Dennis K. Y. Tong, Pui Sze Lo, Kin-Hong Lee, P. Leong
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A system level implementation of Rijndael on a memory-slot based FPGA card
This paper describes system level issues encountered in a high performance implementation of a Rijndael encryption core on a memory-slot based reconfigurable computing platform called Pilchard. The Rijndael algorithm was adopted in 2000 by the US National Institute of Standards and Technology (NIST) as the Advanced Encryption Standard (AES). In the implementation of Rijndael, changing the number of unrolled rounds in the encryption core can affect the performance of the system. It is shown that for the design presented, the highest performance of 755 Mbit/sec was achieved by implementing a core with a single round. Although it is relatively easy to implement a high performance core on an FPGA, due to I/O bottlenecks, achieving high system level performance is more difficult. In order to optimize the performance of the host/FPGA interface, special instructions from the Intel Pentium III streaming SIMD extensions (SSE) along with write-combining memory operations were used. These features enabled the measured throughput of the AES core to reach 445 Mbit/sec which, although still slower than the AES core, was double that of an unoptimized interface.
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