Abstract: An expandable multiprocessor computer system is provided incorporating a master computer, control computers and servant computers housed in modular units. Servant computers of the super scalable multiprocessor system act as cells of a singular entity enhancing system performance over conventional individually networked computers. Application information is transported between servant computers by way of a standard ultra high speed primary network as opposed to a specialized ultra high speed back plane. The design of the primary network allows for parallel internal data transfer in single modules, and allows for parallel internal data transfer between multiple modules through the provision of control computers in each module. Administration information is transported between the master computer, control computers and servant computers by way of a secondary network.

Abstract: An expandable multiprocessor computer system is provided incorporating a master computer, control computers and servant computers housed in modular units. Servant computers of the super scalable multiprocessor system act as cells of a singular entity enhancing system performance over conventional individually networked computers. Application information is transported between servant computers by way of a standard ultra high speed primary network as opposed to a specialized ultra high speed back plane. The design of the primary network allows for parallel internal data transfer in single modules, and allows for parallel internal data transfer between multiple modules through the provision of control computers in each module. Administration information is transported between the master computer, control computers and servant computers by way of a secondary network.