BIOCOMPUTING: THE FUTURE OF TECHNOLOGY OR JUST ANOTHER BEAR MARKET?
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Keywords: biocomputing, DNA computing, brain organoids, neural cells, organoid intelligence, synthetic biology, silicon alternativesAbstrak
Abstract. Biocomputing integrates biological components like DNA and proteins for computation, offering a revolutionary alternative to traditional silicon-based systems. Technologies such as Organoid Intelligence (OI) use lab-grown brain organoids for cognitive tasks, showcasing biocomputing's potential for energy-efficient processing. Recent studies reveal that biocomputers can be up to 90% more energy-efficient than silicon circuits. Despite challenges in reliability and integration, advances in synthetic biology are accelerating progress. They promise significant advancements in personalized medicine and environmental monitoring. With the potential to replace conventional silicon data centers, biocomputing could transform technology by providing more efficient and adaptable systems.
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Ewelina Kurtys. (2024). How FinalSpark Wants to Contribute to a Low Carbon Future: The Energy-saving Potential of Biocomputing. FinalSpark Research Publications
Frontiers in Science. (2023). Organoid Intelligence (OI): The New Frontier in Biocomputing and Intelligence-in-a-Dish. Volume 1 – (2023).
Grace K. A summary of AI surveys. AI Impacts (2015).
Hewlett Packard Enterprise. Hewlett Packard Enterprise ushers in new era with world’s first and fastest exascale supercomputer “Frontier” for the U.S. department of energy’s oak ridge national laboratory (2022).
Ewelina Kurtys. (2024). Redefining Computing Principles: The Efficiency of DNA-Based Circuits. FinalSpark Research Publications.