64 | Decoder for quantum error correction codes: from the perspective of classical error correction codes
Quantum error correction has become a crucial and popular topic, especially given its essential role in ensuring the scalability and reliability of quantum computers.
69 | TQEC Tool Overview
Compiling a quantum algorithm to run on a quantum computer consisting of a 2D array of qubits with only nearest neighbor interactions is a complex problem.
22 | Noise Modeling of the IBM Quantum Experience
The influence of noise in quantum dynamics is one of the main factors preventing Noisy Intermediate-Scale Quantum (NISQ) devices from performing useful quantum computations.
13 | Enabling robust quantum computer system by understanding errors from NISQ machines
The growth of the need for quantum computers in many domains such as machine learning, numerical scientific simulation, and finance has urged quantum computers to produce more stable and less error-prone results.
8 | Classical Support and Error Mitigation for Variational Quantum Algorithms
In this seminar Dr.
1 | Software and Algorithmic Approaches to Quantum Noise Mitigation: An Overview
I will talk about recent developments in noise mitigation techniques for quantum computers. In the Noisy Intermediate-Scale Quantum (NISQ) era, qubits have short lifetimes and quantum gates are prone to errors. This talk will provide an overview of software and algorithmic approaches to mitigate quantum noise.