The limbic system is essentially the most interesting and comprehensively the most misunderstood portion of the quantum computational system. The limbic system has a giant task to accomplish and very little required space to accomplish it. Instead of the size of the system being dependent on the input pathways the limbic system's size is dependent on the output pathways. The motion or muscle motivation process. In the quantum computational system there are two separate power sources. The first is a low power source for computational protocol and the second is a higher power source for motion and muscle motivation as well as functioning of the internal clocking procedure. In the living brain the second higher power source also provides the food' or energy for the functioning of the neurons and brain system parts but in the quantum computational system the processors (the transistor neurons) do not require food' or outside power to continue to exist. No where in a living organism nor in the quantum computational system do the power sources connect directly. But they do connect indirectly in the limbic system. Referring to figure 12 it will be observed that the brain's power source is applied to the capacitor which represents the value assign to the output's intended muscle or robotic motion device indicating an at rest' value. That value applied to the muscle or robotic device gives it a signal pathway but does not activate it. Signals from the brain's computational process are applied for comparison to the established at rest' value. The result is higher than the at rest' value and essentially results in a don't rest' value applied to the next neuron. The next neuron then compares the brain's don't rest' signal to the body's power source and the result is a signal sent to the nerve output or muscle group or robotic device that established a variable level of motion based on a don't rest' principal. So essentially when we say to exert our muscles we are actually telling the muscle how much NOT to rest. An upside down observation. With many various computational outputs filtering into the same limbic system it should be understood that the limbic circuit is dependent on the amount of receptor pathways feeding it but it's output is dependent upon the amount of muscle or robotic motivation devices it feeds. The limbic system completes the conversion from computational mental' values to statement based motivational values using an extra step in the processing that is similar to the EVR receptor design. When the brain's biological connection to the limbic system is faulty a lower amount of don't rest' signals are sent to the motivation groups and partial to complete paralysis is observed. When the established at rest' biological connection to the limbic system is faulty don't rest' signals will outpace rest' established values and everything from muscle twitches to total muscle spasms to limbs locked in a stuck contracted position will be observed.