Degree Type

Thesis

Date of Award

2010

Degree Name

Master of Science

Department

Electrical and Computer Engineering

First Advisor

Joseph A. Zambreno

Abstract

Software Defined Radio (SDR) was brought about by moving processing done on specific hardware components to reconfigurable software. Hardware components like General Purpose Processors (GPPs), Digital Signal Processors (DSPs) and Field Programmable Gate Arrays (FPGAs) are used to make the software and hardware processing of the radio more portable and as efficient as possible. Graphics Processing Units (GPUs) designed years ago for video rendering, are now finding new uses in research. The parallel architecture provided by the GPU gives developers the ability to speed up the performance of computationally intense programs. An open source tool for SDR, Open Source Software Communications Architecture (SCA) Implementation: Embedded (OSSIE), is a free waveform development environment for any developer who wants to experiment with SDR. In this work, OSSIE is integrated with a GPU computing framework to show how performance improvement can be gained from GPU parallelization. GPU research performed with SDR encompasses improving SDR simulations to implementing specific wireless protocols. In this thesis, we are aiming to show performance improvement within an SCA architected SDR implementation. The software components within OSSIE gained significant performance increases with little software changes due to the natural parallelism of the GPU, using Compute Unified Device Architecture (CUDA), Nvidia's GPU programming API. Using sample data sizes for the I and Q channel inputs, performance improvements were seen in as little as 512 samples when using the GPU optimized version of OSSIE. As the sample size increased, the CUDA performance improved as well. Porting OSSIE components onto the CUDA architecture showed that improved performance can be seen in SDR related software through the use of GPU technology.

Copyright Owner

Joel Gregory Millage

Language

en

Date Available

2012-04-30

File Format

application/pdf

File Size

67 pages

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