SU661544A1 - Device for interfacing input-output channel with subscribers - Google Patents

Description

transmission of information from the channel to subscribers, a block of matching elements of control signals from subscribers, a block of matching elements of control signals to abots 1.. However, the known device does not allow subscribers to exchange information with a digital computational mask (DVM) operating in emulation mode, i.e., having different systems of commands and information presentation formats, which significantly limits the OPPORTUNITIES of organizations of various computations ;; Closest to the invention in technical essence and the achieved result is a device for interfacing an input / output channel with subscribers; containing the command block, the control block, the first input switch, the first input of which and the first inputs of the command block and the control block are connected to the first output of the channel matching unit, the data register whose input is connected to the output of the input switch, and the output to the input of the first switch data block matching with the subscriber, the first output of which is connected to the second input of the first input switch, the second output and the first input of the matching block with the subscriber and the second output and the first input of the block are matched channel, respectively connected with the first outlet and the inlet and to the second output and the input device, the second input, the first and second outputs of the control unit are respectively connected to output kozhayd unit, cd second block input matching with, the subscriber and to a third input of the first input switch. The drawback of the device is its considerable complexity, due to the large number of blocks for various purposes. The complexity and multiplicity of interrelations. The purpose of the invention is to simplify the device. The goal is achieved in that the device contains a format trigger, a second input switch, an address register, a second data switch, a first and second output switches, the output of the data register connected to the code input of the second data switch, the output connected to the first code input of the second output the switch, the output of the first data switch is connected to the code input of the first output switch, the output of which is connected to the second input of the channel matching unit, the output of the second input switch A torus is connected to a bit input of an address register whose output is connected to a second code input of a second output switch, whose output is connected to a third input of a matching unit with a subscriber, a first output of a format trigger is connected to a second input of a first data switch, and a fourth input of a first input switch and with the first input of the second input switch, the second input of which, the fifth input of the first input switch and the third input of the first data switch are connected to the second output of the format trigger, tert The eighth eighth outputs of the control unit are connected respectively to the format trigger input, to the control input of the first output switch, to the control input, ohm of the second data switch, to the control inputs of the second output switch and address register, to the third input of the second input switch, fourth input which is connected to the first output of the channel matching unit. The block diagram of the device shown in the drawing. The device for interfacing an I / O channel with subscribers comprises a block 1 of matching with channels., A block of commands 2, a control block 3, a trigger of format 4, a block 5 of matching with a subscriber, an address register 6, an input switch 7, a data register 8, an input switch 9, output switch 10, data switch 11, output switch 12, data switch 13, inputs 14, 15, outputs 16, 17. The channel matching unit 1 serves to match information and control signals and also performs the necessary control for communication with the DVR channel device. The command block 2 serves to decode the commands received from the digital computer and to store them and, in the course of command execution, the control unit 3 serves to control the reception and output of information, generates control signals for the device blocks. The trigger of format 4 serves for control of switches by. full exchange mode and with shortened format. The subscriber matching unit 5 serves as a block of matching the information and control signals between the interface device and the subscriber. Address register 6 and data register 8 are buffer registers and are used to record addresses and data when exchanging with different word formats. Address register 6 is a word current address counter. The input switches 7 and 9 are used to switch the words of the address, both full-length and abbreviated, depending on the state of the format player 4. The output switch 10 serves to sequentially output in block 5 three words of the address and one word of data. Data switch 11 serves to sequentially output data words for every three words of the address. The data switch 13 serves to form a full or abbreviated data format when transmitting them to the channel matching unit 1 via the output switch 12. The device operates as follows. The information between the DVR and the subscribers through the interface device can be carried out both by commands, from the DVR, and by the signal "Requirement of the subscriber. The format of the exchange information is specified. Digital computer The device works with two formats of information. In order to clarify the essence of the operation of the proposed device, we consider two basic modes of operation: “Recording and“ Reading initiated by the CEM for two information presentation formats (full and abbreviated formats). In the Recording mode, when a full-format digital computer is exchanged over information, the command is formatted as an information format, which via channel matching unit 1 goes to command block 2, where it is decoded, then goes to control unit 3, which sets the format 4 trigger to the corresponding state. A DVM similarly issues the Record command, which is decoded and remembered by the command register in command block 2 and transmitted to control unit 3, and transmitted through block 5 via the control panel to the subscriber to prepare for the exchange in the Zap mode. is The digital computer then sends three eight-bit words to the initial address of the subscriber's cell to which the data will be recorded, accompanied by their identification signals, Address on the control bus that goes to the control unit 3. When this is done, the address words in the 24-bit address register 6 through the input switch 7.. Passing three words of the address, the digital computer sequentially transmits three words of data across information wards, accompanied by their identification signals “Packages An incoming bus that goes to control unit 3. The data is sequentially written to data register 8 via input switch 9. This completes the process of writing the address and data to address register 6 and to data register 8, and the process of transferring the address and data to the subscriber begins in the following way . From the outputs of address register 6, the address of the cell goes to output switch 10, which also receives data from data register 8 through data switch 11. Control unit 3 generates three address output signals and one data output signal that goes to output switch 10, s the outputs of which, through block 5, successively transmit three eight-bit address words and one data word to the subscriber. Then, the control unit 3 issues a strobe to address register 6 and the address value is incremented by one, and the three words of the next subscriber's next address and the second data word are transferred from data register 8 via the data switch I, and from the control unit 3 to the switch Data 11 receives a control signal for issuing the second data word to the output switch. Switch 10. A third group of address and data is also transmitted in the same way. By transmitting three data words to the subscriber, the control unit 3 reports this to the digital computer, for which it receives the next three data words and so on until the data transfer is completed. In the "Record with reduced format" mode, for example, with a "hex" format, the exchange occurs in the same way, with the difference that the 4 format trigger is set to another state and other switching is performed in the input commutators 7 and 9, the number of transmitted words to be written in The address register of biv data register 8 is increased to four bits, and the subscriber is transmitted by three eight bits. In the "Read with full-format exchange" mode, the DVR transfers the initial address of the array, from which information is required to be read, in the same way as in the "Write." The subscriber, having received the “Read and Starting Address of the Array” command, performs a sequential sampling of data from the corresponding cells and sends them to the interface device for transmission to the DVR. The data from the subscriber is received by the information teams in eight-bit words through block 5 to the input switch 9, moreover, for every three words of the address transmitted to the subscriber, the latter responds with one data word. As soon as the third word of the subscriber is stored in data register 8, the control unit 3 outputs to the output switch 12 a series of control signals for sequentially transmitting three data words to the output switch 12 from the data register 8 via the data switch 13 to the matching unit 1 with the channel and - in the digital computer. The data is accompanied in the digital computer with identification signals. Similarly, the entire array of data is transferred. In the mode "Reading with abbreviated format, the address is transferred from the digital computer to the subscriber in the same way as in the mode" Writing with abbreviated format.