SuPy "setup own site" Tutorial Error

[divya42581]

I am getting an Error in the Check df_state step as -

2025-02-10 17:16:33,584 - SuPy - INFO - SuPy is validating df_state...
2025-02-10 17:16:33,949 - SuPy - ERROR - Issues found in df_state:
Mandatory parameters missing from rule file: {np.str_('hotwaterflowrate'), np.str_('internalmassconvectioncoefficient'), np.str_('windowinternalemissivity'), np.str_('dhwdrainflowrate'), np.str_('wallexternalemissivity'), np.str_('dhwvesselwallemissivity'), np.str_('metabolicrate'), np.str_('windowexternalemissivity'), np.str_('walleffectiveconductivity'), np.str_('internalmassdensity'), np.str_('wallabsorbtivity'), np.str_('dhwvesselwallthickness'), np.str_('heatingsetpointtemperature'), np.str_('externalwalldhwvesseltemperature'), np.str_('groundflooroutdoorsurfacetemperature'), np.str_('internalmassemissivity'), np.str_('latentsensibleratio'), np.str_('wallx1'), np.str_('groundfloordensity'), np.str_('wallreflectivity'), np.str_('indooraircp'), np.str_('footprintarea'), np.str_('grounddepth'), np.str_('windowoutdoorsurfacetemperature'), np.str_('groundflooreffectiveconductivity'), np.str_('hotwatertankwallconductivity'), np.str_('totalnumberofappliances'), np.str_('stebbsmethod'), np.str_('windowreflectivity'), np.str_('wallcp'), np.str_('floorthickness'), np.str_('domestichotwatertemperatureinuseinbuilding'), np.str_('floorinternalconvectioncoefficient'), np.str_('dhwvesselspecificheatcapacity'), np.str_('ventilationrate'), np.str_('occupants'), np.str_('wallexternalconvectioncoefficient'), np.str_('indoorairdensity'), np.str_('watertanksurfacearea'), np.str_('dhwwatervolume'), np.str_('mainswatertemperature'), np.str_('internalmasscp'), np.str_('dhwvesselemissivity'), np.str_('windowexternalconvectioncoefficient'), np.str_('windowdensity'), np.str_('maxheatingpower'), np.str_('dhwdensity'), np.str_('internalwalldhwvesseltemperature'), np.str_('wwr'), np.str_('dhwsurfacearea'), np.str_('windowindoorsurfacetemperature'), np.str_('hotwatertankbuildingwallviewfactor'), np.str_('windowthickness'), np.str_('walldensity'), np.str_('dhwvesselinternalwallconvectioncoefficient'), np.str_('wallthickness'), np.str_('coolingsetpointtemperature'), np.str_('ratiointernalvolume'), np.str_('minimumvolumeofdhwinuse'), np.str_('wallindoorsurfacetemperature'), np.str_('wallskyviewfactor'), np.str_('indoormassstarttemperature'), np.str_('hotwaterheatingsetpointtemperature'), np.str_('externalwallwatertanktemperature'), np.str_('wallinternalconvectioncoefficient'), np.str_('buildingcount'), np.str_('externalgroundconductivity'), np.str_('hotwaterheatingefficiency'), np.str_('indoorairstarttemperature'), np.str_('windowcp'), np.str_('wallinternalemissivity'), np.str_('windowtransmissivity'), np.str_('wallbuildingviewfactor'), np.str_('internalwallwatertanktemperature'), np.str_('dhwvesselexternalwallconvectioncoefficient'), np.str_('applianceusagefactor'), np.str_('watertankwatervolume'), np.str_('maximumhotwaterheatingpower'), np.str_('windowinternalconvectioncoefficient'), np.str_('wallgroundviewfactor'), np.str_('groundfloorcp'), np.str_('wallexternalarea'), np.str_('groundfloorindoorsurfacetemperature'), np.str_('dhwvesselwallconductivity'), np.str_('dhwspecificheatcapacity'), np.str_('hotwatertankinternalmassviewfactor'), np.str_('watertanktemperature'), np.str_('windoweffectiveconductivity'), np.str_('hotwatertankwallemissivity'), np.str_('hotwatertankinternalwallconvectioncoefficient'), np.str_('hotwatertankwalldensity'), np.str_('watertankwallthickness'), np.str_('heatingsystemefficiency'), np.str_('walltransmissivity'), np.str_('maxcoolingpower'), np.str_('walloutdoorsurfacetemperature'), np.str_('flag_test'), np.str_('coolingsystemcop'), np.str_('dhwvesseldensity'), np.str_('windowabsorbtivity'), np.str_('hotwatertankexternalwallconvectioncoefficient'), np.str_('appliancerating'), np.str_('stebbs_height'), np.str_('hotwatertankspecificheatcapacity')}
Columns not included in checking list: {'hotwaterflowrate', 'internalmassconvectioncoefficient', 'windowinternalemissivity', 'dhwdrainflowrate', 'wallexternalemissivity', 'dhwvesselwallemissivity', 'metabolicrate', 'windowexternalemissivity', 'walleffectiveconductivity', 'internalmassdensity', 'wallabsorbtivity', 'dhwvesselwallthickness', 'heatingsetpointtemperature', 'externalwalldhwvesseltemperature', 'groundflooroutdoorsurfacetemperature', 'internalmassemissivity', 'latentsensibleratio', 'wallx1', 'groundfloordensity', 'wallreflectivity', 'indooraircp', 'footprintarea', 'grounddepth', 'windowoutdoorsurfacetemperature', 'groundflooreffectiveconductivity', 'hotwatertankwallconductivity', 'totalnumberofappliances', 'stebbsmethod', 'windowreflectivity', 'wallcp', 'floorthickness', 'domestichotwatertemperatureinuseinbuilding', 'floorinternalconvectioncoefficient', 'dhwvesselspecificheatcapacity', 'ventilationrate', 'occupants', 'wallexternalconvectioncoefficient', 'indoorairdensity', 'watertanksurfacearea', 'dhwwatervolume', 'mainswatertemperature', 'internalmasscp', 'dhwvesselemissivity', 'windowexternalconvectioncoefficient', 'windowdensity', 'maxheatingpower', 'dhwdensity', 'internalwalldhwvesseltemperature', 'wwr', 'dhwsurfacearea', 'windowindoorsurfacetemperature', 'hotwatertankbuildingwallviewfactor', 'windowthickness', 'walldensity', 'dhwvesselinternalwallconvectioncoefficient', 'wallthickness', 'coolingsetpointtemperature', 'ratiointernalvolume', 'minimumvolumeofdhwinuse', 'wallindoorsurfacetemperature', 'wallskyviewfactor', 'indoormassstarttemperature', 'hotwaterheatingsetpointtemperature', 'externalwallwatertanktemperature', 'wallinternalconvectioncoefficient', 'buildingcount', 'externalgroundconductivity', 'hotwaterheatingefficiency', 'indoorairstarttemperature', 'windowcp', 'wallinternalemissivity', 'windowtransmissivity', 'wallbuildingviewfactor', 'internalwallwatertanktemperature', 'dhwvesselexternalwallconvectioncoefficient', 'applianceusagefactor', 'watertankwatervolume', 'maximumhotwaterheatingpower', 'windowinternalconvectioncoefficient', 'wallgroundviewfactor', 'groundfloorcp', 'wallexternalarea', 'groundfloorindoorsurfacetemperature', 'dhwvesselwallconductivity', 'dhwspecificheatcapacity', 'hotwatertankinternalmassviewfactor', 'watertanktemperature', 'windoweffectiveconductivity', 'hotwatertankwallemissivity', 'hotwatertankinternalwallconvectioncoefficient', 'hotwatertankwalldensity', 'watertankwallthickness', 'heatingsystemefficiency', 'walltransmissivity', 'maxcoolingpower', 'walloutdoorsurfacetemperature', 'coolingsystemcop', 'dhwvesseldensity', 'windowabsorbtivity', 'hotwatertankexternalwallconvectioncoefficient', 'appliancerating', 'stebbs_height', 'hotwatertankspecificheatcapacity'}
2025-02-10 17:16:33,957 - SuPy - INFO - Any issue detected will be fixed by filling dummy values: please check the results with caution!
2025-02-10 17:16:33,961 - SuPy - INFO - The df_state is up to date. No columns to be dropped.

And, in the run simulation step, the Error is

The Kernel crashed while executing code in the current cell or a previous cell.
Please review the code in the cell(s) to identify a possible cause of the failure.
Click here for more info.
View Jupyter log for further details.

I am trying to set up the model for an Indian city, but I need to understand the model simulations through the tutorials before that. However, I am facing issues as mentioned above. Any help would be greatly appreciated