RU51249U1 - ANALYTICAL SYSTEM "JUSTICE" - Google Patents

Abstract

The invention relates to computing, in particular, to the analytical system "JUSTICE". The technical result is to increase the speed of the system by localizing the addresses of the documentary data of the defendants and convicted persons in the server database using the identifiers of the given annual intervals. The technical result is achieved by the fact that the system comprises a unit for setting annual intervals of analytical processing, a unit for setting a reference year for a time interval, a unit for setting attributes of analytical data processing, a unit for selecting annual intervals, a unit for identifying a reference address for data of a year of analytical processing, a unit for selecting data for an annual interval, a unit the formation of addresses for reading data from the server database, a unit for receiving records of the server database, a unit for identifying signs of analytical data processing, b a lok of formation of the reference address of the documentation database, a block of modification of the addresses of writing and reading data.

Description

The invention relates to the field of computer technology, in particular, to the analytical system of the State justice system “JUSTICE”.

In connection with changes in the socio-economic situation in Russia, an increase in the number and quality of content of court cases, and an increase in the possibility of appealing against unlawful actions of officials in court, the information load on the courts is increasing every year. Under these conditions, the introduction of new information technologies is one of the main ways to increase the efficiency of courts.

The implementation of the powers of the Judicial Department system involves the collection and processing of large amounts of information, as well as the solution of a wide range of information-analytical tasks of administrative management and resource support of the courts.

Currently, the Judicial Department under the Supreme Court of the Russian Federation has developed and approved by the Council of Judges of the Russian Federation the concept of informatization of courts of general jurisdiction and the Judicial Department system (State Automated System of the Russian Federation “Justice”), which is designed to ensure a unified approach to the development of three methods and means of informatization the main areas - informatization of the system of federal courts of general jurisdiction, justices of the peace and judicial bodies, and informatization of the system of the Judicial Department and the creation of an integrated network of means of information and telecommunication and other types of ensuring the functioning and development of the GAS Justice.

The result of measures to implement the requirements of the Federal Target Program should be the creation of a unified automated system on the basis of the GAS “Justice” property complex and the corresponding infrastructure, ensuring the provision of information and telecommunication services to court employees and bodies of the Judicial Department, interacting organizations and citizens, maintaining computer facilities in working condition , as well as training new information technologies.

In this regard, the issue of solving the problem of analytical multi-aspect processing of judicial statistics data, aimed at ensuring the information and analytical activity of the courts, is of particular importance.

Known systems that could be used to solve the problem (1, 2).

The first of the known systems 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 system is the impossibility of solving the problem of updating data stored in memory in the form of relevant documents at the same time as solving the problem of delivering the contents of these documents to users in real time.

Another system is known that 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 are connected with 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 system, due to the fact that the analytical processing of the legal proceedings database is carried out by searching for documentary data of the accused and convicted persons throughout the database and their subsequent processing by the central processor, which in case of large volumes of court cases inevitably leads to unreasonably large time consuming.

The purpose of the invention is to increase the speed of the system by localizing the addresses of the documentary data of the defendants and convicted persons in the database of the system by identifiers of given annual intervals.

This goal is achieved by the fact that in the known system containing the unit for setting annual intervals, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, the unit for setting the reference year of the time interval, the information input of which is the second information input of the system, and the synchronizing input is connected to first sync input

system, a block for specifying signs of data analysis, the information input of which is the third information input of the system, and the synchronizing input is connected to the first synchronizing input of the system, a block for receiving database server records, the information input of which is the fourth information input of the system, the synchronizing input is the second synchronizing input of the system , and the first information output is the information output of the system, the block for generating addresses for reading the server database, the output of which o is the first address output of the system, and a block for modifying the addresses of writing and reading data, the information output of which is the second address output of the system, a block for selecting annual intervals is introduced, the information input of which is connected to the output of the unit for setting annual intervals, one output is the first synchronizing output of the system, and the other is connected to the counting input of the reference unit of the reference year of the time interval, the identification block of the reference address of the data of the year of analytical processing, the information input to of which is connected to the output of the reference year reference unit of the time interval, the first synchronizing input is connected to the first synchronizing input of the system, the second synchronizing input is connected to the other output of the annual interval selection block, and one information output is connected to the information input of the server database read address generation unit, block selection of data of the annual interval, the information input of which is connected to another information output of the identification unit of the reference address of the data of the year analyte processing, the first synchronizing input is connected to the first synchronizing output of the identification block of the reference data address of the year of analytical processing, and the second synchronizing input is connected to the second synchronizing output of the identification block of the reference data address of the year of analytical processing,

this, one output of the annual interval data selection unit is connected to the counting input of the annual intervals selection unit, and the other output is the second synchronizing output of the system, an identifier for identifying signs of analytical data processing, some information inputs of which are connected to the corresponding outputs of the unit for specifying data analysis signs, other information inputs connected to the second and third information outputs of the data receiving unit from the server database, respectively, the synchronization input is connected to the second synchronizing input of the system, and the clock input is connected to the clock output of the block for modifying data recording and reading addresses, while one output of the identification block of signs of analytical data processing is connected to the clock input of the clock input of the data selection block of the annual interval and to the counting input of the base read address generation block server data, the synchronizing input of which is connected to the first synchronizing output of the identification unit of the reference address of the data of the year analytical processing, and the unit for generating the reference address of the documentation database, one input of which is connected to the first output of the selection block of annual intervals, the other input is connected to the second output of the identification block of signs of analytical data processing, the information output is connected to the information input of the modification block of write and read data addresses, and the synchronizing output is connected to the synchronizing input of the modification unit of the write and read addresses, while the first synchronizing output of the modification unit write address and data read timing is the third system output, the second output clock is the fourth timing output of system, and the signal output is the signal output 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 selection block of annual intervals, Fig. 3 is a structural diagram of a identification block of a reference address of the data of the year of analytical processing, and Fig. 4 is a structural diagram block data selection of the annual interval, figure 5 is a block identifying signs of analytical data processing, figure 6 is a block diagram of the formation of the reference address of the documentation database, figure 7 is a block diagram of the block modification hell records writing and reading signatures.

The system (Fig. 1) contains a unit 1 for setting annual intervals of analytical processing, a unit for 2 setting a reference year for a time interval, a unit 3 for setting signs of analytical processing of data, a unit for selecting 4 annual intervals, a unit for identifying a reference address for data of the year of analytical processing, a selection unit 6 annual interval data, block 7 for generating addresses for reading server database data, block 8 for receiving server database records, block 9 for identifying signs of analytical data processing, block 10 for generating a reference the database address of the documentation, block 11 modification of the addresses of the write and read data.

Figure 1 shows the first 21, second 22, third 23 and fourth 24 information inputs of the system, the first 25 and second 26 synchronizing inputs of the system, as well as information 31, first 32 and second 33 address outputs of the system, first 34, second 35, third 36 and fourth 37 synchronizing and signaling 38 system outputs.

Block 1 sets annual intervals for analytical processing (Fig. 1) is made in the form of a register having information 21 and synchronizing 25 inputs, and an output connected to input 44 of block 4.

Block 2 sets the reference year of the time interval (Fig. 1) in the form of a counter having an information 22, synchronizing 25 and a counting input connected to the output 48 of block 4, as well as an output connected to the input 62 of block 5.

Block 3 sets of signs of analytical data processing (Fig. 1) is made in the form of a register having information 23 and synchronizing 25 inputs, and two outputs connected to inputs 94, 95 of block 9.

Block 4 selection of annual intervals (figure 2) contains a comparator 41, a counter 42 and a delay element 43. The drawing shows information 44 and synchronizing 45 inputs, as well as outputs 47-48.

Block 5 identification of the reference address of the data of the year of analytical processing (figure 3) contains a memory unit 51, made in the form of read-only memory, a decoder 52, elements 53-55 AND, elements 56, 57 OR, elements 58-60 delay. The drawing shows information 62 and synchronizing 63-65 inputs, as well as information 66, 67 and synchronizing 68, 69 outputs.

Block 6 data selection of the annual interval (figure 4) contains a register 71, a counter 72 and a comparator 73. The drawing shows information 74, synchronizing 75, 76 and counting 77 inputs, as well as outputs 78-79.

Block 7 of the formation of addresses for reading data from the server database (Fig. 1) is made in the idea of a counter having an information 81, synchronizing 82 and counting 83 inputs, as well as output 32.

Block 8 of receiving records of the server database (Fig. 1) is made in the form of a register having information 24 and synchronizing 26 inputs and three outputs.

Unit 9 for identifying signs of analytical data processing (Fig. 5) contains comparators 90, 91, OR element 92, delay element 93.

The drawing shows information 94-97, synchronizing 26 and timing 98 inputs, and outputs 99, 100.

Block 10 of the formation of the reference address of the documentation database (Fig.6) contains a memory block 101 made in the form of read-only memory, register 102, trigger 103, elements 104-105 AND, element 106 OR, elements 107-108 delay. The drawing shows synchronizing 109 and installation 110 inputs, as well as information 111 and synchronizing 112 outputs.

Block 11 modification of the recording addresses and 116, the comparator 117, the elements 118-120 OR, elements 121-125 delay. The drawing shows information 127 and first 128 and second 129 clock inputs, as well as information 33, first 36 second 37 and third 130 clock, and signal 38 outputs.

All nodes and elements of the system 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 operates as follows.

In the database of judicial proceedings, each entry relating to a specific criminal case has the following structure

THE CODE THE CODE THE CODE THE CODE THE CODE YEAR of completion of office work Surname, Name, Patronymic of the convict FLOOR Type of crime (article of the Criminal Code of the Russian Federation) OTHER RECORD ATTRIBUTES, including case number and its contents

We will consider the operation of the system by the example of solving the problem of determining the number of crimes of a given type (according to specified articles of the criminal code) committed by persons of both male and female gender over a specified period of time (for example, 5 years).

To solve this problem, a request is made to solve the problem, having the following structure:

THE CODE THE CODE THE CODE THE CODE The duration of the time period for analysis (number of years) The start year of the time period Type of crime (article of the Criminal Code of the Russian Federation) FLOOR

This request is generated at the automated workstation of the system (not shown in the drawing) and arrives at the system inputs. In this case, the code for the duration of the time period from the information input 21 of the system goes to the input of block 1, the code of the initial year of the time period from the information input 22 goes to the input of block 2, and the codes of the type of crime and sex of the convicted person from the information input 23 go to the input of block 3. Entering these signs in the corresponding blocks is carried out by the synchronizing pulse supplied to the synchronizing input of the system 25.

The initial year code of the time period from the output of block 2 through the input 62 of block 5 is input to the decoder 52, which decodes the code of the given year and opens one of the elements 53-55 AND corresponding to the given code.

For definiteness, we assume that the high potential of the decoder 52 is received at one input of the element 53 I.

In parallel, the clock pulse from the system input 25 through the input 63 of block 5 passes the OR element 56, is delayed by the element 58 for the time the codes are entered into blocks 1-3 and the decoder 52 is activated, and then it polls the states of elements 53-55 I.

Given the fact that only AND element 53 will be open at one input, then passing through this AND element, the clock pulse is fed to the read input of a fixed memory cell of the permanent storage device 51, where the code of the reference address of the database of the analyzed year and the number of records in the server database are stored related to this year.

The structure of the codogram stored in a fixed memory cell of the ROM has the following form:

THE CODE THE CODE Reference address of the analyzed year database The number of entries in the server database related to this year

The codes of the reference address of the database of the analyzed year and the number of records in the server database related to this year are read from the memory unit 51 to the information outputs 66 and 67, respectively. From the output 66 of block 5, the code of the reference address of the analyzed year goes to the input 74 of block 6, and then it is fed to the information input of the register 71, and the code of the number of entries in the server database related to this year, from the output 67 of block 5 goes to the information input 81 counter 7.

In parallel with the described process, the same read pulse from the output of the element 58 of block 5 is delayed by the delay element 59 for the time of reading the contents of the fixed cell ROM 51 and then from the output 68 of block 5 it is supplied to both the synchronizing input 75 of the register 71 of block 6 and the synchronizing input 82 counters 7, fixing in them the corresponding read codes.

From the output of counter 7, the reference address code is issued to the address output 32 of the system, and the synchronizing pulse from the output of element 59 passes through the OR element 57, is delayed by element 60 while the reference address code is entered into the counter 7, and then from the output 69 of block 5 passes to the input 76 block 6 and then goes to the synchronizing input of the comparator 73.

The comparator 73 compares the readings of the register 71, in which the number of annual records in the server database is stored, with the readings of the counter 72, which counts the number of read records from the database, based on a synchronizing pulse. At this time, the counter 72 is in the initial state and its readings are zero.

As a result of the fact that at the given moment the readings of the register 71 are much larger than the readings of the counter 72, a signal is generated at the output 79 of block 6, which, through the output 35 of the system, is fed to the input of the first channel of the database server interrupt as a control pulse for reading data from the server database at the address formed on the address 32 system output.

By this signal, the server goes to the subroutine for reading the contents of the server database cell at the address 32 specified at the output, issuing the first record of the server database to the information input 24 of the system and entering it into block 8, made in the form of a register, with a synchronizing pulse coming from the server to entrance 26.

The codogram of the first database record at the input 24 of the system has the following structure

THE CODE THE CODE THE CODE the code THE CODE YEAR of completion of office work Surname, Name, Patronymic of the convict FLOOR Type of crime (article of the Criminal Code of the Russian Federation) OTHER RECORD ATTRIBUTES, including case number and its contents

The code of the type of crime request from the first output of block 3 through the input 94 goes to one input of the comparator 90 of block 9, and the read code of the type of crime from the first output of the block 8 goes to another input 95 of the comparator 90.

In parallel with this process, the synchronizing pulse from input 26 is delayed by element 93 of block 9 for the time the code is entered in block 8, and then it goes to the synchronizing input of comparator 90.

According to this clock, the comparator 90 compares the input codes, and if the crime type code in block 3 does not match the code in block 8, then a signal appears on the first output of the comparator 90, which passes through the OR element 92 and then from the output 99, firstly, to the counting input 83 of the counter 7, forming the next read address in the server database.

Secondly, the same pulse goes to the input 77 of block 6 and then to the counting input of the counter 72, fixing the fact of reading the first record of the server database.

And finally, thirdly, the same pulse goes to the input 65 of block 5, the OR element 57 passes, it is delayed by the element 60 for the duration of the counter 7 operation, and then from the output 69 it again goes to the synchronizing input 76 of the block 6.

From the output of counter 7, the generated address code is sent to the address output 32 of the system, and the comparator 73 again compares the readings of register 71, which stores the number of annual records in the server database, with the readings of counter 72, which counts the number of read records from the database . At this point in time, the counter 72 recorded only one read record.

As a result of the fact that at the given moment the readings of the register 71 are much larger than the readings of the counter 72, a signal is generated at the output 79 of block 6, which, through the output 35 of the system, is fed back to the input of the first interrupt channel of the database server as a control pulse for reading data from the database server at the address formed on the address 32 system output.

By this signal, the server again switches to the subroutine for reading the contents of the server database cell at the address 32 output, issuing the next server database record to the information input 24 of the system and entering it into block 8 with a synchronizing pulse from the server to input 26.

If the codes of the type of crime at the inputs 94 and 95 of block 9 match, then the comparator 90 generates a signal for matching codes at its other output, which is fed to the synchronizing input of the comparator 91, the code of the requested gender is sent to one information input 96 from the output of block 3, and another information input 97 - the floor code is received in the read record of the server database.

If the codes of the requested gender and gender in the read database record do not match, then the comparator 91 generates a “no match” signal, which from its first output passes the OR element 92 and from output 99, as described above, starts the mechanism for generating the next read and read address of the next record .

If the codes of the requested gender and gender in the read database record do not match, then the comparator 91 generates a “gender code match” signal, which from the output 100 of block 9 goes to input 109 of block 10 and then goes to the inputs of elements 104, 105 I.

However, only one element 105 And will be open at one input, since one of its inputs is supplied with a high potential from the inverse output of the trigger 103, which is in the initial state.

As a result of this, a clock element 105 passes through the input 109 from the input 109, and arrives at the input of a fixed memory cell in the ROM 101, where the reference address of the buffer zone of the server’s memory allocated for documenting the generated array of requested data is stored, and reads it to the input of the register 102.

The same synchronizing pulse from the output of element 105 AND is delayed by element 107 for the duration of reading the code from ROM 101, and, firstly, it goes to the synchronizing input of register 102, entering the reference address of the record into it.

Secondly, the same pulse is supplied to the single input of the trigger 103 and sets it to a single state, in which the element 105 And will be closed, and the element 104 And is open. Thereby, a circuit for passing the next clock pulse from input 109 will be prepared.

And, finally, thirdly, the pulse from the output of the delay element 107 passes through the OR element 106, is again delayed by the element 108 for the time the address code is entered into the register 102, and from the output 112 of the block 10 it enters the input 128 of the block 11.

The write address code from the output 111 of block 10 is issued to the input 127 of block 11 and then to one input of the adder 116, to the other input of which is connected the output of the counter 115, also connected to one input of the comparator 117, the “zero code” is constantly applied to the other input.

The clock pulse from input 128, first, immediately through the element 118, OR is transmitted to the clock input of the adder 116, which sums the reference address code from input 127 with the zero code of counter 115, which is in its original state at this point in time and outputs write address code for system output 33.

In addition, the clock pulse from the input 128 of the block 11 is delayed by the element 121 at the time of formation of the final code at the address 33 of the system output and is issued to the output 36 of the system as a write control signal.

This signal is fed to the input of the second channel of the database server interrupt, through which the server goes to the subroutine for recording the entire contents of block 8 from the system output 31, to the database at the address generated at the system output 33.

In addition, the pulse from the output of the delay element 121 of the block 11 is supplied to the counting input of the counter 115, fixing the first record. After documenting the record in the server database, the same pulse from the output of element 121 is delayed by element 122 for the duration of documenting the record in the database, and from the output 130 of block 11 it goes to the input 98 of block 9, where the OR element 92 passes and from the output 99 it starts again the procedure for generating the address and reading the next database record in the manner described above.

The described process of the system continues until the comparator 73 of block 6 fixes the fact that all database records of a given year of analytical processing are not fully viewed.

The comparator 73 will fix this fact by issuing a signal at the output 78, from which this signal is fed to the input 45 of block 4, from where it goes to the counting input of the counter 42, which counts the number of annual periods of analytical processing.

The same clock pulse from the input 45 of block 4 is delayed by the element 43 for the response time of the counter 42 and is fed to the clock input of the comparator 41, the one input of which is supplied with increasing readings of the counter 42, and the other input is supplied with the number of time periods allotted for analytical processing.

If the number of scanned periods is less than a given number, then the output 48 of block 4 generates a signal, which, firstly, enters the counting input of counter 2, increasing its readings by one, and secondly, the same pulse goes to input 64 of block 5 and starts the procedure for generating the reference address for reading the next year in the manner described above.

If the comparator 41 fixes the equality of the input codes, then the signal is generated at the output 47 and, firstly, is output at the output 34 of the system as a signal about the end of the analytical data processing.

Secondly, the same signal through the input 110 of block 10 is supplied to the installation input of the trigger 103 and resets it to its original state.

Thirdly, the same signal is fed to input 129 of block 11 for organizing a cycle of issuing processed data to a display panel and printing, where it passes an OR element 120, and, firstly, it is immediately output to system output 37, from where it arrives at input of the third channel of the server interrupt.

By this signal, the server goes to the subroutine of sequential reading of the results of analytical data processing at the address formed by the adder 116 of block 11 at the output 33.

In addition, the synchronizing pulse from the output of the OR element 120 is delayed by the element 125 for the duration of reading data from the database, and, firstly, through the OR element 119 it enters the installation input of the adder 116, resetting it to its original state, and secondly, it arrives to the subtracting input of the reversible counter 115, decreasing its readings by one, and, thirdly, it is delayed by the element 123 for the duration of the actuation of the reversing counter 115 and arrives at the synchronizing input of the comparator 117.

The comparator 117 compares the readings of the reversing counter 115 with a zero code supplied to its other input, and while the readings of the counter 115 are greater than the zero code, a signal is generated at the output A of the comparator 117, which, firstly, passes through the element 118 OR to the synchronizing input of the adder 116, which, by this signal, sums the code of the reference address from input 127 with the readings of the reverse counter 115 reduced by one and gives the final address to the address 33 of the system output.

Secondly, the same pulse is delayed by the delay element 124 for the response time of the adder 116, the OR element 120 passes, and is output 37 as a next data reading control signal.

By this signal, the server again switches to the subroutine for reading the contents of the database cell at the address specified at output 33, and issuing the next database record to the display and printing facilities (not shown in the drawing).

In addition, the clock pulse from the output of the OR element 120 is again delayed by the element 125 for the duration of reading data from the database, and, firstly, it is fed back to the installation input of the adder 116, resetting it to its original state.

Secondly, it again enters the subtracting input of the reversible counter 115, decreasing its readings by one, and thirdly, it is delayed by element 123 by the time the reversing counter 115 is activated and arrives at the synchronizing input of the comparator 117.

The comparator 117 again compares the readings of the reverse counter 115 with the zero code supplied to its other input, and while the readings of the counter 115 are greater than the zero code, a signal is generated at the output A of the comparator 117, which, firstly, is transmitted via the OR element 118 to the clock input the adder 116, which on this signal sums the code of the reference address from input 127 with a reading of the counter counter 115 reduced by one and gives the final address to the address 33 of the system output.

The described process of reading database data continues until the comparator 117 fixes the fact that the readings of the reversible counter are equal to zero, indicating that all records that have undergone analytical processing have been issued to display and print media.

This fact will be confirmed by issuing a pulse to the output of the comparator 117, which is supplied to the installation inputs of the reversible counter 115 and the adder 1116.

In a similar way, the system works when issuing database records with other classification features to document data.

Thus, the introduction of new nodes and blocks made it possible to significantly increase the system’s speed by localizing the addresses of the documentary data of the accused and convicted persons in the system’s database using identifiers of given annual intervals.

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)

An analytical system containing a unit for setting annual intervals, the information and synchronizing inputs of which are the first information and synchronizing inputs of the system, a unit for setting the reference year of the time interval, the information input of which is the second information input of the system, and the synchronizing input is connected to the first synchronizing input of the system, the task unit signs of data analysis, the information input of which is the third information input of the system, and the synchronizing input is connected is connected to the first synchronizing input of the system, the server database record receiving unit, the information input of which is the fourth information input of the system, the synchronizing input is the second synchronizing input of the system, and the first information output is the information output of the system, the server database read address generation unit, the output of which is the first address output of the system, and the block for modifying the addresses of write and read data, the information output of which is the second address output a system od, characterized in that it contains a yearly interval selection unit, the information input of which is connected to the output of the annual interval setting unit, one output is the first synchronizing output of the system, and the other is connected to the counting input of the reference year setting unit of the time interval, the reference address identification unit data of the year of analytical processing, the information input of which is connected to the output of the reference unit of the reference year of the time interval, the first synchronizing input is connected to the first synchronization With the system input, the second synchronizing input is connected to the other output of the annual interval selection block, and one information output is connected to the information input of the server database read address generation block, the annual interval data selection block, the information input of which is connected to the other information output of the reference address identification block data of the year of analytical processing, the first clock input is connected to the first clock output of the reference address identification unit years of analytical processing, and the second synchronizing input is connected to the second synchronizing output of the identification block of the reference address of the data of the year of analytical processing, while one output of the annual interval data selection unit is connected to the counting input of the annual intervals selection unit, and the other output is the second synchronizing output of the system, block identification of signs of analytical data processing, one of the information inputs of which are connected to the corresponding outputs of the block for specifying the signs of analysis for data, other information inputs are connected to the second and third information outputs of the data reception unit from the server database, respectively, the synchronization input is connected to the second synchronization input of the system, and the clock input is connected to the clock output of the data write and read address modification block, with one output of the block identification of signs of analytical data processing is connected to the clock input of the data interval selection block of the annual interval and to the counting input of the read address generation unit a server database, the synchronizing input of which is connected to the first synchronizing output of the identification block of the reference address of the data of the year of analytical processing, and the unit for generating the reference address of the documentation database, one input of which is connected to the first output of the selection block of annual intervals, the other input is connected to the second output of the block identifying signs of analytical data processing, the information output is connected to the information input of the block for modifying the addresses of writing and reading data, and the sync the synchronizing output is connected to the synchronizing input of the modification unit of the write and read addresses, while the first synchronizing output of the modification unit of writing and reading data is the third synchronizing output of the system, the second synchronizing output is the fourth synchronizing output of the system, and the signal output is the signal output of the system.