Open Access. Powered by Scholars. Published by Universities.®
Articles 1 - 3 of 3
Full-Text Articles in Engineering
A Study On Controlling Power Supply Ramp-Up Time In Sram Pufs, Harshavardhan Ramanna
A Study On Controlling Power Supply Ramp-Up Time In Sram Pufs, Harshavardhan Ramanna
Masters Theses
With growing connectivity in the modern era, the risk of encrypted data stored in hardware being exposed to third-party adversaries is higher than ever. The security of encrypted data depends on the secrecy of the stored key. Conventional methods of storing keys in Non-Volatile Memory have been shown to be susceptible to physical attacks. Physically Unclonable Functions provide a unique alternative to conventional key storage. SRAM PUFs utilize inherent process variation caused during manufacturing to derive secret keys from the power-up values of SRAM memory cells.
This thesis analyzes the effect of supply ramp-up times on the reliability of SRAM …
On-Chip Communication And Security In Fpgas, Shivukumar Basanagouda Patil
On-Chip Communication And Security In Fpgas, Shivukumar Basanagouda Patil
Masters Theses
Innovations in Field Programmable Gate Array (FPGA) manufacturing processes and architectural design have led to the development of extremely large FPGAs. There has also been a widespread adaptation of these large FPGAs in cloud infrastructures and data centers to accelerate search and machine learning applications. Two important topics related to FPGAs are addressed in this work: on-chip communication and security. On-chip communication is quickly becoming a bottleneck in to- day’s large multi-million gate FPGAs. Hard Networks-on-Chip (NoC), made of fixed silicon, have been shown to provide low power, high speed, flexible on-chip communication. An iterative algorithm for routing pre-scheduled time-division-multiplexed …
Protecting Controllers Against Denial-Of-Service Attacks In Software-Defined Networks, Jingrui Li
Protecting Controllers Against Denial-Of-Service Attacks In Software-Defined Networks, Jingrui Li
Masters Theses
Connection setup in software-defined networks (SDN) requires considerable amounts of processing, communication, and memory resources. Attackers can target SDN controllers defense mechanism based on a proof-of-work protocol. This thesis proposes a new protocol to protect controllers against such attacks, shows implementation of the system and analyze the its performance. The key characteristics of this protocol, namely its one-way operation, its requirement for freshness in proofs of work, its adjustable difficulty, its ability to work withmultiple network providers, and its use of existing TCP/IP header fields, ensure that this approach can be used in practice.