##----------------------------------------------------------------------------## LOG.info("Configuring...") #Initialise a Model, Coupling, and Connectivity. oscilator = models.Generic2dOscillator() white_matter = connectivity.Connectivity() white_matter.speed = 4.0 white_matter_coupling = coupling.Linear(a=-2**-9) #Initialise an Integrator heunint = integrators.HeunDeterministic(dt=2**-4) #Initialise some Monitors with period in physical time mon_tavg = monitors.TemporalAverage(period=2**-2) mon_savg = monitors.SpatialAverage(period=2**-2) mon_eeg = monitors.EEG(period=2**-2) #Bundle them what_to_watch = (mon_tavg, mon_savg, mon_eeg) #Initialise a surface local_coupling_strength = numpy.array([0.0121]) grey_matter = surfaces.LocalConnectivity(equation=equations.Gaussian(), cutoff=60.0) grey_matter.equation.parameters['sigma'] = 10.0 grey_matter.equation.parameters['amp'] = 0.0 default_cortex = surfaces.Cortex(local_connectivity=grey_matter, coupling_strength=local_coupling_strength)
def test_monitor_savg(self): monitor = monitors.SpatialAverage() assert monitor.period == self.default_period
def test_monitor_savg(self): monitor = monitors.SpatialAverage() self.assertEqual(monitor.period, self.default_period)