Ruchir Mandora’s Post

🐬 The Future of Innovation: A Glimpse into Emerging Trends ▪ Having read the book "The Millionaire Fastlane" by Mj Demarco, I came across a line "...the newest practices of inventing and engineering...". ▪ As a Software Engineer, I learned something and as part of it is what am sharing. ▪ The world of invention and engineering is rapidly evolving, driven by groundbreaking technologies and pressing global challenges. From AI and biotechnology to sustainable design and quantum computing, the possibilities are endless. ▪ Curious about what's shaping the future of innovation? Check out these emerging trends: ✔ AI and Machine Learning ✔ Biotechnology and Synthetic Biology ✔ Additive Manufacturing ✔ Sustainable Engineering ✔ Human-Centered Design ✔ Internet of Things ✔ Quantum Computing ▪ What excites you most about these advancements? Share your thoughts in the comments below! #innovation #technology #future

The next revolution in computing might not be silicon-based — but alive, breathing, and growing in a lab. ➡️ Last year, I took a deep dive into organoid intelligence and since then a lot has happened (https://lnkd.in/gFMuaUb2). As AI demands continue to outstrip our planet's resources, researchers are turning to these fancy new computing organisms. ➡️ These tiny, living clusters of neurons, part of the emerging field of "Organoid Intelligence" (OI), promise to deliver computational power with a fraction of the energy needed by today's silicon chips. A single human brain uses only 20 watts— equivalent to a light bulb — while the fastest supercomputer guzzles megawatts. ➡️ FinalSpark, a Swiss startup, has developed a bioprocessor built from 16 organoids, capable of handling complex tasks like pattern recognition and decision-making. Despite the excitement, challenges such as the organoids' short lifespan and the difficulty in scaling this technology raise questions about its practicality. ❓ Can living computers truly rival silicon, or is this a fascinating but ultimately impractical dream? Read the full story on Forbes: https://lnkd.in/gwkjxx5X #Organoids #Future #Computing #Brains #Ethics ---- 💡 𝗜𝗳 𝘆𝗼𝘂 𝗲𝗻𝗷𝗼𝘆𝗲𝗱 𝘁𝗵𝗶𝘀 𝗰𝗼𝗻𝘁𝗲𝗻𝘁, 𝗯𝗲 𝘀𝘂𝗿𝗲 𝘁𝗼 𝗱𝗼𝘄𝗻𝗹𝗼𝗮𝗱 𝗺𝘆 𝗻𝗲𝘄 𝗮𝗽𝗽 𝗳𝗼𝗿 𝗮 𝘂𝗻𝗶𝗾𝘂𝗲 𝗲𝘅𝗽𝗲𝗿𝗶𝗲𝗻𝗰𝗲 𝗯𝗲𝘆𝗼𝗻𝗱 𝘆𝗼𝘂𝗿 𝘁𝗿𝗮𝗱𝗶𝘁𝗶𝗼𝗻𝗮𝗹 𝗻𝗲𝘄𝘀𝗹𝗲𝘁𝘁𝗲𝗿 - you can have real-time insights, recommendations (a lot more than I share here) and conversations with my digital twin via text, audio or video in 28 languages! Join >6000 users who went before and go to app.thedigitalspeaker.com to sign up and take our connection to the next level! 🚀

Transforming Life Science through the Fusion of Technology and Tradition: Bridging AI and Engineering for Sustainable Innovations. 💥 World Governments Summit #AI #lifesciences #lifeengineering #sustainability #laboratory #engineering #technology

IS BIOTECH THE NEXT BIG AND REAL AI INVESTMENT OPPORTUNITY? Digital biology will be “one of the biggest revolutions ever. Where do I think the next amazing revolution is going to come from? And this is going to be flat out one of the biggest ones ever. There’s no question that digital biology is going to be it.” “For the first time in human history, biology has the opportunity to be engineering, not science. When something becomes engineering, not science, it becomes less sporadic and exponentially improving. It can compound on the benefits of the previous years. And every researcher’s contributions compound on each other… We’re going to have incredible tools that bring the world of biology—which is very chaotic and constantly changing and diverse and complex—into the world of computer science. And that is going to be profound.” Jensen Huang - CEO, Nvidia https://lnkd.in/giMiRaBr #Biotech #Biotechnology #AI #JensenHuang #Investment #Biology #Technology #healthcare #Opportunity #Revolution

In the ever-evolving landscape of technology, supercomputers stand as the beacon of innovation, propelling us towards a future of boundless possibilities. Here's why they're undeniably the linchpin of tomorrow: 🔍 Cutting-Edge Research: At the forefront of scientific exploration, supercomputers unravel the mysteries of the universe, drive medical breakthroughs, and pioneer sustainable solutions for a better world. 💡 Catalyst for Innovation: With their unparalleled computational prowess, supercomputers turbocharge innovation, fueling advancements in AI, machine learning, and data analytics that reshape industries and redefine what's possible. 🚀 Frontier of Discovery: From unraveling the cosmos to simulating intricate biological processes, supercomputers fuel our journey into the unknown, empowering space exploration, and accelerating humanity's quest for knowledge. 💻 Engine of Transformation: As we navigate the digital era, supercomputers serve as the cornerstone of digital transformation, revolutionizing industries, optimizing processes, and propelling economies forward with their unmatched processing power. Follow us for more information 💫🌐 #supercomputers #future #hasoub

The future of AI is #green, #democratic, and #scientific - join us in Pittsburgh at the Third International Symposium on the Tsetlin Machine! https://lnkd.in/eXi_T-U9 The second keynote is by Dr. Dilip Vasudevan and Dr. Christoph Kirst from Lawrence Berkeley National Laboratory in California. The title of their talk is Super-conducting Tsetlin Machines and Neuromorphic Computing. Abstract: Current trends in foundational models of AI have unleashed new challenges in system design to handle new generative AI applications. These systems when scaled will lead to highly memory intensive and communication congesting challenges which current Von-Neumann architectures cannot handle efficiently, leading to highly energy consuming systems. Alternative paradigms in computing, logic, architectures and devices are needed to tackle this energy crisis. Superconducting logic based systems are one of the promising venues to develop new directions to lower the energy consumption by several orders of magnitude. In this presentation, we will take a look at recent new and promising computing paradigms developed using superconducting electronics (SCE) and their advantages towards energy efficiency and scalability. After introducing super-conducting technologies, we will present our new computing model called Super-Tsetlin, a Superconducting Tsetlin Machine designed using superconducting RSFQ technology and demonstrate some applications. We will then discuss the superconducting Temporal Design for a set of hard compute problems and their benefits. Finally, we will introduce innovative meromorphic computing frameworks for high-performance and energy efficient computations, including neuromorphic oscillator networks and their implementations and applications in superconducting technology. We will conclude with a future vision towards building energy efficient systems for foundational models for AI and neuromorphic computing paradigms. #byebyeblackboxes #logicalai #greenai #democraticai #scientificai #tsetlinmachine #istm2024 University of Agder (UiA) CAIR Centre for Artificial Intelligence Research Dilip Vasudevan Christoph Kirst

Unleashing the Power of Biology and Technology Together! Imagine a computer powered by living brain cells. Sounds like sci-fi, right? Well, the future is now! FinalSpark, a pioneering Swiss startup, has unveiled a groundbreaking biocomputer that leverages the power of 16 human brain organoids instead of traditional circuits. These bioprocessors, composed of living neurons, can learn, process information, and do so with unparalleled energy efficiency consuming a million times less power than conventional digital processors! Why is this a game-changer? ⦿Sustainability: Dramatically reducing the environmental impact of computing. ⦿Advanced AI: Mimicking the human brain's natural efficiency and learning capabilities. Over the past three years, FinalSpark's Neuroplatform has enabled work with over 1,000 brain organoids, generating more than 18 terabytes of data. This monumental effort has paved the way for the world's first living processor, heralding a new era in computing . Join the incredible journey of blending biology with technology to create sustainable, efficient, and advanced computing systems. The potential is limitless, and the future is bright. #Biocomputing #AI #Sustainability #Innovation #TechNews #FutureOfComputing #FinalSpark

"It's as if we had a physics professor teaching physics to our generative AI. The AI invents drug candidates, and the professor tells it whether they are stupid or interesting, and if so to continue in that direction until we are satisfied enough with the molecules found by the #generativeAI to have them manufactured and then tested in the laboratory" explains Maximilien Levesque, our CEO & Cofounder. Building on a unique blend of theoretical physics and chemistry, we’re leveraging advanced technology to accelerate the development of breakthrough treatments. Curious about how a drug actually stops a disease? 💊 Check out the full Brut. video where Emmanuelle Martiano Rolland breaks it down ↘ https://lnkd.in/eAWZEBPT Thanks Tibor for visiting us and glad to share this vision of healthcare innovation with Bpifrance, whose support has been invaluable!  #DrugDiscovery #AI #Physics #TechBio #Big10

#ThisDayinTennesseeHistory: June 8, 2018 - Eight years ago, the Oak Ridge National Laboratory unveiled #Summit, the world’s most powerful and smartest scientific supercomputer. With a peak performance of 200,000 trillion calculations per second—or 200 petaflops, it empowers researchers to tackle challenges in energy, advanced materials, and artificial intelligence like never before. In addition to scientific modeling and simulation, Summit offers unparalleled opportunities for integrating #AI and scientific discovery. Researchers apply machine learning and deep learning techniques to address problems in human health, high-energy physics, and materials discovery, and more. Last week, Elon Musk's #xAI announced plans to build a multibillion-dollar supercomputer in #Memphis, which is set to become the world's largest when it goes online. From #EastTennessee to #WestTennessee, our state is at the cutting edge of this technology. #Supercomputing #ORNL #Innovation #ScientificDiscovery #ThisDayInHistory

16 Lab-Grown Brains Power the World's First Living Computer! #BioTech #AI #Organoids #futuretech . . . #Inzint In a groundbreaking development, 16 lab-grown human brains have been assembled to create the world's first living computer, designed by the innovative startup Final Spark. This bio-computer, named BioCom, boasts an impressive feat: it uses a million times less power than a traditional digital computer processor. Final Spark has also launched an online neuro platform, allowing researchers to conduct experiments with BioCom remotely via a server. This breakthrough is made possible by the use of organoids, which are simplified mini versions of real organs. Organoids are grown in a dish using cells from living organisms and can mimic the forms and functions of an actual organ. By cultivating cells from the human brain, the researchers have created mini brains that can be harnessed for computing. To sustain these brain cells, a sophisticated system provides the necessary nutrients and hydration, ensuring their viability for approximately 100 days. Final Spark's BioProcessors represent a significant leap forward in reducing energy consumption. With the rise of AI, the search for energy-efficient solutions has become crucial to protecting our climate and infrastructure. According to technological research and consulting firm Gartner, AI is projected to consume 3.5% of global electricity by 2030—more than the entire country of Germany uses today. However, the human brain uses only a fraction of the energy required by a digital computer, positioning BioCom as a promising solution to AI's energy dilemma.