chalk talk
Subscribe Now

Security ICs Deliver a Stronger Level of Protection

 

Physically unclonable functions (PUFs) are like fingerprints for semiconductor devices. And, for security applications, PUFs are an outstanding, secure way to uniquely identify an individual device. In this episode of Chalk Talk, Amelia Dalton chats with Scott Jones from Maxim Integrated about physically unclonable functions, and how you can use them to secure your next system design.

Click here for  more information about Maxim Integrated DS28E38
DeepCover® Secure ECDSA Authenticator

Leave a Reply

featured blogs
Jul 20, 2018
https://youtu.be/KwrfcMtbMDM Coming from CDNLive Japan (camera Asushi Tanaka) Monday: Nicolas's Recipe for Digital Marketing in EDA Tuesday: Embargoed announcement Wednesday: Trends, Technologies, and Regulation in China's Auto Market Thursday: Breakfast Bytes Guide...
Jul 19, 2018
In the footer of Samtec.com, we'€™ve always made it easy to contact us by phone, email, or live chat (even fax back in the day!). To continue to progress this theme, you'€™ll now find a new helpful tool in the footer area of Samtec.com. This tool will match you up with yo...
Jul 16, 2018
Each instance of an Achronix Speedcore eFPGA in your ASIC or SoC design must be configured after the system powers up because Speedcore eFPGAs employ nonvolatile SRAM technology to store the eFPGA'€™s configuration bits. Each Speedcore instance contains its own FPGA configu...
Jul 12, 2018
A single failure of a machine due to heat can bring down an entire assembly line to halt. At the printed circuit board level, we designers need to provide the most robust solutions to keep the wheels...