From 85ad35f430a9c19f794afe49f4601e5f856f9970 Mon Sep 17 00:00:00 2001 From: VVA2024 Date: Wed, 9 Oct 2024 23:25:01 -0400 Subject: [PATCH] refs --- codes/quantum/properties/qecc.yml | 2 +- codes/quantum/qubits/small_distance/small/stab_4_2_2.yml | 1 + codes/quantum/qubits/stabilizer/qubit_css.yml | 6 ++---- codes/quantum/qubits/stabilizer/qubit_stabilizer.yml | 1 + 4 files changed, 5 insertions(+), 5 deletions(-) diff --git a/codes/quantum/properties/qecc.yml b/codes/quantum/properties/qecc.yml index 188d640c2..4ae43478b 100644 --- a/codes/quantum/properties/qecc.yml +++ b/codes/quantum/properties/qecc.yml @@ -63,7 +63,7 @@ notes: - 'See Refs. \cite{doi:10.1017/CBO9781139034807,doi:10.1201/b15868,preset:GottesmanBook} for books on quantum error correction.' - 'See video tutorials by \href{https://www.youtube.com/watch?v=_ls3KczZL2c}{V. V. Albert}, \href{https://www.youtube.com/watch?v=uD69GCYF9Zg}{S. M. Girvin}, \href{https://www.youtube.com/watch?v=buIbd_aXAHw}{P. Shor}, \href{https://www.youtube.com/watch?v=Je7sVJGKMgU}{B. Terhal}, and \href{https://www.youtube.com/watch?v=mcwpe8iJ5uo}{J. Wright}.' - 'Quantum error correction was initially claimed not to be theoretically possible \cite{arxiv:hep-th/9406058,doi:10.1098/rsta.1995.0106}.' - - 'Resource-theoretic interpretations of quantum error correction have been developed, including those that think of codes together with recovery operations as superchannels (a.k.a. quantum combs or bipartite operations) \cite{arxiv:1210.4722,arxiv:1406.7142,arxiv:2405.17567,arxiv:2409.09416}.' + - 'Resource-theoretic interpretations of quantum error correction have been developed, including those that think of codes together with recovery operations as superchannels (a.k.a. quantum combs or bipartite operations) \cite{arxiv:1105.4464,arxiv:1210.4722,arxiv:1406.7142,arxiv:2405.17567,arxiv:2409.09416}.' # 20240704 subsystem QECC, hybrid QECC, and QECC are three children of OAQECC diff --git a/codes/quantum/qubits/small_distance/small/stab_4_2_2.yml b/codes/quantum/qubits/small_distance/small/stab_4_2_2.yml index 3357f5d94..fba0a7d8d 100644 --- a/codes/quantum/qubits/small_distance/small/stab_4_2_2.yml +++ b/codes/quantum/qubits/small_distance/small/stab_4_2_2.yml @@ -70,6 +70,7 @@ realizations: - 'The CZ magic state has been realized on an IBM heavy-hex superconducting circuit device \cite{arxiv:2305.13581}.' - 'Logical Clifford gates for a twist-defect surface code that is single-qubit Clifford equivalent to a \([[4,1,2]]\) realized in a trapped ion device by Quantinuum \cite{arxiv:2406.09951}.' - 'CPC gadgets for the \([[4,2,2]]\) code have been implemented on the IBM 5Q superconducting device \cite{arxiv:1709.01866}.' + - 'An FPGA implementation of the collision clustering decoder \cite{arxiv:2309.05558} realized on a Rigetti supercondutcing device \cite{arxiv:2410.05202}.' relations: diff --git a/codes/quantum/qubits/stabilizer/qubit_css.yml b/codes/quantum/qubits/stabilizer/qubit_css.yml index e40b66f98..cee7c5c24 100644 --- a/codes/quantum/qubits/stabilizer/qubit_css.yml +++ b/codes/quantum/qubits/stabilizer/qubit_css.yml @@ -134,14 +134,12 @@ features: - 'Generalized lattice surgery \cite{arxiv:2301.13738}.' fault_tolerance: - 'Steane error correction \cite{arxiv:quant-ph/9611027}, where fault-tolerance is ensured by preparing ancillary encoded states and extracting syndromes via \(CNOT\) gates.' - - 'Fault-tolerant error correction and logical measurements using flag qubits for distance-three cyclic CSS codes \cite{arxiv:1803.09758}. - Parallel syndrome extraction for distance-three codes can be done fault-tolerantly using one flag qubit \cite{arxiv:2208.00581}. - \hyperref[topic:effective-distance]{Distance-preserving} flag fault-tolerant error correction can be done using lookup tables for small codes \cite{arxiv:2306.12862}. - Any self-dual CSS code with bounded-weight stabilizer generators admits flag fault-tolerant syndrome extraction \cite{arxiv:1708.02246}.' + - 'Fault-tolerant error correction and logical measurements using flag qubits for distance-three cyclic CSS codes \cite{arxiv:1803.09758}. Parallel syndrome extraction for distance-three codes can be done fault-tolerantly using one flag qubit \cite{arxiv:2208.00581}. \hyperref[topic:effective-distance]{Distance-preserving} flag fault-tolerant error correction can be done using lookup tables for small codes \cite{arxiv:2306.12862}. Any self-dual CSS code with bounded-weight stabilizer generators admits flag fault-tolerant syndrome extraction \cite{arxiv:1708.02246}.' - 'Homomorphic gadgets fault-tolerant measurement unify Steane and Shor error correction \cite{arxiv:2211.03625}.' - 'A fault-tolerant error-correction protocol using \(O(d\log d)\) syndrome measurements can be applied to any CSS code with distance \(d \geq \Omega(n^{\alpha})\) for any \(\alpha > 0\) \cite{arxiv:2002.05180}.' - 'Fault-tolerant measurement-free scheme for low-distance CSS codes \cite{arxiv:2307.13296}.' - 'Automated fault-tolerant encoding circuit synthesis \cite{arxiv:2408.11894}.' + - 'Fault-tolerant homological measurement of logical Pauli operators \cite{arxiv:2410.02753}.' code_capacity_threshold: - 'Bounds on code capacity thresholds for various noise models exist in terms of stabilizer generator weights \cite{arxiv:1208.2317,arxiv:1412.6172}.' decoders: diff --git a/codes/quantum/qubits/stabilizer/qubit_stabilizer.yml b/codes/quantum/qubits/stabilizer/qubit_stabilizer.yml index 60e804cfd..608e3a938 100644 --- a/codes/quantum/qubits/stabilizer/qubit_stabilizer.yml +++ b/codes/quantum/qubits/stabilizer/qubit_stabilizer.yml @@ -165,6 +165,7 @@ features: - 'Post-selection based algorithm preparing magic state corresponding to arbitrary rotations \cite{arxiv:2303.17380}.' - '\hyperref[topic:code-switching]{Code switching} can be done using only transversal gates for qubit stabilizer codes \cite{arxiv:2409.13465}.' - 'Flag-Proxy Networks (FPNs) \cite{arxiv:2409.14283}.' + - 'A logical Pauli can be \hyperref[topic:gauging-out]{gauged out} to yield a fault-tolerant measurement that requires a qubit overhead linear in the Pauli''s support \cite{arxiv:2410.02213}.' code_capacity_threshold: - 'Bounds on code capacity thresholds using ML decoding can be obtained by mapping the effect of noise on the code to a statistical mechanical model \cite{arxiv:quant-ph/0110143,arxiv:1208.2317,arxiv:1311.7688,arxiv:1809.10704}. The AQEC relative entropy is related to the resulting threshold \cite{arxiv:2312.16991}.'