A new definition of quantum computer energy efficiency is introduced and applied to five major qubit platforms, yielding concrete consumption estimates for current systems and a benchmarking framework for future architectures.
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Multiplexed cryo-CMOS control enables stable biasing and fast pulsing of an isolated silicon double quantum dot at 0.5 K, supporting deterministic multi-electron loading and resolution of tunneling events across charge transitions.
Experimental demonstration of universal controllability, parallel readout, and certified three-qubit GHZ entanglement with extended lifetime in a two-unit-cell SiMOS quantum processor.
citing papers explorer
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Energy efficiency of quantum computers
A new definition of quantum computer energy efficiency is introduced and applied to five major qubit platforms, yielding concrete consumption estimates for current systems and a benchmarking framework for future architectures.
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Multiplexed cryo-CMOS control of an isolated double quantum dot
Multiplexed cryo-CMOS control enables stable biasing and fast pulsing of an isolated silicon double quantum dot at 0.5 K, supporting deterministic multi-electron loading and resolution of tunneling events across charge transitions.
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Multi-Qubit Entanglement of Unit Cell Pairs in SiMOS
Experimental demonstration of universal controllability, parallel readout, and certified three-qubit GHZ entanglement with extended lifetime in a two-unit-cell SiMOS quantum processor.