Computer networking system including central chassis with processor and input/output modules, remote transceivers, and communication links between the transceivers and input/output modules
First Claim
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1. A computer networking system comprising:
- a) a chassis positioned at a central location and adapted to receive a plurality of electronic modules, said chassis including a backplane formed of a plurality of electronic module receiving slots each including a plurality of conductive contacts and electrical connections between associated conductive contacts in each slot, with the electrical connections in the backplane including a plurality of data lines and at least one processor network line;
b) at least two processor modules attached to said chassis and connected to the conductive contacts in separate of the backplane slots, with said processor modules each including at least one computer processor, at least one backplane interface between the computer processor and the backplane data lines, and a network interface/controller connected between the computer processor and the processor network line in the backplane, with the computer processor including means for receiving uplink data streams from certain of the backplane data lines through the backplane interface and means for generating downlink data streams and downlink video data streams which are supplied to other of the backplane data lines through the backplane interface;
c) at least one I/O module attached to said chassis and connected to the conductive contacts in another of the backplane slots, with said I/O module including a plurality of channel interfaces, means for determining if a processor module backplane interface is available, and means for selectively connecting a particular channel interface to the backplane data lines associated with an available processor module backplane interface and directing downlink data streams, downlink video data streams and uplink data streams between a processor module and a particular I/O module channel interface through data paths over the selected backplane data lines;
d) a plurality of transceivers positioned at various locations remote from said chassis, with each transceiver including a plurality of I/O ports adapted to be connected to various peripheral devices, and including at least a keyboard port and a video monitor port, with each transceiver including means for directing a downlink video data stream from an I/O connection in the transceiver to the monitor port, and means for directing downlink data and uplink data streams between the transceiver I/O connection and appropriate of the I/O ports in the transceiver; and
e) communication links extending from the I/O connection of each transceiver to a unique channel interface in the I/O module for transmitting said uplink data, downlink data and downlink video data streams between the I/O module and the transceivers, with the downlink video data streams each including certain signals developed by a processor module for generating screen displays in a video monitor, with said downlink data streams each including certain signals developed by a processor module for the various I/O ports of a transceiver other than the signals in the downlink video data streams, with the uplink data streams each including the incoming signals developed by peripheral devices connected to a transceiver, with the I/O module including means for maintaining the selected data paths over the backplane from an active transceiver to an available processor module backplane interface and for closing the selected data paths when the transceiver becomes inactive, and with the sole computer processing capability of said system located in said chassis.
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Abstract
A computer networking system includes a plurality of computer processing modules and at least one I/O module connected together through a backplane in a chassis at a central location. Users at variou remote locations connect at least a keyboard and a monitor to a transceiver unit. A data communication link is established between each transceiver and a unit interface on an I/O module. Data flow between the processor modules and the transceivers, as well as an allocation of processing module resources, are controlled by the I/O modules. The processor modules are connected together through at least one high speed network bus in the backplane.
135 Citations
20 Claims
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1. A computer networking system comprising:
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a) a chassis positioned at a central location and adapted to receive a plurality of electronic modules, said chassis including a backplane formed of a plurality of electronic module receiving slots each including a plurality of conductive contacts and electrical connections between associated conductive contacts in each slot, with the electrical connections in the backplane including a plurality of data lines and at least one processor network line; b) at least two processor modules attached to said chassis and connected to the conductive contacts in separate of the backplane slots, with said processor modules each including at least one computer processor, at least one backplane interface between the computer processor and the backplane data lines, and a network interface/controller connected between the computer processor and the processor network line in the backplane, with the computer processor including means for receiving uplink data streams from certain of the backplane data lines through the backplane interface and means for generating downlink data streams and downlink video data streams which are supplied to other of the backplane data lines through the backplane interface; c) at least one I/O module attached to said chassis and connected to the conductive contacts in another of the backplane slots, with said I/O module including a plurality of channel interfaces, means for determining if a processor module backplane interface is available, and means for selectively connecting a particular channel interface to the backplane data lines associated with an available processor module backplane interface and directing downlink data streams, downlink video data streams and uplink data streams between a processor module and a particular I/O module channel interface through data paths over the selected backplane data lines; d) a plurality of transceivers positioned at various locations remote from said chassis, with each transceiver including a plurality of I/O ports adapted to be connected to various peripheral devices, and including at least a keyboard port and a video monitor port, with each transceiver including means for directing a downlink video data stream from an I/O connection in the transceiver to the monitor port, and means for directing downlink data and uplink data streams between the transceiver I/O connection and appropriate of the I/O ports in the transceiver; and e) communication links extending from the I/O connection of each transceiver to a unique channel interface in the I/O module for transmitting said uplink data, downlink data and downlink video data streams between the I/O module and the transceivers, with the downlink video data streams each including certain signals developed by a processor module for generating screen displays in a video monitor, with said downlink data streams each including certain signals developed by a processor module for the various I/O ports of a transceiver other than the signals in the downlink video data streams, with the uplink data streams each including the incoming signals developed by peripheral devices connected to a transceiver, with the I/O module including means for maintaining the selected data paths over the backplane from an active transceiver to an available processor module backplane interface and for closing the selected data paths when the transceiver becomes inactive, and with the sole computer processing capability of said system located in said chassis. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. A computer networking system comprising:
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a) a chassis positioned at a central location and adapted to receive a plurality of electronic modules, said chassis including a backplane formed of a plurality of electronic module receiving slots each including a plurality of conductive contacts and electrical connections between associated conductive contacts in each slot, with the electrical connections in the backplane including a plurality of data lines and at least one processor network line; b) at least two processor modules attached to said chassis and connected to the conductive contacts in separate of the backplane slots, with said processor modules each including at least one computer processor, a plurality of backplane interfaces between the computer processor and the backplane data lines, and a network interface/controller connected between the computer processor and the processor network line in the backplane, with the computer processor including means for receiving uplink data streams from certain of the backplane data lines through the backplane interfaces and means for generating downlink data streams and downlink video data streams which are supplied to other of the backplane data lines through the backplane interface; c) at least one I/O module attached to said chassis and connected to the conductive contacts in another of the backplane slots, with said I/O module including a plurality of channel interfaces, means for determining if processor module backplane interfaces are available, and means for selectively connecting a particular channel interface to the backplane data lines associated with an available processor module backplane interface and directing downlink data streams, downlink video data streams and uplink data streams between a processor module backplane interface and a particular I/O module channel interface through data paths over the selected backplane data lines; d) a plurality of transceivers positioned at various locations remote from said chassis, with each transceiver including a plurality of I/O ports adapted to be connected to various peripheral devices, and including at least a keyboard port and a video monitor port, with each transceiver including means for directing a downlink video data stream from an I/O connection in the transceiver to the monitor port, and means for directing downlink data and uplink data streams between the transceiver I/O connection and appropriate of the I/O ports in the transceiver; and e) communication links extending from the I/O connection of each transceiver to a unique channel interface in the I/O module for transmitting said uplink data, downlink data and downlink video data streams between the I/O module and the transceivers, with the downlink video data streams each including certain signals developed by a processor module for generating screen displays in a video monitor, with said downlink data streams each including certain signals developed by a processor module for the various I/O ports of a transceiver other than the signals in the downlink video data streams, with the uplink data streams each including the incoming signals developed by peripheral devices connected to a transceiver, with the I/O module including means for maintaining the selected data paths over the backplane from an active transceiver to an available processor module backplane interface and for closing the selected data paths when the transceiver becomes inactive, and with the sole computer processing capability of said system located in said chassis, wherein the downlink video data stream is an encoded, multiplexed serial data stream carried over a video data communication link between a transceiver I/O connection and an I/O module channel interface, and wherein the uplink data and downlink data streams are each encoded, multiplexed serial data streams carried over a shared data communication link between a transceiver I/O connection and an I/O module channel interface.
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19. A computer networking system comprising:
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a) a chassis positioned at a central location and adapted to receive a plurality of electronic modules, said chassis including a backplane formed of a plurality of electronic module receiving slots each including a plurality of conductive contacts and electrical connections between associated conductive contacts in each slot, with the electrical connections in the backplane including a plurality of data lines, at least one processor network line and at least one I/O module network line; b) a plurality of processor modules attached to said chassis and connected to the conductive contacts in separate of the backplane slots, with said processor modules each including at least one computer processor, at least one backplane interface between the computer processor and the backplane data lines, and a network interface/controller connected between the computer processor and the processor network line in the backplane, with the computer processor including means for receiving uplink data streams from certain of the backplane data lines through the backplane interface and means for generating downlink data streams and downlink video data streams which are supplied to other of the backplane data lines through the backplane interface; c) a plurality of I/O modules attached to said chassis and connected to the conductive contacts in separate of the backplane slots, with said I/O modules each including a plurality of channel interfaces, means for determining if a processor module backplane interface is available, a network interface/controller connected between the I/O module and the I/O module network line, and means for selectively connecting a particular channel interface to the backplane data lines associated with an available processor module backplane interface and directing downlink data streams, downlink video data streams and uplink data streams between a processor module and a particular I/O module channel interface through data paths over the selected backplane data lines, with each I/O module having access to all backplane interfaces in all processor modules attached to said chassis; d) a plurality of transceivers positioned at various locations remote from said chassis, with each transceiver including a plurality of I/O ports adapted to be connected to various peripheral devices, and including at least a keyboard port and a video monitor port, with each transceiver including means for directing a downlink video data stream from an I/O connection in the transceiver to the monitor port, and means for directing downlink data and uplink data streams between the transceiver I/O connection and appropriate of the I/O ports in the transceiver; and e) communication links extending from the I/O connection of each transceiver to a unique channel interface in an I/O module for transmitting said uplink data, downlink data and downlink video data streams between the I/O modules and the transceivers, with the downlink video data streams each including certain signals developed by a processor module for generating screen displays in a video monitor, with said downlink data streams each including certain signals developed by a processor module for the various I/O ports of a transceiver other than the signals in the downlink video data streams, with the uplink data streams each including the incoming signals developed by peripheral devices connected to a transceiver, with the I/O modules each including means for maintaining the selected data paths over the backplane from an active transceiver to an available processor module backplane interface and for closing the selected data paths when the transceiver becomes inactive, and with the sole computer processing capability of said system located in said chassis, wherein the downlink video data stream is an encoded, multiplexed serial data stream carried over a video data communication link between a transceiver I/O connection and an I/O module channel interface, and wherein the uplink data and downlink data streams are each encoded, multiplexed serial data streams carried over a shared data communication link between a transceiver I/O connection and an I/O module channel interface. - View Dependent Claims (20)
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Specification