System-on-programmable-chip approach enabling online fine-grained 1D-placement

Summary form only given. The increasing logic density of current FPGAs (field programmable gate arrays) enables the integration of whole systems on one programmable chip. Some of these FPGAs provide the additional feature of partial dynamic reconfiguration, which permits to change parts of the device while other parts keep working. Combining the features of system level density and partial dynamic reconfiguration enables the integration of dynamic systems that can be adopted to changing demands during runtime. A lot of theoretical work in this challenging research area has been done on efficiently placing and scheduling modules on the FPGA area. However, there is a lack of applied approaches that can be realized by existing tools and FPGAs. We present a new, realizable approach for the dynamic system integration on Xilinx Virtex FPGAs. In contrast to the existing approaches that consider fixed slots for the module placement, our approach enables the fine-grained placement of modules with variable width along a horizontal communication infrastructure.