promotes=['*']) root.add('d_param%s' % i, IndepVarComp('d_param%s' % i, d_param), promotes=['*']) root.add('t_param%s' % i, IndepVarComp('t_param%s' % i, t_param), promotes=['*']) root.add('turbineH%s' % i, IndepVarComp('turbineH%s' % i, float(turbineZ[i])), promotes=['*']) root.add('rotorDiameter%s' % i, IndepVarComp('rotorDiameter%s' % i, float(rotorDiameter[i])), promotes=['*']) root.add('optCOE', optCOE(nGroups, nPoints, nFull, nTurbs, nDirections, nVertices, minSpacing), promotes=['*']) print 'added' for i in range(nGroups): root.connect('rotorDiameter%s' % i, 'Rotor%s.rotorDiameter' % i) root.connect('ratedPower%s' % i, 'Rotor%s.turbineRating' % i) root.connect('rotorDiameter%s' % i, 'Myy_estimate%s.rotor_diameter' % i) root.connect('rotorDiameter%s' % i, 'bladeLengthComp%s.rotor_diameter' % i) root.connect('rotorDiameter%s' % i, 'freqConstraintGroup%s.diameter' % i)
"""OpenMDAO""" prob = Problem() root = prob.root = Group() # Design Variables for i in range(nGroups): root.add('ratedPower%s'%i, IndepVarComp('ratedPower%s'%i, float(ratedPower[i]), units='kW'), promotes=['*']) root.add('d_param%s'%i, IndepVarComp('d_param%s'%i, d_param), promotes=['*']) root.add('t_param%s'%i, IndepVarComp('t_param%s'%i, t_param), promotes=['*']) root.add('turbineH%s'%i, IndepVarComp('turbineH%s'%i, float(turbineZ[i])), promotes=['*']) root.add('rotorDiameter%s'%i, IndepVarComp('rotorDiameter%s'%i, float(rotorDiameter[i])), promotes=['*']) root.add('optCOE', optCOE(nGroups,nPoints,nFull,nTurbs,nDirections,nVertices,minSpacing),promotes=['*']) print 'added' for i in range(nGroups): root.connect('rotorDiameter%s'%i, 'Rotor%s.rotorDiameter'%i) root.connect('ratedPower%s'%i, 'Rotor%s.turbineRating'%i) root.connect('rotorDiameter%s'%i, 'Myy_estimate%s.rotor_diameter'%i) root.connect('rotorDiameter%s'%i,'bladeLengthComp%s.rotor_diameter'%i) root.connect('rotorDiameter%s'%i,'freqConstraintGroup%s.diameter'%i) root.connect('turbineH%s'%i, 'minHeight%s.height'%i) root.connect('rotorDiameter%s'%i, 'minHeight%s.diameter'%i) for i in range(nGroups):