Researchers at MIT and MITRE have developed a new scalable and modular hardware architecture for quantum computing, which integrates thousands of interconnected qubits onto a customized integrated chip. This breakthrough, known as entanglement multiplexing, enables efficient control of a large array of qubits, moving toward practical quantum computing.
Nanoscale Discovery Offers a New, Energy-Efficient Approach to Quantum Computing https://t.co/8yEljJeKZI
Breakthrough in Quantum Computing New Quantum Computer Hardware Architecture For Entanglement Multiplexing A scalable, modular hardware platform has been developed by researchers at MIT and MITRE that integrates thousands of interconnected qubits onto a customized integrated… https://t.co/P1DYBjajfc
New quantum-system-on-chip enables the efficient control of a large array of qubits, moving toward practical quantum computing. https://t.co/LHk5agEsLv @RLEatMIT @microsystechlab @MITEECS @MITEngineering @MIT_SCC
Quantum #AI Framework Targets Energy Intensive Data Centers 📉 @Cornell researchers have designed a #quantum-based optimization framework that could reduce energy consumption. It could reduce those workloads by as much as 12.5% https://t.co/RrNGPpo3GK
Modular, scalable hardware architecture for a quantum computer A new quantum-system-on-chip enables the efficient control of a large array of #qubits, moving toward practical quantum computing. #QuantumComputing https://t.co/4Jq7jaXybv
Unlocking Quantum Computing Potential https://t.co/tnKQrzua8o #Quantum #EmergingTech #QuantumComputing #Technology #Simulator #AI #ML #Speed #Computation #Physics #Modeling #Coruzant #BlueQubit #CTO #CIO @BlueQubit