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Publication
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In this paper, we develop a new LUT-based optimization flow tailored for the synthesis of ASICs rather than FPGAs. We enhance LUT-mapping to consider the literal/AIG cost of LUT-nodes. We extend traditional Boolean methods to simplify and re-shape LUT-networks, targeting the best AIG/mapped-network implementation. We embed our proposed LUT-based optimization flow, area-oriented, in a commercial synthesis tool. Using our methodology, we improve 12 of the best-area results in the EPFL synthesis competition. Employed in an EDA-flow for ASICs, our LUT-optimization reduces area by - 1.80%, total negative slack by -0.39% and power by -1.72%, after PnR, at 5% runtime cost.