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Steane code
(CST Part II) Lecture 14: Fault Tolerant Quantum Computing
Arxiv:Quant-Ph/9705031V3 26 Aug 1997 Eddt Rvn Unu Optrfo Crashing
LI-DISSERTATION-2020.Pdf
Assessing the Progress of Trapped-Ion Processors Towards Fault-Tolerant Quantum Computation
Entangled Many-Body States As Resources of Quantum Information Processing
Classical Zero-Knowledge Arguments for Quantum Computations
G53NSC and G54NSC Non Standard Computation Research Presentations
Arxiv:0905.2794V4 [Quant-Ph] 21 Jun 2013 Error Correction 7 B
Introduction to Quantum Error Correction
Stability, Topology, Holography: the Many Facets of Quantum Error Correction
Quantum Ciphertext Authentication and Key Recycling with the Trap Code
Quantum Error Correction1
Quantum Error Correction (QEC)
Performance of Five-Qubit Code for Arbitrary Error Channels
Quantum Error Correction
I I Mladen Paviˇci´C: Companion to Quantum Computation and Communication — 2013/3/5 — Page 331 — Le-Tex I I
Introduction to Quantum Error Correction
Quantum Error Correction Todd A
Top View
Chapter 7 Quantum Error Correction
On the Use of Shor States for the [7, 1, 3] Quantum Error Correcting Code
Optical Quantum Computation
QEC07 Poster Information
Introduction to Quantum Computing
Approaches to Quantum Error Correction
Studies of a Quantum Scheduling Algorithm and on Quantum Error Correction
Stabilizer Codes and Quantum Error Correction
Arxiv:Quant-Ph/0612185V1 21 Dec 2006 Optto Utas Elwt Hsissue
On Quantum Codes and Networks
Large-Scale Modular Quantum-Computer Architecture with Atomic Memory and Photonic Interconnects
ZERO-KNOWLEDGE PROOF SYSTEMS for QMA\Ast
Decoherence, Superconducting Qubits, and the Possibility of Quantum Computing - Draft
Lecture 27, Thurs April 27: Quantum Error Correction
Theory and Experiments, Springer, New York †2005‡, M. Pavicic
Quantum Information Processing — Draft
Resource Optimization for Fault-Tolerant Quantum Computing
Research on Quantum Computing and Post-Quantum Cryptography at Igor Sikorsky Kyiv Polytechnic Institute Kyiv, Ukraine
Some Results on Qudit Quantum Error-Correction
Verification of Quantum Computation: an Overview
MP 472 Quantum Information and Computation
Research Faculty Summit 2018 Systems | Fueling Future Disruptions an HPC Systems Guy’S View of Quantum Computing
Stabilizer Quantum Error Correcting Codes
Applications of Locality and Asymmetry to Quantum Fault-Tolerance
New Methods in Quantum Error Correction and Fault-Tolerant Quantum Computing
Controlling Error-Correctable Bosonic Qubits
Real World Quantum Cryptography
Quantum Cryptography: a Survey∗
Large-Scale Simulations of Error-Prone Quantum Computation Devices
Loss Tolerance with a Concatenated Graph State
Comparing the Performance of Different Quantum Error Correcting Codes
1804.06105.Pdf
Copyrighted Material
Non-Classicality As a Computational Resource
Semester Report
Realization of Real-Time Fault-Tolerant Quantum Error Correction
Channel-Adapted Quantum Error Correction for the Amplitude Damping Channel Andrew S
QMA-Hardness of Consistency of Local Density Matrices with Applications to Quantum Zero-Knowledge
Measurement Based Fault Tolerant Error Correcting
Quantum Cryptography: a Survey ∗
Small Codes for Magic State Distillation
Quantum Computing 10
Magic-State Distillation in All Prime Dimensions Using Quantum Reed-Muller Codes
Exploiting Degeneracy to Construct Good Ternary Quantum Error Correcting Code
© in This Web Service Cambridge University
Fault-Tolerant Protocols and Circuit-Mapping Techniques
Verifying the Steane Code with Quantomatic
Optimal Error Correcting Code for Ternary Quantum Systems
Chapter 7 Quantum Error Correction
Arxiv:1302.3428V7 [Quant-Ph] 10 Apr 2015 III