RU61901U1 - IMITATION-MODELING STAND OF THE AUTOMATED SYSTEM OF THE STATE POPULATION REGISTER - Google Patents

Abstract

The invention relates to computing, in particular, to a simulation-modeling stand of an automated system of the state population register. The technical result is to increase the speed of the stand by localizing the addresses of the requested identity data by the identifier of the permanent identity data and the identifier of the initial letters of the surname, name, middle name of the person. The technical result is achieved by the fact that the system comprises a unit for setting time parameters for requesting data, a unit for simulating the request for data of citizens, a unit for selecting addresses of permanent personal data, a unit for determining the depth of sampling of personal data, a unit for generating address signals for writing and reading, a unit for identifying personal data, a unit documenting data, a unit for receiving records of a system server database, a unit for switching data output channels. 10 ill.

Description

The invention relates to computing, in particular, to a simulation-modeling stand of an automated system of the state population register.

The automated system of the state population register (hereinafter - AS SRN) is a state interdepartmental system for the integration of basic information systems and resources, as well as the interaction of state authorities and local self-government, which are charged with collecting, storing and using personal information in accordance with federal laws on citizens of the Russian Federation and other persons permanently or temporarily residing in the territory of the Russian Federation, implemented using information and communication technology.

Currently, accounting for various categories of the country's population is carried out at the federal, regional and municipal levels independently by federal and regional authorities, as well as local authorities in the framework of solving the tasks assigned to them. The main means of collecting personal data is the registration procedure (registration) by the public authorities in accordance with the main provisions and requirements of the existing regulatory framework.

As part of the population registration, authorized authorities collect and store personal data, including information that ensures unambiguous identification of an individual, as well as information necessary for the implementation of specific functions assigned to these bodies.

In order to improve the quality of personal data used by authorities, as well as to ensure the efficiency of registration procedures, improve information support for the activities of authorities, increase the availability and convenience of public services, authorized authorities create and use automated information systems that provide for the collection, processing, storage and provision of personal information in electronic form, as well as maintaining registers (registers) of certain categories of population Nia and the formation of personal data files.

To ensure the interaction of departmental information systems with the automated monitoring system and to maximize the simplification of solving the problem of organizing such interaction

Use integration modules. The integration module is a software and hardware system that provides the possibility of such two-way interaction on the basis of open standards with the implementation of mechanisms for ensuring the correspondence of the identifier of personal data and intra-system identifiers of accounting of various categories of the population for already operating systems of accounting of categories of the population.

In this case, the identifier of personal data is non-replaceable throughout a person’s life and is assigned to personal data at the birth of a person, and during the transition period when citizens of Russia apply to authorities, to other persons if they obtain citizenship, or if they register at the place of stay in the territory Russia (taking into account the possibility of assigning an identifier for personal data at the time of crossing the state border of the Russian Federation).

The primary identification data used by the SRS includes the following information about the person:

- last name;

- name;

- patronymic;

- date of birth;

- Place of Birth;

- gender.

As the practical experience of creating a central database of the population register in Moscow shows, the use of these indicators allows you to uniquely identify 99.99% of the population.

Thus, the AS SRN, being integrated with existing information systems for population accounting, including information systems for the sources of origin and updating of primary identification data - internal affairs bodies and civil registration authorities, should operate in an automated mode and, first of all, provide the following basic functions:

- processing requests from information systems of civil registration authorities and internal affairs bodies containing PRIMARY IDENTIFICATION DATA OF PERSON, for assignment of PERMANENT DATA IDENTIFIER (IPD) to these data and its issuance,

- processing requests containing PERMANENT DATA IDENTIFIERS from automated information systems for population accounting and the issuance of their PRIMARY IDENTIFICATION DATA.

In this regard, the study of the probabilistic-temporal characteristics of the automated SRS system, which is capable of processing requests for obtaining data about citizens from the state population register in real time, is becoming especially acute.

You can get answers to such questions by creating a simulation-modeling stand, which in this case acts as a tool for modeling the corresponding operating modes of the SRS and measuring the temporal parameters of the system corresponding to these modes.

Known technical solutions that could be used to build a simulation-modeling stand (1, 2).

The first of the known technical solutions contains data reception and storage units connected to control and data processing units, search and selection units connected to data storage and display units, the synchronizing inputs of which are connected to the outputs of the control unit (1).

A significant drawback of this technical solution is the impossibility of constructing a model for updating data stored in memory in the form of relevant documents, simultaneously with solving the problem of delivering the contents of these documents to users in real time.

Another technical solution is known, which contains data processing units, the information inputs of which are connected to the data reception and control units, and the outputs are connected to the first group of memory units, the central processor, the inputs of which are connected to the outputs of the memory units of the first group and data processing units, and the outputs connected to the inputs of the memory blocks of the second group and data display blocks (2).

The last of the above technical solutions is closest to the described.

Its disadvantage lies in the low speed of the modeling stand, due to the fact that the query procedure is carried out by searching for records across the entire database and their subsequent processing by the central processor, which with large amounts of database data from the modeling complex will inevitably lead to a large investment of time.

The purpose of the invention is to increase the speed of the simulation-modeling stand by localizing the addresses of the requested personality data by the identifier of the initial letters of the surname, name, patronymic of the person.

This goal is achieved by the fact that in the simulation-modeling stand, containing the block for setting the time parameters for processing data requests, the control input of which is the control input of the stand, the block for receiving server database records, the information and synchronizing inputs of which are information and synchronizing inputs of the stand, while the information input of the server database record receiving unit is intended for receiving server database records, the synchronizing input of the server database record receiving unit is the rver is designed to receive synchronization signals for entering server database records into the server database records receiving unit, the unit for generating address write and read signals, the address output of which is the address output of the stand, intended for issuing write and read addresses to

the address input of the database server, the first and second synchronizing outputs of the unit for generating the address signals for writing and reading are the first and second synchronizing outputs of the stand, designed to issue control signals to the first and second channels of interruption of the database server, respectively, the switching unit of the data output channels, one information the input of which is connected to the first information output of the server database record receiving unit, the synchronizing input of the switching unit of the soy data output channels inen with a clocking output of the server database records receiving block, and the information outputs of the switching channel of the data output channels are the information outputs of the booth group, designed to send data to the automated workstations of the corresponding booth users, a simulation block of citizens data request flow has been introduced, the clock input of which is connected with the output of the block for setting temporary parameters for processing data requests, the first information output of the simulation block the outflow of citizens data requests is the first information output of the stand, and the second information output of the simulation model of the data requests stream of citizens is connected to one input of the data channel switching unit, the other information input of which is connected to the first information output of the server database record receiving unit, which is the second information the output of the stand, the selection block of the address of the permanent identity data, one and the other information

the inputs of which are connected to the third and fourth outputs of the unit for simulating the flow of requests for citizens 'data, the synchronizing input of the block for selecting the address of the permanent data of citizens, is connected to the synchronizing output of the block for simulating the flows of requests for citizens' data, the information output of the block for selecting the addresses of permanent personal data unit for generating address signals for writing and reading, and the first synchronizing output is connected to the first synchronizing at the input of the unit for generating address signals for writing and reading, the unit for determining the depth of sampling of personality data, the information input of which is connected to the fifth information output of the block for simulating the flow of requests for citizens' data, the synchronizing input of the unit for determining the depth of sampling of personal data is connected to the second synchronizing output of the constant address selection block personal data, and the information output of the unit for determining the depth of sampling of personal data is connected to the second information input the unit for generating address signals for writing and reading, the first, second and third synchronizing outputs of the unit for determining the depth of sampling of personality data are connected to the second, third and fourth synchronizing inputs for the unit for generating address signals for writing and reading, respectively, the unit for identifying personality data, one information input of which is connected with the first information output of the block of simulation modeling of the stream of requests for data of citizens,

the other information input of the identity data identification unit is connected to the second output of the server database records reception unit, the third information input of the identity data identification unit is connected to the sixth output of the simulation module of the citizen data request flow, while the first and second synchronization inputs of the identity data identification unit are connected to the first and second synchronizing outputs of the server database record receiving unit, respectively, and the first output of the identity data identification unit connected to the counting input of the unit for determining the depth of sampling of personality data, and a data documentation unit, the first synchronizing input of which is connected to the second output of the personality data identification unit, the second synchronizing input of the data documenting unit is connected to the third output of the personality data identification unit, and the third synchronizing input of the documenting unit data is connected to the synchronizing output of the switching unit of the data output channels, the first and second information outputs of the documentation unit data are connected to the third and fourth information inputs of the unit for generating address signals of writing and reading, respectively, the first synchronizing output of the unit for writing data and reading signals, the second synchronizing output of unit for writing signals for reading and reading, the second synchronizing output of the unit for documenting data is the third synchronizing output of the stand, intended for issuing control signals to the input of the third channel of the base server interrupt

data, the third synchronizing output of the data documentation block is the fourth synchronizing output of the stand, designed to provide control signals to the input of the fourth channel of the database server interrupt, the fourth synchronizing output of the data documentation block is connected to the counting input of the simulation block of the data request stream of citizens, and the fifth synchronizing output the data documentation unit is connected to the installation inputs of the simulation block of the data request flow citizens and the reception unit of the server database records, the third synchronizing output of the selection block of the address of the permanent identity data is connected to the first control input of the receiving unit of the database server records, and the third synchronizing output of the unit of identification of personality data is connected to the second control input of the receiving unit of database records server, and the seventh information output of the simulation simulation block of the data request stream of citizens is the third information output of the stand, designed dispensing timing values of the system.

The invention is illustrated by drawings, in which Fig. 1 is a structural diagram of a system, Fig. 2 is a structural diagram of a block for setting temporary parameters for processing data requests, Fig. 3 is a structural diagram of a block of simulation modeling of a stream of data requests of citizens, Fig. 4 is a block diagram of a block of address selection of permanent identity data, in Fig.5 is a block diagram of a block for determining the depth of sampling of personality data, in Fig.6 -

Fig. 7 is a structural diagram of a unit for recording data of a server, Fig. 9 is a structural diagram of a block for switching data output channels, Fig. 10 is a structural diagram block diagram of the formation of address signals for writing and reading.

The information-modeling stand (Fig. 1) contains a block 1 for setting time parameters for processing data requests, a block 2 for simulation of the stream of requests for data from citizens, a block 3 for selecting addresses of permanent personal data, a block 4 for determining the depth of sampling of personal data, a block 5 for identifying personal data, a data documenting unit 6, a system server database record receiving unit 7, a data output channel switching unit 8, and a write and read address signal generation unit 9.

Figure 1 shows the control 20, information 21 and synchronizing 23 inputs of the stand, as well as address output 25, first 26 and second 27 information outputs, first 28, second 29, third 30, fourth 31 and fifth 32 synchronizing outputs of the system.

Block 1 (figure 2) of setting the time parameters for processing data requests contains a pulse generator 180, a counter 181, a register 182, a decoder 183, a trigger 184, elements 185-188 AND, element 189 OR. The drawing shows the control input 20 and the synchronizing output 190.

Block 2 (figure 3) simulation of the flow of data requests from citizens contains a memory block 191, a register 192, counters 193, 194, 195, elements 196, 197 AND, trigger 198, adder 199, element 200 OR, elements 201-203 delay. The drawing shows the timing 205, counting 206 and installation 207 inputs, as well as the first 10, second 11, third 12, fourth 13, fifth 14, sixth 15 information outputs, synchronizing 16 output, and seventh 17 information output.

Block 3 (figure 4) selection of the address of the permanent identity data contains decoders 40, 41, a memory unit 42, made in the form of read-only memory, elements 43-47 And, elements 48, 49 delay. The drawing shows information 51, 52, and synchronizing 53 inputs, as well as information output 54 and synchronizing outputs 55-57.

Block 4 (Fig. 5) for determining the depth of sampling of personality data includes a decoder 60, a memory block 61, made in the form of read-only memory, a counter 62, a register 63, a comparator 64, elements 65-67 And, elements 68, 69 delay. The drawing shows information 70, and synchronizing 71 and counting 72 inputs, as well as information 73 and synchronizing 74-76 outputs.

Block 5 (6) of the identification of personality data contains comparators 101, 102, counter 103, OR element 104 and delay element 105. The drawing shows information 106-108, synchronizing 109 and counting 110 inputs, as well as outputs 111-113.

Block 6 (Fig.7) data documentation contains a memory block 115 made in the form of read-only memory, register 116, comparator 117, counter 118, trigger 119, elements 120-121 AND, elements 122-124 OR, elements 125-130 delay . The drawing shows the synchronizing 132, installation 133 and subtracting 134 inputs, as well as information 135, 136 and synchronizing outputs 30-33, 137.

Block 7 (Fig. 8) of receiving system server database records contains a register 151, triggers 152, 153, elements 154-157 I. The drawing shows information 21, synchronizing 23, first 160 and second 161 control and installation 162 inputs, and informational 165, 166, synchronizing 167-168 and clocking 169 outputs.

Block 8 (Fig.9) switching channels of the data output contains a decoder 170, a group of 171-173 OR elements, delay elements 174-175. The drawing shows informational 176 - 177 and synchronizing 178 inputs, as well as groups 34-36 information outputs, and synchronizing 179 output.

Block 9 (figure 10) of the formation of the write and read address signals contains a counter 81, an adder 82, a group of 83, 84 elements OR, elements 85-87 OR, elements 88, 89 delay. The drawing shows information 91-94 and synchronizing 95-99 inputs, as well as address 25 and synchronizing outputs 28, 29.

All nodes and elements of the stand are made on standard potential-impulse elements. To simplify the drawing, the chains of the initial installation of nodes and blocks are not shown.

The system starts by supplying a control signal to the input 20 of the stand. The control signal is supplied to the direct input of trigger 184 of block 1 and sets it to a single state, in which trigger 184 with high potential from the direct output opens element 185 And, connecting the output of the high-frequency pulse generator to the counting input of counter 181.

The counter 181 performs the functions of a frequency divider, providing bitwise output of transfer pulses to the inputs of the corresponding elements 186-188 AND, controlled by the decoder 183.

The quantitative value of the time period of the simulation of the stream of data requests is pre-set using the register 182, in which the selected value of the time period is entered in the form of a code. The code of the selected value of the time period is decrypted by the decoder 183, which at one of its outputs forms a high potential, revealing the corresponding element 186-188 I.

As a result, at the output of the corresponding element 186-188 AND, a sequence of pulses is formed with a given repetition period, which through the element 189 OR and the output 190 of block 1 are fed to the input 205 of block 2, and then they are fed to the inputs of the elements 196, 197 AND, the state of which is determined trigger state 195 of block 2.

Given that the trigger 195 is in the initial state before the launch of the stand, the element 197 And high potential from the inverse output of the trigger 198 will be open, and the element 196 And low potential from the direct output of the trigger 195 will be closed.

As a result of this, the first pulse from the input 205 of block 2 passes through the element 197 AND to the counting input of the counter 194, bringing the first unit into it.

The code from the output of the counter 194 goes to one information input of the adder 199, the code from the output of the counter 195, which is currently in the initial (zero) state, is fed to the other information input.

In parallel with this, the pulse from the output of element 197 AND passes through the element 200 OR, is delayed by element 201 for the duration of the counter 194, and arrives at the synchronizing input of the adder 199. By this signal, the adder 199 sums the codes of the counters 194 and 195, forming the read address of the first simulated encoding data request, which is issued to the address input of the memory block 191.

In addition, from the output of element 201, this synchronizing pulse is again delayed by delay element 202, after which, firstly, it enters the direct input of trigger 198, setting it to a single state, in which trigger 198 closes element 197 AND, and opens element 196 AND thereby connecting the counter 193 to the input 205.

Secondly, the same pulse is fed to the reading input of the memory block 191, in the memory cells of which simulated requests for obtaining data from the database of the state population register are sequentially recorded.

The structure of simulated query codograms is as follows:

THE CODE THE CODE THE CODE THE CODE THE CODE Request type (user or system administrator request) Code combination of the initial letters of the Last Name, First Name, Patronymic of the Person Primary identity: surname; name; patronymic; Date of Birth; Place of Birth; floor. The number of entries in the query codogram ID of the user who sent the request

A simulated data request codogram from the first memory cell of block 191 is read into the input of register 192, into which it is entered by the same synchronizing pulse delayed by element 203 for the time it takes to read data from the memory block, then it is output to the information outputs 10-15 of block 2.

From the output 12 of block 2, the request type code is sent to the input 51 of block 3, from where it is fed to the input of the decoder 40, which decrypts the type of request and, depending on the type of request, opens one input element 43 I or 44 I. Assume that by element 43 was opened to one entrance.

At the same time, the synchronizing pulse from the output 16 of block 2 through the input 53 of block 3 is fed to the input of element 48, where it is delayed by the time the request code is entered into block 2 and the decoder 40 is activated, and then passes through element 43 AND to output 57, from where it issued at the input 71 of block 4.

To the other input 70 of block 4, from the output 14 of block 2, a code combination of the initial letters of the Last Name, First Name, Middle Name of the person is supplied to the input of the decoder 60. The decoder 60 decodes the code of the identification sign of the person and opens one input of one of the elements 65-67 AND, corresponding to the input identification feature. Suppose that such an element is element 65 I.

In parallel with this, the synchronizing pulse from the input 71 goes to the inputs of the elements 65-67 AND, however, given the fact that only one element And will be open at one input, then passing this element And, the clock pulse, firstly, arrives at a read input of a fixed memory cell of the permanent storage device 61, where the reference address of the memory zone of the database of the system is stored, in which all records about citizens with the same initial letters of the last name, first name, middle name, corresponding to the combination of initial letters are stored Surnames, Names, Patronymic of the person from the first record of the codogram.

The code of the reference address of the memory zone of the database of the system is read to the information output 73 of block 4, and the code of the number of such records in the database of the system is read to the input of register 63, where it is entered by the synchronizing pulse delayed by the element 69 during the data reading.

In this case, the code of the reference address of the database memory zone from the output 73 of block 4 is sent to the information input 92 of block 9, and the code of the number of records with the same code combination of the initial letters of the Last Name, First Name, and Middle Name located in the database of the system is received from the output of register 63 to one information input of the comparator 64. Next, the code of the reference address through the information input 92 of block 9 and elements 83 OR groups is fed to one information input of the counter 81.

Secondly, the synchronizing pulse from the input 96 of block 9 passes through the OR element 85 and then enters the synchronizing input of the counter 81, ensuring that the reference address is entered into the counter 81. In this case, the reference address code from the output of the counter 81 through the elements 84 OR of the group is output 25 system.

In addition, the same synchronizing pulse from the output of the OR element 85 passes through the OR element 87, is delayed by the element 88 while the reference address code is entered into the counter 81, and then through the first synchronizing output 28 of the system it enters the input of the first channel of the database server interrupt.

By this signal, the server goes to the subroutine for reading the contents of the database cell at the specified address, issuing it to the information input 21 of the stand and recording the contents of the database cell in the register 151 of block 7 with a synchronizing pulse from the server to the input 23.

The codogram of the read record from the output of the register 151 through the output 166 of the block 7 is fed to the input 107 of the block 5 and then to the input of the comparator 101, to the other 106 of which the identification data of the person from the output 10 of the block 2 is supplied.

At the same time, the synchronizing pulse from the input 23 is delayed by the element 158 for the time of recording the read record of the identification data of the person in the register 151, it goes to the inputs of the elements 154-156 I. Considering that at the present moment the triggers 152 and 153 are in the initial state, then high potentials from inverted outputs, elements 156 and 157 I will be open at one input. As a result, a pulse from input 23 passes through elements 156, 157 I sequentially, and from output 167 of block 7 it goes to the synchronizing input 109 of comparator 101, uniting the input values of the identity data of the unit 2 with the identity information received from the database of the system.

If the comparison of the input codes did not occur, then the comparator 101 at the output 111 generates a synchronization signal, which, through the input 72 of the block 4, is fed to the input of the counter 62, fixing the fact of viewing the first record of the identity data from the number of records stored in the system database.

The output code of the counter 62 goes to one input of the comparator 64, to the other information of which from the output of the register 63 a code of the number of records of identification data of the person with a given combination of the initial letters of the last name, first name, middle name stored in the database of the system is supplied.

In parallel with this, the synchronizing pulse from the input 72 of block 4 is delayed by the element 68 for the time of operation of the counter 62 and is supplied to the synchronizing input of the comparator 64.

According to the synchronizing signal supplied to its synchronizing input, the comparator 64 compares the number of scanned records of personal identification data with a fixed number of records of similar records in the database having the same initial letters of the last name, first name, and middle name.

If the comparison of numbers has not occurred, then a signal is generated at the output 75 of block 4, which passes through the OR element 86 through the input 97 of block 9 and arrives at the counting input of the counter 81. At this pulse, the counter 81 adds the first unit to the reference address, and the newly formed address with the output of the counter 81 through the elements 84 OR group is issued to the address output of the system 25.

Simultaneously with this process, the synchronizing pulse from the input 97 of block 9 passes through the OR element 87, is delayed by the element 88 for the duration of the counter 81 operation, and then through the first synchronizing output 28 of the system it is again fed to the input of the first channel of the database server interrupt.

By this signal, the server again switches to the subroutine for reading the contents of the next database cell at the specified address, issuing it to the system information input 21 and entering the contents of the database cell into register 151 of block 7 with a synchronizing pulse from the server to input 23.

The described process of reconciling the input record with the records stored in the database continues until the input record is reconciled with all the records in the database that have the same initial letters of the last name, first name, and middle name. If, as a result of such a verification, the input record does not match any database record, then the comparator 64, by issuing a signal to the output 76 of block 4, will record the fact of viewing all database records and confirm the absence of the identity information specified in the request in the database system.

In this case, the signal from the output 76 of block 4 through the input 98 of block 9, first, passes the OR element 86 and enters the counting input of the counter 81. At this pulse, the counter 81 adds one to the last address recorded in it, and again the generated address from the output of the counter 81 through the elements 84 OR group is issued to the address output of the system 25.

Secondly, the clock pulse from the input 98 of block 9 is delayed by the element 89 for the duration of the counter 81 operation, and then through the second clock output 29 of the system it enters the input of the second channel of the database server interrupt.

By this signal, the server goes to the subroutine for recording the input identification data of the person from the system output 26 at the specified address, and starts the program for generating the Permanent Data Identifier for the specified record, which is an individual identification number assigned, for example, at the time of birth registration.

The individual identification number contains encoded information about the individual and not changing with time signs of a particular person (date of birth, gender, place of birth, priority of registration on a specific day). The algorithm for generating a unique identification number, consisting of 13 digits, is that in accordance with the primary identification data of the person listed in the input record, the first digit of the code is associated with a gender sign, for example, 0 or 1.

The next two digits are put in accordance with the year of birth, and the next two digits indicate the month of birth. The following five numbers or symbols in accordance with the accepted classification indicate the birthplace of the person. The last three digits are a serial number that provides the ability to register citizens born in one place at one time. In addition, two control digits are used, which are determined in accordance with the error control procedure.

Thus, the structure of the unique identification number, consisting of 13 digits, will have the following form:

THE CODE THE CODE THE CODE THE CODE THE CODE THE CODE One rank is a sign of gender Two digits - year of birth Two digits - month of birth Five digits - correspond to the place of birth of the person Three categories - registration of citizens born at the same time in one place Two categories - for control

After the completion of the formation of a unique identification code, the server, firstly, writes it to the address generated on the address output of the system, thereby forming the following structure for recording personal identification data:

THE CODE THE CODE Primary identity: surname; name; patronymic; Date of Birth; Place of Birth; floor. Persistent Identifier - UNIQUE Identification Number

Secondly, the server issues this record to the input 21 of the system, and the synchronizing pulse from the input 23 of the system ensures its entry in the register 151 of block 7. In addition, the synchronizing pulse from the input 23 of the system is delayed by the element 158 for the time of entering the identity data in the register 151 block 7, passes the open elements 156, 157 And, and from the output 167 of block 7 goes to the clock input 109 of block 5.

If the comparator 101 of block 5 fixes the fact that the identity codes of the identities located in block 2 and in the register 151 of block 7 are equal, then a signal is generated at the output of the comparator 101, which passes through the OR element 104, and, firstly, immediately goes to the counting the input of the counter 103, counting the number of records of the primary identity of the person who has passed verification with the records of the database.

Secondly, the same pulse is delayed by the element 105 for the duration of the counter 103 operation, and arrives at the synchronizing input of the comparator 102, at the input of which 108 the code of the number of records from the output 15 of block 1 to be verified is supplied, and the code of the number of records is fed to the other input, reconciled, from the output of the counter 103.

If the number of records in the counter 103 turns out to be less than the number of records to be reconciled, then a signal is generated at the output 112 of block 5, which starts the procedure of documenting the results of the reconciliation of records and the formation of a record file with the unique identification numbers assigned to them to be sent in response to a request.

To this end, the signal from the output 112 is fed to the input 132 of block 6, where the And element 121 passes, which is open at the other input with a high potential from the inverse output of the trigger 119, which is in the initial state, and then goes to the input of the fixed cell of the ROM 115, where it is stored the reference address of the memory zone of the database reserved for storing the generated response file for the request, and reads it to the information input of the register 116.

In parallel with this, the same pulse from the output 121 And is delayed by the element 125 for the duration of reading the reference address from the ROM 115, and then, firstly, it goes to the single input of the trigger 119, setting it to a single state and thereby blocking the passage of pulses from input 132 through element 121 AND, and allowing the passage of pulses from input 132 through element 120 I.

Secondly, the pulse from the output of the element 125 is fed to the synchronizing input of the register 116, providing the reference address is entered in the register 116, and then delayed by the element 126 for the time the code is entered in the register 116, the OR element 122 passes, then the OR element 123 and the output 137 unit 6 is fed to the input 99 of unit 9 and then to the synchronizing input of the adder 82. At this point in time, the input 93 of the adder 82 of unit 9 is supplied with a reference address code from the output 135 of unit 6, and the input 94 from the output 136 of unit 6 is supplied with the readings of counter 118 in the initial state.

The signal from the input 99 of block 9, the adder 82 summarizes the reference address code with the zero readings of the counter 118, as a result of which the documentation reference address code remains unchanged and from the output of the adder 82 through the elements 84 OR groups will be issued to the address output 25 of the system.

At the same time, the pulse from the OR output 122 is delayed by the element 127 for the duration of the operation of the adder 82 of the block 9, and then through the output 30 it enters the input of the third channel of the system database server interrupt.

By this signal, the database server goes to the subroutine for recording the primary identity information of the person, together with the identifier of the permanent data assigned to them from the output 27 of the system at the address generated on the output 25 of the system.

In addition, the synchronizing pulse from the output of element 127 is delayed by element 128 for the duration of documenting the recording of primary identity data of the person together with the identifier of permanent data assigned to them, and then, firstly, it is fed to the counting input of the reverse counter 118, which counts the number of records of primary identification data personalities together with the identifier of permanent data assigned to them in the generated response file to the request.

Secondly, the synchronization pulse from the output of element 128 is supplied to the signal output 32 of block 6, indicating that the verification of the next record is made. This signal from the output 32 of block 6 is fed to the counting input 206 of block 6 and then to the counting input of the counter 195, fixing the fact of processing the first record from the data request encoding.

In parallel with this, the same synchronizing pulse from input 206 passes through the OR element 200, is delayed by element 201 for the duration of counter 195 operation and arrives at the synchronization input of adder 199. Adder 199, adding up the input codes, forms the read address of the next simulated codeogram, and the process of reading and processing the simulated codogram continues as described above.

If, during the verification of the primary identification data, the comparator 101 of block 5 immediately fixes the equality of the input codes by the synchronizing signal from input 109, which will indicate that the primary identification data of the person is already in the database and they have been assigned a permanent data identifier, then this the record will be documented in the response file as described above.

The process of reconciling the input identification data of the person with the identification data of the individuals located in the database and having the identifier of the permanent data continues until all records in the request codogram are verified. This fact will be recorded by the comparator 102 of block 5 by issuing a signal to output 113, since the readings of the counter 103 of block 5 will be equal to the number of records coming from the output 15 of block 2 to the input 108 of block 5.

The clock signal from the output 113 of the block 5, firstly, through the input 133 of the block 6 is supplied to the installation input of the trigger 119, returning it to its original state.

Secondly, this synchronizing pulse through the input 161 of block 7 enters the single input of the trigger 153, setting it to a single state in which the element 155 I will be opened with a high potential from a single output.

And finally, thirdly, the same synchronizing pulse from the input 133 of block 6 passes through the OR element 124 and is issued through the synchronizing output 31 of the system to the input of the fourth channel of the database server interrupt.

According to this signal, the server goes to the subroutine for polling the contents of the last memory cell, the address of which is fixed on the address output of the system when documenting the identification data of the last record from the input codogram of the request, and issuing the contents of the record to the input 21 of the system, from where the contents of the read record are fed to the information input of register 151 and is entered into it by a synchronizing pulse supplied to the input 23 of the system.

In addition, the synchronizing pulse is delayed by element 158 for the time it takes to read the write to the register 151 of block 7, the And element 155 passes, and from the output 169 of block 7 it enters the input 178 of block 8, where it is delayed by the element 174 for the duration of operation of the register 151 of block 11 and the decoder 170 block 8, and then goes to the inputs of groups of elements 171-173 I.

At the same time, the input 176 of block 8 from the output 11 of block 2 receives the identifier of the user who sent the request for reconciliation of data. The decoder 170 decrypts the identifier code of the request source and opens one of the groups 171-173 of AND elements that correspond to the request source. To the other inputs of the elements AND groups 171-173 from the output 165 of block 7, through the input 177 of block 8, the contents of the first documented record are passed through the elements 171-173 AND of the corresponding group and issued through the corresponding output to the address of the request source.

In addition, the synchronizing pulse from the output of element 174 of block 8 is delayed by element 175 for the duration of the first documented record, and from output 179 of block 8 it enters the input 134 of block 6, from where it is immediately fed to the subtracting input of counter 118, reducing its readings equal to the number of documented records per unit.

In addition, the same pulse is delayed by element 129 for the duration of counter 118 operation, and, firstly, through element 123, OR is output 137 and then goes to the synchronizing input of adder 82, which generates an address one less than the previous value and through elements 84 OR issues it to the output 25 of the system.

Secondly, the same pulse from the output of the delay element 129 is delayed by the delay element 130 for the response time of the adder 82 of block 9 and is fed to the synchronizing input of the comparator 117, the decreasing readings of the counter 118 are supplied to one information input, and the code value " zero. "

Until the counter 117 is equal to zero, a signal will be generated at the input A of the comparator 117 at the input A of the comparator 117, which passes through the OR element 124 and is output again from the output 31 to the input of the fourth channel of the database server interrupt.

By this signal, the server will again switch to the subroutine for polling the contents of the next memory cell, the address of which is fixed on the address output of the system, and issuing the contents of the record to the input 21 of the system, from where the contents of the read record will again go to the information input of register 151 and entered into it by a synchronizing pulse entering input 23 of the system.

The described process of issuing data to the address of the request source will continue until the readings of the counter 118 of block 6 become zero, which will be fixed by the comparator 117 by issuing a signal to the output 33 of block 6, indicating that the request has been completed and the file with identification data persons with the identifier of permanent data assigned to them are sent to the address of the request source.

In addition, the same signal from the output 33 of block 6 is fed to the installation input 162 of block 7, from where it goes to the installation inputs of triggers 152 and 153, returning them to their original state, and to installation input 207 of block 2, from where they go to the installation inputs of trigger 198 and counter 195, returning them to their original state.

If the execution time of the data request is less than the period of arrival of pulses at the input 205 of block 2, then the trigger 198 will be reset to the initial state before the arrival of the next pulse to the input 205.

If the execution time of the data request is greater than the repetition period of the clock pulses, then the next clock pulse from the input 201 passes through the element 196 And to the counting input of the counter 193, counting the number of pulses corresponding to the "unprocessed" requests.

After processing a given number of simulated request codegrams, the readings of the counter 193 displayed on the display panel from the output 17 of block 2 will indicate how much the time for processing data requests corresponds to the required values of the frequency of receipt of data requests.

Thus, the introduction of new nodes and blocks made it possible to significantly increase the speed of the stand by localizing the addresses of the requested data of citizens by the identifier of permanent personal data and the identifier of the initial letters of the surname, name, patronymic of the person.

Sources of information taken into account when drawing up the description of the application:

1. US patent No. 5136708 M. cl. G 06 F 15/16, 1992

2. US Patent No. 5129083 M. cl. G 06 F 12/00, 15/40, 1992 (prototype).

Claims (1)

Simulation-modeling stand of the automated system of the state population register, containing a block for setting temporary parameters for processing data requests, the control input of which is the control input of the stand, a block for receiving database server records, the information and synchronizing inputs of which are information and synchronizing inputs of the stand, while the information input a block for receiving records of a server database is intended for receiving records of a database of a server synchronizing the input of a block of reception The server database records are intended for receiving synchronization signals for entering server database records into the server database records receiving unit, the unit for generating address write and read signals, the address output of which is the address output of the stand, designed to provide write addresses and read data to the address input the database server, the first and second synchronizing outputs of the unit for generating address write and read signals are the first and second synchronizing outputs of the stand, pre designed to issue control signals to the first and second channels of interruption of the database server, respectively, the switching unit of the data output channels, one information input of which is connected to the first information output of the receiving unit of the database records of the server, the synchronizing input of the switching unit of the data output channels is connected to the clock output of the unit receiving records of the server database, and the information outputs of the switching unit of the data output channels are the information outputs of the stand group, intended data for the automated workstations of the respective users of the stand, characterized in that the stand contains a simulation block of the data request stream of citizens, the clock input of which is connected to the output of the unit for setting the time parameters for processing data requests, the first information output of the block of simulation of the stream of data requests of citizens is the first information output of the stand, and the second information output of the simulation block of the data request flow It is connected to one input of the block for switching data output channels, the other information input of which is connected to the first information output of the server database record receiving unit, which is the second information output of the stand, the selection block of the address of permanent personal data, one and the other of which information inputs are connected to the third and the fourth outputs of the block simulation of the flow of requests for data of citizens, the synchronizing input of the selection block of the address of the permanent data of the person is connected to the synchronization to the output block of the simulation of the stream of requests for citizens' data, the information output of the block for selecting the address of the permanent identity data is connected to the first information input of the block for generating address signals for writing and reading, and the first clock output is connected to the first clock for the block for generating address signals for writing and reading, the block for determining the depth of sampling personality data, the information input of which is connected to the fifth information output of the simulation block The data request stream of citizens data, the synchronizing input of the unit for determining the depth of sampling of personality data is connected to the second synchronizing output of the block for selecting the address of permanent personal data, and the information output of the unit for determining the depth of sampling of personality data is connected to the second information input of the unit for generating address signals for writing and reading, while the first, second and third synchronizing outputs of the unit for determining the depth of sampling of personality data are connected to the second, third and fourth synchronization to the controlling inputs of the unit for generating address signals for writing and reading, respectively, the unit for identifying personal data, one information input of which is connected to the first information output of the unit for simulating the flow of requests for citizens' data, the other information input of the unit for identifying personal data is connected to the second output of the receiving unit of database server records , the third information input of the identity data identification unit is connected to the sixth output of the simulated flow block wasps of citizen data, while the first and second synchronizing inputs of the identity data identification unit are connected to the first and second synchronizing outputs of the server database record receiving unit, respectively, and the first output of the personality data identification unit is connected to the counting input of the personality data sampling depth determining unit, and the block documentation of data, the first synchronizing input of which is connected to the second output of the identity data identification unit, the second synchronizing input of the documentation unit yes connected to the third output of the identity data identification unit, and the third synchronizing input of the data documenting unit is connected to the synchronizing output of the switching unit of the data output channels, the first and second information outputs of the data documenting unit are connected to the third and fourth information inputs of the unit for generating write and read address signals, respectively , the first synchronizing output of the data documenting unit is connected to the fifth synchronizing input of the address forming unit x write and read signals, the second clock output of the data documentation block is the third clock output of the stand, designed to issue control signals to the input of the third channel of the database server interrupt, the third clock output of the data document block is the fourth clock output of the stand, designed to issue control signals to the input of the fourth channel for interrupting the database server, the fourth synchronizing output of the data documenting unit is connected it is connected to the counting input of the block of simulation modeling of the stream of requests for data of citizens, and the fifth synchronizing output of the block of data documentation is connected to the installation inputs of the block of simulation of the stream of requests of data of citizens and the block of receiving records of the database of the server, while the third synchronizing output of the block of selection of the address of the address of the personal identity data is connected with the first control input of the server database record receiving unit, and the third synchronizing output of the personality data identification unit is connected a second control input receiving unit records database server, wherein the seventh information output unit simulation data stream citizens requests simulation is the third data output stand intended for dispensing timing values of the system.