Over　the　past　many　years,　array　circuits,　as　an　important　part　of　electronic　systems,　show　a　wide　range　of　application　scenarios.　However,　the　pursuit　of　high-density　array　circuits　will　certainly　lead　to　a　steep　increase　in　the　area　of　the　array　driving　circuit.　In　this　article,　we　present　a　switching　array　circuit　with　an　artificial　neuron,　where　the　neuron　acts　as　a　discrete　control　center　for　the　array　circuit,　which　can　effectively　reduce　the　area　of　the　array　driving　circuit　by　75%.　In　this　work,　we　found　that　the　value　of　load　resistance　can　affect　the　switching　of　individual　devices　and　control　the　branch　threshold　voltage　range,　thus　affecting　the　information　processing　capability　of　the　branch.　This　new　paradigm　of　optimized　array　circuit　driving　strategy　can　be　used　to　tune　the　set　and　reset　threshold　voltage　of　neurons,　while　processing　and　outputting　information　by　using　this　type　of　configuration.　This　work　provides　a　potential　platform　for　promoting　the　development　of　electronic　devices　and　future　high-density　array　circuits.