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#Neuromorphic Computers Reel by @hoomans_of_upsidedownlabs - Blink twice to hover and focus to select..

Imagine if you have to sit at a place, you can't move and can't speak for your lifetime. Suddenly it start — Blink twice to hover and focus to select.. Imagine if you have to sit at a place, you can’t move and can’t speak for your lifetime. Suddenly it starts feeling like a hell. That is what ALS and paralysed people feel but we are here to change! NPG Lite can record brain, muscles, heart and eyes signals (EEG, EMG, ECG & EOG). When we focus our brain produces more beta waves which we used to select the options and to hover blink eyes and NPG Lite detects the EOG signals generated by dipole of the eyes. It’s a start, possibilities are endless with NPG Lite! This project is made by @krishnanshu.99 @ritikamishra0044 and @aman_maheshwari_02 🔥 Our startup: @myupsidedownlab ❤️ #paralysis #projects #iot #research #technology #futuretech #als #startup #engineering #neurotech #bci #brain #neuroscience

#Neuromorphic Computers Reel by @theartificialintelligence (verified account) - Neural networks and machine learning. — Neural networks and machine learning.

#Neuromorphic Computers Reel by @madscientist.phys - The world's first neuromorphic supercomputer is moving closer to reality after researchers at Sandia National Laboratories (SNL) in the US demonstrate — The world’s first neuromorphic supercomputer is moving closer to reality after researchers at Sandia National Laboratories (SNL) in the US demonstrated a novel algorithm that uses neuromorphic hardware to solve partial differential equations (PDEs). Comment down your thoughts below 👇 . . . . . . #equations #maths #science #physics #differentiation #mathsisfun #neuromorphiccomputing #computers #ai #artificialinteligence #development #follow #instagram

#Neuromorphic Computers Reel by @bioscoolya - Computers inspired by the human brain, known as neuromorphic systems, can process information in parallel while using very little energy. But today's — Computers inspired by the human brain, known as neuromorphic systems, can process information in parallel while using very little energy. But today’s versions often rely on rare materials, expensive manufacturing, or fragile biological tissues that are difficult to maintain. To address these limits, researchers are exploring an unusual but promising alternative: fungi. In a recent study, scientists investigated shiitake mushrooms as a living computing material. The underground fungal network, called mycelium, naturally sends electrical signals that resemble the spikes used by neurons in the brain. By connecting electrodes to these networks, researchers showed that fungi can perform basic computing tasks. The fungal networks behaved like memristors, meaning they can store and process information at the same time. These systems could be trained, dried for storage and later reactivated without losing function. Even after dehydration, the fungal computers worked at high frequencies and achieved strong accuracy. Shiitake fungi are also known for their resistance to radiation, making them interesting candidates for space or extreme environments. This work suggests that fungi could support sustainable, low-energy computing in the future. Research- Sustainable memristors from shiitake mycelium for high-frequency bioelectronics Published: October 10, 2025 https://doi.org/10.1371/journal.pone.0328965 Follow us @bioscoolya 💚 & Be a part of our Biology Community 💚 #biology #computer #brain #mushroom #fungi

#Neuromorphic Computers Reel by @semiconductorclub - Computers are incredible calculators, but biologically, they are actually pretty inefficient. 📉

Why? Because of the Von Neumann Bottleneck (Left sid — Computers are incredible calculators, but biologically, they are actually pretty inefficient. 📉 Why? Because of the Von Neumann Bottleneck (Left side of the sketch). In every device you own, the CPU and the Memory are neighbors, not roommates. Every time the CPU needs a piece of data, it has to “fetch” it across a bus. 🚌 For modern AI, which requires billions of data fetches per second, this constant “commuting” wastes a huge amount of time and energy. Enter Neuromorphic Computing! ⚡🧠 Instead of separating logic and storage, we are building chips that mimic the biological structure of the human brain. ✅ Spiking Neural Networks (SNNs): Information is sent as “spikes” (electricity bursts) only when needed, just like neurons firing. ✅ In-Memory Processing: Calculation happens where the data is stored. No commute! The Goal? To get the computational power of a Supercomputer with the energy efficiency of a human brain. #semiconductor #vlsi #engineering #semiconductorclub #electronics

#Neuromorphic Computers Reel by @vt_advancedcomputing - Meet Ramashish Guarav - PhD student in Computer Engineering working with Dr. Cindy Yi. His research? Neuromorphic computing.

New tech, new research, — Meet Ramashish Guarav - PhD student in Computer Engineering working with Dr. Cindy Yi. His research? Neuromorphic computing. New tech, new research, endless opportunities at the Virginia Tech Institute for Advanced Computing in Alexandria.

#Neuromorphic Computers Reel by @vels_cognition - 🧠💻 Computers just joined the living beings chat.

A startup built a living computer using human neuron organoids - not silicon.
No thoughts. No feel — 🧠💻 Computers just joined the living beings chat. A startup built a living computer using human neuron organoids — not silicon. No thoughts. No feelings. Just neurons firing to compute. Why? Because brains use ~20W… AI data centers use millions. This isn’t sci-fi. It’s biology doing computation. #FutureTech #BioComputing #AITrends #TechExplained #GenZTech #Innovation

#Neuromorphic Computers Reel by @mimbasimbaofficial - Ever wondered how a CPU is actually born? 🖥️⚡..
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From sand to silicon ⚡ Watch how the brain of every computer-your CPU-is born. An animated journey — Ever wondered how a CPU is actually born? 🖥️⚡.. . From sand to silicon ⚡ Watch how the brain of every computer—your CPU—is born. An animated journey into the world of microchips! 🖥️✨ #TechExplained" 📍Location: Silicon Valley, California Hashtags: #CPU #Engineering #TechAnimation #SiliconValley #ComputerScience #Innovation #Technology #ChipDesign #FutureTech #Nanotechnology #AI #Microchip #Processor #ScienceAnimation #Inventions #DigitalWorld #Trending2025 #FYP #ViralVideo #mimbasimba #usa #unitedstates #education #animation

#Neuromorphic Computers Reel by @codcoders (verified account) - Organic Intelligence..

Imagine a computer… powered not by chips, but by living human neurons. This isn't sci-fi anymore. This is CL1. CL1 places lab- — Organic Intelligence.. Imagine a computer… powered not by chips, but by living human neurons. This isn’t sci-fi anymore. This is CL1. CL1 places lab-grown brain cells onto a silicon chip, letting them interact with real code. You write in Python — the neurons respond. They don’t just learn — they adapt, they play games, they react in real time. And here’s the twist: it’s not just a research experiment anymore. As of mid-2025, CL1 is available for purchase, starting at $35,000, both as a physical device and a “neuron-as-a-service” model. There are more videos like this on the page. Join us✨ Feel free to share it in your story to show your passion for technology! But if you post it as a reel, please tag 'codcoders' and mention us in the caption 🙌 #biocomputer #ai #life #tech #usa #fyp #fypシ

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@kallaway

Massive breakthrough…Scientists are using living brain cells to build computers that are ALIVE! This is a brand new industry of technology called biocomputing. These are real human neurons that can actually think and learn for themselves. When scientists combine them with silicon chips they bring the computer to life. Now if you’re like me, you’re probably wondering one thing… Why are scientists doing this? It feels a bit much to be growing human brains just to put them inside of computers. Well listen to this…it turns out, human brain cells have extremely rare abilities to process things without being trained. Normal computers need to be taught how to solve certain problems. It’s why AI models take so much energy and training data to build. But as soon as you add brain cells to a computer chip, they don’t really need as much training. They kinda start figuring out what to do on their own, just like a human would. Now because of this, these biocomputers are super efficient. A regular supercomputer might use 40M watts of power to solve a complex task. The human brain can do it in just 20. That’s 2M times more efficient. And this means these biocomputers could become the secret weapon to solving humanity’s hardest computational challenges. But…there is just one massive problem… Brain cells tend to die when their temperature deviates from 98.6 degrees. And computers generate a ton of heat. So we have this wild situation where living computers might be the solve for everything, but it’s almost impossible to keep the brain part alive. Today, companies like Cortical Labs are selling these biocomputers for $35,000. But over time, scientists are gonna figure out how to get them stable & more accessible. It’s wild to say but I think soon we’re gonna have living computers that literally think like humans. Follow @kallaway for more videos on tech & AI #ai #artificialintelligence #tech #technology #computing #computer #future #coding #newtech

#Neuromorphic Computers Reel by @dynamiq_electronics - This is mechatronic engineering.

We at Dynamiq love creating and tinkering. We know the frustration of the current hobbyist market for robotic compon — This is mechatronic engineering. We at Dynamiq love creating and tinkering. We know the frustration of the current hobbyist market for robotic components and we want to change that. We are developing the next generation of Arduino ecosystem for robotics. Bringing access to industrial robotic technology to all tinkerers. #robotics #mechatronics #engineering #pov #engineeringlife

#Neuromorphic Computers Reel by @alone_but_happy_21 - Researchers at RMIT University have built a small neuromorphic device that works like the human brain. It can process visual data, detect motion, and — Researchers at RMIT University have built a small neuromorphic device that works like the human brain. It can process visual data, detect motion, and store memories-without needing an external computer. The device is made from molybdenum disulfide (MoS2) and uses the "leaky integrate-and-fire" (LIF) neuron model. This allows it to behave like a spiking neural network, reacting in real time when exposed to visible light. Tests showed the device could track hand movements and handle visual tasks with 80% accuracy, using dynamic input instead of traditional frame-by-frame capture. This breakthrough shows strong potential for real-time, brain-like processing in future tech. #NeuromorphicComputing #BrainInspiredTech #RMITHack #FutureOfAI #MoS2Innovation less

✨ #Neuromorphic Computers Discovery Guide

Instagram hosts thousands of posts under #Neuromorphic Computers, creating one of the platform's most vibrant visual ecosystems. This massive collection represents trending moments, creative expressions, and global conversations happening right now.

#Neuromorphic Computers is one of the most engaging trends on Instagram right now. With over thousands of posts in this category, creators like @kallaway, @theartificialintelligence and @dynamiq_electronics are leading the way with their viral content. Browse these popular videos anonymously on Pictame.

What's trending in #Neuromorphic Computers? The most watched Reels videos and viral content are featured above. Explore the gallery to discover creative storytelling, popular moments, and content that's capturing millions of views worldwide.

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✅ Moderate Competition

💡 Top performing posts average 885.2K views (2.9x above average). Moderate competition - consistent posting builds momentum.

Post consistently 3-5 times/week at times when your audience is most active

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🔥 #Neuromorphic Computers shows high engagement potential - post strategically at peak times

✍️ Detailed captions with story work well - average caption length is 744 characters

✨ Many verified creators are active (25%) - study their content style for inspiration

📹 High-quality vertical videos (9:16) perform best for #Neuromorphic Computers - use good lighting and clear audio

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