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prevent the recirculation of messages. With AbNET, the performance of the proposed network would probably exceed that of a network that relies on a central unit to route messages. Communications would automatically be maintained in the remaining intact parts of the network even if fibers were broken. For the power system application, the advantages of optical-fiber communications include electrical isolation and immunity to electrical noise. The AbNET protocols augment these advantages by allowing an economical system to be built with topology-independent and fault-tolerant features.
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4.12 The Universal Memory Network
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The universal memory network (UMN) is a modular digital data communication system that enables computers with differing bus architectures to share 32-bit-wide data between locations up to 3 km apart with less than 1 ms of latency (Fig. 4.19). This network makes it possible to design sophisticated real-time and near-real-time data processing systems without the data transfer bottlenecks that now exist when computers use the usual communication protocols. This enterprise network permits the transmission of the volume of data equivalent to an average encyclopedia each second (40 Mb/s). Examples of facilities that can benefit from the universal memory network include telemetry stations, real-time-monitoring through laser sensors, simulation facilities, power plants, and large laboratories (e.g., particle accelerators), or any facility that shares very large volumes of data. The main hub of the universal memory network uses a reflection center a subsystem containing a central control processor (the reflection controller) and a data bus (the reflection bus) equipped with 16 dual memory parts. Various configurations of host computers, workstations, file servers, and small networks or subnetworks of computers can be interconnected by providing memory speed-bandwidth connectivity. The reflection center provides full duplex communication between the ports, thereby effectively combining all the memories in the network into dual-ported random-access memory. This dual-port characteristic eliminates the CPU overhead on each computer that is incurred with Ethernet. The reflection bus carries write transfers only and operates at a sustained data rate of 40 Mb/s. This does not include address, error correction, and coordination information, which makes actual universal memory network bus traffic approach 100 Mb/s. The universal memory network can be implemented in copper cables for distances up to 15 m and in fiber optics for distances up to 3 km. A combination of both for media can be used in the same network. Multiple reflection centers can be interconnected to obtain configurations requiring more ports.
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Reflction center Reflction controller (Central control processor) Reflection bus Port 0 Broadcast receiver Reflection transmitter Port 1 Broadcast receiver Reflection transmitter Port 2 Broadcast receiver Reflection transmitter Port 15 Broadcast receiver Reflection transmitter Broadcast transmitter Reflection receiver Broadcast transmitter Reflection receiver Broadcast transmitter Reflection receiver Broadcast transmitter Reflection receiver Memory, 1 to 4 MB Dual-port memory interface Data bus Memory, 1 to 4 MB Stand-alone memory interface, 32 bits wide Memory, 1 to 4 MB Stand-alone memory interface, 16 bits wide Memory, 1 to 4 MB Dual-port memory interface Interface Interface Data bus Interface Data bus Data bus
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FIGURE 4.19
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Universal memory network (UMN).
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In addition to the reflection center of the main hub, the universal memory network includes smaller subsystems called shared memory interfaces (SMIs), which make it possible for computers based on different bus architectures (e.g., SELBus, DEC BI, Multi Bus, and VME, or other selected buses) to communicate via the reflection bus. Each host computer is attached to the reflection center by a bus-interface circuit card, which translates the read and write transfers of the host computer to and from the reflection-bus standard. This translation centers around the ordering of bits and conversation used by various vendor architectures to a common strategy required by the 100-ns cycle time of the reflection bus. The standard memory interface enhances the modular nature of the network. It provides computer memory access to processors of lower cost and enables a large number of workstations to be supported from one reflection center. For example, one reflection center can support up to 12 SMI memory interfaces, each with the capacity to support between 8 and 16 workstations, depending on local hardware configurations. Multiple reflection centers can be interconnected to support even more workstations.
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