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ERSA
2008
2008
Multiparadigm Computing for Space-Based Synthetic Aperture Radar
Projected computational requirements for future space missions are outpacing technologies and trends in conventional embedded microprocessors. In order to meet the necessary levels of performance, new computing technologies are of increasing interest for space systems, such as reconfigurable devices and vector processing extensions. These new technologies can also be used in tandem with conventional generalpurpose processors in the form of multiparadigm computing. By using FPGA resources and AltiVec extensions, as well as MPI extensions for multiprocessor support, we explore possible hardware/software designs for a synthetic aperture radar application. Design of key components of the SAR application including range compression and azimuth compression will be discussed, and hardware/software performance tradeoffs analyzed. The performance of these key components will be measured individually, as well as in the context of the entire application. Fault-tolerant versions of range and azimu...
Real-time TrafficAzimuth Compression | ERSA 2008 | Hardware | Hardware/software Performance Tradeoffs | SAR Application |
Related Content
| Added | 29 Oct 2010 |
| Updated | 29 Oct 2010 |
| Type | Conference |
| Year | 2008 |
| Where | ERSA |
| Authors | Adam Jacobs, Grzegorz Cieslewski, Casey Reardon, Alan D. George |
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