Quantum Computing 101 copertina

Quantum Computing 101

Quantum Computing 101

Di: Inception Point Ai
Ascolta gratuitamente

A proposito di questo titolo

 This is your Quantum Computing 101 podcast.

Quantum Computing 101 is your daily dose of the latest breakthroughs in the fascinating world of quantum research. This podcast dives deep into fundamental quantum computing concepts, comparing classical and quantum approaches to solve complex problems. Each episode offers clear explanations of key topics such as qubits, superposition, and entanglement, all tied to current events making headlines. Whether you're a seasoned enthusiast or new to the field, Quantum Computing 101 keeps you informed and engaged with the rapidly evolving quantum landscape. Tune in daily to stay at the forefront of quantum innovation!

For more info go to

https://www.quietplease.ai

Check out these deals https://amzn.to/48MZPjsCopyright 2025 Inception Point Ai Arte Politica e governo
Episodi
  • Fugaku Meets IBM Heron: How Japan's Supercomputer Just Cracked Quantum Chemistry's Biggest Problem

    Fugaku Meets IBM Heron: How Japan's Supercomputer Just Cracked Quantum Chemistry's Biggest Problem
    Feb 23 2026
    This is your Quantum Computing 101 podcast.

    Imagine this: just days ago, on February 18th, RIKEN in Japan and IBM flipped the switch on a quantum revolution. Their pre-exascale supercomputer Fugaku—158,976 chips humming like a colossal beehive—locked into a closed-loop dance with an on-premises IBM Quantum Heron processor. They cracked the electronic structure of iron-sulfur molecules with jaw-dropping accuracy, the largest chemistry sim ever on quantum hardware. I'm Leo, your Learning Enhanced Operator, and this quantum-classical hybrid symphony is today's most electrifying breakthrough.

    Picture me in the dim glow of RIKEN's Quantum-HPC lab in Kobe, the air crisp with cryogenic chill, Fugaku's fans whispering like distant thunder. I'm peering at monitors where classical behemoths and quantum whisperers entwine. In this hybrid marvel, quantum-centric supercomputing—or QCSC—shines. Fugaku, once the world's fastest from 2020 to 2021, handles the heavy lifting: vast data orchestration, iterative crunching via sample-based quantum diagonalization, or SQD. The quantum side? Heron samples the mind-boggling electron configuration space—like a thief picking the universe's toughest lock, unlatching complexities no classical solver touches.

    Here's the drama: in SQD, electrons sprawl across exponential possibilities, a foggy multiverse. Quantum qubits superposition-dive, surfacing promising snippets. Fugaku grabs them, refines, feeds back—closed loop, no lag. It's like a chef and sommelier: quantum pairs the wild flavors, classical plates the perfect dish. IBM's Jay Gambetta showcased this at Supercomputing Asia 2026; RIKEN's Mitsuhisa Sato calls it thrilling for hybrid futures. They built a task assignment system ensuring zero idle time, scalable even to cloud HPC. Results? Precision rivaling top classical approximations, beyond exact methods' reach. Tomonori Shirakawa hints quantum advantage looms this year, maybe with GPUs turbocharging next.

    This mirrors our world: drones dodging skies via Pasqal's neutral-atom QPUs for delivery packs, or Niels Bohr folks tracking qubit wobbles in real-time—flair for the unstable everyday. Quantum's the spark igniting classical infernos, hybrids blending brute force with ethereal insight.

    Folks, quantum's not solo anymore; it's partnered power. Thanks for tuning into Quantum Computing 101. Questions or topic ideas? Email leo@inceptionpoint.ai. Subscribe now, and this has been a Quiet Please Production—more at quietplease.ai.

    For more http://www.quietplease.ai


    Get the best deals https://amzn.to/3ODvOta

    This content was created in partnership and with the help of Artificial Intelligence AI
    Mostra di più Mostra meno
    3 min
  • Fugaku Meets Heron: How Japan's Supercomputer and IBM Qubits Cracked Molecules in Closed Loop Harmony

    Fugaku Meets Heron: How Japan's Supercomputer and IBM Qubits Cracked Molecules in Closed Loop Harmony
    Feb 22 2026
    This is your Quantum Computing 101 podcast.

    Imagine this: just days ago, on February 20th, researchers at the University of Copenhagen unveiled a real-time qubit tracker that catches fluctuations 100 times faster than before, using FPGA wizardry to keep qubits from turning rogue in milliseconds. But today's crown jewel? RIKEN and IBM's quantum-centric supercomputing triumph, where Japan's Fugaku—the beast that once ruled as world's fastest supercomputer—orchestrated a closed-loop dance with an on-premises IBM Quantum Heron processor. They cracked the electronic structure of iron-sulfur molecules with unprecedented scale and accuracy. Picture it: 158,976 chips in Fugaku humming like a colossal hive, feeding data back and forth to Heron's qubits in unbroken rhythm, no handoffs, just pure synergy.

    I'm Leo, your Learning Enhanced Operator, and I've chased qubits from frosty dilution fridges to sun-baked server farms. Let me pull you into that lab in Japan, where the air chills to near-absolute zero, humming with cryogenic pumps that whisper like distant thunder. Sparks of nitrogen vent in ethereal plumes, while screens blaze with wavefronts of data—Fugaku's classical muscle plotting vast electron configurations, slamming into Heron's quantum realm.

    This hybrid beast embodies the pinnacle: sample-based quantum diagonalization, or SQD. Here's the drama—molecules hide electron arrangements in an exponentially exploding Hilbert space, a cosmic labyrinth classical computers claw through sequentially. Quantum steps in like a master thief: Heron's entangled qubits sample that chaos in superposition, spotlighting promising paths. Fugaku seizes them, refines with brute exascale force, loops back refined parameters. It's lockpicking—the qubit as delicate tension pick unlatching quantum knots, classical turn as the triumphant twist. No more sequential ping-pong; this closed loop minimizes idle time via smart task assignment, slashing execution to bare bones. IBM's Jay Gambetta showcased it at Supercomputing Asia 2026, echoing their arXiv paper from October 2025. RIKEN's Mitsuhisa Sato calls it exhilarating for hybrid futures.

    Feel the quake? This mirrors global unrest—like entangled particles mirroring distant spins, Fugaku-Heron proves quantum-classical unity tames molecular mayhem beyond classical reach, rivaling top approximations. Tomonori Shirakawa hints at quantum advantage this year with GPU boosts. We're not simulating shadows; we're forging reality's code.

    Thanks for tuning into Quantum Computing 101. Got questions or topic ideas? Email leo@inceptionpoint.ai. Subscribe now, and remember, this is a Quiet Please Production—for more, visit quietplease.ai. Stay quantum-curious.

    For more http://www.quietplease.ai


    Get the best deals https://amzn.to/3ODvOta

    This content was created in partnership and with the help of Artificial Intelligence AI
    Mostra di più Mostra meno
    3 min
  • Fugaku Meets Heron: How Japan's Quantum-Classical Supercomputer Fusion Cracked Chemistry's Hardest Problems

    Fugaku Meets Heron: How Japan's Quantum-Classical Supercomputer Fusion Cracked Chemistry's Hardest Problems
    Feb 20 2026
    This is your Quantum Computing 101 podcast.

    Imagine this: just two days ago, on February 18, 2026, RIKEN and IBM flipped the switch on a quantum revolution right here in Japan. Their pre-exascale supercomputer Fugaku—158,976 chips humming like a colossal beehive—locked into a closed-loop dance with RIKEN's on-premises IBM Quantum Heron processor. I felt the chill of that cryogenic chamber in my bones as I read the details, the air thick with liquid helium's faint metallic tang, qubits shivering at millikelvin temps while Fugaku's fans roared outside.

    I'm Leo, your Learning Enhanced Operator, and today on Quantum Computing 101, we're diving into the hottest hybrid quantum-classical breakthrough: this quantum-centric supercomputing milestone. Picture it—Fugaku, once the world's fastest classical beast from 2020 to 2021, now passing data back and forth with Heron in an unbroken workflow. No more sequential handoffs like clumsy relay runners; this is seamless orchestration, a symphony where classical muscle meets quantum magic.

    At the heart? Sample-based quantum diagonalization, or SQD. Quantum chemistry screams for it—modeling iron-sulfur molecules, those tricky clusters powering enzymes in our cells. The electron configuration space explodes exponentially with size, a vast cosmic labyrinth no classical computer can fully map. Enter Heron: its qubits sample that labyrinth like ghostly scouts, pinpointing high-promise regions with superposition's eerie parallelism—every possibility whispering at once, entangled in a fragile haze of probability. Fugaku grabs those leads, crunches the numbers with brute-force precision, refines parameters, and fires them back. Iterative, adaptive, closed-loop. The result? Unprecedented accuracy on molecules beyond exact classical reach, rivaling top approximations. IBM's Jay Gambetta showcased it at Supercomputing Asia 2026, and RIKEN's Mitsuhisa Sato calls it exhilarating for hybrid computing.

    This hybrid marries the best of both worlds. Classical HPC like Fugaku handles vast data floods and optimization loops—reliable, scalable, room-temperature workhorses. Quantum unlocks the intractable: exponential speedups via entanglement and interference, like turning a key in a lock only superposition can reach. Their new task assignment system keeps both humming at peak, slashing time-to-solution. It's no metaphor; it's like global markets today—quantum scouts volatile edges while classical systems stabilize trades in real-time loops. Quantum advantage glimmers on the horizon, especially with GPUs next, as Tomonori Shirakawa predicts.

    We've cracked the orchestration code at exascale. This isn't hype; it's the blueprint for tomorrow's simulations—drugs, materials, climate models.

    Thanks for joining me on Quantum Computing 101. Got questions or topic ideas? Email leo@inceptionpoint.ai. Subscribe now, and remember, this has been a Quiet Please Production—for more, visit quietplease.ai. Stay quantum-curious!

    For more http://www.quietplease.ai


    Get the best deals https://amzn.to/3ODvOta

    This content was created in partnership and with the help of Artificial Intelligence AI
    Mostra di più Mostra meno
    4 min
Ancora nessuna recensione