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**Issue**: Create a quantum computing tutorial in a Jupyter notebook to demonstrate modular arithmetic (addition and subtraction) using the Python package **HierarQcal**.
## Overview
The goal is t…
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# Abstract
The good ansatz generation is crucial for any quantum variational algorithm like QAOA and VQE in the NISQ era. [Sim at el](https://arxiv.org/abs/1905.10876) analyzed various forms of Par…
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## 一言でいうと
おおよそ50qubit以下のnear-term量子コンピュータの性能を測る指標 "quantum volume" を提案した論文。ランダム量子回路で、(qubit数, depth)を(1, 1), (2, 2), ...と、だんだん量子ビット数とdepthを大きくして、[heavy output generation problem](https://arxiv.…
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**Is your feature request related to a problem? Please describe.**
Current code for interfacing with IBM devices is not compatible with the ECR gate. However, all but one of the available IBM devices…
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currently, the environment is a Qiskit quantum circuit object. This needs to be extended for a probabilistic mixture of multiple quantum circuit objects.
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### Environment
- **Qiskit version**: 1.1.0
- **Python version**: 3.10.12
- **Operating system**: Google Colab
### What is happening?
Circuits after Transpilation should give similar result, …
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Is there any ways to create, run, measure outcomes of circuit algorithm by using MeasurementControl?
I was that `deprecated/pycqed/instrument_drivers/virtual_instruments/pyqx/qx_client.py` provides f…
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### Description
Investigation of possible methods for encoding certain sparse matrices and simulating those quantum circuits using real devices is planned for this project. The main goal of this proj…
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### Context
The use-case should use the [QC-Atlas](https://github.com/UST-QuAntiL/qc-atlas) as entrypoint and can be done in the UI.
It should feature what is described as the **STANDALONE CIRCUIT…