Olivia
Online
logisto logistoris
@logistoris
Neural Networks - Artificial Intelligence - Cognitive Neuroscience - Neuroinformatics - Genomics
Joined February 2013
2.3K Following
1.5K Followers
703 Posts
🌐 New on the Blog: Microprocessori e Intelligenza Artificiale: la Sfida Globale tra Nvidia, AMD e Huawei 🚀
Stay ahead in the ever-evolving world of Digital Transformation. This article explores key insights into emerging technologies and their impact on today's business landscape. Discover how to leverage innovation to drive growth and resilience.
👉 https://t.co/HkN5XUQue7 by @ingliguori
#DigitalTransformation #Innovation #AI #Cybersecurity #IoT #Kenovy
We've published a paper that explains our views on AI competition between the US and China.
The US and democratic allies hold the lead in frontier AI today. Read more on what it’ll take to keep that lead: https://t.co/TgJBeodWYK
Ready to accelerate AI Factories?
Supermicro and NVIDIA deliver complete turnkey solutions that simplify enterprise AI deployment at scale, helping organizations achieve faster time-to-online and time-to-revenue.
🚨 AI Just Created a Material Humans Never Imagined!
Scientists have developed a revolutionary new material that is stronger than steel, lighter than foam, and up to 5 times stronger than titanium.
The most surprising part? It was designed by artificial intelligence, not human engineers.
Using AI, researchers created entirely new microscopic structures that were later 3D-printed and tested. The results could lead to lighter airplanes, stronger buildings, and more efficient vehicles.
This breakthrough shows that AI is no longer just helping scientists—it’s starting to invent alongside them.
What could the world look like when AI designs the materials of the future?
Source:
University of Toronto. AI-designed nanomaterials achieve exceptional strength and lightness. University of Toronto Engineering News.
Who to follow
Armando Oliveira - Braga
@aoliveira_braga
Discover Learning #Science. #Engineering of all Time. #Technology the other face of Human. The reticent World. Cogitamus - Citations by Author. #infographic #AI
Stonebranch
@Stonebranch
Hybrid IT automation and orchestration platform to centrally control IT processes - both on-prem and in the cloud. For #ITOps #PlatformOps #DevOps and #DataOps
Syed Mohammad Ahmed | Official
@ConnectBillionX
Raising 2 Billion Dollars to Build https://t.co/GFaJmDXOzA Mass Social Network, VCs, HNIs & Angel Investors invited, Email/Zoom: [email protected]
In Chinese schools, artificial intelligence now reviews homework by scanning notebooks, grading assignments automatically, and printing feedback that highlights errors.
Che differenza c'è tra un orologio da 40 eu ed un rolex da 40000.
Solo dispositivi cognitivi specifici rilevano la differenza.
Principio base della fisica #quantistica: la realta è una entita concettuale ( orologio normale od orologio #rolex) rilevata da un dispositivo cognitivo.
Wang Xingxing, il fondatore di Unitree Robotics, dice che i #robot umanoidi attualmente hanno raggiunto lo sviluppo di un bambino di 10 anni e nel giro di tre anni saranno pronti per l'impiego su larga scala.
Speriamo che siano un po' più sgamati dei #robotaspirapolvere 😄
#Cina #tecnologia #UnitreeRobotics #IA #cani #robotica
New York womens fashion went from formal and fitted to street ready and bold, and it mirrors every culture shift.
Prompt 1: Context Brief (The Map Claude Actually Needs)
Never jump straight into a question.
Start with rich context:
“You are helping me with [specific goal].
My background: [your role + company/project + constraints].
I’ve already tried [X and Y].
I’m stuck on [Z].
First, confirm you understand the full context before suggesting anything.”
Internal tests showed this single change boosts output quality by 41%.
Claude isn’t psychic — give it the full map.
🚨 SHOCKING: An ex-Anthropic researcher just leaked the exact internal prompting framework the team uses.
Most people treat Claude like a basic chatbot and leave 60–70% of its reasoning power on the table.
These 10 prompts are how the pros actually use it — tested internally for maximum clarity, honesty, and depth.
Copy-paste ready. Zero fluff.
Save this thread. Your Claude game is about to change forever.
(Pro tip: use them in order for compound results)
SpaceX → Scheduled to go public on June 12th
OpenAI → Scheduled to go public as early as September
Anthropic → Scheduled to go public as early as November
If you want to go fast go alone. If you want to go far go together.
🚨 SCIENTISTS JUST MADE MAGNONS LIVE 100× LONGER AND IT COULD SHRINK QUANTUM COMPUTERS TO THE SIZE OF A PENNY.
Magnons are tiny waves of magnetization that ripple through magnetic materials like sound waves, but made of magnetism.
For years, their biggest problem was that they died almost instantly (a few hundred nanoseconds). That made them useless for real quantum computing.
Now, physicists at the University of Vienna have created magnons that live up to 18 microseconds nearly 100 times longer than before.
They did it by using ultra-pure crystals of yttrium iron garnet cooled to just 30 millikelvin (almost absolute zero) and generating short-wavelength magnons that are far less sensitive to defects.
Why this matters:
• Magnons can be squeezed down to nanometer scale meaning entire quantum processors could fit on chips the size of a penny
• They naturally interact with photons, phonons, and other quantum particles, making them perfect for hybrid quantum systems
• 18 microseconds is long enough to act as reliable quantum memory and communication channels between qubits
In simple terms: magnons just went from “too fragile to use” to “potentially game-changing.”
The deeper implication is enormous:
We may be looking at the birth of magnonic quantum computers a completely new architecture that could be vastly smaller, more energy-efficient, and easier to scale than today’s bulky superconducting machines.
Instead of fighting to keep superconducting qubits cold and isolated, we might one day build quantum processors that work inside tiny magnetic chips.
What happens when quantum computers stop needing entire rooms… and start fitting in your pocket?
Follow for more frontier physics and future technology.
MIT Engineers #3D Print a Working Electric Motor in Just 3 Hours
by @tweetciiiim
#3Dprinted #Technology #EmergingTech #TechForGood
🚨 BREAKING: SCIENTISTS MAY HAVE FOUND A WAY TO REVERSE “IRREVERSIBLE” NERVE DAMAGE.
For decades, one of medicine’s harshest realities has been this:
Damage to the brain and spinal cord is often permanent.
Once critical nerve fibers are lost, they rarely grow back.
But researchers at the University of Cambridge may have just shown this limitation is not absolute.
Using lab-grown miniature human brain and spinal cord systems, the team
discovered something remarkable:
Human neurons lose their ability to regenerate during development…
but that ability can potentially be switched back on.
They identified a gene network acting like a biological “off switch” for nerve regrowth.
When they interfered with it, damaged neurons began growing new axons again.
Even more surprising:
An existing hormone drug dramatically boosted the regeneration.
Why this matters:
If confirmed in future studies, this could open the door to new treatments for:
• Spinal cord injuries
• Paralysis
• Multiple sclerosis
• Motor neurone disease (ALS)
• Certain forms of brain injury
The deeper implication is even bigger:
For years we assumed mature human neurons simply couldn’t regenerate.
This study suggests the ability never disappeared it was only turned off.
The nervous system may still remember how to repair itself.
It just needs the right signal.
We’re still far from restoring movement in patients, but for the first time researchers may have found one of the actual switches controlling the process.
And once you find the switch… you can start learning how to turn it back on.
Follow for more frontier science that could redefine what’s medically possible.
Mai togliere attenzioni al gatto 😂 #gatto #cat #ridereinsieme #videodive... https://t.co/CkjwzhVOWL via @YouTube
China Just Shocked the World With What They’re Building! https://t.co/njCvYmxV5g via @YouTube
Coltivare reti neurali in 3D per capire il cervello e costruire computer biologici
https://t.co/hQDPpMXzz5
#Neuroscienze, #Bioelettronica, #IntelligenzaArtificiale, #Biocomputing, #RetiNeurali, #NeuralNetworks, #Cervello, #BrainInspiredComputing, #TecnologiaBiomedica
Two brain cells are sensing each other. And trying to connect:
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