Abstract
This work discusses the technology mapping problem on hybrid field programmable architectures (HFPA). HFPAs are realized using a combination of lookup tables (LUTs) and programmable logic arrays (PLAs). HFPAs provide the designers with the advantages of both LUT-based field programmable gate arrays (FPGA) and PLAs. Specifically, the use of PLAs leads to reduced area in mapping the given circuit. Designing of technology mapping methodologies which map a given circuit on to the HFPA that exploits the above-mentioned advantages is a problem of great research and commercial interest. This work presents SHAPER, which maps the circuits onto HFPAs using reconvergence analysis. Empirically, it is shown that SHAPER yields better area-reduction than the previous known algorithms.
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