Python RAECONS Examples

Programming Language: Python

Namespace/Package Name: pyNastran.op2.op2_interface.random_results

Class/Type: RAECONS

Examples at hotexamples.com: 2

Python RAECONS - 2 examples found. These are the top rated real world Python examples of pyNastran.op2.op2_interface.random_results.RAECONS extracted from open source projects. You can rate examples to help us improve the quality of examples.

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RAECONS(2)

Frequently Used Methods

RAECONS (2)

Example #1

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File: op2_results.py Project: numenic/pyNastran

    def __init__(self):
        self.eqexin = None
        self.gpdt = None
        self.bgpdt = None
        self.ato = AutoCorrelationObjects()
        self.psd = PowerSpectralDensityObjects()
        self.rms = RootMeansSquareObjects()
        self.no = NumberOfCrossingsObjects()
        self.crm = CumulativeRootMeansSquareObjects()

        self.modal_contribution = ModalContribution()
        self.solution_set = SolutionSet()
        self.strength_ratio = StrengthRatio()
        self.ROUGV1 = ROUGV1()  # relative disp/vel/acc/eigenvectors

        self.RADEFFM = RADEFFM()  # eigenvectors

        self.RADCONS = RADCONS()  # eigenvectors
        self.RAFCONS = RAFCONS()  # force
        self.RASCONS = RASCONS()  # stress
        self.RAECONS = RAECONS()  # strain
        self.RAGCONS = RAGCONS()  # grid point forces
        self.RAPCONS = RAPCONS()  # composite stress
        self.RANCONS = RANCONS()  # strain energy

        self.RADEATC = RADEATC()  # eigenvectors
        self.RAFEATC = RAFEATC()  # force
        self.RASEATC = RASEATC()  # stress
        self.RAEEATC = RAEEATC()  # strain
        self.RAGEATC = RAGEATC()  # grid point forces
        self.RAPEATC = RAPEATC()  # composite stress
        self.RANEATC = RANEATC()  # strain energy

Example #2

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File: op2_results.py Project: zhenhaochu/pyNastran

    def __init__(self):
        self.eqexin = None
        self.gpdt = None
        self.bgpdt = None
        self.cddata = []
        self.monitor1 = None
        self.monitor3 = None
        self.responses = Responses()

        self.separation_initial = {}
        self.separation_final = {}

        self.psds = PSDObjects()
        self.ato = AutoCorrelationObjects()
        self.psd = PowerSpectralDensityObjects()
        self.rms = RootMeansSquareObjects()
        self.no = NumberOfCrossingsObjects()
        self.crm = CumulativeRootMeansSquareObjects()

        self.acoustic = Acoustic()
        self.modal_contribution = ModalContribution()
        self.solution_set = SolutionSet()
        self.strength_ratio = StrengthRatio()
        self.failure_indices = FailureIndices()
        self.force = Force()
        self.thermal_load = ThermalLoad()
        self.stress = Stress()
        self.strain = Strain()
        self.strain_energy = StrainEnergy()
        self.ROUGV1 = ROUGV1()   # relative disp/vel/acc/eigenvectors

        self.RADEFFM = RADEFFM() # eigenvectors

        self.RADCONS = RADCONS() # eigenvectors
        self.RAFCONS = RAFCONS() # force
        self.RASCONS = RASCONS() # stress
        self.RAECONS = RAECONS() # strain
        self.RAGCONS = RAGCONS() # grid point forces
        self.RAPCONS = RAPCONS() # composite stress
        self.RANCONS = RANCONS() # strain energy

        self.RADEATC = RADEATC() # eigenvectors
        self.RAFEATC = RAFEATC() # force
        self.RASEATC = RASEATC() # stress
        self.RAEEATC = RAEEATC() # strain
        self.RAGEATC = RAGEATC() # grid point forces
        self.RAPEATC = RAPEATC() # composite stress
        self.RANEATC = RANEATC() # strain energy