Transition sequence based Walsh Encoder: A novel power efficient architecture

Transition sequence based Walsh Encoder: A novel power efficient architecture

This paper presents a new algorithmic approach to construct a generic Nth Order Walsh Functions (WF) using Transition Sequence (TS). The TS acts as a pointer to the desired Walsh Index (WI) and produces the Sign Change string (S). This string becomes input to a triggered flip flop to generate 2n Wal...

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Veröffentlicht in:Microprocessors and microsystems 2018-11, Vol.63, p.98-103
Hauptverfasser: Purohit, Gaurav, Raju, Kota Solomon, Chaubey, Vinod Kumar
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Computer architecture
Dyadic symmetry
Isomorphic, sign change
Symmetry
Systems design
Transition sequence
Walsh functions
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Zusammenfassung:This paper presents a new algorithmic approach to construct a generic Nth Order Walsh Functions (WF) using Transition Sequence (TS). The TS acts as a pointer to the desired Walsh Index (WI) and produces the Sign Change string (S). This string becomes input to a triggered flip flop to generate 2n Walsh Sequences (WS). The proposed strategy totally removes the obvious use of modulo 2 adders leading to a simpler Isomorphic architecture. The FPGA implementation of the generated WS shows a superior performance for higher order WF (n) up to 9. This novel approach reduces Hardware (HW) area by 25–90% and Dynamic Power (DP) by 3–60%, with varying n from 4 to 9, as compared to pure sequential design approach. The proposed design has been tested and verified on the Xilinx Virtex-5 platform.
ISSN:0141-9331
1872-9436
DOI:10.1016/j.micpro.2018.08.003