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First Living Computer Made Of Using Humain Brain Tissue, Can It Replace Human?

It challenges our ideas about what is possible and raises profound questions about the future of artificial intelligence and humanity’s relationship with technology.

By Desk
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From Mainframes to the Cloud: The Evolution of Information Technolog
From Mainframes to the Cloud: The Evolution of Information Technolog

First Living Computer:  In today’s world, many people are concerned that artificial intelligence will one day take over human jobs. However, a surprising development has emerged recently.

Swedish researchers have announced a groundbreaking achievement in the field of technology: they have successfully developed a living computer using human brain cells. You may be curious about how this remarkable feat was accomplished.”

Swedish researchers have pointed out that the notable feature of this computer is its capability to exchange information similar to a computer chip. If this form of computing is embraced globally, it has the potential to address the energy crisis.

Various companies and academic institutions worldwide are currently exploring this technology. The consequences of this new discovery are significant. It introduces fresh opportunities in the fields of computer science and neuroscience, merging the boundaries between biology and technology.

While ethical concerns are present, the clear advantages in terms of energy efficiency and processing capabilities are undeniable. The development of a functional living computer marks a major achievement in the realm of technology. It prompts us to reconsider our notions of what can be achieved and sparks important discussions about the potential impact on artificial intelligence and the interaction between humanity and technology.

World’s First Living Computer

It comprises 16 organoids, which are clusters of brain cells cultivated in a lab and communicate with one another. These organoids operate like a traditional computer chip by transmitting and receiving signals through their neurons, which act as circuits. What sets it apart is the fact that this living machine consumes less energy due to the efficiency of living neurons, which require over a million times less energy than the digital processors commonly utilized.

When scientists compared the human brain to top computers like the Hewlett Packard Enterprise Frontier, they discovered that the brain runs at the same speed as the computer but with 1,000 times more memory, and only uses 10 to 20 watts of power, in contrast to the computer’s 21 megawatts.

Dr. Fred Jordan, the co-CEO of FinalSpark, a startup that specializes in creating solutions utilizing biological neural networks, stated to DailyMail that while this concept is frequently seen in science fiction, there is not a significant amount of concrete research on it.

Apart from using less energy, the live computer provides modification capabilities that are not found in traditional computers. When a brain learns, its hardware changes, forming new synaptic connections. Unlike traditional computers where software runs on fixed hardware, live computers blend software and hardware components through a feature called “wetware.”

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“Brainoware”: Sustainable Biocomputing Revolutionizing AI.

The living computer developed by FinalSpark, known as “Brainoware,” combines electronic technology with live neurons in order to support cutting-edge research in artificial intelligence. This approach allows for the efficient transfer and receipt of data by the organoids via wires. The organoids are kept in optimal living conditions within a microfluidic chamber. The organoids in the incubator are kept at body temperature, provided with nutrients, and kept clean.

Even though the neurons in the organoids typically last only about 100 days, they can be easily replaced to allow the organoids to keep functioning. The organization’s Neuroplatform allows researchers from around the world to remotely conduct experiments on biological neurons. More than thirty universities have already expressed interest in this platform, signaling a new era of collaboration in biocomputing and AI research.

Dr. Jordan believes that the living computer has the potential to enhance our understanding of the brain and provide a solution for neurological disorders. This innovative approach using neural networks opens up new areas of research that were previously not feasible. The creation of this live computer was prompted by the current energy situation and the increasing demand for AI resources.

Efficient Energy Consumption

The rising energy consumption of data centers due to advancements in AI technology has become a major concern. The biocomputer’s efficient energy usage has the potential to mitigate these concerns and enhance technological advancements simultaneously.

FinalSpark’s completed work has made a significant contribution to the field of computer science. By harnessing the capabilities of human brain cells, the living computer offers a practical and environmentally friendly alternative to traditional silicon-based processors.

This innovative method of operation could potentially address the challenges of global energy issues by providing more efficient computer solutions for the future. Vienna will host the world’s first “biocomputing” conference in the near future, focusing on the possibilities of this advanced technology.

Biocomputing is expected to offer numerous opportunities as FinalSpark advances its Neuroplatform. It marks the start of a new era where the visions of science fiction become reality.

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