RU2410750C1 - Apparatus for evaluating performance of scientific research and developmental work - Google Patents

Abstract

FIELD: physics, signalling. ^ SUBSTANCE: invention relates to computer engineering and can be used to evaluate performance of scientific research and developmental work, for their objective evaluation overall and during steps of the process. The apparatus for evaluating performance of scientific research and developmental work has a group of input registers, a group of logarithmation units, a group of inverters, a group of delay elements, a group of multipliers, a group of accumulative adders, an accumulative adder, a group of dividers, a divider, a switch, a group of output registers, an output register, a group of indicator units, an indicator unit, a clock pulse generator and a pulse distributor. ^ EFFECT: selection of the optimum version of scientific research and developmental work and cutting on implantation time thereof. ^ 4 dwg, 3 tbl

Description

The invention relates to computer technology and can be used to evaluate the implementation of research and development (R&D) in order to objectively evaluate the performance of the work as a whole and by its stages.

The applicant does not know that such a technical problem should be solved. This is due to the fact that information theory methods are not used, in particular, entropy estimates as a criterion for determining the reality of R&D taking into account the time and amount of funding.

The technical result of the claimed solution is the selection of the “optimal” (rational) R&D option. At the same time, such important indicators as the time of R&D and the costs of their implementation should be taken into account.

The choice of a “non-optimal” R&D option can lead to a failure to fulfill the technical task, production of low-quality products and, consequently, to significant material losses.

The results obtained are the starting points for decision makers (DM) - the Customer and the Contractor when agreeing on the conditions for R&D (Technical Assignment and Contract), as well as to monitor the performance of work at all its stages.

Evaluation of R&D can be carried out as follows. The value of the entropy H _{i of} performing R&D with respect to the i-th parameter is determined:

i = 1, ..., n; j = 1, ..., k,

where p _ij is the probability of the feasibility of the i-th parameter in the process of performing R&D according to the j-th expert (these values are assigned (set) by experts in the conditions of the pre-established time of the R&D and the cost of its implementation);

b _j - coefficient taking into account the qualification (competence) of the j-th expert;

k is the number of experts;

n is the number of parameters implemented in R&D.

выполнения НИОКР относительно i-го параметра по следующей формуле:Next, the average value of entropy is determined

R&D with respect to the i-th parameter according to the following formula:

The entropy value H _{iΣ of the} influence of the i-th parameter on R&D performance is determined by the following dependence:

i = 1, ..., n; j = 1, ..., k,

- вероятность влияния i-го параметра на выполнение НИОКР по мнению j-го эксперта (эти величины задают эксперты, которые учитывают заранее установленные время выполнения НИОКР и затраты на ее проведение).Where

- the probability of the influence of the i-th parameter on R&D performance in the opinion of the j-th expert (these values are set by experts who take into account the pre-established time of R&D and the costs of its implementation).

влияния i-го параметра на выполнение НИОКР:Subsequently, the average value of entropy is estimated

the influence of the i-th parameter on R&D:

i = 1, ..., n

In conclusion, the value of H _{Σ of the} entropy of R&D is determined by the formula:

i = 1, ..., n

и H_Σ. Значения

характеризуют неопределенность выполнения НИОКР относительно i-го параметра и может быть использована Заказчиками и Исполнителями НИОКР.The output values will be the values

and H _Σ . Values

characterize the uncertainty of R&D performance relative to the i-th parameter and can be used by Customers and R&D Contractors.

The value of H _Σ allows you to choose the "optimal" (rational) option for the implementation of R&D in terms of funding, timing and number of parameters implemented.

, а в таблице 3 - значения b_j.To illustrate, consider a specific example for the case when n = 5, and k = 4. Table 1 shows the values of p _ij , in table 2 - values

, and in table 3 - values b _j .

In accordance with formula (1) we will have:

H ₁ = 0.497; H ₂ = 0.316; H ₃ = 0.508; H ₄ = 0.867; H ₅ = 0.730

After averaging by the formula (2), we obtain:

_{Estimates of} H _iΣ by formula (3) will have:

H _1Σ = 0.606; H _2Σ = 1.105; H _3Σ = 0.532; H _4Σ = 0.761; H _5Σ = 0.532

Averaging these results by formula (4), we obtain:

Using formula (5), we finally calculate the entropy of R&D:

H _Σ = 0.177

In the future, performing similar calculations for other R&D options (given conditions for R&D fulfillment - parameters, terms and volumes of financing), it is necessary to compare the values of H _Σ and choose the option that corresponds to the minimum value of this entropy value.

The decision maker (DM), taking into account the obtained calculation results, makes the final choice of the R&D option both in terms of the parameters of the future scientific and technical products (products) and the terms of its implementation.

, характеризующие вероятности влияния i-го параметра на выполнение НИОКР по мнению j-го эксперта, информационные входы третьей группы входных регистров являются входом задания исходной информации, на которые поступают значения b_j, характеризующие коэффициенты квалификации (компетентности) j-го эксперта, информационные входы первого и второго входных регистров являются входом задания исходной информации, на которые поступают соответственно значения n, характеризующие количество параметров, отрабатываемых в НИОКР, и величина к, характеризующая число экспертов, выходы первой и второй групп входных регистров соединены со входами соответственно первой и второй групп блоков логарифмирования, а также первой и второй групп ЭЗ, выходы первой и второй групп логарифмирования подключены к входам соответственно первой и второй групп инверторов, выходы которых соединены с первыми входами соответственно первой и третьей групп блоков умножения, вторые входы которых подключены к выходам соответственно первой и второй групп ЭЗ, выходы с первого по к-ый элементов третьей группы входных регистров соединены с первыми входами соответственно с первого по n-ый элементов каждого из к вертикальных рядов второй группы блоков умножения, вторые входы которой подключены к выходам соответствующих элементов первой группы блоков умножения, выходы с первого по к-ый элементов каждого из n горизонтальных рядов второй и третьей групп блоков умножения соединены с первого по к-ый входами соответственно с первого по n-ый элементов первой и второй групп накопительных сумматоров, выходы которых подключены к входам делимого соответствующих элементов первой и второй групп блоков деления, входы делителя которых соединены соответственно с первым и вторым выходами коммутатора, информационный вход которого подключен к выходу второго входного регистра, выходы первой группы блоков деления подключены к информационным входам соответствующих элементов группы выходных регистров, выходы которых соединены с входами соответствующих элементов группы блоков индикации, выходы второй группы блоков деления подключены к соответствующим входам накопительного сумматора, выход которого соединен с входом делимого блока деления, вход делителя которого подключен к выходу первого входного регистра, а выход - к информационному входу выходного регистра, выход которого соединен с входом блока индикации.The technical result is achieved by the fact that the device for evaluating the implementation of research and development includes the first and second groups of input registers, each of which consists of k × n elements, the third group of input registers, consisting of k elements, the first and second input registers, the first and second groups of logarithm blocks, each of which consists of k × n elements, the first and second groups of delay elements (EZ), each of which consists of k × n elements, the first and second groups of inverters, each of which consists of k × n elements, the first, second and third groups of multiplication blocks, each of which consists of k × n elements, the first and second groups of accumulative adders, each of which consists of n elements, the accumulative adder, the first and second groups division blocks, each of which consists of n elements, a division block, a switch, a group of output registers consisting of n elements, an output register, a group of indication blocks consisting of n elements, an indication block, a clock generator and a pulse distributor (RI ), the clock input of which is connected to the output of the clock generator, the first output of the RI - with the recording inputs of the first, second and third groups of input registers, the first and second input registers, the second and third outputs - with the read inputs of the first and second groups of input registers, the fourth output - with read inputs of the third group of input registers, the fifth output - with the read input of the second input register, the sixth output - with the control input of the switch, the seventh output - with the read input of the first input, register and eighth and ninth outputs - to the inputs of respectively writing and reading groups of output registers, tenth and eleventh outputs - to the inputs of respectively writing and reading of the output register data inputs of the first group of input registers are input reference source information, which are supplied with the values p _ij, characterizing the probabilities of the feasibility of the ith parameter in the process of performing research and development (R&D) according to the j-th expert, the information inputs of the second group of inputs GOVERNMENTAL registers are reference inputs initial information to which the received values

, characterizing the probabilities of the influence of the i-th parameter on R&D performance, according to the j-th expert, the information inputs of the third group of input registers are the input of the input of the initial information, to which b _j values characterizing the qualification (competence) coefficients of the j-th expert, information inputs the first and second input registers are the input input of the initial information, which receives respectively the values of n, characterizing the number of parameters worked out in R&D, and the quantity k, the character The current number of experts, the outputs of the first and second groups of input registers are connected to the inputs of the first and second groups of logarithms, as well as the first and second groups of EZ, the outputs of the first and second groups of logarithms are connected to the inputs of the first and second groups of inverters, the outputs of which are connected to the first inputs of the first and third groups of multiplication blocks, respectively, the second inputs of which are connected to the outputs of the first and second groups, respectively, the outputs from the first to the k-th elements of the third group of input x registers are connected to the first inputs, respectively, from the first to the n-th elements of each of the vertical rows of the second group of multiplication blocks, the second inputs of which are connected to the outputs of the corresponding elements of the first group of multiplication blocks, the outputs from the first to the k-th elements of each of the n horizontal rows the second and third groups of multiplication blocks are connected from the first to the k-th inputs, respectively, from the first to the n-th elements of the first and second groups of accumulative adders, the outputs of which are connected to the inputs of the dividend, respectively elements of the first and second groups of division blocks, the divider inputs of which are connected respectively to the first and second outputs of the switch, the information input of which is connected to the output of the second input register, the outputs of the first group of division blocks are connected to the information inputs of the corresponding elements of the group of output registers, the outputs of which are connected to the inputs the corresponding elements of the group of indication blocks, the outputs of the second group of division blocks are connected to the corresponding inputs of the accumulative adder, the output of which connected to the input of the divisible division unit, the input of the divider of which is connected to the output of the first input register, and the output to the information input of the output register, the output of which is connected to the input of the display unit.

Figure 1 and 2 presents a functional diagram of a device for evaluating the implementation of research and development (to eliminate the cumbersome connection between the RI and the control inputs of the respective blocks are not shown completely, but are indicated by the numbering of inputs and outputs). Figure 3 shows an embodiment of a storage adder.

Figure 4 presents the sequence diagram of the operation of the claimed device (the ordinates indicate the numbers of the outputs of the RI, and the abscissa axis indicates the number of ticks), and the duration of various computational operations (addition is one clock, multiplication is eight clocks, division is sixteen clocks, logarithm is twenty clock cycles) in the upper part of figure 4 (for the possibility of execution of the cyclogram, it is accepted to = 4, n = 5, although these values can take arbitrary values).

A device for evaluating the implementation of research and development work (figures 1 and 2) contains the first 1 and second 2 groups of input registers, each of which consists of k × n elements, the third group of 3 input registers, consisting of k elements, the first 4 and second 5 input registers, the first 6 and second 7 groups of logarithm blocks, each of which consists of k × n elements, the first 8 and second 9 EZ, each of which consists of k × n elements, the first 10 and second 11 groups investors, each of which consists of k × n elements, the first 12, the second 13th and third 14th groups of multiplication blocks, each of which consists of k × n elements, the first 15 and second 16 groups of accumulative adders, each of which consists of n elements, accumulative adder 17, the first 18 and second 19 groups of division blocks, each of which consists of n elements, a division unit 20, a switch 21, an output register group 22, consisting of n elements, an output register 23, a display unit group 24, an indication unit 25, a pulse clock generator 26 and RI 27.

The accumulative adder 15 or 16, or 17 (figure 3) contains (k-2) or (n-2) EZ 28, (k-1) or (n-1) adders, with the first adder 29, all subsequent (except last) adders 30, and the last adder 31.

влияния i-го параметра на выполнение НИОКР по мнению j-го эксперта. На информационные входы каждого из элементов третьей группы 3 входных регистров направляются значения b_j коэффициента, учитывающего квалификацию (компетентность) j-го эксперта. На информационные входы первого 4 и второго 5 входных регистров засылаются соответственно количество n параметров, реализуемых в НИОКР, и число к экспертов. При этом управляющий сигнал на входы записи групп 1, 2 и 3 и регистров 4 и 5 подается с первого выхода РИ 27, темп работы которого задается генератором 26 тактовых импульсов.A device for evaluating the implementation of research and development works as follows. The information inputs of each of the elements of the first group 1 of the input registers are sent probabilities P _ij , the feasibility of the i-th parameter in the process of R&D, according to the j-th expert. Probabilities are given to the information inputs of each of the elements of the second group of 2 input registers

the influence of the i-th parameter on R&D performance, according to the j-th expert. The information inputs of each of the elements of the third group of 3 input registers are sent the values of b _j coefficient taking into account the qualification (competence) of the j-th expert. The information inputs of the first 4 and second 5 input registers are respectively sent the number n of parameters implemented in R&D, and the number of experts. Moreover, the control signal to the recording inputs of groups 1, 2 and 3 and registers 4 and 5 is supplied from the first output of RI 27, the pace of which is set by the clock generator 26.

засылаются на входы соответствующих элементов первой 6 и второй 7 групп логарифмирования соответственно и на входы соответствующих элементов первой 8 и второй 9 групп ЭЗ соответственно. С выходов групп 6 и 7 значения lnp_ij и

поступают на входы каждого из соответствующих элементов первой 10 и второй 11 групп инверторов соответственно.According to the signals from the second and third outputs of RI 27 to the read inputs of each of the elements of the first 1 and second 2 groups of input registers, respectively, the quantities p _ij and

are sent to the inputs of the corresponding elements of the first 6 and second 7 groups of logarithms, respectively, and to the inputs of the corresponding elements of the first 8 and second 9 groups of EZ, respectively. From the outputs of groups 6 and 7, the values lnp _ij and

arrive at the inputs of each of the corresponding elements of the first 10 and second 11 groups of inverters, respectively.

Inverters are needed in order to eliminate the minus after the logarithm of probabilities that are less than one.

подаются на первые входы каждого из соответствующих элементов первой 12 и третьей 14 групп блоков умножения соответственно, на вторые входы которых направляются значения p_ij и

с выходов первой 8 и второй 9 ЭЗ соответственно. С выходов первой группы 12 блоков умножения величины - p_ij(lnp_ij) засылаются на вторые входы каждого из соответствующих элементов второй группы 13 блоков умножения, на первые входы которых по сигналу четвертого выхода РИ 27 на входы считывания каждого из элементов третьей группы 3 входных регистров подаются значения b_i. Причем величина b₁ засылается на все n элементов первого вертикального ряда, b₂ - на все n элементов второго вертикального ряда и т.д. Значения b_к. направляются на первые входы всех n элементов к-го вертикального ряда.From the outputs of groups 10 and 11, the quantities - lnp _ij and -

fed to the first inputs of each of the corresponding elements of the first 12 and third 14 groups of multiplication blocks, respectively, to the second inputs of which the values p _ij and

from the outputs of the first 8 and second 9 EZ, respectively. From the outputs of the first group of 12 blocks of multiplication, the quantities p _ij (lnp _ij ) are sent to the second inputs of each of the corresponding elements of the second group of 13 blocks of multiplication, to the first inputs of which, by the signal of the fourth output of RI 27, to the read inputs of each of the elements of the third group of 3 input registers b _i values are given. Moreover, the value of b _{1 is} sent to all n elements of the first vertical row, b ₂ - to all n elements of the second vertical row, etc. Values b _to . sent to the first inputs of all n elements of the k-th vertical row.

From the outputs of the second group of 13 blocks of multiplication, the quantities p _ij (lnp _ij ) b _{j are} sent to the inputs of the first group 15 of accumulative adders. Moreover, these values from the outputs from the first to the k-th horizontal rows of group 15 are fed to the inputs from the first to k-th, respectively, from the first to the n-th elements of the first group 15 of accumulative adders. Due to this, from the output of each element of group 16, the values of H _i , determined by formula (1), are sent to the inputs of the dividend of the corresponding elements of the first group 18 of division blocks, to the inputs of the divider of which from the first output of the switch 21 the value of the number of experts k is supplied. The value of k is sent to the information input of the switch 21 according to the signal from the fourth output of the RI 27 to the read input of the second input register 5. The signal to the control input of the switch 21 is sent from the sixth output of the RI 27.

определенные по формуле (2), подаются на информационные входы соответствующих элементов группы 22 выходных регистров, на входы записи которых управляющий сигнал подается с восьмого выхода РИ 27.From the outputs of each element of the group 18 values

defined by formula (2), are fed to the information inputs of the corresponding elements of group 22 of the output registers, to the recording inputs of which the control signal is supplied from the eighth output of RI 27.

с выхода каждого элемента этой группы засылаются на входы соответствующих элементов группы 24 блоков индикации для наглядного отображения.According to the signal from the ninth output of RI27 to the read inputs of a group of 22 output registers of magnitude

from the output of each element of this group are sent to the inputs of the corresponding elements of group 24 of display units for visual display.

The accumulative adder 15 or 16, or 17 (figure 3) works as follows. The values to be added come from the outputs of blocks 13 or 14, or 19. Moreover, the first two values of these values are supplied respectively to the first and second inputs of the first adder 29, and all subsequent values are sent to the inputs of the EZ 28. From the outputs of all adders, except the last 31, the summation results are sent to the first inputs of subsequent adders, the second inputs of which from the outputs of the EZ 28 are sent the values to be added. The last of these values from the output of the last EZ 28 is fed to the second input of the last adder 31. From the output of which the result of the accumulative summation is fed to the inputs of blocks 18 or 19, or 20.

From the outputs of the third group of 14 multiplication blocks (FIGS. 1, 2), the quantities - p _ij lnp _{ij are} sent to the inputs of the second group 16 of accumulative adders. Moreover, these values from the outputs from the first to the k-th horizontal rows of group 16 are fed to the inputs from the first to k-th, respectively, from the first to the n-th elements of the second group 16 of accumulative adders. Due to this, from the output of each element of group 16, the values of H _iΣ determined by formula (3) are sent to the inputs of the dividend of the corresponding elements of the second group 19 of division blocks, the values of k are supplied to the inputs of the divider of which from the second output of the switch 21. The value of k is sent to the information input the switch 21 according to the signal from the fourth output of the RI 27 to the read input of the second output register 5. The signal to the control input of the switch 21 in this case is not supplied.

определенные по формуле (4), подаются соответственно на входы с первого по n-ый накопительного сумматора 17, с выхода которого величина

направляется на вход делимого блока 20 деления. По сигналу с седьмого выхода РИ 27 на вход считывания первого входного регистра 4 значение количества параметров n, реализуемых в НИОКР, засылается на вход делителя блока 20. С выхода этого блока величина H_Σ, вычисленная по формуле (5), подается на информационный вход выходного регистра 23, на вход записи которого управляющий сигнал направляется с десятого выхода РИ 27.From the outputs of each element of group 19 values

defined by the formula (4), respectively, are fed to the inputs from the first to the n-th accumulator adder 17, from the output of which the value

sent to the input of the divisible division block 20. According to the signal from the seventh output of RI 27 to the read input of the first input register 4, the value of the number of parameters n implemented in R&D is sent to the input of the divider of block 20. From the output of this block, the value of H _Σ calculated by formula (5) is fed to the information input of the output register 23, the input of the recording of which the control signal is sent from the tenth output of the RI 27.

According to the signal from the eleventh output of RI 27 to the read input of the output register 23, the value of H _Σ from its output is sent to the input of the display unit 25 for visual display. The order of operation of the device is presented on the cyclogram of its operation (figure 4).

Thus, the technical result of the claimed invention is achieved not due to the mathematical apparatus, but using the technical means (blocks and elements) mentioned in the description of the operation of the device. The described device allows the selection of the “optimal” (rational) R&D option in order to eliminate the failure to fulfill the technical specifications and significant material costs due to the production of low-quality (non-competitive) products.

The decision makers are presented with objective assessments of R&D performance of a wide range of parameter values and work performance conditions, which eliminates subjectivity in this matter.

The industrial applicability of the invention is justified by the fact that it can be used in various fields (industries) of production when choosing a rational R&D option and evaluating its implementation.

Claims (1)

A device for evaluating the performance of research and development works contains the first and second groups of input registers, each of which consists of k × n elements, the third group of input registers consisting of k elements, the first and second input registers, the first and second groups logarithm blocks, each of which consists of k × n elements, the first and second groups of delay elements (EZ), each of which consists of k × n elements, the first and second groups of inverters, each of which consists of k × n elements, the first , the second and third groups of multiplication, each of which consists of k × n elements, the first and second groups of accumulative adders, each of which consists of n elements, the accumulative adder, the first and second groups of division blocks, each of which consists of n elements, block divisions, switch, group of output registers, consisting of n elements, output register, group of display units, consisting of n elements, display unit, clock generator and pulse distributor (RI), the clock input of which is connected to the output of the generator a torus of clock pulses, the first output of the RI - with the recording inputs of the first, second and third groups of input registers, the first and second input registers, the second and third outputs - with the read inputs of the first and second groups of input registers, the fourth output - with the read inputs of the third group input registers, the fifth output - with the read input of the second input register, the sixth output - with the control input of the switch, the seventh output - with the read input of the first input register, the eighth and ninth outputs - with inputs respectively enno recording and reading groups of output registers, tenth and eleventh outputs - to the inputs of respectively writing and reading of the output register data inputs of the first group of input registers are input reference source information, which are supplied with the values p _ij, characterizing the probability realizability i-th parameter in the process performance of research and development (R&D) according to the j-th expert, the information inputs of the second group of input registers are inputs of the original For information, which are supplied with the values

, characterizing the probabilities of the influence of the i-th parameter on R&D performance, according to the j-th expert, the information inputs of the third group of input registers are the input of the input of the initial information, to which b _j values characterizing the qualification (competence) coefficients of the j-th expert, information inputs the first and second input registers are the input input of the initial information, which receives respectively the values of n, characterizing the number of parameters worked out in R&D, and the quantity k, the character The current number of experts, the outputs of the first and second groups of input registers are connected to the inputs of the first and second groups of logarithms, as well as the first and second groups of EZ, the outputs of the first and second groups of logarithms are connected to the inputs of the first and second groups of inverters, the outputs of which are connected to the first inputs of the first and third groups of multiplication blocks, respectively, the second inputs of which are connected to the outputs of the first and second groups of EZ, respectively, the outputs from the first to the k-th elements of the third group are input registers are connected to the first inputs, respectively, from the first to the n-th elements of each of the vertical rows of the second group of multiplication blocks, the second inputs of which are connected to the outputs of the corresponding elements of the first group of multiplication blocks, the outputs from the first to the k-th elements of each of the n horizontal rows of the second and the third group of multiplication blocks are connected from the first to the k-th inputs, respectively, from the first to the n-th elements of the first and second groups of accumulative adders, the outputs of which are connected to the inputs of the dividend of the corresponding elements entents of the first and second groups of division blocks, the divider inputs of which are connected respectively to the first and second outputs of the switch, the information input of which is connected to the output of the second input register, the outputs of the first group of division blocks are connected to the information inputs of the corresponding elements of the group of output registers, the outputs of which are connected to the inputs the corresponding elements of the group of indication blocks, the outputs of the second group of division blocks are connected to the corresponding inputs of the accumulative adder, the output of which is connected nen with the input of the divisible division block, the input of the divider of which is connected to the output of the first input register, and the output to the information input of the output register, the output of which is connected to the input of the display unit.

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