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HPCwire (Twitter)
Would you be able to brief your team on what’s happening in #QuantumComputing today? Subscribe to the #QCwire monthly newsletter: http://ow.ly/yJXJ50K4yaW #qubit
Would you be able to brief your team on what’s happening in #QuantumComputing today? Subscribe to the #QCwire monthly newsletter: http://ow.ly/yJXJ50K4yaW #qubit
HPCwire (Twitter)
There are a lot of #qubit types under development, and the #fluxonium qubit developed by @IBM, @Google, @rigetti, and others is one of the most promising #superconducting qubits. Learn more about it here: http://ow.ly/cyy550NI6EN
There are a lot of #qubit types under development, and the #fluxonium qubit developed by @IBM, @Google, @rigetti, and others is one of the most promising #superconducting qubits. Learn more about it here: http://ow.ly/cyy550NI6EN
HPCwire (Twitter)
Currently, there are many #qubit types under development. One that’s received relatively little notice is the #fluxonium qubit. Will fluxonium qubits join the crowded race for effective qubits? https://tinyurl.com/2tm5mykb
Currently, there are many #qubit types under development. One that’s received relatively little notice is the #fluxonium qubit. Will fluxonium qubits join the crowded race for effective qubits? https://tinyurl.com/2tm5mykb
HPCwire (Twitter)
@intel announced its first silicon spin-based #qubit quantum chip Tunnel Falls — a 12-qubit research chip — and a program intended to selectively share the new chip with developers for further exploration and refinement. https://ow.ly/2vOl50OQYGU #quantumchip
@intel announced its first silicon spin-based #qubit quantum chip Tunnel Falls — a 12-qubit research chip — and a program intended to selectively share the new chip with developers for further exploration and refinement. https://ow.ly/2vOl50OQYGU #quantumchip
HPCwire (Twitter)
#Quantum bits: five papers looking at noise, #GANs, #VQAs, and #Qubit testing from the Quantum Science Center, @intel, the University of Science and Technology of China, the Quantum Information Sciences Section, and University College Dublin. https://t.co/aoQG71O8HU #ORNL https://t.co/32GeFEhNuL
#Quantum bits: five papers looking at noise, #GANs, #VQAs, and #Qubit testing from the Quantum Science Center, @intel, the University of Science and Technology of China, the Quantum Information Sciences Section, and University College Dublin. https://t.co/aoQG71O8HU #ORNL https://t.co/32GeFEhNuL
HPCwire (Twitter)
Théau Peronnin, @Alice__Bob’s co-founder and CEO, explained the potential of the Cat #Qubit in a briefing with #HPCwire. Read more about it here: https://t.co/i0HBogCTTb
Théau Peronnin, @Alice__Bob’s co-founder and CEO, explained the potential of the Cat #Qubit in a briefing with #HPCwire. Read more about it here: https://t.co/i0HBogCTTb
HPCwire (Twitter)
While the #qubit zoo keeps growing — #superconducting, trapped ions, neutral atoms, #photonics, spin qubits, and more — its members still share (at least so far) untenable error rates. https://ow.ly/OHtR50PtGHx
While the #qubit zoo keeps growing — #superconducting, trapped ions, neutral atoms, #photonics, spin qubits, and more — its members still share (at least so far) untenable error rates. https://ow.ly/OHtR50PtGHx
HPCwire (Twitter)
Atom Computing posted a paper in late January detailing some of the approaches used to #scale up its #arrays after last fall's claim that it was the first to break the 1,000 #qubit threshold. ow.ly/G3IF50R4FZy
#quantumresearch
Atom Computing posted a paper in late January detailing some of the approaches used to #scale up its #arrays after last fall's claim that it was the first to break the 1,000 #qubit threshold. ow.ly/G3IF50R4FZy
#quantumresearch
HPCwire (Twitter)
A team of researchers at the University of Science and Technology of China has reported their 105-#qubit #superconducting quantum processor — Zuchongzhi 3.0 — has posted the fastest benchmark so far in the race for #quantum advantage. ow.ly/P8RU50Vl4gh
A team of researchers at the University of Science and Technology of China has reported their 105-#qubit #superconducting quantum processor — Zuchongzhi 3.0 — has posted the fastest benchmark so far in the race for #quantum advantage. ow.ly/P8RU50Vl4gh