Journal of Electrical and Electronics Engineering (May 2017)

DNA Processing and Reassembly on General Purpose FPGA-based Development Boards

  • SZÁSZ Csaba

Journal volume & issue
Vol. 10, no. 1
pp. 67 – 72

Abstract

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The great majority of researchers involved in microelectronics generally agree that many scientific challenges in life sciences have associated with them a powerful computational requirement that must be solved before scientific progress can be made. The current trend in Deoxyribonucleic Acid (DNA) computing technologies is to develop special hardware platforms capable to provide the needed processing performance at lower cost. In this endeavor the FPGA-based (Field Programmable Gate Arrays) configurations aimed to accelerate genome sequencing and reassembly plays a leading role. This paper emphasizes benefits and advantages using general purpose FPGA-based development boards in DNA reassembly applications beside the special hardware architecture solutions. An original approach is unfolded which outlines the versatility of high performance ready-to-use manufacturer development platforms endowed with powerful hardware resources fully optimized for high speed processing applications. The theoretical arguments are supported via an intuitive implementation example where the designer it is discharged from any hardware development effort and completely assisted in exclusive concentration only on software design issues providing greatly reduced application development cycles. The experiments prove that such boards available on the market are suitable to fulfill in all a wide range of DNA sequencing and reassembly applications.

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