VAISHALPURI GOSAWI’s Post

Imagine a world where computers could 'think' as humans do. The zephyr of innovation is blowing across the field of computing, and at the eye of the storm is FinalSpark. A Swiss startup that has conjured up a bioprocessor - a marriage between machine and biological processing. Their creation - Neuroplatform uses 16 human brain organoids, taking steps towards replicating the natural wonders of human cognition in machines. The power? Just a million times less than your everyday digital processor. This radical hardware not only learns but also processes information, and simultaneously, slashes the environmental footprint of computing. However, these brain-like systems extend further than pure technology. They scratch at the surface of profound ethical implications. What does it mean for us when we blur the line between human intellect and machine processing? Obviously, it's an advance, but what are the costs? Is the future of technology held in the hand of biology, or will ethical boundaries pull us back from this precipice? #AI #BioComputing https://lnkd.in/ezZPaceB

🚀 Innovation in Supercomputing for AI: Cerebras Systems Revolutionizes the Future of Data Processing Cerebras Systems has just made history with the launch of the Wafer-Scale Engine 3 (WSE-3), the world’s largest monolithic silicon chip, designed to take artificial intelligence model training to unprecedented levels. This chip, with over 2.6 trillion transistors and 850,000 processing cores, will be the core of the Condor Galaxy 3 supercomputer, currently under construction in Texas. 🖥️ 🌐Why is it revolutionary? The WSE-3 is more than just a big chip: with an innovative architecture, it enables massive amounts of data to be processed in real-time with lower latency, accelerating complex model training like never before. Its ability to scale and handle intensive workloads redefines what is possible in machine learning and deep learning, offering an unparalleled competitive advantage to AI researchers and developers. 🔍 Impact: Condor Galaxy 3 and the Future of AI The potential of Condor Galaxy 3 in sectors like scientific research, drug development, and bioinformatics is immense. The processing power of this supercomputer will enable big data and predictive analysis AI applications that were previously out of reach. This advance will reduce training times, making real-time AI applications possible and accelerating the pace of innovation. 💡 Reflection: Cerebras Systems’ WSE-3 is a testament to how supercomputing and AI can transform our world. We are witnessing an unprecedented leap towards a future where AI applications will be faster, more powerful, and more precise, with the potential to change entire industries and improve our quality of life. 🔗💥 #Innovation #DigitalTransformation #FutureTechnology #AI #Supercomputing #MachineLearning #DeepLearning #BigData #ScientificResearch

$500 FOR A BRAIN-BASED COMPUTER? Imagine renting a computer not built from silicon but from living human neurons. Swiss company FinalSpark is offering this with its Neuroplatform—biocomputers that harness human brain organoids for processing power. These aren't just theoretical; they're available for $500 a month today. HUMAN NEURONS AS COMPUTER HARDWARE Traditional AI demands immense energy, but biocomputing offers a path toward more efficient systems. FinalSpark's goal is to cut AI's energy consumption by 100,000 times. Researchers worldwide are already using these living computers to explore the future of AI and biocomputing. The possibilities are vast, from creating new computer languages tailored to organoids to potentially surpassing silicon-based systems in specialized tasks. THE ROAD AHEAD While promising, this tech has its challenges. These biocomputers are still in the experimental stage, and ethical questions loom large—especially around the potential consciousness of these neuron clusters. #Biocomputing #AI #Innovation #Technology #Sustainability https://lnkd.in/dKdhWDU5

🧠 World’s First Living Computer Swiss startup FinalSpark has unveiled the Neuroplatform, the world’s first "living computer," which integrates human brain organoids to perform computational tasks. This biocomputer could mark a transformative leap in AI research and sustainable computing. However, as with any groundbreaking innovation, it raises important ethical questions that need careful consideration. 🌍 Revolutionary Technology with Potential Benefits Energy Efficiency: The Neuroplatform is a marvel of efficiency, consuming nearly a million times less energy than traditional silicon-based processors. This could drastically reduce the environmental impact of computing, offering a sustainable alternative to current technologies. Wetware Computing: By combining biological neurons with digital hardware, the Neuroplatform processes information similarly to the human brain. This fusion of biology and technology could pave the way for advances in AI, potentially leading to more intuitive and powerful computational systems. Scalability and Longevity: While the technology is scalable, the lifespan of the brain organoids is currently limited to about 100 days. This presents both a technical challenge and an ethical consideration regarding the creation and disposal of living tissues. ⚖️ The Ethical Landscape: Innovation vs. Integrity The Neuroplatform’s use of human brain organoids invites a range of ethical questions. On one hand, the organoids used are not sentient—they lack the consciousness and experiences that define human life. On the other hand, the concept of using living cells for computation pushes the boundaries of what we consider acceptable in technology. Does This Technology Challenge Our Ethical Norms? While the Neuroplatform lacks sentience, its use of human-derived cells could be seen as blurring the line between machine and life. This raises questions about where we draw ethical boundaries in scientific advancement. Environmental Benefits vs. Ethical Costs: The Neuroplatform’s potential to reduce the environmental footprint of computing is a significant advantage. However, it’s crucial to balance these benefits against the ethical considerations of using living cells for technological purposes. https://lnkd.in/e_2en93Z https://lnkd.in/eFZNXr5J #Biocomputing #EthicsInTech #SustainableComputing

🚀 Step into the Future with the World’s First 'Living Computer'!🚀 Hold onto your seats - scientists have just created something straight out of a sci-fi movie: a computer made from 16 human brain organoids! 🧠 These tiny bioprocessors, powered by living neurons, are not only capable of learning and processing information but do so with a fraction of the energy used by traditional systems. 🌍 Think about it: while today’s computers need 21 megawatts of power, this living computer runs on just 10-20 watts—talk about energy efficiency! ⚡ And the best part? Each setup can last about 100 days, opening the door to a whole new world of AI possibilities. The future of technology is alive, literally! 🌟 #AI #TechInnovation #Biocomputing #Neurotech #TheFutureIsNow

𝗦𝘄𝗶𝘀𝘀 startup 𝗙𝗶𝗻𝗮𝗹𝗦𝗽𝗮𝗿𝗸 unveiled service offering scientists cloud access to "biocomputers" made from human brain cell organoids for $500 monthly. These biocomputers, which can operate for up to 100 days, aim to create AI systems that consume 100,000 times less energy than current technologies. The system uses dopamine and electrical signals to train AI models, mimicking natural neural processes. While this innovation could potentially revolutionize AI energy efficiency, it also raises ethical questions about the use of human brain cells in computing. ➜ Check the news at: https://lnkd.in/eQZVnqVE ➜ Vendorvise's official Instagram: https://lnkd.in/ebK2KQ2C ➜ Vendorvise's Linktree: https://lnkd.in/dQdbMdth 🤖 If you enjoy reading my posts about AI and tech news, hit the like button and share with your friends to support my content! #ai #artificialintelligence #ainews #aipowered #news #blog #swiss #startup #finalspark #biocomputers #energy #efficient #generativeai #aitech #technology #content #socialmedia #future #new #business #techtrends #innovation #launch #success #markets #people #industry

#Topics Propelled by 'science for humanity,' this Chinese AI startup sets sight on US [ad_1] Amid rising geopolitical tensions, many Chinese tech companies find themselves recalibrating their overseas pursuits, often sidestepping any reference to their origin. One bold startup called DP Technology stands out from the crowd. Working to apply artificial intelligence to molecular simulations, DP, short for “Deep Potential,” believes that the unifying power of “scientific research for humanity” will pave the way for its global expansion. Founded in 2018 with renowned mathematician Weinan E as its advisor, DP provides a set of tools to conduct scientific computing, a process in which “computer simulations of mathematical models play an indispensable role in the development of technology and in scientific research,” according to a definition by the University of Waterloo. Areas that can benefit from scientific computing range from biopharmaceutical research and car design to semiconductor development. While the world is currently fixated on using AI to generate text, images and videos, DP finds itself in a less-tapped field: combining machine learning, which allows computers to automatically learn from given data, with molecular simulations, which analyze real-world produ...

Explore the future of computing with biocomputing, where living cells like human brain organoids are used to reduce AI's energy demands. Discover the ethical challenges, power efficiency, and potential applications of this groundbreaking technology https://hubs.la/Q02LQyxr0

Neural network potentials (NNPs) are advancing chemistry and materials science by harnessing the power of machine learning and artificial intelligence to speed up and refine molecular simulations. Building on previous “Top Ten” technologies in 2020 and 2023, NNPs represent the next frontier in combining AI with quantum mechanics to predict molecular properties, simulate energy levels, and simplify complex calculations. Traditionally, such tasks required enormous computational resources, often consuming extensive time and power. But NNPs streamline these simulations, helping us run more efficient, environmentally responsible calculations. This could ultimately support research in diverse fields, from biology to earth sciences. Already, tech leaders like Google’s DeepMind are investing in NNPs, with the goal of accelerating scientific innovation. Explore how this #IUPACTop2024 technology is set to redefine the limits of computational chemistry and spark new discoveries! https://buff.ly/4hrBvro

🚀 Digital Biology: The Quest for Eternal Youth 🚀 Move over, AI and GenAI… the next technological revolution is on the horizon, and it’s going to be one of the biggest revolutions ever—Digital Biology! 🧬 Jensen Huang recently shared that NVIDIA’s new AI super chips are paving the way for groundbreaking advancements in Digital Biology. What does this mean? It’s no longer just about smarter machines—it’s about reimagining life itself. Imagine a world where computers based on amino-acid AI chips are no longer a chimera. We could potentially slow down aging, optimize health, and even extend human life. What once sounded like science fiction is rapidly becoming science fact. ⚗️✨ As we push the boundaries of what’s possible with AI, Digital Biology could be the next frontier that transforms our world. What if the ultimate “upgrade” isn’t in technology but in ourselves—a biologically-enhanced, optimized version of humanity? The future is unfolding faster than we think. 🚀 What’s your take? Could Digital Biology be the key to the “fountain of youth”? 💡👇 #DigitalBiology #AI Jensen Huang explains why Digital Biology will be "one of the biggest revolutions ever" ➡️ https://lnkd.in/eexiRRs2 "An AI that can design new proteins could help unlock new cures and materials" | MIT Technology Review ➡️ https://lnkd.in/ezn_en7N