International Journal of Computer Applications
Foundation of Computer Science (FCS), NY, USA
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Volume 66 - Issue 10 |
Published: March 2013 |
Authors: M. Angelin Ponrani, G. Manoj, R. Rajesvari |
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M. Angelin Ponrani, G. Manoj, R. Rajesvari . Module based Partial Reconfiguration on Bitstream Relocation Filter. International Journal of Computer Applications. 66, 10 (March 2013), 23-28. DOI=10.5120/11121-6083
@article{ 10.5120/11121-6083, author = { M. Angelin Ponrani,G. Manoj,R. Rajesvari }, title = { Module based Partial Reconfiguration on Bitstream Relocation Filter }, journal = { International Journal of Computer Applications }, year = { 2013 }, volume = { 66 }, number = { 10 }, pages = { 23-28 }, doi = { 10.5120/11121-6083 }, publisher = { Foundation of Computer Science (FCS), NY, USA } }
%0 Journal Article %D 2013 %A M. Angelin Ponrani %A G. Manoj %A R. Rajesvari %T Module based Partial Reconfiguration on Bitstream Relocation Filter%T %J International Journal of Computer Applications %V 66 %N 10 %P 23-28 %R 10.5120/11121-6083 %I Foundation of Computer Science (FCS), NY, USA
The concept of partial bit stream relocation activity, the run time relocation can be obtained by using a system component. It is able to update the bitstream information and moving the reconfigurable module to a desired position. In Dynamic partial reconfiguration, it provides the possibility to change certain parts of the hardware while the other parts of the system remain in use. It provides a methodology to generate bitstreams for removal of old hardware modules, and placement and routing of new hardware modules. Relocation filter is implemented as a software component. The data errors can be detected and corrected by using the cyclic redundancy check and it is then fed into a system. Reconfiguration process is done over here by keeping cyclic redundancy check as a static part and bitstream relocation filter as a reconfigurable one. Finally the area require to store the Bitstream is analysed. Using module based partial reconfiguration; we can dramatically increase the functionality of a single FPGA in terms of the memory that is used to store the bitstreams. Important applications for this technology include reconfigurable communication and cryptographic systems.