While 2020 created enormous challenges and shifted life and businesses on-line, it also elevated the need to protect the integrity of our data and privacy. Protecting sensitive data and securing communications can only be done with security solutions that are rooted in the hardware of the devices we use and that scale well over the different technologies. This webinar shows how you can utilize QuiddiKey®, the Intrinsic ID hardware IP based on SRAM PUF technology, to protect sensitive data and store them securely in NVM, on or off chip. We will explain how to:
- Create a PUF root key from a chip’s silicon fingerprint
- Derive device-unique cryptographic keys for different purposes, applications and users
- Create a secure vault for storage of keys and sensitive data
Who should attend?
This webinar is must-see for semiconductor professionals responsible for product design or embedded security in markets where security plays an increasingly important role. Technical professionals, planning to use QuiddiKey in a system or as part of a security solution, will get a better understanding of all the functionalities the hardware IP has to offer.
What will you learn?
The webinar provides a first look at how to secure your chips from the ground up, or actually, from the silicon up. It shows how you can create a strong root of trust from the hardware of any chip, without adding expensive NVM for key storage and while only using standard CMOS technology.
QuiddiKey® is the Intrinsic ID flagship product that enables device manufacturers and designers to secure their products with internally generated, device-unique cryptographic keys. QuiddiKey uses the inherently random start-up values of SRAM as a physical unclonable function (PUF), which generates the entropy required for a strong hardware root of trust. QuiddiKey IP can be applied easily to almost any chip – from tiny microcontrollers to high-performance systems-on-chip.
This webinar is in partnership with SemiWiki and Intrinsic ID
Roel Maes is the Principal Security Architect at Intrinsic ID where he works on the research, development and specification of security architectures and solutions for Intrinsic ID’s products and innovations. His technical expertise is focused on PUF technology, information and coding theory, and embedded security, and he is listed as inventor on several patents. Roel holds a Master’s and PhD degree from University of Leuven in Belgium. He has co-authored over 25 papers in high-ranking international security venues, and he has published a book on the topic of PUFs.
Sven Goossens is a Senior Hardware Engineer at Intrinsic ID. His primary responsibility is the development of various hardware security IP blocks. His technical expertise includes hardware security, SRAM PUFs, mixed time-criticality embedded systems, and SDRAM controllers. He has published various papers at peer-reviewed conferences. Sven holds a Master’s and PhD degree in Electrical Engineering from Eindhoven University of Technology in The Netherlands.
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