RU2557764C2 - Pseudorandom sequence generator - Google Patents

Abstract

FIELD: physics, computer engineering.

SUBSTANCE: invention relates to the field of automatic equipment and computer facilities, cryptographic coding and information transmission and can be used for creation of generators of random sequences of impulses of long non-repeating duration. The device contains the timing unit, the control and configuration unit, the unit of generation of pseudorandom sequences, the unit of software setting of structure of feedback and initial condition of the generation unit, the unit of software setting of the code of structure of output sequence, the unit of analysis of structure of output sequence, the code comparison unit.

EFFECT: providing of formation of non-repeating random sequences of long length with the characteristics determined by the software set codes of structure of output sequence.

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Description

The invention relates to the field of automation and computer technology, cryptographic coding and transmission of discrete information, and can most effectively be used to obtain random sequences of pulses of large non-repeating duration.

It is known that pseudorandom number generators are widely used in discrete automation equipment, computer technology, and information transmission technology, constructed on the basis of a shift register covered by a feedback circuit through modulo two adders, in which pseudorandom sequences are n-bit binary sequences, the total number which is 2 "-1, where n is the width of the shift register, the sequence order is determined by the feedback structure and the initial state of the reg tra, the longer the non-repeating series of output sequences, the better the chance of the generator.

The reasons that impede the achievement of the technical result indicated below when using known generators implemented on the basis of registers with adders modulo two feedback circuits include the fact that for a given feedback structure and the initial state of the register, it is impossible to change the order of the output pseudorandom sequences of the generator, which does not allow to obtain non-repeating sequences of large length.

The study of the distinguishing features of the described generator and the analysis of the prior art by the applicant, including a search by technical and scientific-technical sources of information, and identifying sources containing information about analogues of the claimed invention, allowed to establish that the applicant did not find an analogue characterized by signs identical to all essential features the claimed invention.

The closest device of the same purpose to the claimed invention in terms of features is a generator of pseudo-random sequences of pulses on a homogeneous medium with a software-changing structure, containing a clock shaper, a control and tuning unit, a pseudo-random sequence generation unit, a program change block structure of the feedbacks of the generation unit and setting it to a predetermined initial state [1], which is adopted as a prototype.

The reasons that impede the achievement of the technical result indicated below when using the prototype include the fact that in the prototype the sequence of non-repeating sequences for a programmed feedback structure and the initial state of a homogeneous register medium used as a generation unit remains unchanged.

The technical result consists in obtaining non-repeating random sequences of large lengths with characteristics depending both on the feedback structure and the initial state of the generation unit, and on the structure of the output sequences generated by the generator.

The basis of the invention is the task of creating a pseudo-random sequence generator based on a homogeneous register medium with a programmable structure [2], in which the order of the output states of the generator depends both on the feedback structure and the initial state of the register medium, and on the structure of the output sequences, which leads to changes in the sequence of output sequences at random times determined by the structure of the output sequences, which, according to Allows to form non-repeating sequences of large length.

The specified technical result is achieved by the fact that in a known prototype, a generator including a clock pulse generation unit (1), a control and adjustment unit (2), pseudo-random sequence generation unit (4), a feedback structure and initial block (3) the state of the register of the generation block, the block (5) for programmatically setting the code of the structure of the output sequence has been introduced, during the formation of which changes occur at the generator output in the order of the states of the generation block 4, block (7) of string analysis structure of the output sequence and generation of the structure code, block (6) comparing the given and current structure codes with the formation of a signal fed to the input of generation unit 4, which changes the order of the states of this block, which leads to the formation of random sequences of large non-repeating length at the output of the generator, improving randomness characteristics of the generator.

A pseudo-random sequence generator, comprising a clock generating unit 1, a control and tuning unit 2, a pseudo-random sequence generating unit 3, a program unit 4 for setting the feedback structure and the initial state of the generating unit, characterized in that a program unit 5 for setting the code for the structure of the output sequence is entered, a unit 7 for analyzing the structure of the output sequence, a unit 6 for comparing codes and generating, when they coincide, the input action on the generation unit, which ensures It changes the sequence of the output sequences at random times determined by the structure of the output sequences, and leads to an increase in the length of non-repeating output sequences, improves the randomness characteristics of the sequences generated by the generator.

The output of the block 1 for generating clock pulses is connected to the clock inputs of all the other blocks of the generator and is designed to clock and synchronize their work, block 2 controls the processes of entering into block 4 from an external device codes for initial configuration of the feedback structure and the initial state of generation block 3, input in block 5 of the structure code of the output sequence, generates start and stop signals of the generation process, its outputs are connected to the recording permission inputs from an external device codes unit 4, an input permission to enter the code of the structure of the output sequence of block 5, an input to enable the installation of the initial state of block 3, reset inputs to the initial state of block 6 and block 7, start and stop inputs of the clock generation block 1, the outputs of block 3 are connected to the inputs setting the feedback structure and the installation inputs to the initial state of the generating unit 4, the output of which is the output of the generator and connected to the first input of the unit 7, performing structural analysis of the output sequences, the output of which is connected to one of the inputs of the code comparison unit 6, the second input of which is connected to the output of block 5, the output of block 6 is connected to the input of the generation unit 4 and the input of the control and adjustment unit 2, the outputs of which are connected to the input settings of the initial state of block 6 and block 7 to continue the analysis of the structure and repeated influences on the course of the generation process each time an output sequence of a given structure is formed at the generator output

Figure 1 shows the structure of the pseudo-random sequence generator, which shows the main blocks: clock generation unit 1, control and adjustment unit 2, pseudo-random sequence generation unit 4, block 3 for setting the feedback structure and the initial state of the register of the generation unit, block 5 of software setting a code for the structure of the output sequences, block 7 for analyzing the structure of the output sequence, block 6 for comparing the codes and generating an action signal on the generation block for changing the order of the output states of the generator.

Before starting the generator from an external device under the control of block 2, codes for setting the feedback structure and the initial state of generation block 4 are entered into block 3; code 5, which determines the nature of the functional relationship between the course of the generation process and the structure of the output sequences, is entered into block 5, for example, the number of characters is set 1 in the output sequence, after the appearance of which a signal is generated that changes the course of the generation process.

The feedback structure code acts on the inputs of generation block 4 during the entire generation process, the initial state code of this block is entered into the register medium by the signal from control unit 2 and sets the registers of block 4 to the initial state. After setting the registers of block 4 to the initial state, clock pulses are sent to the clock inputs of block 4, with the arrival of each of which the generation block 4 goes into a new state, forming pseudorandom binary sequences at the output. The generated sequences are fed to the input of analysis block 7, in which operations defined by software are performed on them, the result code of these operations is compared in block 6 with the code specified in block 5, and determines the moments of the formation of the signal input to the generation block 4, which changes the current its state and the sequence of the sequence of output states, the same signal is supplied to the control and adjustment unit 2, which sets the blocks 6 and 7 to the initial state, preparing the blocks for repeated opera nations analysis, comparison and changes in the sequence of states. For example, if the functional dependence of the course of the generation process involves changes in the course of the generation process for each occurrence at the output of the generation unit 4 of a given number of pulses corresponding to binary symbols 1, block 7 will calculate the number of signals corresponding to symbol 1, compare in block 6 with the number recorded in block 5, if the codes of numbers coincide, generate an output signal of a change in the course of the generation process at the output. The termination of the generation process is reduced to the termination of the supply to the inputs of the generation unit 4 clock pulses from block 1, the stop can be organized by a signal generated autonomously by block 2, or by a signal from an external device.

Figure 2 shows, as an example, the structure of the generator, in which the code of the structure of the output sequence is set to the code of the number of pulses corresponding to symbol 1 at the output of the generating unit 4. The code corresponding to the specified number of pulses at the output of the generating unit 4, after which a signal has been generated for changing the course of the process of forming sequences, it is written from an external device into the code register 5, signals from the output of the generating unit 4 are fed to the input of the analysis unit 7, which is a binary a counter that counts the number of characters 1 at the output of the generating unit 4, the status of the counter outputs is sent to the code comparison circuit 6, the status of the counter outputs is compared in the code comparison unit 6 with the code at the output of the code 5 register, when the codes match, the code comparison unit generates a signal that is fed to the input of generation block 4, changing the current state of the register of this block, and the input of the control and tuning unit 2, at the output of which a binary counter reset signal is generated. After resetting the counter, a new countdown begins, and the process of making changes to the sequence of the output states of the generator continues each time a sequence is generated at the output of the generation unit, the structure of which has a predetermined program number of characters 1.

Literature

1. Kadiev P.A. Omarov G. Generator of pseudorandom sequences of pulses on a homogeneous medium with a software-changing structure. Patent for invention No. 2331915. Bull.№23, 2008

2. Kadiev I.P., Kadiev P.A. Homogeneous register environment with programmable structure. Patent for invention No. 2449347 Bull. No. 12, 2012

Claims (1)

A pseudo-random sequence generator comprising a clock generating unit, a control and tuning unit, a pseudo-random sequence generating unit, a program setting block for the feedback structure and the initial state, characterized in that a program block setting code for the generator output sequence structure code, a block for analyzing the structure of the output generator sequence are entered , a code comparison unit, the output of the clock generation unit is connected to the clock inputs of all of generator blocks, the control and tuning unit is connected to an external device, generates start and stop signals of the generation process, control of program input processes from an external device to the corresponding code blocks defining the feedback structure and the initial state of the generation block, codes defining the output structure at the outputs generator sequences, setting code comparison blocks and analyzing the structure of the output sequence to the initial state, starts and stops the pho block clock pulse generation, the outputs of the block for specifying the feedback structure and the initial state of the pseudo-random sequence generation block are connected to the inputs of the pseudo-random sequence generation block, the output of which is the output of the pseudorandom sequence generator and is connected to the input of the structure analysis block of the output sequences performing structural analysis of the output sequences, output which is connected to the input of the code comparison unit, the second input of which is connected with the output of the unit for setting the structure of the output sequence, the output of which is connected to the input of the control and tuning unit and the input of the pseudo-random sequence generation unit, the coincidence of the codes causes changes in the process of forming pseudo-random sequences, and the control unit and settings reset the code comparison and analysis units output sequence of the generator, to ensure consistent analysis of the structure and repeated effects on the progress of a process at the generator output with each formation of an output sequence with a structure corresponding to a given program from an external device at the generator output.

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