test_computePSD.py File Reference

Prototypes
def	test_computePSD.test_ComputePSDandNormSFTPower ()

Go to the source code of this file.

Namespaces
	test_computePSD

Variables
	test_computePSD.earth_ephem_file
	test_computePSD.sun_ephem_file
	test_computePSD.ephemerides = lalpulsar.InitBarycenter(earth_ephem_file, sun_ephem_file)
list	test_computePSD.IFOs = ["H1", "L1"]
	test_computePSD.numDet = len(IFOs)
list	test_computePSD.sqrtSX = ["1e-23"]
int	test_computePSD.f_min = 20
int	test_computePSD.f_max = 21
int	test_computePSD.T0 = 900000000
int	test_computePSD.Tspan = 86400
int	test_computePSD.Tsft = 1800
int	test_computePSD.Toverlap = 0
	test_computePSD.dataParams = lalpulsar.CWMFDataParams()
	test_computePSD.fMin
	test_computePSD.Band
	test_computePSD.multiTS = lalpulsar.MakeMultiTimestamps(T0, Tspan, Tsft, Toverlap, numDet)
	test_computePSD.multiTimestamps
	test_computePSD.randSeed
	test_computePSD.inputMultiTS
tuple	test_computePSD.injectionSources
int	test_computePSD.multiSFTs = 0
	test_computePSD.edat
	test_computePSD.numSFTs = lal.CreateUINT4Vector(numDet)
	test_computePSD.data
int	test_computePSD.f0 = multiSFTs.data[0].data[0].f0
int	test_computePSD.deltaF = multiSFTs.data[0].data[0].deltaF
int	test_computePSD.numBins = multiSFTs.data[0].data[0].data.length
	test_computePSD.multiSFTs_copy = lalpulsar.CreateEmptyMultiSFTVector(numSFTs)
	test_computePSD.args = sys.argv[1:] or ["-v", "-rs", "--junit-xml=junit-computePSD.xml"]