SU1051538A1 - Device for forming system of dependent random events - Google Patents

Abstract

DEVICE FOR THE DETERMINATION OF THE SYSTEMS OF THE STAY cjiy4Ai-iaibix EVENTS, containing the t-sequence generator, the code register group of multiplexers, characterized in that, in order to spread the functionality of the device by setting the conditional probabilities of events, it contains a group of adders, the first groups of inputs of which are connected to The corresponding groups of outputs of the generator are t-successive, -1, the second groups of inputs of the adders of the group are connected to the corresponding lean groups of outputs of the code register, the output of the first totalizer The group p is the first output of the device and is connected to the first control inputs of the group multiplexers, the multiplexer output (i 1., n is the number of multiplexers — the group) is the (i + l) -M output of the device and is connected to (| +1 ) are the control inputs of all, starting with (+} - go, group multiplexers, iS output of the group multiplexer (L is (n + l) -M device output, outputs of all but the first, summers The groups are connected to the corresponding, 1np-sh informational inputs of the corresponding multiplexers of the group.

Description

The invention relates to computing technique and can be used as a source of dependent random event systems necessary for static modifying; physical processes with different one-dimensional distribution laws. A device for generating pseudo-random numbers is known, containing shift registers with modulo-two adders in the feedback circuits. zi ij. However, using such a device, it is impossible to obtain random numbers with given number distribution laws. (The closest technical solution to the present invention is a device containing a t-sequence generator, a master register and a group of multiplexers, whose address inputs are connected to the generator outputs and a t-sequence, respectively, and the channel inputs of a group of multiplexers are connected to the master register outputs, respectively 21, The known device allows to receive n independent events and does not have a circuit solution to ensure their dependency and assign conditional probabilities of events. and - creation of a device for generating a system of dependent random events, in which the events at each i-th output depend on the events at all (il) -x outputs of the device, and: setting the conditional probabilities of the events. dependent random event systems containing a t-sequence generator, a code register, a group of multiplexers, a group of adders are entered, the first groups of inputs of which are connected to the corresponding groups of outputs of the generator groups of adders of the group are connected to the corresponding groups of outputs of the code register, the output of the first group adder is the first output of the device and connected to the first control inputs of the multiplexers of the group, the output of the multiplexer (i 1, n-1, n is the number of multiplexers in the group ) Is the (i-fl) - M output of the device and is connected to the jTipaB-riHron (MH) inputs of all, starting with (i + O-rOj, group multiplexers, the output of the n-th group multiplexer is ( 1) the output of the device, the output of all but the first group adders are connected to otvetstvugoaschmi informats.ionnp.da inputs of the respective multiplexers group. The drawing shows a block diagram of the device. The device contains the generator of the I-sequence, a group of multiplexers 2,1, 2.2, ... 52.p with inputs .3.1, ..., 3.p, 4.1, 4.2, ..., 4.2, register 5 code and group sum 1 1 6. The device operates as follows. Pseudo-random numbers generated in any K generator bits are fed to one of the inputs of the K-bit adder 6, to the other input of the adder 6 a constant 5 is applied specified by the register 5. If the sum of the numbers is fed to the adder less than 2, then the transfer output adder 6 will be zero, if more than 2 - I, then the output of the transfer of adder 6 will be one. Since the probability of occurrence of any state output of the generator, the probability is greater. The transfer of the sumator of 6 nitsy will be equal to where. N is the number specified on the other input of the adder and the value of which lies within the limits., From zero to 2 - 1. Thus, at the output of the transfer of adders 6, binary sequences are formed, with the probability of .JiMH appearing zero in one; er-ii iMM with corresponding numbers located in the assigning register e 5. with a predetermined accuracy, avna -Jk-Multiplexers 2 serve to form the output values of the orders, and the likelihood of u and c in i- m bit de depends on the values and previous bits ,. since the output of the multiplexer is connected to the binary sequence from that information input, the code of which corresponds to the code and to the address inputs 3, formed by the output signals of the previous bits.

Specifying the probability of occurrence of zeros and units of the next bit: depending on the occurrence of zeros and; units in all previous bits allows you to get a random signal with any value over 0515384

according to the one-dimensional distribution law.

The device makes it possible to obtain a random sequence of dependent events with values of conditional probabilities assigned with the -Af value, with the number of events and the accuracy, the probability of their occurrence being set independently from each other.

Claims (1)

DEVICE FOR FORMING A SYSTEM OF DEPENDENT 'RANDOM EVENTS, containing a t-sequence generator, a code register, a group of multiplexers, characterized in that, in order to expand the functionality of the device by setting conditional probabilities of events, it contains a group of adders, the first groups of inputs of which are connected to the corresponding the table of outputs of the t-sequence generator, the second groups of inputs of the adders of the group are connected to the corresponding groups of outputs of the code register, the output of the first group group is the first output of the device and connected to the first control inputs of the group multiplexers, the output of the ΐ-th multiplexer (ί = 1. p-1, η is the number of multiplexers of the T group) is the (1 + 1) -th output of the device and is connected to ( 1 + 1) -th control inputs of all, starting with (i +!) - ro, group multiplexers, § the output of the nth. Group multiplexer is the (n + 1) -th output of the device, the outputs of all but the first, adders groups are connected to the corresponding information inputs of the corresponding group multiplexers. SU „„ 1051538