This notebook is meant to showcase an end-to-end workflow on how to scale towards utility using Runtime's EstimatorV2 error suppression and error mitigation options for a particular class of problems (i.e. 1D hamiltonian evolution mirror circuits).
Software requirements
[X] Qiskit
[X] Qiskit Runtime
[ ] Qiskit Extension Packages
[X] Qiskit Community Packages
[ ] OpenQASM
[ ] Other quantum software
[ ] Other classical software
Review criteria
[X] Accuracy: content is factually accurate and error-free
[ ] Clarity: content is easy to understand and communicates effectively
[X] Completeness: content covers all necessary information
[X] Compliance: content adheres to guidelines, policies, and legal requirements
[ ] Style: content follows the appropriate style guide and tone
[ ] Formatting: content is properly formatted and visually appealing
Reviewers
@IBM-Quantum-Technical-Enablement/product
Jessie (@jyu00)
Blake
Tushar
Additional comments
All error mitigation is performed exclusively via EstimatorV2 options.
Exclusively for illustrative/didactical purposes:
The effects of gate folding are shown using prototype-zne.
The effects of Pauli twirling are shown using a custom pass.
We can substitute the above with static pictures if reviewers think it's best.
Code of conduct
[X] I agree to follow this project's Code of Conduct
Notebook
Scaling on Estimator
Outcome
Approval to publish
Content description
This notebook is meant to showcase an end-to-end workflow on how to scale towards utility using Runtime's
EstimatorV2
error suppression and error mitigation options for a particular class of problems (i.e. 1D hamiltonian evolution mirror circuits).Software requirements
Review criteria
Reviewers
@IBM-Quantum-Technical-Enablement/product
Additional comments
EstimatorV2
options.prototype-zne
.Code of conduct