Abstract:
This research project focuses on DNA computing using Strategies, a widely accepted technology for computer advancement. It simply reflects a range of ideas within the discipline. This presentation will focus on the different duties and modes in the rapidly expanding technical sector that this invention has made simpler. This will encompass the workings of the method, the different ways it could potentially be utilized in practice, and future possibilities in the relevant area. This study describes the whole colourful process of doing the work at the molecular level. This encompasses all the characteristics and uses relevant to this degree, resulting in a new age in computer systems. DNA computing presents enormous opportunities for solving difficult computational problems because of its ground-breaking incorporation of biology and computer technology. DNA computing primarily makes use of DNA molecules' exceptional information processing and storage capabilities. The technology consists of embedding data inside DNA sequences and using transcription and DNA replication, two biological processes, to do computations in parallel. The capacity of DNA computing to do massively simultaneous tasks has allowed for the solution of many difficult or difficult problems that would be inconceivable to tackle with traditional computational techniques. This is one of the most interesting features of DNA computing. In addition, the intrinsic scalability and energy efficiency of DNA-based systems suggest promise for fulfilling increasing computational demands in an era marked by the proliferation of data and resource constraints.
