Equivalence and limitations of error suppression techniques for adiabatic quantum computing.
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While adiabatic quantum computation (AQC) possesses some intrinsic robustness to noise, it is expected that a form of error control will be necessary for large scale computations. Error control ideas developed for circuit-model quantum computation do not transfer easily to the AQC model and to date there have been two main proposals to suppress errors during an AQC implementation: energy gap protection and dynamical decoupling. Here we show that these two methods are essentially equivalent and can be analyzed within the same formalism. We analyze the effectiveness of such error suppression techniques and identify critical constraints on the performance of error suppression in AQC, suggesting that error suppression by itself is insufficient for fault-tolerant, large-scale AQC and that a form of error correction is needed.
[1] Aaas News,et al. Book Reviews , 1893, Buffalo Medical and Surgical Journal.
[2] Daniel Gottesman,et al. Stabilizer Codes and Quantum Error Correction , 1997, quant-ph/9705052.
[3] M. Fanciulli. Electron Spin Resonance and Related Phenomena in Low-Dimensional Structures , 2009 .