Using the well mapped connectome of the nematode Caenorhabditis Elegans (C. Elegans) [1], I created a program that can be started three hundred and two times where each program inherits the attributes one of each of the worms 302 neurons and uses interprocess communications to connect the programs together in a manner similar to that of synaptic communication. Wrapping the entire connectome into a framework whereby sensory input can be derived from robotic sensors and directed to connectome sensory neurons, which in turn activates interneurons, which activate motor neurons, and muscle output can be accumulated to activate robotic motors, the simulated connectome and connectome framework allows for a biological simulation and study of the entire connectome from sensory input to muscular output.