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108mk / IBM_Quantum_Spring_challenge_2023

My attempts for IBM Quantum Spring challenge 2023. The labs were dedicated to dynamic circuits and its utilities in quantum error corrections. I has the oppertunity to run my quantum circuiits on 127-qubit ibm qauntum eagle processor.

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ibm-quantum-challengephase-estimation-algorithmquantum-computingquantum-error-correctiondynamic-circuit

IBM_Quantum_Spring_challenge_2023

  • This repository includes Jyputer notebooks for my solutions for IBM Quantum Spring challenge 2023.
  • The labs were dedicated to dynamic circuits and its utilities in quantum error corrections.
  • I had the opportunity to run my quantum circuiits on 127-qubit ibm qauntum eagle processor .

Qauntum Algorithms implemented:

  • The core theme of the spring challenge was to develop algorithmic strategy to use near term 'noisy' (error-prone) quantum processor to implement important quantum algorithms. The important algorithms are as below:

1. Iterative Quantum Phase Estimation:

2. Error correction via stabilzer (ancilla) qubits:

3. To prepare 56-qubit GHZ state while integrating error correction stabilizers to it. We checked our circuit on real hardware 'IBMQ Eagle quantum processor'.

Acknowledgements:

Discord Channel Community for IBM_Qauntum_spring_challenge_2023

HarshKumar Oza, IISc Bengaluru

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My attempts for IBM Quantum Spring challenge 2023. The labs were dedicated to dynamic circuits and its utilities in quantum error corrections. I has the oppertunity to run my quantum circuiits on 127-qubit ibm qauntum eagle processor.

ibm-quantum-challengephase-estimation-algorithmquantum-computingquantum-error-correctiondynamic-circuit

License:MIT License

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Language:Jupyter Notebook 100.0%