Title :
Cycle-Efficient LFSR Implementation on Word-Based Microarchitecture
Author :
Jui-Chieh Lin ; Sao-Jie Chen ; Yu Hen Hu
Author_Institution :
Dept. of Electr. & Comput. Eng., Univ. of Wisconsin-Madison, Madison, WI, USA
Abstract :
Cycle-efficient implementation of the linear feedback shift register (LFSR) algorithm on a word-based microarchitecture is investigated. This work examines an algorithm transformation method, called term-preserving look-ahead transformation (TePLAT), that transforms the bit-serial LFSR algorithm into a bit parallel format while maintaining the overhead of the original LFSR algorithm. Detailed implementation methodologies as well as extensive simulation results are presented. We apply TePLAT to 25 commonly used LFSRs and test the resulting parallel formulations on two popular word-based microprocessor development platforms: a Texas Instrument C6416 Code Composition Simulator and an ARM-9 Simulator. In all 25 cases, TePLAT transformed LFSR formulations consistently achieve much higher throughput than those of a naïve implementation and a traditional look-ahead transformation-based implementation.
Keywords :
microprocessor chips; shift registers; software radio; ARM-9 simulator; TePLAT; Texas Instrument C6416 code composition simulator; algorithm transformation method; bit parallel format; bit-serial LFSR algorithm; cycle-efficient LFSR implementation; linear feedback shift register algorithm; look-ahead transformation-based implementation; software defined radio; term-preserving look-ahead transformation; word-based microarchitecture; word-based microprocessor development platforms; Generators; Parallel processing; Polynomials; Registers; Throughput; Vectors; Linear feedback shift register; iteration bound; look-ahead transformation; software defined radio; vector processing;
Journal_Title :
Computers, IEEE Transactions on
