SU693435A1 - Storage - Google Patents

Description

one

The invention relates to the field of automation and computer technology and is intended for the accumulation, storage and release of information in production recorders.

Devices for accumulating and delivering information based on an operating device (O-V) and a storage device are known. (Memory), in which / information is sequentially entered into the OS, and then after processing (e.g., addition) enters the memory and back ij.

The disadvantage of such devices is both their relative structural complexity and the increase in the duration of the information processing process.

The closest solution to the invention is a so-called sequential machine consisting of shift registers covered by each feedback performed on a modulo-2 adder, one of the inputs of which is connected to the last cell of the register, and the second input to one of its intermediate cells The memory used by such recurrent registers is most economical for production registrars characterized by a parallel input method of information with a simple summation of it for each input and a sequential method for outputting information for each register 2.

The main disadvantage of such a device is the complexity of the process of detriting all possible states of the recurses {of the Registers, since one time needs to identify a successive series of states of all its cells (the so-called recurrent sequence).

The purpose of the invention is to simplify the device.

Claims (2)

The goal is achieved by inserting into a sealing device containing. a control unit associated with the main and auxiliary bpocs in series; they are connected to the commutator, impulse generator, decoder counter, and AND-NOT element. Moreover, the output of the N – N element is connected to the first input of the control unit, the inputs of the N – I element are connected to ONE of the meter outputs, the other outputs of which are connected to. device outputs, the first inputs of the counter are connected to the first outputs of the control unit, the second inputs of the counter are connected to the output of the pulse generator, the input of the switch and the input of the secondary unit pa yty, the input of the pulse generator is connected to the second output of the control unit, the second input of which is connected to the output of the decoder, the input The decoder is connected to the outputs of the memory block. The drawing shows a block diagram of the device. The device contains a control unit 1, a MAIN 2 and an auxiliary 3 memory blocks, a switch 4, a generator of 5 pulses, a counter 6, a decoder 7 and an element 8 I.-NE. The main 2 auxiliary 3 memory blocks are executed on recurrent registers 9, covered by feedback through the sum of modulo 2 torus 10, one of whose inputs is connected directly to the output of register 9, and the other through two input gate 11 to the output of one of intermediate cells of register 9. Its number and register length are selected depending on the total amount of information received at the corresponding input of the device. The storage device operates as follows. In the initial position, the registers 9 and the counter b are in the zero state, i.e. There are no signals at the outputs of all their cells. When production information occurs, the inputs to the device and, accordingly, to the inputs of the recurrent registers 9 in the main memory block 2 receive pulses from a controlled recorder of equipment production (for example, corresponding to the output, time, etc.). The sums are ruled in registers 9 in the recurrent code due to the function of feedback iibix connections: on adders U modulo 2 and the on state of two input gates 11, due to the absence of a control signal at their second inputs. At the moment when the need arises to indicate the current state of one of the registers 9 in block 2, a command is received from the corresponding output of control block 1 to the second input of the two-input valve 11, producing a blocking ei; xi. A similar operation is performed with the register 9 and the two-way valve 11 in block -3. In this case, both registers 9 are each closed in a simple ring circuit, since the second entrances are de-energized from the second suture. Ditch 10. At the same time, on command from control unit 1, switch 4 connects the output of the generator 5 pulses to the clock input of the corresponding register 9 in block 2, the output of which is connected to the information input of its register 9 on the input of block 3. After these Connections, control block 1 supplies the permissive signal to the control input of the generator 5, from the output of which pulses begin to arrive at the clock inputs of the registers 9. Thus, the information recorded by B in the register 9 of block 2 is rewritten into the register 9 of block 3, . In this case, due to the presence of a ring connection, through the adder 10, the information is rewritten again into the register 9 of the block 2. The number of clock pulses from the generator 5 is controlled by the counter b. After counting the number of pulses equal to the number of register 9 cells, the corresponding signals from its bits go to the inputs of element 8, from the output of which the signal goes to the input of control unit 1, which, by removing the signal from the control input of generator 5, makes it stop It also unlocks two-input valves 11 via the corresponding inputs, sets counter 6 to the zero state and turns off the input and output of register 9 in block 2 from the generator 5 and register 9 in block 3. Thus, register 9 in block 2 is ready for receiving production information, as it returns to the state preceding the start of its interrogation. After performing this operation, the control unit 1 sets the counter 6 to the first output, the initial state, which corresponds to the number of the combination detected by the decoder 7, then by the control unit 1. the generator is switched on (at the control input) for the second time and a parallel counting of the impulses from its output is performed by the counter 6 and the register 9 in block 3. Moreover, c. In register 9, the counting is carried out in the forward direction, and in meter 6, in the opposite direction. When the reU-ister 9 reaches a predetermined state (nagfimer, simultaneous presence of 1 at the outputs of all its cells), the decoder 7 set to this state is activated and the signal from its output goes to the corresponding input of control unit 1, which, in turn, stops generator 5, A.d. outputs of counter 6, the signals appear in a decimal (or other) code corresponding to the number output at the time of the poll from register 9 in the block 2. The combination of signals received from the output of the device is intended for indication by flashing on the digital display panel or output to a printing device, input to the terminal equipment of the production recorder. On command from control unit 1, the register 9 in block 3 and counter 6 are then reset to the zero state by the corresponding inputs, which allows the auxiliary memory block 3, counter 6 and generator 5 to be used to indicate the status of the next register 9 in the main block 2 pa mi in the manner described above. The selection of the number of the next interrogated register 9 in block 2 and its interrogation can be carried out both manually and automatically according to the program. The counter can be executed in any number system (decimal, binary, etc.) 69. 6 similar to docking with .inikation devices. Due to such a construction, the device combines the functions of summation and storage of incoming information, as well as preparation for its output and indication without tyranny, which allows us to simplify the device and reduce it several times. items. Claims A memory device comprising a control unit associated with serially connected main and auxiliary memory blocks and a switch, characterized in that, in order to simplify the device, it contains a pulse generator, a counter, a dediftor and an element whose output is connected to the first input of the unit control, the inputs of the I-NE unit are connected to one of the outputs of the counter, the other outputs of which are connected to the outputs of the device, the first inputs of the counter are connected to the first outputs of the control unit, W in rye; moves counter connected to the output of the pulse generator, the switch entry and entry of the auxiliary memory unit, the pulse generator input coupled) to the second output of the control unit, a second input coupled to an output of the decoder, input deshi1 | Ator is connected to the outputs of the auxiliary memory block. Sources of information taken into account in the examination 1. For the FRG No. 2077507 class. Q11 From 7/00, published. 1971. 2, Samoilov LK, et al. Delayed information devices in discrete technology, M., Sov.radio, 1973, p. 232234, (prototype) .. I «« l fl- - s ieiaeasKB aMW IsYmAnrKiKfJc: in bf