Welcome to the Docs for Forest-Benchmarking¶
Forest-Benchmarking is an open source library for performing quantum characterization, verification, and validation (QCVV) of quantum computers using pyQuil.
To get started see
Note
To join our user community, connect to the Rigetti Slack workspace at https://rigetti-forest.slack.com.
Contents¶
- Direct Fidelity Estimation
- Distance measures
- Entangled States
- Hinton Plots
- Observable Estimation
- Quantum Volume
- Qubit spectroscopy: CZ Ramsey measurement example
- Qubit spectroscopy: Rabi measurement example
- Qubit spectroscopy: \(T_1\) measurement example
- Qubit spectroscopy: \(T_2^*\) (Ramsey) and \(T_2\)-echo (Hahn echo) measurement example
- Random Operators: random quantum states and channels
- Randomized Benchmarking
- Randomized Benchmarking: Interleaved RB
- Randomized Benchmarking: Unitarity RB
- Readout Error Estimation
- Ripple Carry Adder
- Robust Phase Estimation
- State and Process Plots
- Superoperator tools
- Quantum process tomography
- State tomography