In this work we describe how to implement the Advanced Encryption Standard (AES) for a bit-serial fully pipelined architecture. This is possible through a requirements analysis and extension of the architecture. For the AES design, we rely on a high level synthesis tool to automatically generate the AES algorithm's elements. In addition to the implementation of the AES cipher, we describe a low- level space optimization approach to reduce the hardware utilization of our AES design. This involves a register transfer level analysis of the architecture's operators. The resulting correctly...
In this work we describe how to implement the Advanced Encryption Standard (AES) for a bit-serial fully pipelined architecture. This is possible throu...
This work presents latency optimizations for a specific hardware architecture, which was developed based on the combination of different design paradigms and thus requires sophisticated design optimizations. The architecture comprises synchronous and systematic bit-serial processing without a central controlling instance. It was patented in 2004 and targets future high-speed applications due to the abdication of long wires. So-called routers, achieving a reconfigurable system, can overcome the application specificity of the basic version of the architecture. This work focuses on the challenge...
This work presents latency optimizations for a specific hardware architecture, which was developed based on the combination of different design paradi...