Abstract: A switching network having a plurality of independent switching units with each switching unit switching one bit of each group of data from external data links through a telecommunication switching system. The plurality of switching units is greater than the number of bits that must be switched which increases reliability. This allows the extra switching units to be utilized as replacement switching units should a switching unit actively switching a bit of the incoming data be disabled. The switching units provide full broadcast switching of data from any individual external link to any number of the other external links. A plurality of port units terminate the external links, and a plurality of control paths are provide from a central controller to each of the port units. Each of the switching units communicated one of the control paths. For control, each port unit determines a set of control information that is identical from a majority of the control paths.

Abstract: An optical transmission system accomplishes optical transmission to a long distance by combining a multiplexing line terminal with optical amplifiers, linear repeaters, and regenerators with optical amplifiers combined together. The system also accomplishes the optical transmission to a short distance by directly connecting the linear terminals therebetween, with an electric-to-optic converter replaced by an electric-to-optic converter having a semiconductor amplifier, with an optic-to-electric converter by an optic-to-electric converter having an avalanche photodiode as light receiver, an with no use of any optical booster amplifier and optical preamplifier in the multiplexing line terminal. With these, the optical transmission system can be easily constructed depending on the transmission distance required.

Abstract: A generic network device for performing parallel or serial communications amongst multiple nodes over switching networks. An aspect is the adaptation of standard or proprietary serial interfaces using optical or electrical transmission to interface to the parallel switch. Converted serial data is routed to the selected destination through the parallel switch network. At the destination the data is converted back to a serial optical or electrical interface/protocol. Any number of different serial protocols can interface with the same parallel switch network allowing every node of the parallel system to send and receive messages in its native protocol. The switch enables generic networks forming a computer system with heterogeneous or homologous nodes.