Title :
FPGA based implementation & power analysis of parameterized Walsh sequences
Author :
Purohit, Gaurav ; Chaubey, V.K. ; Raju, Kota Solomon ; Vyas, Divya
Author_Institution :
Dept. of EEE, BITS-Pilani, Pilani, India
fDate :
Feb. 28 2014-March 2 2014
Abstract :
This paper presents FPGA based implementation of the theory which replaces a general Sine and cosine function by set of orthogonal functions i.e. Walsh function. The paper further compares Parameterized `Serial In Serial Out´ architectures based on classical counter approach. The investigation consider FPGA parameters like Area, Speed and Power and shows that using Gray-increment based architecture instead of Binary saves 6mW of power per symbol (64 Walsh chips per symbol) with 30% reduction in area. The design is implemented in VHDL code, simulated in MATLAB System Generator environment and validated with MATLAB Simulink Model. The design targeted Xilinx Virtex-5 “XC5VLX50T-1ff1136” FPGA device for the implementation and comparison. The design found their uses in many popular applications like Software Define Radio (SDR) including multiuser communications such as CDMA, WCDMA, VLSI testing, pattern recognition as well as image and signal processing.
Keywords :
VLSI; Walsh functions; code division multiple access; field programmable gate arrays; hardware description languages; software radio; FPGA; MATLAB Simulink model; MATLAB system generator environment; SDR; VHDL code; VLSI testing; WCDMA; cosine function; field programmable gate arrays; gray-increment based architecture; image processing; multiuser communications; parameterized Walsh sequences; pattern recognition; power 6 mW; power analysis; signal processing; software define radio; Field programmable gate arrays; Generators; Indexes; MATLAB; Multiaccess communication; Noise measurement; Radiation detectors; CDMA; Rademacher function; SDR; System Generator; WCDMA; Walsh function; Walsh sequences;
Conference_Titel :
Students' Technology Symposium (TechSym), 2014 IEEE
Conference_Location :
Kharagpur
Print_ISBN :
978-1-4799-2607-7
DOI :
10.1109/TechSym.2014.6808063