HG_REPOSITORIES/LPP/INSTRUMENTATION/SOLO_LFR/DEV_PLE Files · FSW-qt/bin/load_spectral_matrix_TCH.py

The HK packet contains v, e1 and e2 valid data at f3....

The HK packet contains v, e1 and e2 valid data at f3. The ACTN task mode is set to NO_PREEMPT In BURST, f3 flow is enabled to allow the v, e1 and e2 data pick-up for HK

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             load_spectral_matrix_TCH.py
        
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      #!/usr/bin/lppmon -e 

      ####################

      ## BUILD THE DATA ##

      ####################

      with open('/opt/DEV_PLE/FSW-qt/bin/spectralmatrix/asm_f0_test_20140403_case2.txt', 'r') as f:

          listOfLines = []

          for line in f.readlines():

          	listOfLines.append(line)

      data = listOfLines[10]	# line 10 contains the data

      data =  data.split()	# get the data from the global string

      dataInFloat = []

      nbData = len(data)

      print "nbData = " + str(nbData)

      for i in range( nbData ):

      	dataInFloat.append( float( data[i] ) )	# convert each string into a float

      # reorganize the data to have a matrix in the VHDL format

      # INPUT		(ICD format)

      # matrix_0[0 .. 24] matrix_1[0 .. 24] .. matrix_127[0 .. 24]

      # OUTPUT	(VHDL format)

      # component_0[0 .. 127] component_1[0 .. 127] .. component_24[0 .. 127]

      dataInFloatReorganized = []

      dataInIntReorganized = []

      nbComponentsByMatrix  = 25

      nbFrequencyBins = 128

      for indexComponent in range(nbComponentsByMatrix):

      	for frequencyBin in range(nbFrequencyBins):

      		dataInFloatReorganized.append( 

      			dataInFloat[ indexComponent + frequencyBin * nbComponentsByMatrix ] 

      			)

      		dataInIntReorganized.append( 

      			int( dataInFloat[ indexComponent + frequencyBin * nbComponentsByMatrix ] ) 

      			)

      ####################

      ## WRITE THE DATA ##

      ####################

      # F0 buffer address

      address_to_read = 0x80000f08

      val = RMAPPlugin0.Read( address_to_read, 1)

      matrixF0_Address0 = val[0]

      # F1 buffer address

      address_to_read = 0x80000f10

      val = RMAPPlugin0.Read( address_to_read, 1)

      matrixF1_Address = val[0]

      # F2 buffer address

      address_to_read = 0x80000f14

      val = RMAPPlugin0.Read( address_to_read, 1)

      matrixF2_Address = val[0]

      print str( len(dataInIntReorganized) ) + " data to write"

      RMAPPlugin0.Write( matrixF0_Address0, dataInIntReorganized )

      print str( len(dataInIntReorganized) ) + " data written @" + hex(matrixF0_Address0)

      RMAPPlugin0.Write( matrixF1_Address, dataInIntReorganized )

      print str( len(dataInIntReorganized) ) + " data written @" + hex(matrixF1_Address)

      RMAPPlugin0.Write( matrixF2_Address, dataInIntReorganized )

      print str( len(dataInIntReorganized) ) + " data written @" + hex(matrixF2_Address)

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				#!/usr/bin/lppmon -e

				####################
				## BUILD THE DATA ##
				####################

				with open('/opt/DEV_PLE/FSW-qt/bin/spectralmatrix/asm_f0_test_20140403_case2.txt', 'r') as f:
				listOfLines = []
				for line in f.readlines():
				listOfLines.append(line)

				data = listOfLines[10] # line 10 contains the data
				data = data.split() # get the data from the global string

				dataInFloat = []
				nbData = len(data)
				print "nbData = " + str(nbData)
				for i in range( nbData ):
				dataInFloat.append( float( data[i] ) ) # convert each string into a float

				# reorganize the data to have a matrix in the VHDL format
				# INPUT (ICD format)
				# matrix_0[0 .. 24] matrix_1[0 .. 24] .. matrix_127[0 .. 24]
				# OUTPUT (VHDL format)
				# component_0[0 .. 127] component_1[0 .. 127] .. component_24[0 .. 127]

				dataInFloatReorganized = []
				dataInIntReorganized = []
				nbComponentsByMatrix = 25
				nbFrequencyBins = 128
				for indexComponent in range(nbComponentsByMatrix):
				for frequencyBin in range(nbFrequencyBins):
				dataInFloatReorganized.append(
				dataInFloat[ indexComponent + frequencyBin * nbComponentsByMatrix ]
				)
				dataInIntReorganized.append(
				int( dataInFloat[ indexComponent + frequencyBin * nbComponentsByMatrix ] )
				)

				####################
				## WRITE THE DATA ##
				####################

				# F0 buffer address
				address_to_read = 0x80000f08
				val = RMAPPlugin0.Read( address_to_read, 1)
				matrixF0_Address0 = val[0]

				# F1 buffer address
				address_to_read = 0x80000f10
				val = RMAPPlugin0.Read( address_to_read, 1)
				matrixF1_Address = val[0]

				# F2 buffer address
				address_to_read = 0x80000f14
				val = RMAPPlugin0.Read( address_to_read, 1)
				matrixF2_Address = val[0]

				print str( len(dataInIntReorganized) ) + " data to write"
				RMAPPlugin0.Write( matrixF0_Address0, dataInIntReorganized )
				print str( len(dataInIntReorganized) ) + " data written @" + hex(matrixF0_Address0)
				RMAPPlugin0.Write( matrixF1_Address, dataInIntReorganized )
				print str( len(dataInIntReorganized) ) + " data written @" + hex(matrixF1_Address)
				RMAPPlugin0.Write( matrixF2_Address, dataInIntReorganized )
				print str( len(dataInIntReorganized) ) + " data written @" + hex(matrixF2_Address)