SU741258A1 - Information input arrangement - Google Patents

Description

The invention relates to computing and can be used in systems for collecting information.

Devices for coupling a computer with on-off sensors are known, comprising a pulse shaping unit, blocks. coding, pulse width transformation blocks, the OR element and the output register, designed to automatically collect and enter information into the computer from monitored objects 1..

The disadvantage of this device is the impossibility of storing and storing the incoming information from the sensors during the occupation of a computer, which increases the probability of its loss.

The closest to the invention to the technical essence is a device for inputting information, containing a buffer memory block, the first and second inputs of which are directly and via the address generation node connected to the input of messages of the device connected to the first input of the control unit,

(the second input of which is connected to the device request input, the information output of which is connected to the output of the buffer memory block, the queue state decryption node connected by the output to the third input of the control unit, and M message characteristic storage nodes, the first and second inputs of which are connected

10, respectively, to the output of the address generation unit and the sampling code of the control unit, the third input and the first output of the message storage node i-i are connected respectively to the i-th output of the control unit and the i-th input of the queue status decryption node. In addition, the device contains two groups of elements OR, connected by inputs

20 with the outputs of the corresponding elements I, and the outputs with the corresponding inputs of the decryption node of the queue G2

Disadvantages of the device - low

25 performance as a result of the need to rewrite message feature codes from previous message storage nodes to subsequent ones (queue shift) when sampling

of the next code and the greater likelihood of distortion of the code of the sign of the recorded message resulting from the repeated census of codes during the shift of the queue.

The purpose of the invention is to improve the speed of the device and the reliability of its operation.

The goal is achieved by the fact that two shift registers and two OR elements are entered into the device, the installation output of the control unit is connected to the installation input of the first shift register, the advance input of which through the second shift register is connected to the output of the first OR element, the output of the second OR element is connected to the third input of the buffer storage unit, the second and third outputs and the fourth input of the i-ro node of the message attribute storage are respectively connected to the i-th inputs of the first and second OR elements and the i-th output of the first Registers shift fifth input i-ro node signs the message store is connected to the first output of the i-1-th node storing message attributes, the fifth input. the first feature storage node

the message is connected to the first output of the Mth message storage node (, M). In addition, the message storage node contains a register and three AND elements, with the register input connected to the output of the first element. And the two inputs of which are respectively the first and third inputs of the node, the register output is connected to the first output of the node and the first input of the second element AND, the second and third inputs of which are the second and fourth inputs of the node respectively, the output of the second element AND is connected to the second output node and first VYH4 input of the third element AND, the second output and input of which are respectively the fifth input and the third output of the node.

The drawing shows the block diagram of the device.

The device contains a buffer memory 1, an address generation unit 2, a control unit 3, message feature storage units 4 including a message feature register 5. elements 6,7 and 8 AND, the node 9 decryption of the queue state, the input 10 of the device request, the information output 11 of the device, the first 12 and the third 13 elements OR, the registers 14 and the shift and input 16 messages of the device.

Registers 14 and 15 are annular shift registers. The register size 14 corresponds to the -size of each of the registers 5, the register 15 is equal to m, the number of nodes 4,

The device works as follows.

When a message arrives at input 16, node 2 generates the cell address code of the buffer unit 1 and the incoming message is recorded at this address. The received message is also entered in block 3, which, in accordance with the signal from node 9, fixes a signal on one of its inputs, allowing the entry of the address code (feature) of the incoming message to register 5 of the corresponding node 4 through elements 6, and block 3 introduces signs of incoming messages to registers 5 sequentially, starting with the last Mth node 4,

The reading of the message feature, which is first in the queue, is performed as follows.

The signal from the output of the first bit of register 15 is fed to the input of element 7 and the register of the 5th Mth node 4. When the service signal arrives at input 10 (the end of the service of the previous application), unit 3 loses the signal that goes to the inputs of the elements 7 AND By this signal, the element 7 of the M th node 4 opens and the address (feature) of the message, which is the first in the queue in register 5, through the second element 13 OR is rewritten into the buffer unit 1. At the same time in the register 5 of the M th node 4 decreases by one.

If the service rate of the DVR messages exceeds the arrival rate, the incoming signs are recorded only in register 5 of the last node 4, and the registers of the other nodes 4 are not filled. If the intensity of incoming messages exceeds the intensity of their curing, then the consecutive filling of the registers 5 of the remaining nodes 4 will begin, starting with the register of the node 4 having the number M-1.

Claims (2)

The first code is written to the register of the 5 M-1 node 4 at its output by the Wits signal arriving at the input of node 9 and to the input of element 8 AND M-1 of node 4. From this moment, when reading the first codes, messages from register 5 of this node 4 signal census message message through open element 8 and enters the input of register 14. when recording in the register 14 numbers equal to the capacity of register 5 (the number of recorded messages and. read from register 5 signs of messages), at its output by Wits overflow signal that enters the input of register 15 and produces in it a shift, as a result of which the message reading permission signal appears at the corresponding output of the register 15. With this signal, an element of the Ml-th node 4 is opened and the next characteristic codes are read from the register 5 of this node 4, and so on. The register of the 5th M-th node -4 with the message signs is now filled only after the register 5 of the first node 4 is filled up or with a queue (with all messages serviced), when block 3 sets register 15 to its initial state. Thus, due to the introduction of new elements and new logical connections, the sequential transfer of recorded indications of messages between registers 5, nodes 4 is eliminated, which increases the speed of the device and reduces the likelihood of distortion of the readable code of the message feature. Claim 1. Device for input of information containing buffer block Ps1m t the first and second inputs of which directly and through the address generation node are connected to the input of the device messages and to the first input of the control unit, the second input of which is connected to the input of the device request, information output device is connected to the output buffer. a memory unit, a decryption node of the queue, connected by an output to the third input of the control unit, and M nodes for storing the signs of co: sc, the first and second inputs of which are connected respectively to the output of the address generation node and the output, the selection of the control unit, the third input and the first output of the i-th message storage node is connected respectively to the i-th output of the recording of the control unit and the i-th input of the decryption node of the queue state, characterized in that, in order to improve the speed of the device, two the shift register and two OR elements, the installation output of the control unit is connected to the installation input of the first shift register, whose advance input is connected to the output of the first OR element through the second shift register, the output of the second OR element is connected to the third input of the buffer memory unit, the second and third the outputs and the fourth input of the i-ro storage node of the message attributes are respectively connected to the i-th inputs of the first and second OR elements and the i-th output of the first shift register, the fifth input of the i-.ro storage node of the message attributes connected to the first output of the i-1 th message storage node, the fifth input of the first message storage node is connected to the first output of the M-th message storage node (i 1, M). 2. The device according to claim 1, wherein the message storage node contains a register and three AND elements, the register input being connected to the output of the first AND element, the two inputs of which are respectively the first and third inputs of the node the output of the register is connected to the first output of the node and the first, the input of the second element And, the second and third inputs of which are respectively the third and fourth inputs of the node, the output of the second element And is connected to the second output of the node and the first input of the third element And, the second output and inputAre respectively the fifth entry and the third exit of the node. Sources of information taken into account during the examination 1. USSR author's certificate No. 483664, cl. G About F 3/00, 1973. 2. USSR author's certificate number 488201, cl. G 06 F 3/00, 1972 (prototype). 5B J