Media Summary: Shouzhen Gu, Christopher Pattison and Eugene Tang. Irit Dinur, Min-Hsiu Hsieh, Ting-Chun Lin and Thomas Vidick. Andrew Cross, Zhiyang He, Anand Natarajan, Mario Szegedy and Guanyu Zhu.

Qip2023 An Efficient Decoder For - Detailed Analysis & Overview

Shouzhen Gu, Christopher Pattison and Eugene Tang. Irit Dinur, Min-Hsiu Hsieh, Ting-Chun Lin and Thomas Vidick. Andrew Cross, Zhiyang He, Anand Natarajan, Mario Szegedy and Guanyu Zhu. Optimizing quantum circuit parameters via SDP -- merged with -- An Improved Approximation Algorithm for Quantum Max-Cut ... ... actually correct many more errors and and things good scale you also need Dorit Aharonov, Xun Gao, Zeph Landau, Yunchao Liu and Umesh Vazirani.

By Anthony Leverrier (INRIA) Abstract: We show that quantum expander codes, a constant-rate family of quantum LDPC codes, ... Qiskit Seminar Series Episode with Yoshifumi Nakata Tune in Friday, June 26 at 12 PM Eastern to hear Professor Daniel Lidar discuss his demonstrations of quantum speedup. Quantum CEO Ivan Miskovic sits down with Giancarlo Gatti, professor and researcher at Mondragon University, on what quantum ...

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QIP2023 | An efficient decoder for a linear distance quantum LDPC code (Shouzhen Gu)
QIP2023 | Good Quantum LDPC Codes with Linear Time Decoders (Ting-Chun Lin)
STOC 2023 - 5B - An efficient decoder for a linear distance quantum LDPC code.
QIP2023 | Time-Efficient Constant-Space-Overhead Fault-Tolerant Quantum Computation (H. Yamasaki)
QIP2023 | Quantum Locally Testable Code with Exotic Parameters (Zhiyang He)
QIP2023 | Optimizing quantum circuit param via SDP + Improved Approximation Alg. for Quantum Max-Cut
QIP2023 | Fault tolerance - part 1 (Barbara Terhal)
QIP2023 | A polynomial-time classical algorithm for noisy random circuit sampling (Dorit Aharonov)
Efficient decoding of random errors for quantum expander codes
Decoding Quantum Random Codes | Qiskit Seminar Series with Yoshifumi Nakata
Prof. Daniel Lidar | Seminar Series
Quantum Privacy, RSA, and Why Vendor Qubit Counts Mislead You | Giancarlo Gatti, QIP 2026
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QIP2023 | An efficient decoder for a linear distance quantum LDPC code (Shouzhen Gu)

QIP2023 | An efficient decoder for a linear distance quantum LDPC code (Shouzhen Gu)

Shouzhen Gu, Christopher Pattison and Eugene Tang.

QIP2023 | Good Quantum LDPC Codes with Linear Time Decoders (Ting-Chun Lin)

QIP2023 | Good Quantum LDPC Codes with Linear Time Decoders (Ting-Chun Lin)

Irit Dinur, Min-Hsiu Hsieh, Ting-Chun Lin and Thomas Vidick.

STOC 2023 - 5B - An efficient decoder for a linear distance quantum LDPC code.

STOC 2023 - 5B - An efficient decoder for a linear distance quantum LDPC code.

An

QIP2023 | Time-Efficient Constant-Space-Overhead Fault-Tolerant Quantum Computation (H. Yamasaki)

QIP2023 | Time-Efficient Constant-Space-Overhead Fault-Tolerant Quantum Computation (H. Yamasaki)

Hayata Yamasaki and Masato Koashi.

QIP2023 | Quantum Locally Testable Code with Exotic Parameters (Zhiyang He)

QIP2023 | Quantum Locally Testable Code with Exotic Parameters (Zhiyang He)

Andrew Cross, Zhiyang He, Anand Natarajan, Mario Szegedy and Guanyu Zhu.

QIP2023 | Optimizing quantum circuit param via SDP + Improved Approximation Alg. for Quantum Max-Cut

QIP2023 | Optimizing quantum circuit param via SDP + Improved Approximation Alg. for Quantum Max-Cut

Optimizing quantum circuit parameters via SDP -- merged with -- An Improved Approximation Algorithm for Quantum Max-Cut ...

QIP2023 | Fault tolerance - part 1 (Barbara Terhal)

QIP2023 | Fault tolerance - part 1 (Barbara Terhal)

... actually correct many more errors and and things good scale you also need

QIP2023 | A polynomial-time classical algorithm for noisy random circuit sampling (Dorit Aharonov)

QIP2023 | A polynomial-time classical algorithm for noisy random circuit sampling (Dorit Aharonov)

Dorit Aharonov, Xun Gao, Zeph Landau, Yunchao Liu and Umesh Vazirani.

Efficient decoding of random errors for quantum expander codes

Efficient decoding of random errors for quantum expander codes

By Anthony Leverrier (INRIA) Abstract: We show that quantum expander codes, a constant-rate family of quantum LDPC codes, ...

Decoding Quantum Random Codes | Qiskit Seminar Series with Yoshifumi Nakata

Decoding Quantum Random Codes | Qiskit Seminar Series with Yoshifumi Nakata

Qiskit Seminar Series Episode with Yoshifumi Nakata

Prof. Daniel Lidar | Seminar Series

Prof. Daniel Lidar | Seminar Series

Tune in Friday, June 26 at 12 PM Eastern to hear Professor Daniel Lidar discuss his demonstrations of quantum speedup.

Quantum Privacy, RSA, and Why Vendor Qubit Counts Mislead You | Giancarlo Gatti, QIP 2026

Quantum Privacy, RSA, and Why Vendor Qubit Counts Mislead You | Giancarlo Gatti, QIP 2026

Quantum CEO Ivan Miskovic sits down with Giancarlo Gatti, professor and researcher at Mondragon University, on what quantum ...

Pre-Seminar Primer: Demonstrations of Quantum Speedup

Pre-Seminar Primer: Demonstrations of Quantum Speedup

Tune in Friday, June 26 at 12 PM Eastern to hear Professor Daniel Lidar discuss his demonstrations of quantum speedup.