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?:abstract
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Summary This article presents a high-level synthesis implementation of the longest common subsequence (LCS) algorithm combined with a weighted-based scheduler for comparing biological sequences prioritizing energy consumption or execution time The LCS algorithm has been thoroughly tailored using Vivado High-Level Synthesis tool, which is able to synthesize register transfer level (RTL) from high-level language descriptions, such as C/C++ Performance and energy consumption results were obtained with a CPU Intel Core i7-3770 CPU and an Alpha-Data ADM-PCIE-KU3 board that has a Xilinx Kintex UltraScale XCKU060 FPGA chip We executed a batch of 20 comparisons of sequences on 10k, 20k, and 50k sizes Our experiments showed that the energy consumption on the combined approach was significantly lower when compared to the CPU, achieving 75% energy reduction on 50k comparisons We also used the tool proposed in this article to do a case study on Covid-19, with real SARS-CoV-2 sequences, comparing their LCS scores
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