In [28]:
%matplotlib inline
import matplotlib.pyplot as plt
import matplotlib
import astropy.units as u
matplotlib.rcParams['figure.figsize'] = (10.0, 10.0)
In [29]:
from sunpy import lightcurve
from sunpy.time import TimeRange
tr = TimeRange('2011-06-07 06:00', '2011-06-07 08:00')
#goes = lightcurve.GOESLightCurve.create(tr)
#goes.peek()
In [30]:
norh = lightcurve.NoRHLightCurve.create('2011/08/10')
norh.peek()
plt.legend()
Out[30]:
In [31]:
noaa = lightcurve.NOAAIndicesLightCurve.create()
noaa.peek()
In [32]:
noaa = lightcurve.NOAAPredictIndicesLightCurve.create()
noaa.peek()
In [33]:
hsi = lightcurve.RHESSISummaryLightCurve.create(tr)
hsi.peek()
In [34]:
eve = lightcurve.EVELightCurve.create()
eve.peek()
In [35]:
import datetime
base = datetime.datetime.today()
dates = [base - datetime.timedelta(seconds=x) for x in range(0, 1 * 60 * 60)]
z = [((d.minute % 5) == 0) for d in dates]
light_curve = lightcurve.LogicalLightCurve.create({"param1": z}, index=dates)
light_curve.peek()
In [36]:
lyra = lightcurve.LYRALightCurve.create()
lyra.peek()
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