Fault-tolerant fidelity based on few-qubit codes: Parity-check circuits for biased error channels

Abstract

In the shallow sub-threshold regime, fault-tolerant quantum computation requires a tremendous amount of qubits. In this paper, we study the error correction in the deep sub-threshold regime. We estimate the physical error rate for achieving the logical error rates of 10-6 - 10-15 using few-qubit codes, i.e. short repetition codes, small surface codes and the Steane code. Error correction circuits that are efficient for biased error channels are identified. Using the Steane code, when error channels are biased with a ratio of 10-3, the logical error rate of 10-15 can be achieved with the physical error rate of 10-5, which is much higher than the physical error rate of 10-9 for depolarising errors.