A Multichannel Digital Real-Time Correlator as Single FPGA Implementation

Author

Jakob, C. ; Schwarzbacher, A. Th ; Hoppe, B. ; Peters, R.

Author_Institution

Dublin Inst. of Technol., Dublin

fYear

2007

fDate

1-4 July 2007

Firstpage

276

Lastpage

279

Abstract

The measurement of light scattering represents a scientific method for the analysis and investigation of submicron particle structures. The key principle of this approach is to extract tempo spectral information from light scattered using correlation techniques. In this paper we present a multichannel correlator architecture, which integrates 32 correlators on a single chip and thus allows the real-time processing of up to 32 independent input channels. The combination of a fast front-end with a highly optimised soft-core processor leads to a time dynamic range from 5ns up to several hours for every single correlation channel. The underlying algorithmic concepts and the software/hardware design considerations for the system-on-a-programmable-chip (SOPC) will be outlined.

Keywords

field programmable gate arrays; hardware-software codesign; light scattering; optical correlation; optical engineering computing; system-on-chip; correlation techniques; fast front-end; field programmable gate arrays; light scattering measurement; multichannel digital real-time correlator; real-time processing; single FPGA implementation; soft-core processor; submicron particle structures; system-on-a-programmable-chip; tempospectral information; Correlators; Data mining; Dynamic range; Field programmable gate arrays; Hardware; Light scattering; Particle measurements; Particle scattering; Software algorithms; Software design; DLS; FPGA; SOPC Design;

fLanguage

English

Publisher

ieee

Conference_Titel

Digital Signal Processing, 2007 15th International Conference on

Conference_Location

Cardiff

Print_ISBN

1-4244-0882-2

Electronic_ISBN

1-4244-0882-2

Type

conf

DOI

10.1109/ICDSP.2007.4288572

Filename

4288572