Negative PID SL
Steve WoodsFrom our government by dilettante correspondent.
WTF does Liz Kendall know about #AI and #QuantumComputing?
She's a #Cambridge history graduate.
Javier Manuel Martín Alonso@gabor_samu Fascinating to see IBM Spectrum #LSF orchestrating classical HPC with #IBMQuantum
#QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
https://github.com/JavierMartinAlonso1980/qcd-vortex-entanglement
LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
Collider data → #TensorNetworks → IBM QPUs
https://doi.org/10.5281/zenodo.18672796
#QuantumComputing
#QCD pipeline: HPC+SeeMPS preselections #BelleII noise moments → info-rich slices to Heron/Qiskit for squeezing/superradiance sims.
https://github.com/JavierMartinAlonso1980/qcd-vortex-entanglement
LSF realistic hybrid orchestrator? Can this workload run on #Qiskit / #IBMQuantum Heron QPUs to test squeezing channels + entanglement dominance under noise?
Collider data → #TensorNetworks → IBM QPUs
https://doi.org/10.5281/zenodo.18672796
#QuantumComputing
Daniel James LeeWorking on a deterministic shared‑state transport layer inspired by entanglement. Trying to simplify distributed systems by removing consensus, metadata, and multi‑port noise.
WhisprNews⚛️ Infleqtion despliega el único ordenador cuántico operativo de 100 qubits físicos del Reino Unido en el NQCC. Un hito clave para la investigación en materiales, energía y optimización. #QuantumComputing #Infleqtion #UK.
Quantum_magazineD-Wave Quantum is showing strong bookings growth and rising enterprise demand for its quantum computing services. Analysts see momentum from major contracts and partnerships, though investors remain cautious as the company works to convert bookings into sustained revenue.
Brian Greenberg 
Traditional computer chips are hitting their limits. Silicon can only get so small before the rules of physics start to change. Quantum computing uses some really unusual effects. Imagine a coin spinning on a desk; it is both heads and tails at the same time until it stops. That’s similar to what a qubit does. Quantum computing is set to change how we solve problems. It could help us find new materials for electric cars and make your bank account more secure. This shift is coming soon. Most experts expect digital security to change by 2030. If you overlook the hardware, you could miss the next big step in technology.
🧠 Qubits solve problems that would take a PC forever.
⚡ This tech will crack every password you currently use.
🎓 Google achieved a processing milestone with 53 qubits.
🔍 Start planning for post-quantum security today.
https://www.fastcompany.com/91492303/why-should-you-care-about-quantum-computing
#QuantumComputing #TechLeader #FutureOfTech
purescience_newsRecord-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential #Science #Physics #QuantumPhysics #QuantumComputing #Diamonds #Innovation
https://purescience.news/article?id=958878
https://purescience.news/article?id=958878
Record-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential
Researchers engineered nanodiamond-antenna systems that capture nearly all light from diamond defects, unlocking a major step toward practical quantum communication and sensing technologies. Scientists from the Hebrew University of Jerusalem and Humboldt University in Berlin have discovered a method to capture nearly all the light emitted by microscopic flaws in diamonds, known as color centers. [...]
Record-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential #Science #Physics #QuantumPhysics #QuantumComputing #Diamonds #Innovation
https://purescience.news/article?id=958878
https://purescience.news/article?id=958878
Record-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential
Researchers engineered nanodiamond-antenna systems that capture nearly all light from diamond defects, unlocking a major step toward practical quantum communication and sensing technologies. Scientists from the Hebrew University of Jerusalem and Humboldt University in Berlin have discovered a method to capture nearly all the light emitted by microscopic flaws in diamonds, known as color centers. [...]
purescience_newsRecord-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential #Science #Physics #QuantumPhysics #QuantumComputing #Diamonds #Innovation
https://purescience.news/article?id=958878
https://purescience.news/article?id=958878
Record-Breaking “Sparkle”: Scientists Unlock Diamond’s Quantum Potential
Researchers engineered nanodiamond-antenna systems that capture nearly all light from diamond defects, unlocking a major step toward practical quantum communication and sensing technologies. Scientists from the Hebrew University of Jerusalem and Humboldt University in Berlin have discovered a method to capture nearly all the light emitted by microscopic flaws in diamonds, known as color centers. [...]