TL;DR
This paper introduces adiabatic gate teleportation, a robust quantum primitive that mitigates timing and control errors, maintains a constant energy gap, and integrates well with fault-tolerance methods.
Contribution
It presents a universal adiabatic gate teleportation method that is robust to errors and compatible with fault-tolerance thresholds.
Findings
Robust to timing and control errors
Maintains a constant energy gap during computation
Allows geometric robustness through independent qubit interactions
Abstract
The difficulty in producing precisely timed and controlled quantum gates is a significant source of error in many physical implementations of quantum computers. Here we introduce a simple universal primitive, adiabatic gate teleportation, which is robust to timing errors and many control errors and maintains a constant energy gap throughout the computation above a degenerate ground state space. Notably this construction allows for geometric robustness based upon the control of two independent qubit interactions. Further, our piecewise adiabatic evolution easily relates to the quantum circuit model, enabling the use of standard methods from fault-tolerance theory for establishing thresholds.
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