JP2013232180A - Search device, search method, and program thereof - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently search for information that approximates a desired search condition by using a search device, a search method, and a program thereof by which previously registered information is searched for from a database.SOLUTION: A search device includes: a target information database that stores target information including information about a plurality of items; search means that searches the target information database for the target information on the basis of a search condition; and search result display means that outputs the target information, which is searched for by the search means, to external output means. The target information includes as information that is registered by a creator of the target information: configuration information of a function block having a predetermined function; a guaranteed specification as performance guaranteed by the function block; and an expected specification as performance that is achieved by partial change of the configuration information.

Description

  The present invention relates to a search device, a search method, and a program for searching for desired target information from a database such as an electronic catalog.

  Conventionally, in the design of a system LSI (Large Scale Integrated circuit), IP (Intellectual Property), which is a functional block designed in advance, has been reused. That is, a user searches for a desired IP from a database in which IP is registered and reuses the IP. As a result, the user can design an LSI having a desired function without assembling a new circuit.

  However, since the system LSI is highly customizable, there may be no IP that satisfies the guarantee specifications required by the user in the database. In this case, there is a problem that the user needs to search for an IP having a function close to the required guaranteed specification by appropriately changing the search condition such as relaxing the specification, which is not efficient.

  In order to solve this problem, Patent Document 1 has a method for setting an ambiguity flag for making an ambiguity in a search condition and a means for setting an ambiguity flag as options when searching for an IP from a database. Search devices have been proposed. When the ambiguity flag is enabled, the search condition is relaxed, and the user can find an IP having a specification close to the desired IP.

JP 2004-46361 A

  By the way, among the IPs obtained by the method of Patent Document 1, the IP obtained by enabling the fuzzy flag is an IP whose conditions are relaxed compared to the guarantee specifications desired by the user. For this reason, in order to obtain an IP that satisfies the guaranteed specifications, it is necessary to modify the IP obtained by the search. Therefore, there is a problem that the user must perform trial and error for examining the correction part and verifying the spec obtained by the correction for the IP obtained by the search, which is not efficient.

  The present invention has been made in view of the above problems, and is a search device, a search method, and a program for searching for information registered in advance from a database, and efficiently searching for information that approximates a desired search condition. An object of the present invention is to provide a search device, a search method, and a program for the same.

In order to achieve the above object, the invention described in claim 1
A target information database in which target information including information about a plurality of items to be searched is stored in advance;
Search condition display means for displaying a search condition input screen including an input field for allowing a user to input search conditions for an item,
Search means for searching the target information database for the target information based on the search conditions input by the user on the search condition input screen displayed by the search condition display means;
A search result display means for outputting the target information extracted by the search means to an external output means,
The target information is
Configuration information of functional blocks having predetermined functions;
Guaranteed specifications as performance guaranteed by functional blocks,
And an expected specification as performance realized by partial change of configuration information.

  According to this, the search means can search not only the guaranteed specifications but also the expected specifications that are different from the guaranteed specifications for a plurality of items. For this reason, the user can find out the target information that matches the expected specifications even if the target information database does not have target information having functional blocks that match the guaranteed specifications. That is, it is possible to find target information (functional block) having a performance approximating the guaranteed specification without the user himself examining and changing the search condition. Therefore, information that approximates the desired search condition can be searched efficiently.

In addition, as described in claim 2,
The target information is
Changes to the configuration information to achieve the expected specifications,
Change scale information indicating the scale of changing the configuration information;
A change information including configuration information change method,
The search means counts the number of items whose configuration information is changed based on the search condition,
The search result display means preferably outputs the number of items whose configuration information is changed together with the target information to the external output means.

  According to this, as a search result displayed by the search result display means, not only the configuration information of the functional block but also the change location of the configuration information for realizing the expected specification, the number of items whose configuration information is changed, the change Scale information and modification methods can be provided. The user confirms the change location, the number of items for which the configuration information is changed, and the change scale information, so that the degree of difficulty for changing the configuration information, the approximate man-hours required to change the configuration information, and , To understand the effect of the change on the functional block. For this reason, the user can more efficiently perform selection of target information to be reused among the extracted target information. That is, it is possible to efficiently examine the availability of the functional block whose configuration information has been changed.

  By the way, in the conventional search device, whether or not the target information (functional block) that falls within the specifications (search conditions) desired by the user can be obtained by the partial change of the configuration information is obtained by the search. There was a problem that it could not be judged from the information provided. On the other hand, in the present invention, since the search method displayed on the external output means includes a method for changing the configuration information, the user can display a desired specification without searching for the change method. Can be definitely obtained. Of the target information registered in the target information database, the expected specification and the change information are registered by the person who created the target information. For this reason, the search device according to the present invention ensures that the expected specification is realized by changing the configuration information based on the change information. Therefore, it is not necessary for the user to verify whether or not a functional block that falls within the required specifications can be obtained by changing the configuration information. That is, the functional block configuration information can be changed more efficiently without searching for a changing method.

Furthermore, as described in claim 3,
The search condition display means displays a priority input field for assigning a priority to each item on the search condition input screen,
Search means are
Based on the search conditions including the priority entered by the user on the search condition input screen, search the target information database for the target information,
It is preferable that all target information is ranked based on the degree of matching with the priority and item search conditions.

  According to this, the user can select reusable target information from the target information database with reference to the rank given to the target information. That is, the user can more efficiently perform selection of target information to be reused among the extracted target information.

As described in claim 4, the search device described above is
The target information is circuit information of the electronic circuit,
The circuit information is suitable for a circuit database having circuit data including element information and connection information between the elements as configuration information.

  By applying the search device described above to the circuit database, a user, that is, a circuit designer, can more efficiently find an available circuit block from the circuit database. Therefore, circuit design can be performed efficiently.

  The search method according to claim 5, claim 7, claim 8, and claim 9, and the program according to claim 10, claim 12, claim 13, and claim 14 are the above claims 1-claim. Since it is the same as the effect in the search device of claim | item 4, the description is abbreviate | omitted.

  In addition, as described in claim 6 and claim 11, in the second step, for the first target information and the second target information in which the search order is continuous, of the items, the target of determination of matching with the search condition A combination of a step for determining the first target information based on the first designation condition as the designation condition and an item that matches the search condition for the first target information. A comparison step for comparing the second designated condition corresponding to the degree of match with the first designated condition, wherein the second designated condition is compared with the first designated condition, When the number is a condition to reduce the number, it is preferable to include an update step for updating the designated condition from the first designated condition to the second designated condition.

  According to this, it is possible to reduce the number of determinations for matching with the search condition for each target information. For this reason, it is possible to reduce the load of search processing and to reduce the amount of results to be confirmed even when the user reviews the output results.

1 is a diagram illustrating a schematic configuration of a search system including a search device according to a first embodiment. It is a figure which shows schematic structure of a circuit database. It is a figure which shows schematic structure of a search condition input screen. It is a figure which shows the example of a definition of ranking. It is a figure which shows schematic structure of a search result display screen. It is a flowchart which shows the search method. It is a figure which shows the specific example of object information (circuit information). It is a figure which shows the state which input the specific search condition in the search condition input screen. It is a figure which shows the search result display screen displayed as a result of having been searched based on the specific object information shown in FIG. 7 and the specific search conditions shown in FIG. It is a figure which shows the specific example of object information (circuit information) in 2nd Embodiment. It is a flowchart which shows the search method in 3rd Embodiment. It is a figure which shows the designation | designated condition corresponding to a coincidence degree. It is a figure which shows an example of the specific operation | movement of a search step. It is a figure which shows an example of the specific operation | movement of a search step. It is a figure which shows an example of the specific operation | movement of a search step.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. In the following drawings, the same reference numerals are given to the same or equivalent parts.

(First embodiment)
Initially, with reference to FIGS. 1-5, the schematic structure of the search device 10 in this embodiment is demonstrated.

  The search device 10 in this embodiment is for searching for circuit information 21 that matches a desired specification from a circuit database 20 in which a plurality of circuit information (IP) 21 related to electronic circuits is registered. The search device 10 is configured in a search server 100 that can be accessed by a large number of circuit designers as users, for example. Here, the circuit information 21 and the circuit database 20 respectively correspond to the target information and the target information database described in the claims.

  As illustrated in FIG. 1, the search device 10 includes a circuit database 20 as a target information database, a search condition display processing unit 30, a search processing unit 40, and a search result display processing unit 50. These are communicably connected to the control unit 60. The control unit 60 is communicably connected to one or a plurality of terminals 300 via the network 200, and each terminal 300 is connected to a monitor 400 as external output means. The user inputs the search condition in the input field of the search condition input screen displayed on the monitor 400 by the search condition display processing unit 30. In addition, the user confirms the search result output to the monitor 400 by the search result display processing unit 50.

  As shown in FIG. 2, the circuit database 20 has a plurality of circuit information 21. Each circuit information 21 has circuit data 22 as configuration information of functional blocks. Note that a functional block refers to a circuit block including elements that constitute a circuit and wiring that connects the elements. That is, the circuit data 22 includes element information 22a and connection information 22b between the elements. Here, the element refers to a transistor, a diode, or the like in an analog circuit, or an AND gate, a NAND gate, or the like in a digital circuit. The circuit information 21 has a guarantee specification 23 as performance guaranteed by using the function block for each of one or a plurality of functions (items) realized by using the function block. Further, an expected specification 24 as performance that can be expected by partially changing the circuit data (configuration information) 22 of the circuit block is provided. That is, by assembling circuit blocks based on the circuit data 22 registered in the circuit database 20, it is possible to design a circuit that exhibits the performance satisfying the guarantee specification 23. Further, by partially changing the circuit block assembled based on the circuit data 22, a circuit that exhibits the performance satisfying the expected specification 24 can be designed.

  In this embodiment, in the present embodiment, the circuit data (configuration information) 22 is partially changed to change the parameters (power supply voltage, threshold voltage, current amplification factor, etc.) of the elements constituting the circuit. Or changing the wiring length or connection location of the wiring connecting the elements.

  In addition to the above, in the present embodiment, the circuit information 21 includes change information 25 of the circuit data 22 for realizing the expected specification 24 for each item. The change information 25 includes a change location 25 a of the circuit data 22 for realizing the expected specification 24, change scale information 25 b indicating the change scale of the circuit data 22, and a change method 25 c of the circuit data 22. The changed portion 25a indicates a specific element to be changed in order to realize the expected specification 24 in a circuit configured based on the circuit data 22, and a changed portion of a wiring connecting the elements. The change scale information 25b indicates the number of specific elements to be changed and the number of changes in the wiring connecting the elements. The larger the change scale information 25b, the larger the man-hour for the change. The changing method 25c refers to a specific method of changing the element to be changed and the wiring connecting the elements. By referring to the change method 25c, the user can easily estimate the degree of difficulty when changing the circuit data 22 and estimate the influence of the change on other characteristics.

  The circuit information 21 included in the circuit database 20 is information registered in advance by a designer who designed the circuit information 21.

  The search condition display processing unit 30 causes the monitor 400 to display a search condition input screen including an input field 31 for a user to input search conditions as shown in FIG. In the present embodiment, the input field 31 includes a specification input field 31a for allowing the user to input an upper limit value and a lower limit value of the specifications required by the user, and a priority input field 31b for inputting a priority for designing the circuit. As the priority setting in the present embodiment, for example, a method of inputting in two stages of priority “high” and priority “low” can be adopted.

The search processing unit 40 communicates with the circuit database 20 via the control unit 60 based on the search conditions input on the search condition input screen, and executes a search for the circuit information 21 with respect to the circuit database 20. . That is, the search processing unit 40 refers to the numerical value or range of numerical values of the guarantee specification 23 and the expected specification 24 in one or a plurality of items included in the circuit information 21 based on the search condition, and the circuit 40 A search for information 21 is performed. Further, the search processing unit 40 determines whether or not the numerical value or the numerical value range of the guaranteed specification 23 for each item to be referred to is included in the numerical value range set in all or a part of the plurality of items as the search condition. judge. In addition, the search processing unit 40 may include at least a part of a numerical value range set for all or a part of a plurality of items as a search condition in the numerical value or numerical value range of the expected specification 24 for each item to be referenced. Determine whether or not. Further, the search processing unit 40 counts the number of items in which the input search condition does not satisfy the guaranteed specification 23 and satisfies the expected specification 24. That is, the number of items in which the circuit data 22 is changed to realize the expected specification 24 is counted. In the present embodiment, the number of the above items is counted separately for the item with the high priority and the item with the low priority. Further, the search processing unit 40 ranks all the circuit information 21 for each circuit information 21 based on the input search condition. Ranking is performed for each of the guarantee specification 23 and the expected specification 24. As the above ranking, for example, as shown in FIG.
When all items satisfy the search condition, the circuit information 21 is ranked A.

  In addition, the circuit information 21 is set to rank B when all items of the priority “high” satisfy the search condition.

  Further, when there is an item that does not satisfy the search condition of the priority “high”, the circuit information 21 is set to rank C.

  If all items do not satisfy the search condition, the circuit information 21 is ranked D.

  In addition, the search processing unit 40 extracts circuit information 21 in which at least one item satisfies the search condition in the guarantee specification 23 or the expected specification 24 and outputs the circuit information 21 to the control unit 60. In other words, the search processing unit 40 extracts the circuit information 21 excluding the circuit information 21 in which both the rank for the guarantee specification 23 and the rank for the expected specification 24 are rank D, and outputs the circuit information 21 to the control unit 60.

  The search result display processing unit 50 communicates with the search processing unit 40 via the control unit 60 and displays a search result display screen including the circuit information 21 extracted by the search processing unit 40 on the monitor 400 as an external output unit. Let In the present embodiment, the circuit information 21 displayed by the search result display processing unit 50 includes the name of the circuit information 21, whether or not each circuit information 21 matches the search condition for each item, the rank of each circuit information 21, the expectation The number of items in which the circuit data 22 is changed to realize the specification 24, and the change scale information 25b for realizing the expected specification 24. In addition, the search result display processing unit 50 displays the number of items in which the circuit data 22 is changed to realize the expected specification 24 for each of the items of the priority “high” and the priority “low”. .

  For example, as shown in FIG. 5, the search result display screen includes a column 51 indicating the name of the extracted circuit information 21, a column 52 indicating whether the warranty specification 23 satisfies the search condition, and an expected specification 24 including the search condition. A column 53 indicating whether or not the information is satisfied, a column 54 indicating change scale information 25b for realizing the expected specification 24, a column 55 indicating the rank of each circuit information 21 with respect to the guaranteed specification 23, and each circuit information 21 with respect to the expected specification 24 A column 56 indicating the rank of the item, a column 57 indicating the number of items to be changed in order to realize the expected specification 24 among the items with the priority “high”, and among the items with the priority “low” A column 58 indicating the number of items to be changed to realize the expected specification 24;

  The control unit 60 is communicably connected to the circuit database 20, the search condition display processing unit 30, the search processing unit 40, and the search result display processing unit 50. Then, the search condition display processing unit 30 is instructed to display a search condition input screen, or the search processing unit 40 is searched for the circuit information 21 registered in the circuit database 20 based on the search conditions. Or instructing the search condition display processing unit 50 to display a search result display screen. In addition, the control unit 60 is communicably connected to the terminal 300 via the network 200. And it connects with the terminal 300 via the network 200, receives a user's instruction | indication, sends a search result to the terminal 300, and displays a search result on the monitor 400.

  As described above, the control unit 60 has a role of relaying information among the circuit database 20, the search condition display processing unit 30, the search processing unit 40, the search result display processing unit 50, and the terminal 300. Therefore, the search condition display means includes the search condition display processing unit 30 and a part of the control unit 60. The search means includes a search processing unit 40 and a part of the control unit 60. The search result display means includes a search result display processing unit 50 and a part of the control unit 60.

  The search device 10 is mainly configured as a microcomputer, and each includes a known CPU, a memory such as a ROM / RAM, an I / O, and a bus connecting them. The search device 10 executes each process related to the search (processing by the search condition display processing unit 30, the search processing unit 40, the search result display processing unit 50, and the control unit 60) by executing a program stored in the memory. .

  Next, with reference to FIG. 6, the search method which the search device 10 in this embodiment implements is demonstrated.

  First, in step S <b> 1, the user connects the terminal 300 to the search server 100 having the search device 10 in order to search the circuit information 21. The user instructs the control unit 60 to display the above-described search condition input screen on the monitor 400.

  Next, in step S <b> 2, the control unit 60 instructs the search condition display processing unit 30 in the search device 10 to display a search condition input screen on the monitor 400. The search condition display processing unit 30 displays the search condition input screen on the monitor 400 in response to an instruction from the control unit 60.

  Next, in step S3, the user inputs the search condition in the specification input field 31a and the priority input field 31b included in the displayed search condition input screen, and instructs the control unit 60 to start the search. In the present embodiment, as described above, the user inputs a desired specification and priority for each item.

  Next, in step S <b> 4, the control unit 60 reads the input search condition and instructs the search processing unit 40 to start searching for the circuit information 21.

  Next, in step S5, the search processing unit 40 refers to the guarantee specifications 23 included in each of the plurality of circuit information 21 based on the search condition input by the user, and searches for the circuit information 21 that matches the search condition. Do. That is, the search processing unit 40 determines whether or not the numerical value or the numerical value range of the guaranteed specification 23 for each item to be referred to is included in the numerical value range set for all or a part of the plurality of items as the search condition. judge.

  Next, in step S6, the search processing unit 40 ranks all the circuit information 21 registered in the circuit database 20 with respect to the guarantee specification 23 for each circuit information 21 based on the input search condition.

  Next, in step S <b> 7, the search processing unit 40 refers to the expected specifications 24 included in each of the plurality of circuit information 21 based on the search condition input by the user, and searches for circuit information 21 that matches the search condition. Do. That is, the search processing unit 40 includes at least a part of the numerical value range of the expected specification 24 for each item to be referred to that is set for all or a part of a plurality of items as a search condition. Determine whether or not.

  Next, in step S <b> 8, the search processing unit 40 ranks all the circuit information 21 registered in the circuit database 20 with respect to the expected specification 24 for each circuit information 21 based on the input search condition.

  Next, in step S <b> 9, for each circuit information 21, the search processing unit 40 counts the number of items in which the input search condition does not satisfy the guaranteed specification 23 and satisfies the expected specification 24. That is, the number of items in which the circuit data 22 is changed to realize the expected specification 24 is counted. In the present embodiment, the number of the above items is counted separately for the item with the high priority and the item with the low priority.

  Next, in step S10, the search processing unit 40 sends (outputs) the results obtained in steps S5 to S9 to the control unit 60. The search processing unit 40 extracts circuit information 21 in which at least one item satisfies the search condition in the guarantee specification 23 or the expected specification 24 and outputs the circuit information 21 to the control unit 60. In other words, the search processing unit 40 extracts the circuit information 21 excluding the circuit information 21 in which both the rank for the guarantee specification 23 and the rank for the expected specification 24 are rank D, and outputs the circuit information 21 to the control unit 60.

  Next, in step S <b> 11, the control unit 60 sends the search result output by the search processing unit 40 to the search result display processing unit 50. The search result display processing unit 50 displays a search result display screen including the circuit information 21 extracted by the search processing unit 40 on the monitor 400 as an external output unit. That is, the search result display processing unit 50, for each of the extracted one or more pieces of circuit information 21, the name of the circuit information 21, whether or not each circuit information 21 matches the search condition for each item, and each circuit information 21 , The number of items for which the circuit data 22 is changed to realize the expected specification 24, and the change scale information 25b for realizing the expected specification 24 are displayed on the monitor 400.

  Next, in step S <b> 12, the user requests the search apparatus 10 to display detailed information including the change location 25 a and the change method 25 c among the change information 25 of the extracted circuit information 21. For example, in the search result display screen, the column 51 indicating the name of the circuit information 21 can be selected by a method such as clicking, and a command to display detailed information of the corresponding circuit information 21 by this selection operation. Transmission to the control unit 60 is possible. The user instructs the control unit 60 to display detailed information on the corresponding circuit information 21 on the monitor 400 by selecting the column 51 indicating the name of the circuit information 21 on the search result display screen. .

  Next, in step S13, the control unit 60 reads detailed information of the corresponding circuit information 21 from the circuit database 20 based on the instruction from the user in step S12. Then, it instructs the search result display processing unit 50 to display the detailed information of the read circuit information 21 on the monitor 400. That is, the control unit 60 sends detailed information of the selected circuit information 21 including the change location 25a and the change method 25c to the search result display processing unit 50. Then, the search result display processing unit 50 causes the monitor 400 to display detailed information of the circuit information 21 received from the control unit 60.

  Finally, in step S14, the user selects the change location 25a and the change method 25c of the circuit data 22 for realizing the expected specification 24 in the circuit information 21 selected by the user and displayed in step S13. can do.

  Step S2 corresponds to the first step described in the claims. Steps S5 to S10 correspond to the second step. In particular, step S5 and step S7 correspond to a search step, and step S9 corresponds to a count step. Steps S11 and S13 correspond to the third step.

  In the present embodiment, the search processing unit 40 can search not only the guaranteed specifications 23 but also the expected specifications 24 for a plurality of items. Therefore, the user can find the circuit information 21 that matches the expected specification 24 even if the circuit information 21 that matches the guaranteed specification 23 does not exist in the circuit database 20. That is, it is possible to find circuit information 21 having a performance approximating the guaranteed specification 23 without the user himself examining and changing the search condition. Therefore, information that approximates the desired search condition can be searched efficiently.

  In the present embodiment, as a search result displayed on the monitor 400 by the search result display processing unit 50, not only the circuit data 22 of the circuit information 21 but also a change portion 25 a of the circuit data 22 for realizing the expected specification 24. The number of items to be changed, the change scale information 25b, and the change method 25c are provided to the user. The user confirms the change location 25a, the number of items to be changed, and the change scale information 25b, thereby determining the degree of difficulty for changing the circuit data 22, the approximate man-hours required to change the circuit data 22, In addition, it is possible to grasp the influence of the change on the circuit block. For this reason, the user can perform selection of the circuit information 21 to be reused among the extracted circuit information 21 more efficiently. That is, it is possible to efficiently examine the availability of the circuit block that has been changed from the state in which the circuit data 22 is registered in the circuit database 20. Further, the user can change the circuit data 22 more efficiently without searching for the changing method by checking the changing method 25c of the circuit data 22.

  Furthermore, in this embodiment, as a search result, a rank indicating the degree of matching with the search condition is displayed for each extracted circuit information 21. The user can select reusable circuit information 21 from the circuit database 20 with reference to the rank given to the circuit information 21. That is, the user can more efficiently perform selection of the circuit information 21 to be reused among the extracted circuit information 21.

  Next, a search result (FIG. 9) output by the search device 10 according to the present embodiment will be described using a more specific example of the circuit information 21 as shown in FIG.

  As shown in FIG. 7, an example in which three circuit information 21 of IP-I, IP-II, and IP-III are registered in the circuit database 20 will be described.

  Each of the three pieces of circuit information 21 has circuit data 22. IP-I has circuit data I (described in FIG. 7) as circuit data 22. IP-II has circuit data II (described in FIG. 7) as circuit data 22. IP-III has circuit data III (described in FIG. 7) as circuit data 22. Note that the circuit data 22 is drawing data created using CAD or the like or converted from drawing data into text data, but the description thereof is omitted in FIG.

  In the present embodiment, the three circuit information items 21 each include “output voltage”, “unity gain frequency”, and “phase margin” as items. In the circuit database 20, a guarantee specification 23 and an expected specification 24 are registered for each item. In addition, change information 25 is registered in the circuit database 20 for each item. As described above, the change information 25 includes the change location 25a, the change scale information 25b, and the change method 25c of the circuit data 22 for realizing the expected specification 24. In other words, for each item of circuit information 21, change information 25 is assigned to items for which the guarantee specification 23 and the expected specification 24 are different. Specifically, as shown in FIG. 7, change information 25 related to the output voltage is assigned to IP-I. For IP-II, change information 25 regarding the output voltage and the phase margin is given. For IP-III, change information 25 regarding the output voltage and the unity gain frequency is given. Of the change information 25, the change location 25a and the change method 25c are obtained by converting drawing data or drawing data created using CAD or the like into text data, and are not shown in FIG. Of the change information 25, the change scale information 25b is a specific element to be changed and the number of changes in the wiring connecting the elements. As described in the column “change scale” in FIG. It is registered in the circuit database 20 as numerical data.

  The search device 10 in the present embodiment extracts circuit information 21 from the circuit database 20 based on the detection method described above (FIG. 6).

  In step S2, the search condition display processing unit 30 causes the monitor 400 to display a search condition input screen as shown in FIG.

  In step S3, the user inputs a search condition on the search condition input screen. That is, the lower limit value, the upper limit value, and the priority level are set for each of the items “output voltage”, “unity gain frequency”, and “phase margin”. In the present embodiment, as shown in FIG. 8, the output voltage is set to 2.90 V or more and 3.10 V or less as a search condition, and the priority is set to “high”. The unity gain frequency is set to 1.5 MHz or more and 4.5 MHz or less, and the priority is set to “low”. Further, the phase margin is set to 75 degrees (denoted as deg in FIG. 8) or more, and the priority is set to “high”. Thereafter, the control unit 60 is instructed to start the search.

  In step S <b> 4, the control unit 60 receives the search start instruction in step S <b> 3, reads the input search conditions, and instructs the search processing unit 40 to start searching for the circuit information 21.

  In step S5, the search processing unit 40 determines whether the numerical value or the numerical value range of the guarantee specification 23 is included in the search condition range for each item for all the three circuit information 21 registered in the circuit database 20. Determine whether or not.

  The item “output voltage” has a search condition of 2.90V or more and 3.10V or less. In contrast, all three pieces of circuit information 21 registered in the circuit database 20 satisfy this search condition. Therefore, in the search result display screen in the present embodiment shown in FIG. 9, the column 52 corresponds to IP-I, IP-II, and IP-III as the names of the circuit information 21 displayed in the column 51. Then, “◯” indicating that the condition is satisfied is displayed.

  In the item “Unity gain frequency”, the search condition is 1.5 MHz or more and 4.5 MHz or less. On the other hand, among the three pieces of circuit information 21 registered in the circuit database 20, IP-I and IP-II satisfy this search condition. On the other hand, IP-III does not satisfy the search condition. Therefore, “◯” is displayed in the column 52 corresponding to IP-I and IP-II, and the column 52 corresponding to IP-III means that the specifications of the circuit information 21 do not satisfy the search condition. “X” is displayed.

  In the item of “phase margin”, the search condition is 75 degrees or more (no upper limit is set). On the other hand, among the three pieces of circuit information 21 registered in the circuit database 20, IP-I and IP-III satisfy this search condition. On the other hand, IP-II does not satisfy the search condition. Therefore, “◯” is displayed in the column 52 corresponding to IP-I and IP-III, and “X” is displayed in the column 52 corresponding to IP-II.

  In step S6, the search processing unit 40 ranks each circuit information 21 based on the result of step S5. In the present embodiment, ranking is performed according to the ranking definition shown in FIG.

  IP-I is ranked A because all items satisfy the search condition. Therefore, “A” is displayed in the column 55 of FIG. IP-II is ranked C because it does not satisfy the search condition for the item of “phase margin” with the priority “high”. Therefore, “C” is displayed in the column 55. Although IP-III does not satisfy the search condition in the “Unity gain frequency” item with the priority “Low”, the “Output voltage” and “Phase margin” items with the priority “High”. Since the search condition is satisfied, the rank is B. Therefore, “B” is displayed in the column 55.

  In subsequent step S7, the search processing unit 40 determines that the numerical value or the numerical value range of the expected specification 24 is at least part of the search condition range for each item for all the three pieces of circuit information 21 registered in the circuit database 20. Whether or not is included.

  For the item “output voltage”, in all the circuit information 21, the expected specification 24 includes at least a part of the numerical range of the search condition (the search condition is satisfied). Therefore, “◯” is displayed in the column 53 corresponding to IP-I, IP-II, and IP-III. For the item “output voltage”, the guarantee specifications 23 of all the circuit information 21 satisfy the search conditions, and therefore it is not necessary to change the circuit data 22 in order to realize the expected specifications 24. Therefore, “-” indicating that the search processing unit 40 has not performed the calculation of the change scale information 25 b is displayed in the column 54.

  Also for the item “Unity Gain Frequency”, the expected specification 24 includes at least a part of the numerical range of the search condition in all the circuit information 21 (search condition is satisfied). Therefore, “◯” is displayed in the column 53 corresponding to IP-I, IP-II, and IP-III. In particular, in IP-III, since the guarantee specification 23 does not satisfy the search condition, it is necessary to change the circuit data 22 in order to realize the expected specification 24. In IP-III, the change scale information 25b for realizing the expected specification 24 of the unity gain frequency is “35” as shown in FIG. 7, and therefore “35” is displayed in the column 54 corresponding to IP-III. Is displayed. For IP-I and IP-II, the guarantee specification 23 satisfies the search condition, and therefore it is not necessary to change the circuit data 22 in order to realize the expected specification 24. Therefore, “-” is displayed in the column 54 corresponding to IP-I and IP-II.

  Also for the item “phase margin”, in all the circuit information 21, the expected specification 24 includes at least a part of the numerical range of the search condition (the search condition is satisfied). Therefore, “◯” is displayed in the column 53 corresponding to IP-I, IP-II, and IP-III. In particular, in IP-II, the guarantee specification 23 does not satisfy the search condition, so the circuit data 22 needs to be changed in order to realize the expected specification 24. In IP-II, since the change scale information 25b for realizing the expected specification 24 of the phase margin is “5” as shown in FIG. 7, “5” is displayed in the column 54 corresponding to IP-II. Is displayed. For IP-I and IP-III, the guarantee specification 23 satisfies the search condition, and therefore it is not necessary to change the circuit data 22 in order to realize the expected specification 24. Accordingly, “-” is displayed in the column 54 corresponding to IP-I and IP-III.

  In step S8, the search processing unit 40 ranks each circuit information 21 based on the result of step S7. In the present embodiment, ranking is performed according to the ranking definition shown in FIG.

  The circuit information 21 registered in the circuit database 20 has rank A for IP-I, IP-II, and IP-III because the expected specifications 24 of all items satisfy the search conditions. Therefore, “A” is displayed in the column 55 of FIG.

  In step 9, the search processing unit 40 counts, for each circuit information 21, the number of items in which the input search condition does not satisfy the guaranteed specification 23 and satisfies the expected specification 24. That is, for each of IP-I, IP-II, and IP-III, the number of items in which the column 52 is “x” and the column 53 is “◯” is counted. In the present embodiment, the number of the above items is counted separately for the item with the high priority and the item with the low priority.

  For IP-I, since the column 52 is “◯” and the column 53 is “◯” for any of the items “output voltage”, “unity gain frequency”, and “phase margin”, the column 57, the column In both cases 58, “0” is displayed. In IP-II, only the item of “phase margin” with the priority “high” is the column 52 “×” and the column 53 “◯”. Therefore, “1” is displayed in the column 57 and “0” is displayed in the column 58. In IP-III, only the item of “Unity gain frequency” with the priority “low” is the column 52 “×” and the column 53 “◯”. Therefore, “0” is displayed in the column 57 and “1” is displayed in the column 58.

  In step S <b> 10, the search processing unit 40 extracts circuit information 21 in which at least one item satisfies the search condition in the guarantee specification 23 or the expected specification 24. In this embodiment, since IP-I, IP-II, and IP-III all satisfy the above conditions, these three circuit information 21 are to be extracted.

  In step S11, the search result display screen shown in FIG. 9 is displayed on the monitor 400, and the user selects the circuit information 21 to be reused from the search result display screen. In the present embodiment, it can be determined that it is preferable to reuse the IP-I whose rank with respect to the guarantee specification 23 is “A” (matching with the search condition is determined to be the best).

  On the other hand, when IP-I is not registered in the circuit database 20, the user selects either IP-II or IP-III. In the conventional search device 10 and search method, only the guarantee specification 23 is used as the circuit information 21 for matching with the search condition. For this reason, the user must determine the circuit information 21 to be reused based on the matching condition between the search condition and the guarantee specification 23, or the rank assigned based on the matching condition, and the rank is “B”. It was judged that it was more appropriate to select IP-III. On the other hand, in the present embodiment, in addition to the matching condition between the search condition and the guaranteed specification 23, the matching condition between the search condition and the expected specification 24, or the rank with respect to the expected specification 24 assigned based on the matching condition. The circuit information 21 to be reused can be determined. Specifically, as shown in FIG. 9, the ranks of the expected specifications 24 of IP-II and IP-III are both “A”, and the user can change the circuit data 22 and reuse it. It can be determined that any of IP-II and IP-III can design a circuit capable of exhibiting performance satisfying the search condition. In this embodiment, since the number of items that need to be changed in the circuit data 22 is displayed on the search result display screen according to priority, the user can determine whether the portion that needs to be changed is a high-priority portion. Can be easily determined. For example, in the search result shown in FIG. 9, it is determined that IP-II needs to change items with high priority, whereas IP-III does not need to change items with high priority. obtain. For this reason, the user avoids the risk of affecting other characteristics related to the high priority item by changing the part related to the high priority item by selecting IP-III. be able to. Further, in the present embodiment, the change scale information 25b indicating the scale at which the circuit data 22 is changed in order to realize the expected specification 24 for items whose search conditions do not satisfy the guaranteed specification 23 and satisfy the expected specification 24, It is displayed in the column 54. Specifically, as shown in FIG. 9, in IP-II, if five locations related to the “phase margin” are changed, the specifications desired by the user (satisfying the search condition) can be realized. It is judged that it is possible. On the other hand, in IP-III, it is determined that the specifications desired by the user (satisfying the search condition) can be realized by changing 35 locations related to “unity gain frequency”. According to this, it is possible for the user to reduce the man-hour required for the change by changing the circuit data 22 of the IP-II rather than changing the circuit data 22 of the IP-III.

  As described above, the circuit information 21 registered in the circuit database 20 has not only the guaranteed specifications 23 but also the expected specifications 24, thereby enhancing the judgment materials for selecting the extracted circuit information 21. Can do. That is, the user can more efficiently perform selection of the circuit information 21 to be reused among the extracted circuit information 21.

  Furthermore, each circuit information 21 includes, as the change information 25, a change location 25a and a change method 25c of the circuit data 22 for realizing the expected specification 24. For this reason, the user can request to display the changed portion 25a and the changing method 25c in step S12. Therefore, the user can change the circuit data 22 more efficiently without searching for a change method for realizing the expected specification 24.

(Second Embodiment)
In the present embodiment, descriptions of parts common to the search device 10 and the search method described in the above embodiment are omitted.

  In the first embodiment, an example in which each item included in the circuit information 21 has one expected specification 24 is shown. However, the expected specification 24 is not limited to one for each item. For example, as shown in FIG. 10, circuit information 21 in which two expected specifications 24 are set can be registered in the circuit database 20. In the example illustrated in FIG. 10, two expected specifications 24 are set in the “output voltage” item of the circuit information 21 in which the name of the circuit information 21 is IP-X. That is, a circuit having different specifications can be designed by two changing methods. If such circuit information 21 is registered, the same determination as in the first embodiment is performed for both expected specifications 24 in step S7 in which the expected specifications 24 are searched against the search conditions. In step S8, each expected specification 24 is ranked. The user decides which change method to use by referring to the determination made in step S7, the rank given in step S8, and the number of change items counted in step S9. Judgment can be made.

(Third embodiment)
In this embodiment, as a search method performed by the search apparatus 10, the load of search processing is further reduced in the second step. Since the search device 10 in this embodiment has the same configuration as the search device 10 in the above embodiment, a description of the search device 10 is omitted.

  An outline of the search method in the present embodiment will be described with reference to FIGS. The search method in the present embodiment is obtained by adding a new step to Step S5, Step S7, or both in the second step, that is, the search method in the first embodiment (FIG. 6). As shown in FIG. 11, step S5 has steps S5a to S5f, and step S7 has steps S7a to S7f. In the present embodiment, an example in which circuit information 21 of IP1 to IP10 is registered and searched in the circuit database 20 is shown.

  Since steps other than step S5 and step S7 are the same as those in the first embodiment, description thereof will be omitted. Further, since the added steps are the same as steps S5 and S7, they are also shown in FIG. 11, steps related to step S5 are not given parentheses, and steps related to step S7 are shown with parentheses.

  Step S5a is a step of determining whether or not the item included in the first target information (IP1 in the present embodiment) matches the search condition in step S5 for searching the guarantee specification 23. In step S5a, a designation condition is set so that the determination is performed for all items. Here, the designation condition designates which of the items included in the target information is to be determined as a match target.

  Next, the search device 10 executes Step S5b. In step S5b, a predetermined designation condition determined in advance is set based on the degree of matching of IP1 determined in step S5a with the search condition (a combination of matching items) (a flag is set). It is a step. The designated condition set here corresponds to the first designated condition described in the claims.

  Next, the search device 10 executes Step S5c. Step S5c is a step of determining the degree of coincidence of the target information following the target information determined in step S5a. If it is immediately after IP1 is determined, IP2 is determined in step S5c. In this case, IP2 corresponds to the first target information described in the claims. For IP2, the item is determined based on the first designated condition. Then, the search device 10 obtains a designation condition (second designation condition) corresponding to the degree of match, and stores it in the memory.

  Next, the search device 10 executes Step S5d. Step S5d is a step of determining whether or not a match for the search condition of each item has been determined for all circuit information 21 in the circuit database 20. In this embodiment, if the determination of IP10 is completed in step S5c, “Yes” is determined in step S5d, and the process proceeds to step S6. If the determination has not been completed for all circuit information 21, the process proceeds to step S5e.

  Step S5e is a comparison step for comparing the first designated condition with the second designated condition. As shown in FIG. 12, the degree of match in the present embodiment is “all items satisfy the search condition”, “all items with the priority“ high ”satisfy the search condition”, and “priority“ high ”. “There are items that do not satisfy the search condition” and “All items do not satisfy the search condition” are set in advance, and designation conditions corresponding to each of them are set.

  In this embodiment, the order of the degree of match is “all items satisfy the search condition”, “all items with the priority“ high ”satisfy the search condition”, and “high priority” search. There are items that do not satisfy the conditions ”and“ all items do not satisfy the search conditions ”. The designation condition corresponding to each matching degree is set in advance, and the higher the matching degree, the fewer items to be determined in the subsequent determination. If the second specified condition is a condition that reduces the number of determination items as compared with the first specified condition, “Yes” determination is made in step S5e, and the process proceeds to step S5f. On the other hand, if the determination by the second specified condition does not result in reducing the number of determination items compared to the first specified condition, the process proceeds to the determination of the next circuit information 21, that is, step S5c.

  Step S5f is a step of updating the designated condition. For example, the degree of coincidence of certain target information (first target information) is “all items do not satisfy the search condition”, and the degree of coincidence of the target information (second target information) for which the next match determination is performed is When “all items with high priority” satisfy the search condition ”, the degree of match stored in the memory is“ all items with high priority ”that are determined later. (Update step). Conversely, the match level of a certain target information is “all items with priority“ high ”satisfy the search condition”, and the match level of the target information for which the next match is determined is “search all items” In the case of “does not satisfy the condition”, the matching degree stored in the memory is “all items with the priority“ high ”satisfy the search condition” determined earlier, and the specified condition is not updated. That is, when a flag is set under a condition with a high match level, a flag with a match level lower than the match level is not set. After step S5f, the circuit information 21 for which the degree of match has not yet been determined is started. That is, the process proceeds to step S5c.

  Since step S7 operates in the same manner as step S5 (steps S5a to S5f) described above except that the search target is the expected specification 24, description thereof will be omitted.

  Hereinafter, a specific operation will be described with reference to FIGS.

  This will be described with reference to specific examples shown in FIGS. As shown in each figure, each specific example is an example in which circuit information 21 of IP1 to IP10 is registered in the circuit database 20 as target information and a search is performed for five items (items 1 to 5). The search is performed in order from IP1 to IP10 with respect to the guaranteed specifications (step S5), and thereafter, in order from IP1 to IP10 with respect to the expected specifications (step S7).

  First, the details of the specific example shown in FIG. 13 will be described step by step.

  First, the search device 10 performs a match level determination for IP1 (step S5a). In this specific example, IP1 does not satisfy the search condition for all items (“x”). For this reason, a flag “all items do not satisfy the search condition” is set in step S5b. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP2 to be determined next.

  Next, the search device 10 determines the degree of match for IP2 (step S5c). Since all the circuit information 21 has not been determined at this point, “No” determination is made in step S5d, and the process proceeds to the comparison step (step S5e). In IP2, “item 2” set to priority “high” does not satisfy the search condition. For this reason, the degree of match corresponds to “there is an item that does not satisfy the search condition of high priority”. This has a higher degree of match than “all items do not satisfy the search condition” in step S5b. For this reason, the process proceeds from step S5e to step S5f, and the flag “There is an item that does not satisfy the search condition of high priority” is set. Therefore, in step S5c, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP3 to be determined next.

  Next, the search device 10 performs a match degree determination for IP3. Similarly to IP2, IP3 does not satisfy the search condition for “item 2” set to priority “high”. Therefore, the specified condition is not updated, and the match determination is performed for all items with respect to IP4 to be determined next.

  Next, the search device 10 determines the degree of match for IP4. IP4 satisfies the search condition for “item 1” to “item 3” set to the priority “high”. For this reason, in step S5f, a flag that “all items with a priority“ high ”satisfy the search condition” is set. That is, the specified condition is updated based on the operation shown in FIG. Specifically, for the predetermined target information to be searched thereafter, if the match determination of the item whose priority is set to “high” is “×”, that is, there is something that does not satisfy the search condition, Regardless of whether the search target is the guaranteed specification 23 or the expected specification 24, the match determination operation after the “x” determination in the corresponding target information is stopped.

  Next, the search device 10 determines the degree of match for IP5. When searching for IP4, since the flag “all items with priority“ high ”satisfy the search condition” is set, for IP5, the item designated with priority “high” is determined as “x”. Then, the subsequent match determination operation is stopped. In IP5, “item 2” designated with the priority “high” is “x”. For this reason, as shown in FIG. 13, the determination operation of “item 3” to “item 5” is not performed. As a result, only the two items “item 1” and “item 2” are determined for the five items “item 1” to “item 5” in the first embodiment or the second embodiment. Can be in action. Therefore, the load of search processing can be reduced. In IP5, since the item of the priority “high” is “x” determination, no new flag is set in step S5f.

  Next, the search device 10 determines the degree of match for IP6. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP6, if the item designated as priority “high” becomes “x”, Stop operation. As for IP6, “item 1” designated with the priority “high” is “x” judgment. For this reason, as shown in FIG. 13, the determination operation of “item 2” to “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP7. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP7, if the item designated as priority “high” becomes “x”, Stop operation. However, as shown in FIG. 13, IP7 satisfies the search condition for all items. Accordingly, the determination operation is “o” for five items “item 1” to “item 5” without being stopped. For this reason, in step S5f, a flag that “all items satisfy the search condition” is set. That is, the specified condition is updated based on the operation shown in FIG. Specifically, in the case where the search target is a guaranteed specification, the match determination of the item set to the priority “high” and the priority “low” is “×” for predetermined target information to be searched later. In this case, the match determination operation after the “x” determination in the target information is stopped. Further, when the search target is the expected specification, the determination operation itself is not performed. In other words, when the flag “all items satisfy the search condition” is set, step S7, which is a step for executing the search for the expected specification, is not performed.

  Next, the search device 10 performs a match level determination for IP8. When searching for IP7, since the flag “all items satisfy the search condition” is set, for IP8, if the item designated as the priority “high” becomes “x” determination, the subsequent match determination Stop the operation. For IP8, “item 2” designated with priority “high” is “x”. For this reason, as shown in FIG. 13, the determination operation of “item 3” to “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP9. Since the flag “all items satisfy the search condition” is set, for IP9, when a certain item becomes “x” determination, the subsequent match determination operation is stopped. As for IP9, “item 4” designated with the priority “low” is “x” judgment. For this reason, as shown in FIG. 13, the determination operation of “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP10. Since the flag “all items satisfy the search condition” is set, for IP9, when a certain item becomes “x” determination, the subsequent match determination operation is stopped. However, as shown in FIG. 13, the IP 10 satisfies the search condition for all items. Accordingly, the determination operation is “o” for five items “item 1” to “item 5” without being stopped.

  At this stage, since the search in the guarantee specification 23 is completed, “Yes” determination is made in step S5d, and the process proceeds to step S6. That is, in step S6, the search processing unit 40 ranks the warranty specification 23 with respect to the circuit information 21 (IP1 to IP10) registered in the circuit database 20. In this case, in the present embodiment, no rank is given to the circuit information 21 in which the determination operation is stopped, specifically, IP5, IP6, IP8, and IP9.

  If it is 1st Embodiment, next, step S7 which is a search based on the expected specification 24 will be performed. However, in this specific example, since the flag “all items satisfy the search condition” is set, step S7 which is a step of executing the search of the expected specification 24 is not performed. Since step S7 is not executed, step S8, which is a ranking step based on the expected specification 24, is not executed. Further, step S9 for counting the number of items in which the search condition input by the user does not satisfy the guaranteed specification 23 and satisfies the expected specification 24 is not executed because there is no search result based on the expected specification 24.

  Next, step S10 is executed. The search processing unit 40 sends (outputs) the results obtained in step S5 and step S6 to the control unit 60. The search processing unit 40 extracts circuit information 21 in which at least one item satisfies the search condition in the guarantee specification 23 and outputs the circuit information 21 to the control unit 60. In other words, the search processing unit 40 extracts the circuit information 21 excluding the circuit information 21 whose rank with respect to the guarantee specification 23 is rank D, and outputs the circuit information 21 to the control unit 60. In addition, since step S7-step S9 are not performed in this specific example, they are not output to the control part 60 either.

  Thereafter, the process continues to step S11. Since the subsequent operation is the same as that of the first embodiment, the description thereof is omitted.

  In the search method as in the first embodiment, when the 10 pieces of circuit information 21 are searched for 5 items as in this specific example, 100 matches are obtained by searching the guaranteed specification 23 and the expected specification 24. A determination operation is performed. On the other hand, according to the above-described search method, it is only necessary to perform 39 match determination operations. For this reason, it is possible to reduce the load of search processing and to reduce the amount of results to be confirmed even when the user reviews the output results.

  Next, details of the specific example shown in FIG. 14 will be described in order. Note that detailed description will be omitted where the same operation as in the previous specific example is performed.

  First, the search device 10 performs a match level determination for IP1 (step S5a). In this specific example, IP1 does not satisfy the search condition for all items (“x”). For this reason, a flag “all items do not satisfy the search condition” is set. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP2 to be determined next.

  Next, the search device 10 determines the degree of match for IP2 (step S5c). In IP2, “item 2” set to priority “high” does not satisfy the search condition. For this reason, the flag “There is an item that does not satisfy the search condition of high priority” is set. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP3 to be determined next.

  Next, the search device 10 performs a match degree determination for IP3. Similarly to IP2, IP3 does not satisfy the search condition for “item 2” set to priority “high”. Therefore, also for IP4 to be determined next, matching is determined for all items.

  Next, the search device 10 determines the degree of match for IP4. IP4 satisfies the search condition for “item 1” to “item 3” set to the priority “high”. For this reason, a flag of “all items with high priority” satisfy the search condition ”is set. That is, the specified condition is updated based on the operation shown in FIG. Specifically, for the predetermined target information to be searched thereafter, if the match determination of the item whose priority is set to “high” is “×”, that is, there is something that does not satisfy the search condition, Regardless of whether the search target is the guaranteed specification 23 or the expected specification 24, the match determination operation after the “x” determination in the corresponding target information is stopped.

  Next, the search device 10 determines the degree of match for IP5. When searching for IP4, since the flag “all items with priority“ high ”satisfy the search condition” is set, for IP5, the item designated with priority “high” is determined as “x”. Then, the subsequent match determination operation is stopped. In IP5, “item 2” designated with the priority “high” is “x”. For this reason, as shown in FIG. 13, the determination operation of “item 3” to “item 5” is not performed. As a result, only the two items “item 1” and “item 2” are determined for the five items “item 1” to “item 5” in the first embodiment or the second embodiment. Can be in action. Therefore, the load of search processing can be reduced. In IP5, since the item of the priority “high” is “x” determination, no new flag is set.

  Next, the search device 10 determines the degree of match for IP6. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP6, if the item designated as priority “high” becomes “x”, Stop operation. As for IP6, “item 1” designated with the priority “high” is “x” judgment. For this reason, as shown in FIG. 14, the determination operation of “item 2” to “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP7. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP7, if the item designated as priority “high” becomes “x”, Stop operation. In IP7, “item 3” designated with the priority “high” is “x”. For this reason, as shown in FIG. 14, the determination operation of “item 4” and “item 5” is not performed.

  Next, the search device 10 performs a match level determination for IP8. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP8, if the item designated as priority “high” becomes “x”, Stop operation. For IP8, “item 2” designated with priority “high” is “x”. For this reason, as shown in FIG. 14, the determination operation of “item 3” to “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP9. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP9, if the item designated as priority “high” becomes “x”, Stop operation. For IP9, all items designated as high priority are “◯”. For this reason, as shown in FIG. 14, all the determination operations of “item 1” to “item 5” are executed. In IP9, since “item 5” is “x” determination, a new flag is not set.

  Next, the search device 10 determines the degree of match for IP10. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP10, if the item designated as priority “high” becomes “x”, Stop operation. In IP10, all items designated as priority “high” are judged as “◯”. For this reason, as shown in FIG. 14, all the determination operations of “item 1” to “item 5” are executed. IP10 does not set a new flag because “item 4” is “x” determination.

  Thus, step S5 for searching for the guaranteed specification 23 is completed. Next, step S6 is executed as in the first embodiment. That is, in step S6, the search processing unit 40 ranks the warranty specification 23 with respect to the circuit information 21 (IP1 to IP10) registered in the circuit database 20. In this case, in the present embodiment, no rank is given to the circuit information 21 in which the determination operation is stopped, specifically, IP5 to IP8.

  Next, step S7 which is a search based on the expected specification 24 is executed. First, the search device 10 executes Step S7a for determining the degree of match for IP1. When the guarantee specification 23 is searched, the flag “all items with high priority” satisfies the search condition ”flag is set. Stop the judgment operation. As for IP1, “item 1” designated with the priority “high” is “x” judgment. For this reason, as shown in FIG. 14, the determination operation of “item 2” to “item 5” is not performed.

  Similar to IP1, the search device 10 executes the cycle of step S7c to step S7f for each of IP2 to IP10. In the circuit information 21 excluding IP3 and IP7, the item designated as the priority “high” is “x” determination. For this reason, as shown in FIG. 14, the determination operation of the item after the item determined as “x” is not performed. For IP3 and IP7, the item designated as the priority “high” is “◯”. For this reason, as shown in FIG. 14, the determination operation for all items is performed.

  Thus, step S7 for searching for the expected specification 24 is completed. Next, step S8 is executed as in the first embodiment. That is, in step S8, the search processing unit 40 ranks the expected specification 24 with respect to the circuit information 21 (IP1 to IP10) registered in the circuit database 20. In this case, in this embodiment, no rank is given to the circuit information 21 in which the determination operation is stopped, specifically, the circuit information 21 excluding IP3 and IP7.

  Next, step S9 and step S10 are performed similarly to 1st Embodiment. Thereafter, the process continues to step S11. Since the subsequent operation is the same as that of the first embodiment, the description thereof is omitted.

  The match determination in this specific example need only be operated 61 times. For this reason, it is possible to reduce the load of search processing and to reduce the amount of results to be confirmed even when the user reviews the output results.

  Next, details of the specific example shown in FIG. 15 will be described in order.

  First, the search device 10 executes Step S5a for determining the degree of match for IP1. In this specific example, IP1 does not satisfy the search condition for all items (“x”). For this reason, a flag “all items do not satisfy the search condition” is set in step S5b. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP2 to be determined next.

  Next, the search device 10 determines the degree of match for IP2. In IP2, “item 2” set to priority “high” does not satisfy the search condition. For this reason, the flag “There is an item that does not satisfy the search condition of high priority” is set. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP3 to be determined next.

  Next, the search device 10 performs a match degree determination for IP3. Similarly to IP2, IP3 does not satisfy the search condition for “item 2” set to priority “high”. Accordingly, the match determination is performed for all items for the circuit information 21 to be determined next.

  Similar to IP3, search device 10 executes the cycle of steps S5c to S5f for each of IP4 to IP10. In IP4 to IP10, at least one item designated as priority “high” is “x” determination, and “all items with priority“ high ”satisfy the search condition” and “all items are search conditions” The “satisfy” flag does not stand. Therefore, as shown in FIG. 15, the IP4 to IP10 search is performed without stopping the determination operation.

  At this stage, since the search in the guarantee specification 23 is completed, next, step S6 is executed as in the first embodiment. That is, in step S6, the search processing unit 40 ranks the warranty specification 23 with respect to the circuit information 21 (IP1 to IP10) registered in the circuit database 20.

  Next, step S7 which is a search based on the expected specification 24 is executed. It should be noted that a flag “There is an item that does not satisfy the search condition of high priority” is set when the guaranteed specification 23 is searched. As shown in FIG. 12, this flag matches the expected specification 24 as a search target. Do not stop the judgment operation. Therefore, based on the designation condition corresponding to the degree of match of the expected specification 24 shown in FIG. 12, it is determined whether to continue / stop the match determination in the target information to be searched thereafter.

  First, the search device 10 executes Step S7a for determining the degree of match for IP1. IP1 does not satisfy the search conditions for all items. For this reason, a flag “all items do not satisfy the search condition” is set. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. Therefore, also for IP2 to be determined next, match determination is performed for all items.

  Next, the search device 10 determines the degree of match for IP2 (step S7c). In IP2, “item 2” set to priority “high” does not satisfy the search condition. For this reason, the flag “There is an item that does not satisfy the search condition of high priority” is set. Therefore, as shown in FIG. 12, the match determination in the subsequent search is not stopped. In other words, the match determination is performed for all items with respect to IP3 to be determined next.

  Next, the search device 10 performs a match degree determination for IP3. Similarly to IP2, IP3 does not satisfy the search condition for “item 2” set to priority “high”. Therefore, also for IP4 to be determined next, matching is determined for all items.

  Next, the search device 10 determines the degree of match for IP4. IP4 satisfies the search condition for “item 1” to “item 3” set to the priority “high”. For this reason, a flag of “all items with high priority” satisfy the search condition ”is set. That is, the specified condition is updated based on the operation shown in FIG. 12 (step S7f). Specifically, for the predetermined target information to be searched thereafter, the match determination of the item set to the priority “high” is “x”, that is, there is something that does not satisfy the search condition. The state of the match determination after the “x” determination in the target information to be stopped is stopped.

  Next, the search device 10 determines the degree of match for IP5. When searching for IP4, since the flag “all items with priority“ high ”satisfy the search condition” is set, for IP5, the item designated with priority “high” is determined as “x”. Then, the subsequent match determination operation is stopped. In IP5, “item 2” designated with the priority “high” is “x”. For this reason, as shown in FIG. 15, the determination operation of “item 3” to “item 5” is not performed. In IP5, since the item of the priority “high” is “x” determination, no new flag is set.

  Next, the search device 10 determines the degree of match for IP6. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP6, if the item designated as priority “high” becomes “x”, Stop operation. As for IP6, “item 1” designated with the priority “high” is “x” judgment. For this reason, as shown in FIG. 15, the determination operation of “item 2” to “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP7. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP7, if the item designated as priority “high” becomes “x”, Stop operation. However, as shown in FIG. 15, IP7 satisfies the search condition for all items. Accordingly, the determination operation is “o” for five items “item 1” to “item 5” without being stopped. For this reason, a flag that “all items satisfy the search condition” is set. That is, the specified condition is updated based on the operation shown in FIG. Specifically, for the predetermined target information to be searched later, regardless of whether the priority is “high” or “low”, if the match determination is “x”, the “x” determination after the corresponding target information The match determination operation is stopped.

  Next, the search device 10 performs a match level determination for IP8. Since the flag “all items satisfy the search condition” is set, for IP8, if the item designated as the priority “high” becomes “x” determination, the subsequent match determination operation is stopped. For IP8, “item 2” designated with priority “high” is “x”. For this reason, as shown in FIG. 15, the determination operation of “item 3” to “item 5” is not performed.

  Next, the search device 10 determines the degree of match for IP9. Since the flag “all items satisfy the search condition” is set, for IP9, when the item designated as the priority “high” becomes “x” determination, the subsequent match determination operation is stopped. For IP9, all items designated as high priority are “◯”. For this reason, as shown in FIG. 15, all the determination operations of “item 1” to “item 5” are executed.

  Next, the search device 10 determines the degree of match for IP10. Since the flag “all items of priority“ high ”satisfy the search condition” is set, for IP10, if the item designated as priority “high” becomes “x”, Stop operation. In IP10, all items designated as priority “high” are judged as “◯”. For this reason, as shown in FIG. 15, all the determination operations of “item 1” to “item 5” are executed.

  Thus, step S7 for searching for the expected specification 24 is completed. Next, step S8 is executed as in the first embodiment. That is, in step S8, the search processing unit 40 ranks the expected specification 24 with respect to the circuit information 21 (IP1 to IP10) registered in the circuit database 20. In this case, in the present embodiment, no rank is given to the circuit information 21 in which the determination operation is stopped, specifically, IP5, IP6, IP8, and IP10.

  Next, step S9 and step S10 are performed similarly to 1st Embodiment. Thereafter, the process continues to step S11. Since the subsequent operation is the same as that of the first embodiment, the description thereof is omitted.

  The match determination in this specific example can be stopped only 11 times. For this reason, it is possible to reduce the load of search processing and to reduce the amount of results to be confirmed even when the user reviews the output results.

  As described above, as shown in the three specific examples (FIGS. 13 to 15), by using the search method according to the present embodiment, the load of the search process can be reduced, and the output result can be used by the user. Even in the case of considering, the amount of results to be confirmed can be reduced.

(Other embodiments)
The preferred embodiments of the present invention have been described above. However, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the spirit of the present invention.

  In each of the above-described embodiments, the circuit information 21 has the change information 25, and the change information 25 of the extracted circuit information 21 is displayed on the external output unit (monitor 400) as a search result. The circuit information 21 is not necessarily required to include the change information 25. Further, the change information 25 is not necessarily output to the external output means. In other words, step S12 to step 14 are not necessarily executed. The change information 25 may be registered in the circuit database 20 as necessary by the user. However, as described above, when the change information 25 is presented to the user as a search result, the circuit data 22 can be changed more efficiently without searching for a change method for realizing the expected specification 24. Can do.

  Further, in each of the above-described embodiments, an example in which the guaranteed specification 23 and the expected specification 24 are ranked has been shown, but the ranking is not necessarily performed. That is, step S6 and step S8 are not necessarily performed. However, as described above, by ranking each circuit information 21 as a search result, the user can select the circuit information 21 to be reused among the extracted circuit information 21 more efficiently. Can be done well.

  In each of the above-described embodiments, an example is shown in which two levels of “high” and “low” are set as priorities. However, the setting of priorities is not limited to the above example. For example, three levels of “high”, “medium”, and “low” can be set as priorities. Thereby, when ranking is implemented, the definition of ranking can be set in more detail. For this reason, the user can more efficiently extract circuit information 21 suitable for reuse from a lot of circuit information 21.

20 ... Circuit database 21 ... Circuit information 21
22 ... Circuit data 23 ... Warranty spec 24 ... Expected spec 25 ... Change information 25a ... Change location 25b ... Change scale information 25c ... Change method

Claims (14)

A target information database in which target information including information about a plurality of items to be searched is stored in advance;
Search condition display means for displaying a search condition input screen including an input field for allowing the user to input a search condition for the item;
Search means for searching the target information database for the target information based on the search conditions input by a user on the search condition input screen displayed by the search condition display means;
A search result display means for outputting the target information extracted by the search means to an external output means,
The target information is
Configuration information of functional blocks having predetermined functions;
Guaranteed specifications as performance guaranteed by the functional block;
A search apparatus comprising: an expected specification as performance realized by partial change of the configuration information. The target information is for each item,
The changed part of the configuration information for realizing the expected specification,
Change scale information indicating the scale of changing the configuration information;
Change information including the configuration information change method,
The search means counts the number of the items whose configuration information is changed based on the search condition,
The search apparatus according to claim 1, wherein the search result display unit outputs the number of items whose configuration information is changed together with the target information to the external output unit. The search condition display means displays a priority input field for assigning a priority to each of the items on the search condition input screen,
The search means includes
Based on the search condition including the priority input by the user on the search condition input screen, the target information database is searched for the target information,
The search device according to claim 1 or 2, wherein the target information is ranked based on a matching degree between the priority and the search condition of the item. The target information is circuit information of an electronic circuit,
The search apparatus according to claim 1, wherein the circuit information includes circuit data including element information and connection information between the elements as the configuration information. In order to search for desired target information from a target information database in which target information including information about a plurality of items that is a target of search is stored in advance, a search condition display means sends the item to the user A first step of displaying a search condition input screen including an input field for inputting search conditions separately;
A second step in which search means searches the target information database for the target information based on the search conditions input in the first step;
A search result display means comprising: a third step of outputting the target information extracted in the second step to an external output means;
The target information is
Configuration information of functional blocks having predetermined functions;
Guaranteed specifications as performance guaranteed by the functional block;
Expected specifications as performance realized by partial change of the configuration information,
The second step includes
A search method characterized by including a search step of searching for the guaranteed specification as a search target and searching for the expected specification as the search target. In the second step,
For the first target information and the second target information in which the search order is continuous,
Among the items, set a designation condition for designating the item to be determined as a match with the search condition,
Determining the first target information based on a first designated condition as the designated condition;
A comparison step of comparing the first designation condition with a second designation condition corresponding to a degree of match that is a combination of the items that match the search condition of the first target information;
When the second specified condition is a condition that reduces the number of items to be determined as compared to the first specified condition, the specified condition is changed from the first specified condition to the second specified condition. The search method according to claim 5, further comprising an update step of updating to. The target information is for each item,
The changed part of the configuration information for realizing the expected specification,
Change scale information indicating the scale of changing the configuration information;
Change information including the configuration information change method,
The second step includes
After the search step, based on the search condition, including a counting step in which the search means counts the number of the items whose configuration information is changed,
In the third step,
The search method according to claim 5 or 6, wherein the search result display means outputs the number of items whose configuration information is changed together with the target information to the external output means. In the first step, the search condition display means displays a priority input field for assigning a priority to each of the items on the search condition input screen,
In the second step,
The search means searches the target information database for the target information based on the search conditions including the priority input by the user on the search condition input screen,
The search according to any one of claims 5 to 7, wherein the search means ranks the target information based on the degree of matching between the priority and the search condition of the item. Method. The target information is circuit information of an electronic circuit,
The search method according to any one of claims 5 to 8, wherein the circuit information includes circuit data including element information and connection information between the elements as the configuration information. In order to search for desired target information from a target information database in which target information including information about a plurality of items that are targets of search is stored in advance, the user is made to input search conditions for each item. A first step of displaying a search condition input screen including an input field;
A second step of searching the target information database for the target information based on the search conditions input in the first step;
A program for causing a computer to execute a third step of outputting the target information extracted in the second step to an external output means,
The target information is
Configuration information of functional blocks having predetermined functions;
Guaranteed specifications as performance guaranteed by the functional block;
Expected specifications as performance realized by partial change of the configuration information,
In the second step, a program causing the computer to execute a search step for performing the search using the guaranteed specification as a search target and the expected specification as the search target. In the second step,
For the first target information and the second target information in which the search order is continuous,
Among the items, set a designation condition for designating the item to be determined as a match with the search condition,
Determining the first target information based on a first designated condition as the designated condition;
A comparison step of comparing the first designation condition with a second designation condition corresponding to a degree of match that is a combination of the items that match the search condition of the first target information;
When the second specified condition is a condition that reduces the number of items to be determined as compared to the first specified condition, the specified condition is changed from the first specified condition to the second specified condition. The program according to claim 10, wherein the computer executes an updating step for updating to a computer. The target information is for each item,
The changed part of the configuration information for realizing the expected specification,
Change scale information indicating the scale of changing the configuration information;
Change information including the configuration information change method,
In the second step,
After the search step, based on the search condition, causing the computer to execute a counting step of counting the number of the items whose configuration information is changed,
11. The third step causes a computer to output the change information and the number of items whose configuration information is changed together with the configuration information to the external output unit. Or the program of Claim 11. In the first step, a priority input field for assigning a priority to each of the items is displayed on the search condition input screen,
In the second step,
Based on the search condition including the priority input by the user on the search condition input screen, the target information database is searched for the target information,
The program according to any one of claims 10 to 12, which causes a computer to rank the target information on the basis of the degree of matching between the priority and the search condition of the item. The target information is circuit information of an electronic circuit,
The program according to any one of claims 10 to 13, wherein the circuit information includes circuit data including element information and connection information between the elements as the configuration information.

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