示例#1
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    def test_fan_out_serial_sets(self):

        prob = Problem(impl=impl)
        prob.root = FanOutGrouped()
        prob.root.ln_solver = LinearGaussSeidel()
        prob.root.sub.ln_solver = LinearGaussSeidel()

        # Parallel Groups
        prob.driver.add_param('p.x')
        prob.driver.add_constraint('c2.y')
        prob.driver.add_constraint('c3.y')

        prob.setup(check=False)
        prob.run()

        unknown_list = ['c2.y', 'c3.y']
        param_list = ['p.x']

        J = prob.calc_gradient(param_list,
                               unknown_list,
                               mode='fwd',
                               return_format='dict')
        assert_rel_error(self, J['c2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['c3.y']['p.x'][0][0], 15.0, 1e-6)

        J = prob.calc_gradient(param_list,
                               unknown_list,
                               mode='rev',
                               return_format='dict')
        assert_rel_error(self, J['c2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['c3.y']['p.x'][0][0], 15.0, 1e-6)
示例#2
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    def test_fan_out_grouped_GS_GS(self):

        prob = Problem()
        prob.root = FanOutGrouped()
        prob.root.ln_solver = LinearGaussSeidel()
        prob.root.sub.ln_solver = LinearGaussSeidel()
        prob.setup(check=False)
        prob.run()

        indep_list = ['p.x']
        unknown_list = ['sub.comp2.y', "sub.comp3.y"]

        J = prob.calc_gradient(indep_list,
                               unknown_list,
                               mode='fwd',
                               return_format='dict')
        assert_rel_error(self, J['sub.comp2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['sub.comp3.y']['p.x'][0][0], 15.0, 1e-6)

        J = prob.calc_gradient(indep_list,
                               unknown_list,
                               mode='rev',
                               return_format='dict')
        assert_rel_error(self, J['sub.comp2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['sub.comp3.y']['p.x'][0][0], 15.0, 1e-6)
示例#3
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    def test_fan_out_serial_sets_fwd(self):

        prob = Problem(impl=impl)
        prob.root = FanOutGrouped()
        prob.root.ln_solver = LinearGaussSeidel()
        prob.root.sub.ln_solver = LinearGaussSeidel()

        prob.root.ln_solver.options['mode'] = 'fwd'
        prob.root.sub.ln_solver.options['mode'] = 'fwd'

        prob.driver.add_desvar('p.x')
        prob.driver.add_constraint('c2.y', upper=0.0)
        prob.driver.add_constraint('c3.y', upper=0.0)

        prob.setup(check=False)
        prob.run()

        unknown_list = ['c2.y', 'c3.y']
        indep_list = ['p.x']

        J = prob.calc_gradient(indep_list,
                               unknown_list,
                               mode='fwd',
                               return_format='dict')
        assert_rel_error(self, J['c2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['c3.y']['p.x'][0][0], 15.0, 1e-6)
示例#4
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    def test_fan_out_parallel_sets_fwd(self):

        prob = Problem(impl=impl)
        prob.root = FanOutGrouped()
        prob.root.ln_solver = LinearGaussSeidel()
        prob.root.sub.ln_solver = LinearGaussSeidel()

        prob.root.ln_solver.options['mode'] = 'fwd'
        prob.root.sub.ln_solver.options['mode'] = 'fwd'

        prob.driver.add_desvar('p.x')
        prob.driver.add_constraint('c2.y', upper=0.0)
        prob.driver.add_constraint('c3.y', upper=0.0)
        prob.driver.parallel_derivs(['c2.y', 'c3.y'])  # ignored in fwd

        if MPI:
            expected = [('c2.y', 'c3.y')]
        else:
            expected = [('c2.y', ), ('c3.y', )]

        self.assertEqual(prob.driver.outputs_of_interest(), expected)

        prob.setup(check=False)
        prob.run()

        unknown_list = ['c2.y', 'c3.y']
        indep_list = ['p.x']

        J = prob.calc_gradient(indep_list,
                               unknown_list,
                               mode='fwd',
                               return_format='dict')
        assert_rel_error(self, J['c2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['c3.y']['p.x'][0][0], 15.0, 1e-6)
示例#5
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    def test_fan_out_grouped(self):

        prob = Problem()
        prob.root = FanOutGrouped()
        prob.root.ln_solver = DirectSolver()
        prob.root.ln_solver.options['jacobian_method'] = 'assemble'
        prob.setup(check=False)
        prob.run()

        indep_list = ['p.x']
        unknown_list = ['sub.comp2.y', "sub.comp3.y"]

        J = prob.calc_gradient(indep_list, unknown_list, mode='fwd', return_format='dict')
        assert_rel_error(self, J['sub.comp2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['sub.comp3.y']['p.x'][0][0], 15.0, 1e-6)

        J = prob.calc_gradient(indep_list, unknown_list, mode='rev', return_format='dict')
        assert_rel_error(self, J['sub.comp2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['sub.comp3.y']['p.x'][0][0], 15.0, 1e-6)
示例#6
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    def test_fan_out_parallel_sets(self):

        prob = Problem(impl=impl)
        prob.root = FanOutGrouped()
        prob.root.ln_solver = LinearGaussSeidel()
        prob.root.sub.ln_solver = LinearGaussSeidel()

        # need to set mode to rev before setup. Otherwise the sub-vectors
        # for the parallel set vars won't get allocated.
        prob.root.ln_solver.options['mode'] = 'rev'
        prob.root.sub.ln_solver.options['mode'] = 'rev'

        # Parallel Groups
        prob.driver.add_param('p.x')
        prob.driver.add_constraint('c2.y')
        prob.driver.add_constraint('c3.y')
        prob.driver.parallel_derivs(['c2.y', 'c3.y'])

        self.assertEqual(prob.driver.outputs_of_interest(), [('c2.y', 'c3.y')])
        prob.setup(check=False)
        prob.run()

        unknown_list = ['c2.y', 'c3.y']
        param_list = ['p.x']

        J = prob.calc_gradient(param_list,
                               unknown_list,
                               mode='rev',
                               return_format='dict')
        assert_rel_error(self, J['c2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['c3.y']['p.x'][0][0], 15.0, 1e-6)

        J = prob.calc_gradient(param_list,
                               unknown_list,
                               mode='fwd',
                               return_format='dict')
        assert_rel_error(self, J['c2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['c3.y']['p.x'][0][0], 15.0, 1e-6)
示例#7
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    def test_fan_out_grouped(self):

        prob = Problem()
        prob.root = FanOutGrouped()
        prob.root.ln_solver = ExplicitSolver()
        prob.setup(check=False)
        prob.run()

        param_list = ['p.x']
        unknown_list = ['sub.comp2.y', "sub.comp3.y"]

        J = prob.calc_gradient(param_list,
                               unknown_list,
                               mode='fwd',
                               return_format='dict')
        assert_rel_error(self, J['sub.comp2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['sub.comp3.y']['p.x'][0][0], 15.0, 1e-6)

        J = prob.calc_gradient(param_list,
                               unknown_list,
                               mode='rev',
                               return_format='dict')
        assert_rel_error(self, J['sub.comp2.y']['p.x'][0][0], -6.0, 1e-6)
        assert_rel_error(self, J['sub.comp3.y']['p.x'][0][0], 15.0, 1e-6)