Exemplo n.º 1
0
def prepare_singleQuad_xml_files(type_name, type_setting, modules=modulelist):
    for module in modules:
        xmlfilename = os.path.join(
            xmlfolder, 'CMSIT_singleQuad_%s_%s.xml' % (module, type_name))
        xmlobject = XMLInfo(xmlfilename)
        for setting in daqsettings_per_xmltype[type_setting]:
            xmlobject.set_daq_settings(
                setting, daqsettings_per_xmltype[type_setting][setting])
        for chip in chiplist:
            xmlobject.set_chip_attribute_by_moduleid(1, chip, 'Lane', str(
                chip))  # the lane corresponds to the chip ID on the single AB
            xmlobject.set_chip_attribute_by_moduleid(
                1, chip, 'configfile',
                'CMSIT_RD53_%s_chip%i_default.txt' % (module, chip))

        chip_settings_thismodule = chip_settings[module]
        keepchips = []
        for chip in chip_settings_thismodule:
            settings = chip_settings_thismodule[chip]
            for setting in settings:
                xmlobject.set_chip_setting_by_modulename(
                    module, chip, setting, settings[setting])
        xmlobject.keep_only_chips_by_modulename(
            module, chip_settings_thismodule.keys())
        xmlobject.save_xml_as(xmlfilename)
Exemplo n.º 2
0
def reset_singleQuad_xml_files(type, modules=modulelist, chips=chiplist):
    xmlobject = XMLInfo(xmlfile_blueprint)
    xmlobject.set_module_attribute_by_moduleid(0, 'Id', 1)
    xmlobject.set_txtfilepath_by_moduleid(1, txtfolder)
    for chip in chiplist:
        if chip == 0: continue
        xmlobject.copy_chip_by_moduleid(1, 0, chip)
    for module in modules:
        targetname = os.path.join(
            xmlfolder, 'CMSIT_singleQuad_%s_%s.xml' % (module, type))
        xmlobject.save_xml_as(targetname)
Exemplo n.º 3
0
def reset_and_prepare_Ring_xml_file(type_name, type_setting,
                                    ids_and_chips_per_module, ring):

    xmlobject = XMLInfo(xmlfile_blueprint)

    for setting in daqsettings_per_xmltype[type_setting]:
        xmlobject.set_daq_settings(
            setting, daqsettings_per_xmltype[type_setting][setting])

    # set up all modules
    moduleids = []
    for mod in ids_and_chips_per_module:
        moduleids.append(ids_and_chips_per_module[mod][0])
    for id in moduleids:
        if not id == 0: xmlobject.copy_module_by_moduleid(0, id)
        xmlobject.set_txtfilepath_by_moduleid(id, txtfolder)

    xmlobject.keep_only_modules_by_moduleid(moduleids)

    # set up chips per module
    for module in ids_and_chips_per_module:
        id = ids_and_chips_per_module[module][0]
        chips = ids_and_chips_per_module[module][1]

        # first create all chips, then delete the unwanted ones
        for chip in [0, 1, 2, 3]:
            if not chip == 0:
                xmlobject.copy_chip_by_moduleid(id, 0, chip)
            if ring == 'R1':
                xmlobject.set_chip_attribute_by_moduleid(
                    id, chip, 'Lane', str(chip))
            elif ring == 'R3':
                xmlobject.set_chip_attribute_by_moduleid(
                    id, chip, 'Lane', str(0))
            else:
                raise AttributeError('invalid ring specified: %s' %
                                     (str(ring)))
            xmlobject.set_chip_attribute_by_moduleid(
                id, chip, 'configfile',
                'CMSIT_RD53_%s_chip%i_default.txt' % (module, chip))
            chip_settings = get_chipsettings_from_json()
            if str(chip) in chip_settings[module]:
                settings = chip_settings[module][str(chip)]
                for setting in settings:
                    xmlobject.set_chip_setting_by_modulename(
                        module, chip, setting, settings[setting])
        xmlobject.keep_only_chips_by_moduleid(id, chips)

    targetname = os.path.join(xmlfolder,
                              'CMSIT_disk%s_%s.xml' % (str(ring), type_name))
    xmlobject.save_xml_as(targetname)
Exemplo n.º 4
0
def run_ber_scan(modules,
                 chips_per_module,
                 ring,
                 positions,
                 tap_settings=[],
                 mode='time',
                 value=10):

    # first, enable TAP1, TAP2

    for moduleidx, module in enumerate(modules):
        for chip in chips_per_module[module]:

            if ring == 'singleQuad':
                if not len(modules) == 1:
                    raise AttributeError(
                        'Trying to run BER in singleQuad mode with mode than one module'
                    )
                module = modules[0]
                xmlfile_for_ber = os.path.join(
                    xmlfolder, 'CMSIT_%s_%s_%s.xml' % (ring, module, 'ber'))
                reset_singleQuad_xml_files(type='ber',
                                           modules=modules,
                                           chips=chips)
                prepare_singleQuad_xml_files(type_name='ber',
                                             type_setting='scurve',
                                             modules=modules)
            elif ring == 'R1':
                xmlfile_for_ber = os.path.join(
                    xmlfolder, 'CMSIT_disk%s_%s.xml' % (ring, 'ber'))
                reset_and_prepare_Ring_xml_file('ber', 'scurve',
                                                ids_and_chips_per_module_R1,
                                                ring)
            elif ring == 'R3':
                xmlfile_for_ber = os.path.join(
                    xmlfolder, 'CMSIT_disk%s_%s.xml' % (ring, 'ber'))
            xmlobject = XMLInfo(xmlfile_for_ber)
            print module, chip
            xmlobject.keep_only_modules_by_modulename([module])
            xmlobject.keep_only_chips_by_modulename(module, [chip])
            xmlobject.set_chip_setting_by_modulename(module, chip,
                                                     'CML_CONFIG', '127')

            # now, in a loop, set TAP values to scan through
            for tap0, tap1, tap2 in tap_settings:
                print(tap0, tap1, tap2)
                xmlobject.set_chip_setting_by_modulename(
                    module, chip, 'CML_TAP0_BIAS', str(tap0))
                xmlobject.set_chip_setting_by_modulename(
                    module, chip, 'CML_TAP1_BIAS', str(tap1))
                xmlobject.set_chip_setting_by_modulename(
                    module, chip, 'CML_TAP2_BIAS', str(tap2))
                xmlobject.save_xml_as(xmlfile_for_ber)

                # assemble the OS command
                if mode is 'time': tuningstepname = 'prbstime'
                elif mode is 'frames': tuningstepname = 'prbsframes'
                else:
                    raise AttributeError(
                        'Function \'run_ber_scan()\' received invalid argument for \'mode\': %s. Must be \'time\' or \'frames\''
                        % mode)
                command_p = 'CMSITminiDAQ -f %s p' % (xmlfile_for_ber)
                command_ber = 'CMSITminiDAQ -f %s -c %s %i BE-FE 2>&1 | tee %s' % (
                    xmlfile_for_ber, tuningstepname, value,
                    os.path.join(
                        logfolder, 'ber_%s_%s_chip%i_pos%s_%i_%i_%i.log' %
                        (ring, module, chip, str(
                            positions[moduleidx]), tap0, tap1, tap2)))

                # execute the OS command
                print(command_p)
                os.system(command_p)
                time.sleep(1)
                print(command_ber)
                os.system(command_ber)
                time.sleep(2)