A machine learning-based error mitigation approach for reliable software development on IBM's quantum computers
Quantum computers have the potential to outperform classical computers for some complex
computational problems. However, current quantum computers (eg, from IBM and Google) …
computational problems. However, current quantum computers (eg, from IBM and Google) …
Shortest path finding in quantum networks with quasi-linear complexity
A fully-quantum network implies the creation of quantum entanglement between a given
source node and some other destination node, with a number of quantum repeaters in …
source node and some other destination node, with a number of quantum repeaters in …
Quantum Information Processing, Sensing, and Communications: Their Myths, Realities, and Futures
The recent advances in quantum information processing, sensing, and communications are
surveyed with the objective of identifying the associated knowledge gaps and formulating a …
surveyed with the objective of identifying the associated knowledge gaps and formulating a …
Universal decoding of quantum stabilizer codes via classical guesswork
A universal decoding scheme is conceived for quantum stabilizer codes (QSCs) by
appropriately adapting the 'guessing random additive noise decoding'(GRAND) philosophy …
appropriately adapting the 'guessing random additive noise decoding'(GRAND) philosophy …
Hybrid Quantum Noise Model to Compute Gaussian Quantum Channel Capacity
Quantum information processing leverages the principles of quantum mechanics, utilizing
qubits, to improve computational and communicative tasks. In this realm, the quantum …
qubits, to improve computational and communicative tasks. In this realm, the quantum …
[HTML][HTML] Error Mitigation in the NISQ Era: Applying Measurement Error Mitigation Techniques to Enhance Quantum Circuit Performance
In quantum computing, noisy intermediate-scale quantum (NISQ) devices offer
unprecedented computational capabilities but are vulnerable to errors, notably …
unprecedented computational capabilities but are vulnerable to errors, notably …
EXIT-chart aided design of irregular multiple-rate quantum turbo block codes
We propose a novel quantum turbo short-block code, which subsumes multiple-rate
quantum short-block codes (MR-QSBCs) as the outer codes and a quantum unity-rate code …
quantum short-block codes (MR-QSBCs) as the outer codes and a quantum unity-rate code …
Re-locative guided search optimized self-sparse attention enabled deep learning decoder for quantum error correction
Heavy hexagonal coding is a type of quantum error-correcting coding in which the edges
and vertices of a low-degree graph are assigned auxiliary and physical qubits. While many …
and vertices of a low-degree graph are assigned auxiliary and physical qubits. While many …
Efficient entanglement purification based on noise guessing decoding
In this paper, we propose a novel bipartite entanglement purification protocol built upon
hashing and upon the guessing random additive noise decoding (GRAND) approach …
hashing and upon the guessing random additive noise decoding (GRAND) approach …
[PDF][PDF] Mitigating Noise in Quantum Software Testing Using Machine Learning
Quantum Computing (QC) promises computational speedup over classic computing for
solving complex problems. However, noise exists in current and near-term quantum …
solving complex problems. However, noise exists in current and near-term quantum …