SU264776A1 - - Google Patents

Description

DEVICE FOR COMPARING BINARY NUMBERS

The present invention relates to devices of discrete automation and computer technology, in which the transmission and transformation of consecutive code groups of binary numbers following the high bits ahead are performed.

A known circuit for determining the larger of two binary numbers on magnetic elements with a rectangular hysteresis loop (BCP). This scheme allows to determine the larger of the two numbers supplied to its inputs. The circuit contains six magnetic elements with BCP.

The aim of the invention is to expand the possibilities of the known scheme.

The invention consists in the serial connection of the exclusion scheme and the selective key scheme, as well as in the creation of additional output, as a result of which, instead of two operations, the proposed scheme performs three.

The scheme of the proposed device uses the principle of random comparison of numbers. A large number is that in which in one of the most significant bits it is “1, while in the second number it is“ O. If in one of the numbers the most significant bit is “1, then this number is greater than the other. With the same characters in the first or) a few higher bits, a large number will be the one in which, during sequential viewing, starting with the higher bits (left on the right), in the same bit of view, “1” and the other “O.

In the foregoing, it follows that the process of determining the larger of the two numbers in a bitwise comparison can begin only at the moment of occurrence in one of the higher digits (when viewed from left to right) of different characters. This bit can be called “decisive. The location of the defining bit for a given number of bits of the numbers being compared depends on the time required to determine a larger number.

Pa figs. 1 shows a diagram of a device for comparing numbers; in fig. 2 - time diagram of the device.

The first two magnetic elements 5i "E." are the buffer elements of the exclusion circuit. Outgoing numbers / 1 and B arrive at them. The output windings WB of each of these elements are connected to one of the windings of the record Wy of the next element Back or E and the compensation winding W of element E or 5; j, respectively (exception schemes).

ment 5 key

("Managed

shunt circuit).

The device works as follows.

The binary numbers L and B received at the inputs of the device are recorded on the cores of the elements E and 9z. Further, upon the action of advancing their pulses along the winding in a period of / 1, the recorded information simultaneously arrives at the input and compensating li / K windings of elements 5z E (see Fig. 1).

If at the moment of comparison, the same characters "1 appear in the same-digit bits of both numbers, then when copying information from E elements and E elements, compensation will occur and there will be no recording of these elements.

If, on the outputs of elements 3i and Pro, there are mismatch characters ("O or" 1, or Vice versa), then the information will be written to one 1 of elements E or 4. The subsequent clock pulse fa will then read the recorded information. This information enters the outputs C or O through a kind of selective key device, the role of which is performed by the magnetic element E, operating in the "controlled shunt" mode.

The inclusion of the magnetic element Z3 makes it possible to reveal the moments of the phenomena of the "determining bits." Simultaneously with the detection of the “determining discharge,” only one pulse arrives at one of the C or D outputs (see the timing diagram, Fig. 2, sections L S and L 5).

Before each input of numbers, the core ma-g / NIT of the E element, using the reset impulse (see Fig. 2), is set to the "O" state, which conditionally corresponds to the open position of the "controlled shunt".

The inductive resistance of the input winding of the E element in the state "O (the controlled shunt is open) will be large enough as opposed to the case in which its core is in the state 1 (the controlled shunt is closed,; when it is small enough) .

The magnetic element E (the controlled shunt) plays the role of a selective key of the device, which, upon pushing a sequence of pulses onto it, closes after the first pulse of this sequence and remains closed until the arrival of an impulse pulse. In the closed state of the key device (or the stabilized shunt), the pulses following the first one do not pass to the output.

If at the moment of the appearance of the "determining discharge" a pulse arrives from the output winding of the magnetic element E-, then a pulse is extracted at the output C, which means that the number is.

In the other case, when, at the moment of the appearance of the determining discharge, a pulse at the output D comes from the element E.

In case of equality of the compared numbers, i.e., pulses at the outputs C-a. D scheme will not be.

To simplify the review of the operation of the device on the timing diagram (Fig. 2), an example is given of the comparison of numbers with a 4-bit code; “The weight of each of the bits is indicated, and the code groups of numbers are separated from each other by curly brackets.

The proposed device scheme allows comparing numbers for any code value.

The described device for comparing two binary numbers is made entirely on the magnetic elements with BCP. However, in spite of this, it allows information to be removed from outputs C and i) both to similar magnetic elements with BCPs and to other electronic circuits.

Subject invention

A device for comparing binary numbers containing an exclusion circuit and a key circuit made of magnetic elements with a hysteresis core loop, characterized in that, in order to expand the capabilities of the device, the outputs of the exclusion circuit serving as the outputs of the device are connected via diodes to the key circuit input .