Fault-tolerant quantum error detection
نویسندگان
چکیده
Quantum computers will eventually reach a size at which quantum error correction becomes imperative. Quantum information can be protected from qubit imperfections and flawed control operations by encoding a single logical qubit in multiple physical qubits. This redundancy allows the extraction of error syndromes and the subsequent detection or correction of errors without destroying the logical state itself through direct measurement. We show the encoding and syndrome measurement of a fault-tolerantly prepared logical qubit via an error detection protocol on four physical qubits, represented by trapped atomic ions. This demonstrates the robustness of a logical qubit to imperfections in the very operations used to encode it. The advantage persists in the face of large added error rates and experimental calibration errors.
منابع مشابه
Quantum Error Correction and Fault Tolerant Quantum Computing
e?cient fault-tolerant quantum computing arxiv fault-tolerant quantum computing crcnetbase an introduction to quantum error correction and fault quantum error correction and fault tolerant quantum computing fault tolerance in quantum computation eceu fault-tolerant quantum computation world scientific fault -tolerant quantum computation versus realistic noise quantum error correction and fault-...
متن کاملError detection is already helpful on the IBM 5Q chip
This paper reports on an experiment realized on the IBM 5Q chip which demonstrates strong evidence for the advantage of using error detection and fault-tolerant design of quantum circuits. By showing that fault-tolerant quantum computation is already within our reach, the author hopes to encourage this approach.
متن کاملThreshold Estimate for Fault Tolerant Quantum Computing
I make a rough estimate of the accuracy threshold for fault tolerant quantum computing with concatenated codes. First I consider only gate errors and use the depolarizing channel error model. I will follow P.Shor [1] for fault tolerant error correction (FTEC) and the fault tolerant implementation of elementary operations on states encoded by the 7-qubit code. A simple computer simulation sugges...
متن کاملFault-tolerant quantum computation with constant overhead
What is the minimum number of extra qubits needed to perform a large fault-tolerant quantum circuit? Working in a common model of fault-tolerance, I show that in the asymptotic limit of large circuits, the ratio of physical qubits to logical qubits can be a constant. The construction makes use of quantum low-density parity check codes, and the asymptotic overhead of the protocol is equal to tha...
متن کاملTheory of fault-tolerant quantum computation
In order to use quantum error-correcting codes to improve the performance of a quantum computer, it is necessary to be able to perform operations fault-tolerantly on encoded states. I present a theory of fault-tolerant operations on stabilizer codes based on symmetries of the code stabilizer. This allows a straightforward determination of which operations can be performed fault-tolerantly on a ...
متن کاملMinimum weight perfect matching of fault-tolerant topological quantum error correction in average O(1) parallel time
Consider a 2-D square array of qubits of extent L × L. We provide a proof that the minimum weight perfect matching problem associated with running a particular class of topological quantum error correction codes on this array can be exactly solved with a 2-D square array of classical computing devices, each of which is nominally associated with a fixed number N of qubits, in constant average ti...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
دوره 3 شماره
صفحات -
تاریخ انتشار 2017