Overcoming High Nanopore Basecaller Error Rates For Dna Storage Via Basecaller-Decoder Integration And Convolutional Codes

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Overcoming High Nanopore Basecaller Error Rates For Dna Storage Via Basecaller-Decoder Integration And Convolutional Codes


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Overcoming High Nanopore Basecaller Error Rates For Dna Storage Via Basecaller-Decoder Integration And Convolutional Codes

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As magnetization and semiconductor based storage technologies approach their limits, bio-molecules, such as DNA, have been identified as promising media for future storage systems, due to their high storage density (petabytes/gram) and long-term durabilit
As magnetization and semiconductor based storage technologies approach their limits, bio-molecules, such as DNA, have been identified as promising media for future storage systems, due to their high storage density (petabytes/gram) and long-term durabilit