示例#1
0
        def generate_matrix_elements(self):
            """Helper function to generate the matrix elements before exporting"""

            # Sort amplitudes according to number of diagrams,
            # to get most efficient multichannel output
            self._curr_amps.sort(lambda a1, a2: a2.get_number_of_diagrams() - \
                                 a1.get_number_of_diagrams())

            cpu_time1 = time.time()
            ndiags = 0
            if not self._curr_matrix_elements.get_matrix_elements():
                self._curr_matrix_elements = \
                    loop_helas_objects.LoopHelasProcess(self._curr_amps,
                    optimized_output = self.options['loop_optimized_output'])
                ndiags = sum([len(me.get('diagrams')) for \
                              me in self._curr_matrix_elements.\
                              get_matrix_elements()])
                # assign a unique id number to all process
                uid = 0
                for me in self._curr_matrix_elements.get_matrix_elements():
                    uid += 1  # update the identification number
                    me.get('processes')[0].set('uid', uid)

            cpu_time2 = time.time()
            return ndiags, cpu_time2 - cpu_time1
示例#2
0
            'structure_repository')
        for pos in pos_list:
            diag_content[gen_line][pos] = amplitude.get('diagrams')[pos]

    # register the full amplitutde
    process_diag = {}
    process_diag['g g > g g'] = list(range(200, 230))  #[0, 12]
    process_diag['d d~ > e+ e- mu+ mu-'] = list(range(72))
    cmd = MasterCmd()
    cmd.do_import('model %s' % model_path)
    # Create the diagrams
    for gen_line, pos_list in process_diag.items():
        print(gen_line, ':', end=' ')
        gen_line_with_order = gen_line + ' [virt=QCD]'
        cmd.do_generate(gen_line_with_order)
        #Look for decay chains
        amplitude = cmd._curr_amps[0]
        print(len(amplitude.get('diagrams')))
        matrix_elements = loop_helas_objects.LoopHelasProcess(cmd._curr_amps)
        matrix_element = matrix_elements.get('matrix_elements')[0]
        diag = matrix_element.get_base_amplitude().get('diagrams')
        diag_content['FULL %s' % gen_line] = {}
        for pos in pos_list:
            diag_content['FULL %s' % gen_line][pos] = diag[pos]

    # Store the diagrams
    file_test_diagram = open(os.path.join(_file_path , \
                                    '../../input_files/test_draw_nlo.obj'), 'w')
    pickle.dump(diag_content, file_test_diagram)
    print('done')