Exemple #1
0
def _optimize_polyfit(server_address, periodic_callback):
    settings_0 = np.zeros(len(template.CURRENT_FIELDS))
    sets = np.identity(len(settings_0))
    M = np.zeros(sets.shape)
    sets_a = np.linspace(-5, 5, 5) * 0.01
    readings = np.zeros([len(settings_0), 5])
    for i in range(0, len(settings_0)):
        for j in range(0, len(sets_a)):
            is_steering, steering = _check_beam_steering(True)
            if not is_steering:
                raise AbortOptimizationException()
            setting_test = sets[i,:] * sets_a[j]
            template.write_epics_values(server_address, template.CURRENT_FIELDS, setting_test)
            periodic_callback(server_address)
            readings[:,j] = template.read_epics_values(server_address, template.BPM_FIELDS)
        for k in range(0, len(settings_0)):
            M[i,k] = np.polyfit(sets_a, readings[k,:], 1)[0]
    # inverse response matrix
    MI = np.linalg.pinv(M.T)
    # reset the beam-line
    template.write_epics_values(server_address, template.CURRENT_FIELDS, settings_0)
    periodic_callback(server_address)
    readings_1 = np.asarray(template.read_epics_values(server_address, template.BPM_FIELDS))
    # create settings to cancel out offsets
    new_sets = np.dot(MI, -readings_1)
    return {
        'message': '',
        'success': True,
        'result': new_sets,
    }
Exemple #2
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def _cost_function(values, server_address, periodic_callback):
    is_steering, steering = _check_beam_steering(True)
    if not is_steering:
        raise AbortOptimizationException()
    template.write_epics_values(server_address, template.CURRENT_FIELDS, values)
    # periodic_callback() either waits for the remote EPICS or runs a local sim which populates local EPICS
    periodic_callback(server_address)
    readings = template.read_epics_values(server_address, template.BPM_FIELDS)
    #cost = np.sum((np.array(readings) * 1000.) ** 2)
    cost = np.sum((np.array(
        [readings[4] - readings[6], readings[5] - readings[7], readings[6], readings[7]]
    ) * 1000.) ** 2)
    return cost
Exemple #3
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def _run_beam_steering(server_address, steering, periodic_callback):
    method = steering.steeringMethod
    try:
        if method == 'nmead':
            res = _optimize_nelder_mead(server_address, periodic_callback)
        elif method == 'polyfit':
            res = _optimize_polyfit(server_address, periodic_callback)
        if 'result' in res:
            template.write_epics_values(server_address, template.CURRENT_FIELDS, res['result'])
        simulation_db.write_json(template.OPTIMIZER_RESULT_FILE, {
            'message': res['message'],
            'success': res['success'],
        })
    except AbortOptimizationException as e:
        pass