RU2349954C1 - Device for estimation and comparing of functioning efficiency of same organisations - Google Patents

Abstract

FIELD: information technologies.

SUBSTANCE: device contains group of input registers, group of output registers, the block of allocation of the maximum number, two groups of delay devices, group of subtract units, group of adders, group squaring devices, the block of taking the square root, group of switchboards, group of indication blocks, generator of clock impulses, distributor of impulses, group of elements OR, S groups of registers.

EFFECT: increase of accuracy of estimation and comparing of functioning efficiency of the same organisations.

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Description

The invention relates to computer technology and can be used to assess the functioning of similar organizations in order to develop recommendations for improving the quality of their work.

A device for evaluating and comparing the functioning efficiency of organizations of the same type, comprising groups of input registers, a group of subtraction blocks, a group of quadrators, a group of delay elements, a group of adders, a square root extractor, a group of switches, a group of output registers, a group of indication blocks, a clock pulse generator and pulse distributor (Eurasian patent No. 08678, class G06F 17/00, 15/00, 2007).

Evaluation and comparison of the effectiveness of the functioning of similar organizations using this device is as follows. The difference ΔWji between the i-th component of the efficiency vector of the j-th organization Wji is determined:

where M is the number of organizations of the same type;

S is the number of components of the efficiency vector.

If organizations are educational (schools, colleges, institutes, universities, etc.), then, for example, the relative numbers of doctors and candidates of science from the teaching staff, the relative number of graduates who continued to study at a higher level, can appear as Wji values. etc.

When organizations are engaged in the production of any product, then, for example, the relative number of workers having a high rank, the relative number of products having a high quality, and so on can be Wji values.

Then, the difference module δWj for the j-th organization is estimated by the formula:

The smaller δWj, the better the organization functions, since its effectiveness is closest to the effectiveness of the base organization.

The disadvantage of this device is subjectivity, which manifests itself in the process of choosing the magnitude of the components of the efficiency vector of the basic organization Wδj.

The technical result of the claimed invention is to increase the objectivity of evaluating and comparing the effectiveness of the functioning of similar organizations. An increase in objectivity is ensured by the fact that the values of Wδj are not predefined and are not entered using the group of input registers at the beginning of the operation of the device. The values of Wδi are determined during the operation of the device by searching among the same indicators of the efficiency vector of the maximum value, which is one of the values (components) of the efficiency vector of the base organization.

The technical result is achieved in that a device for evaluating and comparing the functioning efficiency of organizations of the same type, containing a group of input registers, a group of subtraction blocks, a group of quadrators, a first group of delay elements (E3), a group of adders, a square root block, a group of switches, a group of output registers , a group of indication blocks, a clock generator and a pulse distributor, the input of which is connected to the output of a clock generator, the first and second outputs of the distributor pulses - respectively, with recording inputs and reading inputs of a group of input registers, which consists of M elements, the information input of each of which is an input for setting the initial information of the device, to which Wji values characterizing the i-th component of the efficiency vector of the j-th organization are received, outputs the first and second elements of the quadrator group consisting of S elements are connected respectively to the first and second inputs of the first element of the adder group consisting of (S-1) elements, and the outputs of the remaining quad starting from the third, are connected to the inputs of the corresponding elements of group E3, consisting of (S-2) elements, the outputs of each of which are connected to the first inputs of the corresponding elements of the adder group, starting from the second element, the outputs of each of which, including the first element and in addition to the last element, they are connected to the second inputs of the subsequent elements of the adder group, and the output of the last element, i.e. The (S-1) -th adder is connected to the input of the square root extraction unit, the output of which is connected to the information inputs of each element of the switch group, consisting of M elements, the outputs of each element of which are connected to the information inputs of the corresponding elements of the group of output registers, consisting of M elements, the outputs of each element of which are connected to the inputs of the corresponding elements of the group of display units, consisting of M elements, from (4 + S) -th to (4 + S + M) -th outputs of the pulse distributor are connected to the control moves respectively from the 1st to the Mth elements of the group of switches and to the recording inputs respectively from the 1st to the Mth elements of the group of output registers, (5 + S + M) -th output of the pulse distributor is connected to the read inputs of each of M elements of the group of output registers, additionally contains a group of elements OR, consisting of S elements, where S is the number of components of the efficiency vector, the second group E3, consisting of M elements, where M is the number of organizations of the same type, from the 1st to the Sth group of registers , each of which consists of M elements and bl ok allocation of the maximum number, the control input of which is connected to the second output of the pulse distributor, and from the 1st to the Mth information inputs of this unit are connected to the outputs of the corresponding elements of the group of input registers, the same outputs of which are connected to the inputs of the corresponding elements of the second group E3, the outputs of each of which are connected to the inputs of the subtracted corresponding elements of the group of subtraction blocks, consisting of M elements, the inputs of each of which are reduced are connected to the output of the allocation block maximum number, and the outputs - with information inputs of the corresponding elements of each group of registers, the outputs of each of which are connected from the 1st to the Mth inputs of each of the S elements of the group of OR elements, the outputs of each of which are connected to the inputs of the corresponding elements of the quadrator group, the third , the fourth and (2 + S) -th outputs of the pulse distributor are connected to the recording inputs of each element of the first, second and third groups of registers, respectively, the second output of the pulse distributor is connected to the control input of the maximization block of the total number, (3 + S) -th, (5 + S) -th and (3 + S + M) -th outputs of the pulse distributor are connected to the read inputs of the first, second and M-elements of each of the S group of registers, respectively.

It should be noted that the maximum number allocation block is not standard. However, it is not necessary to disclose it to the level of standard elements, as there are sources of information in which this disclosure is carried out (for example, ed. Certificate of the USSR No. 1345188, cl. 4 G06F 7/02, 1997).

Figures 1 and 2 show a functional diagram of a device for evaluating and comparing the functioning efficiency of organizations of the same type (to eliminate the cumbersome connection between the pulse distributor and the control inputs of the respective blocks, they are not shown completely, but are indicated by numbering the inputs and outputs); figure 3 shows the sequence diagram of the operation of the claimed device (the ordinates indicate the numbers of the outputs of the pulse distributor, and the abscissa indicates the number of ticks, and the duration of various computational operations (addition and subtraction is one clock, squaring is eight clocks, square root - twenty clock cycles) - in the upper part of figure 3 (for the possibility of execution of the cyclogram adopted S = 6, M = 4, although these values can take arbitrary values).

A device for evaluating and comparing the functioning efficiency of organizations of the same type (Figs. 1 and 2) contains a group 1 of input registers consisting of M elements, a block 2 for allocating the maximum number, a group of 3 subtraction blocks, consisting of M elements, a group of 4 squares, consisting of S elements, the first group of 5 E3, consisting of (S-2) elements, a group of 6 adders, consisting of (S-1) elements, a square root extraction unit 7, a group of 8 switches, consisting of M elements, a group of 9 output registers, consisting of M elements, a group of 10 blocks indications, consisting of M elements, a clock generator 11, a pulse distributor 12, a second group of 13 E3, consisting of M elements, a group of 14 OR elements, consisting of S elements, from the first to the Sth group of 15 registers, each of which consists of M elements, that is, there is a matrix of sizes S × M.

A device for evaluating and comparing the effectiveness of the functioning of similar organizations works as follows. The information inputs of each of the elements of group 1 of the registers (FIGS. 1 and 2) send the values of the first component of the efficiency vector of each of the M organizations: W ₁₁ , W ₂₁ , ..., W _m1 . In this case, the control signal to the recording inputs of this group is supplied from the first output of the distributor 12 pulses, the pace of which is set by the generator 11 clock pulses.

The signal from the second output of the distributor of 12 pulses to the read inputs of each element 1 of the input registers values Wj _{1 are} sent to the information inputs of the maximum allocation unit 2, the control input of which gives a signal to prepare the unit 2 for operation. From the output of this block, the maximum value of the first component of the efficiency vector of each of the M organizations is directed to the inputs of each of the M elements of group 3 of the subtraction blocks that are reduced. This value will be the first component of the efficiency vector of the basic organization W _δ1 . The inputs of the deductible group 3 through the elements of the second group 13 E3 are sent the values of W _j1 .

From the outputs of group 3 of the blocks of subtraction, the values ΔW _1i calculated in accordance with formula (1) are fed to the information inputs from the 1st to the Sth group of 15 registers. However, all M values of ΔW _{1i are} recorded only in the elements of the 1st group of registers due to the signal at its recording inputs from the third output of the 12 pulse distributor.

In the future, the operation of the device is repeated in the already described order. In the second group of the S group of 15 registers, the value ΔW _2i is fixed due to the signal from the fourth output of the pulse distributor 12. In the S-th group of 15 registers appears the value of W _mi due to the signal from the (2 + S) -th output of the distributor of 12 pulses. Therefore, all elements from the 1st to the Sth groups of 15 registers will be filled. Moreover, in the first elements from the 1st to the Sth groups of 15 registers, the values ΔWji (ΔW _1i ) for the 1st organization are recorded, and in the last M elements from the 1st to the Sth groups of 15 registers, the values ΔWji ( ΔW _mi ) for the _Mth organization.

засылается на вход блока 7 извлечения квадратного корня. С выхода блока 7 величина δW₁, характеризующая разность между эффективностями функционирования базовой организации и первой организацией, определенная по формуле (2), подается на информационные входы группы 8 коммутаторов.According to the signal from the (3 + S) -th output of the distributor of 12 pulses to the readout outputs of the first elements of each of the 1st to Sth groups of 15 registers, the values ΔW _1i through the corresponding elements of the group of 14 elements OR are fed to the inputs of the group of 4 quadrators, from the outputs the first two elements of which the value ΔW ₁₁ ² and ΔW ₁₂ ² are supplied respectively to the first and second inputs of the first adder of group 6 adders. From the outputs of the remaining elements of group 4 quadrators, starting from the third, the values ΔW _1i ^{2 are} sent through the corresponding elements of the first group 5 E3 to the first inputs of the corresponding elements of group 6 adders, starting from the second. From the output of the last adder of group 6, the value

sent to the input of the square root block 7. From the output of block 7, the value of δW ₁ , which characterizes the difference between the operating efficiencies of the base organization and the first organization, determined by formula (2), is fed to the information inputs of group 8 of the switches.

However, due to the presence of the control signal of the (4 + S) -th distributor of 12 pulses to the control input of the first element of group 8 of switches and to the write input of the first element of group 9 of input registers, the value δW ₁ will be fixed in the first element of group 9. In the future, the operation of the device is repeated according to the scheme already described.

The difference will be that the values of the components of the efficiency vector of the second organization W _2i will be fed to the inputs of the elements of the group of 4 _quadrators . After completion of the second cycle of the device, the value δW _{2 is} sent to the information input of the second element of the group 9 of output registers. The procedure for obtaining the values of δW _{j is} graphically presented on the cyclogram of the operation of the device (figure 3).

After the completion of the Mth process of operation of the device in M elements of group 9 of the output registers (Fig.2), M values of δW _j will be recorded. According to the signal from the (5 + S + M) -th output of the distributor of 12 pulses to the read inputs of the elements of group 9 of the output registers M, the values of δW _j come from the outputs of this group to the corresponding elements of group 10 of the display units.

By visual analysis, by comparing the value of δW _j , those organizations that have the least functioning efficiency (the highest value of the value of δW _j ) are determined and need to develop recommendations for improving the quality of their work.

Thus, the technical result is achieved not at the expense of the mathematical apparatus, but at the expense of the technical means (blocks and elements) mentioned in the process of describing the operation of the device, which makes it possible to increase the objectivity of evaluating and comparing the functioning efficiency of similar organizations. This makes it possible to reduce the subjectivity and the influence of any individual impact on the final result, which allows to improve the quality of evaluation and comparison of effectiveness.

The industrial applicability of the invention is justified by the fact that it can be used in different areas (industries) in the calculations associated with the development of recommendations for improving the quality of work of similar organizations.

Claims (1)

A device for evaluating and comparing the functioning efficiency of organizations of the same type, comprising a group of input registers, a group of subtraction blocks, a group of quadrators, a first group of delay elements (E3), a group of adders, a square root extraction block, a group of switches, a group of output registers, a group of indication blocks, a generator clock pulses and a pulse distributor, the input of which is connected to the output of the clock generator, the first and second outputs of the pulse distributor, respectively, with the recording inputs and reading inputs of a group of input registers, which consists of M elements, the information input of each of which is an input for setting the initial information of the device, to which Wji values characterizing the i-th component of the efficiency vector of the j-th organization are received, the outputs of the first and second elements of the quadrator group consisting of S elements are connected respectively to the first and second inputs of the first element of the adder group consisting of (S-1) elements, and the outputs of the remaining quadrants, starting from the third, are connected to the input the corresponding elements of group E3, consisting of (S-2) elements, the outputs of each of which are connected to the first inputs of the corresponding elements of the adder group, starting from the second element, the outputs of each of which, including the first element and except the last element, are connected to the second inputs subsequent elements of the adder group, and the output of the last element, that is, the (S-1) -th adder, is connected to the input of the square root extraction unit, the output of which is connected to the information inputs of each of the elements of the commutator group ditch, consisting of M elements, the outputs of each element of which are connected to the information inputs of the corresponding elements of the group of output registers, consisting of M elements, the outputs of each element of which are connected to the inputs of the corresponding elements of the group of indication blocks, consisting of M elements, with (4 + S) the (4 + S + M) -th outputs of the pulse distributor are connected to the control inputs, respectively, from the 1st to the Mth elements of the switch group and to the recording inputs, respectively, from the 1st to the Mth elements of the group of output registers, ( 5 + S + M) output p a pulse distributor is connected to the read inputs of each of the M elements of the group of output registers, characterized in that it further comprises a group of OR elements, consisting of S elements, where S is the number of components of the efficiency vector, the second group E3, consisting of M elements, where M is the number of organizations of the same type, from the 1st to the Sth group of registers, each of which consists of M elements and a maximum number allocation unit, the control input of which is connected to the second output of the pulse distributor, and from the 1st to the Mth information The input inputs of this block are connected to the outputs of the corresponding elements of the group of input registers, the same outputs of which are connected to the inputs of the corresponding elements of the second group E3, the outputs of each of which are connected to the inputs of the subtracted corresponding elements of the group of subtraction blocks, consisting of M elements, the inputs of each of which are reduced connected to the output of the maximum number allocation unit, and the outputs to the information inputs of the corresponding elements of each group of registers, the outputs of each of which are connected to 1- on the Mth inputs of each of the S elements of the group of OR elements, the outputs of each of which are connected to the inputs of the corresponding elements of the quadrator group, from the third to the (2 + S) th outputs of the pulse distributor are connected to the recording inputs of all elements in the register groups from the first according to the S-th group, respectively, the second output of the pulse distributor is connected to the control input of the maximum number allocation unit, the (3 + S) -th, (5 + S) -th and (3 + S + M) -th outputs of the pulse distributor are connected to read inputs, respectively, of the first, second and M-x elements to each from the S group of registers.

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