test_mb_2023_4_mux_2023.py

import matplotlib
matplotlib.use('TkAgg')
import matplotlib.pyplot as plt
from ohmpi.utils import change_config
change_config('../configs/config_mb_2023_4_mux_2023.py', verbose=False)
import importlib
import os
import time
import logging
from ohmpi.config import HARDWARE_CONFIG
import pandas as pd

stand_alone = False
part_of_hardware_system = False
within_ohmpi = True

# Stand alone
if stand_alone:

    ctl_module = importlib.import_module(f'ohmpi.hardware_components.{HARDWARE_CONFIG["ctl"].pop("model")}')
    pwr_module = importlib.import_module(f'ohmpi.hardware_components.{HARDWARE_CONFIG["pwr"].pop("model")}')
    tx_module = importlib.import_module(f'ohmpi.hardware_components.{HARDWARE_CONFIG["tx"].pop("model")}')
    rx_module = importlib.import_module(f'ohmpi.hardware_components.{HARDWARE_CONFIG["rx"].pop("model")}')

    ctl = ctl_module.Ctl()
    HARDWARE_CONFIG['tx'].update({'ctl': ctl, 'exec_logger': ctl.exec_logger, 'soh_logger': ctl.soh_logger})
    HARDWARE_CONFIG['rx'].update({'ctl': ctl, 'exec_logger': ctl.exec_logger, 'soh_logger': ctl.soh_logger})
    HARDWARE_CONFIG['tx'].update({'connection': HARDWARE_CONFIG['tx'].pop('connection',
                                                                          ctl.interfaces[
                                                                              HARDWARE_CONFIG['tx'].pop(
                                                                                  'interface_name', 'i2c')])})
    HARDWARE_CONFIG['rx'].update({'connection': HARDWARE_CONFIG['rx'].pop('connection',
                                                                          ctl.interfaces[
                                                                              HARDWARE_CONFIG['rx'].pop(
                                                                                  'interface_name', 'i2c')])})

    HARDWARE_CONFIG['pwr'].update({'connection': HARDWARE_CONFIG['pwr'].pop('connection',
                                                                          ctl.interfaces[
                                                                              HARDWARE_CONFIG['pwr'].pop(
                                                                                  'interface_name', None)])})


    rx = rx_module.Rx(**HARDWARE_CONFIG['rx'])
    tx = tx_module.Tx(**HARDWARE_CONFIG['tx'])
    pwr = pwr_module.Pwr(**HARDWARE_CONFIG['pwr'])

    role = 'A'
    mux_id = f'mux_{role}'
    mux_boards = []
    mux_module = importlib.import_module(
        f'ohmpi.hardware_components.{HARDWARE_CONFIG["mux"]["boards"][mux_id].pop("model")}')

    MUX_CONFIG = HARDWARE_CONFIG['mux']['boards'][mux_id]

    MUX_CONFIG.update({'ctl': ctl, 'connection': MUX_CONFIG.pop('connection', ctl.interfaces[
                                       MUX_CONFIG.pop('interface_name', 'i2c_ext')]), 'exec_logger': ctl.exec_logger,
                   'soh_logger': ctl.soh_logger})
    MUX_CONFIG.update({'id': mux_id})
    mux = mux_module.Mux(**MUX_CONFIG)
    mux.reset()

    mux.test({role: [i for i in range(1, 65)]}, activation_time=.5)
    mux.reset()

# mux as part of a OhmPiHardware system
if part_of_hardware_system:
    from ohmpi.hardware_system import OhmPiHardware
    print('Starting test of as part of an OhmPiHardware system.')
    # mux_id = 'mux_03'
    k = OhmPiHardware()
    k.exec_logger.setLevel(logging.DEBUG)
    # Test mux switching
    k.reset_mux()
    # k.switch_mux(electrodes=[1, 4, 2, 3], roles=['A', 'B', 'M', 'N'], state='on')
    # time.sleep(1.)
    # k.switch_mux(electrodes=[1, 4, 2, 3], roles=['A', 'B', 'M', 'N'], state='off')
    # k.mux_boards[mux_id].test(activation_time=.4)
    k.test_mux()
    k.reset_mux()

if within_ohmpi:
    from ohmpi.ohmpi import OhmPi
    # from ohmpi.plots import plot_exec_log

    print('Starting test with OhmPi.')
    k = OhmPi()
    # k.get_data()
    k.load_sequence(os.path.join(os.path.dirname(__file__), '../sequences/wenner16.txt'))
    k.reset_mux()
    # k.run_multiple_sequences(sequence_delay=20, nb_meas=3)
    k.run_sequence(injection_duration=0.2)
    # k.rs_check(tx_volt=4)
    # k.test_mux(mux_id=None, activation_time=0.2)
    # k._hw.switch_mux([A, B, M, N], state='on')
    # k._hw.vab_square_wave(12.,1., cycles=2)
    # k._hw.switch_mux([A, B, M, N], state='off')
    # k._hw.calibrate_rx_bias()  # electrodes 1 4 2 3 should be connected to a reference circuit
    # k._hw.rx._bias = -1.38
    # print(f'Resistance: {k._hw.last_rho :.2f} ohm, dev. {k._hw.last_dev:.2f} %, rx bias: {k._hw.rx._bias:.2f} mV')
    # k._hw._plot_readings()
    # k._hw.switch_mux([A, B, M, N], state='on')
    # k._hw.vab_square_wave(12., cycle_duration=10., cycles=3)
    # k._hw.switch_mux([A, B, M, N], state='off')
    # print(f'OhmPiHardware Resistance: {k._hw.last_rho :.2f} ohm, dev. {k._hw.last_dev:.2f} %, rx bias: {k._hw.rx._bias:.2f} mV')
    # k._hw._plot_readings()
    A, B, M, N = (17, 20, 18, 19)
    # A, B, M, N = (1, 4, 2, 3)
    d = k.run_measurement([A, B, M, N], injection_duration=0.5, nb_stack=2, duty_cycle=0.5)
    print(d)
    k._hw._plot_readings()
    # print(f'OhmPiHardware: Resistance: {k._hw.last_resistance() :.2f} ohm, dev. {k._hw.last_dev():.2f} %, sp: {k._hw.sp:.2f} mV, rx bias: {k._hw.rx._bias:.2f} mV')
    # print(f'OhmPi: Resistance: {d["R [ohm]"] :.2f} ohm, dev. {d["R_std [%]"]:.2f} %, rx bias: {k._hw.rx._bias:.2f} mV')
    # k._hw._plot_readings(save_fig=False)
    # k.run_sequence(nb_stack=2, injection_duration=0.2, duty_cycle=0.5)
    # ddir = os.path.join(os.path.dirname(__file__), '../data/')
    # print(sorted(os.listdir(ddir)))
    # df = pd.read_csv(os.path.join(ddir, sorted(os.listdir(ddir))[-3]))
    # fig, ax = plt.subplots()
    # df['R [Ohm]'].plot(ax=ax)
    # fig.show(block=True)
    # plot_exec_log('ohmpi/logs/exec.log')
change_config('../configs/config_default.py', verbose=False)