Metadata-Version: 2.1
Name: scresonators-fit
Version: 0.5.5
Summary: Python library for measuring and fitting superconducting resonator data
Home-page: https://github.com/Boulder-Cryogenic-Quantum-Testbed/scresonators
Author: CU Boulder Cryogenic Quantum Testbed
Keywords: scresonators,superconducting resonators,resonator fit
Requires-Python: >=3.7
Description-Content-Type: text/markdown

# scresonators
Welcome to the scresonators repository of the Boulder Cryogenic Quantum Testbed! This is a library for measuring the loss in superconducting resonators. 

## Installation
1. clone the repository into a folder of your choice with `git clone https://github.com/Boulder-Cryogenic-Quantum-Testbed/scresonators.git`
2. Install the dependencies, we ***strongly*** recommend using [virtual environments](https://packaging.python.org/guides/installing-using-pip-and-virtual-environments/) for managing your dependences. To install dependencies run:
  `pip install -r requirements.txt`
3. If you are running on Windows, install Microsoft Visual Studio before using the library
 
## Using the library

Here's an example using some of the data hosted on this repository. Hosted
datasets from groups around the world can be found [here](/cryores/test_data).

This particular example code is meant to be run in the root directory.

```python
import numpy as np
import fit_resonator.functions as ff
import fit_resonator.Sdata as fsd
import fit_resonator.resonator as res

url = 'https://raw.githubusercontent.com/Boulder-Cryogenic-Quantum-Testbed/scresonators/master/cryores/test_data/AWR/AWR_Data.csv'

# Load the raw data:
raw = np.loadtxt(url, delimiter=',')

# Choose a fitting method:
fit_type = 'DCM'
MC_iteration = 10
MC_rounds = 1e3
MC_fix = ['w1']
manual_init = None
method = res.FitMethod(fit_type, MC_iteration, MC_rounds=MC_rounds,
                       MC_fix=MC_fix, manual_init=manual_init, MC_step_const=0.3)

# Fit the data:
fsd.fit("output test", method, normalize=10, data_array=raw)
```

Ane in depth description is given in the fit_resonators folder.


## Code Organization

Until the module is officially distributed, all code should live in the `fit_resonator` namespace. This ensures easy integration
with other Python packages, and avoids name collisions; everything is referred
to as e.g. `fit_resonator.experiments` rather than just `experiments`.
