“Timing closure by design,” a high frequency microprocessor design methodology
Proceedings of the 37th Annual Design Automation Conference
ISCA '01 Proceedings of the 28th annual international symposium on Computer architecture
Hardware architectures for public key cryptography
Integration, the VLSI Journal
Vector microprocessors
Designing Digital Computer Systems with Verilog
Designing Digital Computer Systems with Verilog
Secure Internet Banking Authentication
IEEE Security and Privacy
Secure coprocessors in electronic commerce applications
WOEC'95 Proceedings of the 1st conference on USENIX Workshop on Electronic Commerce - Volume 1
Principles of Asynchronous Circuit Design: A Systems Perspective
Principles of Asynchronous Circuit Design: A Systems Perspective
Security evaluation against electromagnetic analysis at design time
CHES'05 Proceedings of the 7th international conference on Cryptographic hardware and embedded systems
A vector approach to cryptography implementation
DRMTICS'05 Proceedings of the First international conference on Digital Rights Management: technologies, Issues, Challenges and Systems
Secure Hash Standard - SHS: Federal Information Processing Standards Publication 180-4
Secure Hash Standard - SHS: Federal Information Processing Standards Publication 180-4
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Several recent studies have underlined the need for trusted information displays in current and future personal devices. On the other hand, the display market is more and more dominated by low-cost flat-panel structures, driven by Thin-Film Transistor (TFT) circuits. Further, the quality of TFT-based electronics is constantly improving, allowing the fabrication of complicated electronic circuits on TFT technology. We have embarked on a project to implement cryptographic algorithms on polysilicon TFT technology. Our prototype designs will pave the way for secure display realisations combining cryptographic circuits and conventional pixel drivers on the same substrate. An experimental Data Encryption Standard (DES) coprocessor on polysilicon TFT technology is under development, while we are investigating a vector processor architecture to implement Elliptic Curve Cryptography (ECC).