Now showing items 1-5 of 5
A Trusted Autonomic Architecture to Safeguard Cyber-Physical Control Leaf Nodes and Protect Process Integrity
(Virginia Tech, 2015-09-16)
Cyber-physical systems are networked through IT infrastructure and susceptible to malware. Threats targeting process control are much more safety-critical than traditional computing systems since they jeopardize the integrity ...
In-System Testing of Configurable Logic Blocks in Xilinx 7-Series FPGAs
(Virginia Tech, 2015-07-30)
FPGA fault recovery techniques, such as bitstream scrubbing, are only limited to detecting and correcting soft errors that corrupt the configuration memory. Scrubbing and related techniques cannot detect permanent faults ...
FPGA-Roofline: An Insightful Model for FGPA-based Hardware Acceleration in Modern Embedded Systems
(Virginia Tech, 2015-01-17)
The quick growth of embedded systems and their increasing computing power has made them suitable for a wider range of applications. Despite the increasing performance of modern embedded processors, they are outpaced by ...
Module Shaping and Exploration in Rapid FPGA Design and Assembly Workflows
(Virginia Tech, 2015-06-25)
The modular design methodology has been widely adopted to harness the complexity of large FPGA-based systems. As a result, a number of commercial and academic tool flows emerged to support modular design including ...
Flexible and Lightweight Cryptographic Engines for Constrained Systems
(Virginia Tech, 2015-06-04)
There is a significant effort in building lightweight cryptographic operations, yet the proposed solutions are typically single purpose modules that can only provide a fixed functionality. However, flexibility is an important ...