keys and gain access to data. Now, Penn State researchers have designed a way to make the encrypted keys harder to crack.
Led by Saptarshi Das, assistant professor of engineering science and mechanics, the researchers used graphene a layer of carbon one atom thick to develop a novel low-power, scalable, reconfigurable hardware security device with significant resilience to AI attacks. They published their findings in Nature Electronics today (May 10).