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QUQuantum computers x Supercomputers are a computational superpower
@quantumfyed
#Quantum Computing Processors
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STQuantum computing isn’t one race — it’s multiple hardware paths competing in parallel.
Today, superconducting qubits (used by Google & IBM) lead on performance, while trapped-ion architectures from startups like IonQ and Quantinuum are emerging as strong challengers.
The outcome won’t be hype-driven — it’ll be decided by scalability, stability, and real-world performance.
#QuantumComputing #Qubits #SuperconductingQubits #TrappedIon #DeepTech #FutureOfComputing
@stelios_thedatascientist
368
COQuantum Breakthroughs, Explained #explorepage #trendingreels #foryoupage
@comed.y7022
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QUSuperconducting Quantum Computer Explained
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#space #quantum #universe #science
@quantumcentric
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NEThe architecture of a computer chip consists of billions of transistors structured on a silicon wafer. At the logical level, the chip is divided into functional units such as the arithmetic logic unit (ALU), control unit, registers, cache, and input/ output interfaces.
Modern processors use multi-level cache hierarchies, multiple cores, and specialized units (e.g., for Al or graphics) to maximize parallelism, efficiency, and computational performance.
@neuralnets.io
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HOHow Quantum Computers Work in 20 Seconds 🧠💻 | #QuantumComputing
Unlike normal computers, quantum computers use qubits powered by the principles of quantum physics. They can process massive amounts of data in parallel. In just 20 seconds, here’s how they work!
👉 Follow and like to HowItSnaps for more quick tech explainers.
#HowItSnaps #QuantumComputing #HowItWorks #Shorts
#quantumcomputer #howquantumworks #qubits #superposition #entanglement #futuretech #quantumtechnology #nextgencomputing #gadgetexplained #howitsnaps #fypppp #reelschallengereelschallengereelschallengereelschallenge
@howitsnaps
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TIWhat if we stopped trying to program quantum physics and just built the physics directly onto a chip?
That’s the logic behind “Quantum Twins.”
Classical supercomputers are surprisingly bad at chemistry. They have to “guess” how atoms interact because binary code can’t handle the complex math of electron orbitals. This “Simulation Gap” is why developing next-gen batteries or new drugs feels like hitting a wall.
Instead of writing code to mimic a molecule, researchers at Silicon Quantum Computing are using atomic manufacturing to “print” a molecule’s structure onto a silicon chip.
This bypasses the need for millions of error-corrected qubits, letting us solve for new superconductors and low-power electronics today.
Resources to learn more:
Nature: “Quantum computing advance: Atom-placed silicon lattice reveals metal-insulator transition” (Feb 2026).
IEEE Spectrum: Search “The Quantum Twin” for the deep dive on Michelle Simmons’ work.
SQC: Visit sqc.com.au to see the “14|15” platform in action.
#QuantumComputing #DeepTech #SiliconQuantum
@tiffintech
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QUThis Is How a Quantum Computer Really Works
A quantum computer does not process information the way a classical computer does. Instead of using bits that exist as either 0 or 1, it uses qubits, which can exist in a state of superposition — meaning 0 and 1 at the same time.
When multiple qubits interact, they can become entangled. This allows the system to process complex probability states simultaneously rather than sequentially. Instead of checking one possibility at a time, a quantum computer evaluates many potential outcomes in parallel through quantum interference.
The computation ends when the quantum state collapses into a measurable result. The power comes not from speed alone, but from how information is represented and manipulated at the quantum level.
This is why quantum computers are expected to impact cryptography, materials science, optimization problems, and drug discovery — problems that are extremely hard for classical systems.
#QuantumComputing #FutureTech #QuantumPhysics #DeepTech #Innovation #NextGenTechnology #ScienceExplained #TechRevolution #ComputingFuture #STEM
@quantumcomputrs
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WAThis is how Quantum Computer Works
#quantumcomputer #quantumcomputing
#quantum #qbit
@waterforge_nyc
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INWhat if the very thing “breaking” our computers could actually be the fuel that powers them? ⚛️🔋 Swedish scientists just built a quantum engine that runs on “noise.” #DeepTechExplainer #QuantumComputing
In the quantum world, “noise” (heat and vibration) is usually a disaster. It causes “decoherence,” which is just a fancy way of saying it breaks the fragile quantum bits (qubits) we need for processing.
But researchers at Chalmers University have flipped the script. They’ve engineered a Quantum Refrigerator made of superconducting artificial molecules that doesn’t just resist noise, it harvests it.
Here is the tech breakdown:
1. The Chaotic Input: The engine takes random, chaotic microwave noise, the stuff that usually destroys data.
2. The “Cold Noise” Flip: Using a three-level quantum system, it uses that chaotic energy to drive a cooling cycle, pumping heat away from the qubits.
3. Extreme Precision: The team measured heat flows as small as an attowatt (that’s 10^-18 watts). To put that in perspective: it would take the age of the universe for an attowatt to heat up a single drop of water by one degree. 🤯
Why It Matters:
• Self-Cooling Chips: Future quantum chips could partially cool themselves using their own waste heat.
• Scaling Up: One of the biggest hurdles to a “Desktop Quantum Computer” is the massive cooling equipment. This tech could shrink that footprint significantly.
• Stability: By turning noise into a resource, we make quantum states far more robust and reliable.
We’re moving from fighting nature to using its chaos as a tool. If we can turn “heat noise” into power, what other “waste” should we be harvesting? ⚡🤔 Let’s brainstorm below!
#QuantumThermodynamics #ChalmersUniversity #FutureTech
@intechwepost
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_.Computers aren’t slow.� Electrons are.
When data moves as light instead of current, heat drops and speed rises.� This is why silicon photonics matters for the future of computing.
Save this to understand what’s changing inside chips.
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@_.beyond_breakthrough._
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PHThis exhibit takes what normally happens inside a CPU at microscopic scale and makes it physical and visible. By moving the sliders, you’re setting input values, which the machine converts into binary states — on and off, 1 and 0. Lights then trace the path those signals take through a simplified circuit, showing how logic gates like AND, OR, and NOT combine the inputs to produce an output.
What makes it important is that it strips away the “magic” people associate with computers. A calculation isn’t a thought process — it’s controlled energy moving through a designed pathway, with each gate enforcing a simple rule. When you can see the signals flow step by step, it becomes obvious how complex computation is built from basic physical switches, repeated millions or billions of times inside real processors.
Follow @physicsmadefun to learn something new every day 🤝
@physicsmadefun
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