CN110162402B - Method and system for using scarce resources of integrated circuit - Google Patents

Abstract

The invention discloses a method and a system for using scarce resources of an integrated circuit, and relates to the technical field of communication. A method for using scarce resources of an integrated circuit, comprising the steps of: pre-allocating the scarce resources of the integrated circuit according to the user information; collecting resource reservation information of a user, wherein the amount of resources which can be reserved is limited by pre-allocation data; responding to a scarce resource use request of a user, opening a scarce resource channel when the condition is met, and distributing the resource amount; and when the preset time limit is reached, closing the scarce resource channel and releasing the resource amount occupied by the user. The invention sequences the use of the scarce resources of the integrated circuit, not only effectively solves the problem of resource waste caused by the fact that a user does not quit after finishing using, but also guides the subsequent use of the user according to the actual use information of the resources of the user and improves the utilization rate of the resources.

Description

Method and system for using scarce resources of integrated circuit

Technical Field

The invention relates to the technical field of communication, in particular to management of scarce resources of an integrated circuit.

Background

In the development process of an integrated circuit, before a chip tapout, logic of the whole chip needs to be generated in advance by using a specific tool for software personnel to verify. This particular tool is very expensive, on the order of millions of dollars, resulting in very limited supplies of this resource, which are scarce. Before the chip tapout, software personnel verify the whole chip very necessarily, so that the utilization rate of the scarce resource is improved, the scarce resource can be used to the maximum extent in effective time, and the waste and unreasonable use of the resource are avoided.

At present, the use and statistics of the specific tool in the market often depend on the self-carried function of the tool, and the tool belongs to the exclusive resource of the service property, and if a software person uses the tool, the resource is occupied. At this point, if other colleagues are to use the tool, there are generally two approaches: one approach is to wait for the previous software worker to quit the tool and release the resource, which requires the user to wait and may affect the working progress; another approach is to purchase more resources for software personnel, which, while meeting the use requirements of software personnel, increases the cost greatly.

In the process of using the resources, a plurality of users are available, and few resources are common conditions. Reservation-based resource management methods are proposed, especially for exclusive resources, who generally reserves the resources first and uses the resources first, resulting in a state where the resources are not available to subsequent users. In particular, if some software colleagues do not exit after the use is completed, other colleagues cannot use the software colleagues. The above-mentioned drawbacks not only result in resources being underutilized, but also increase the communication cost. However, the existing tools cannot count the above situations, and how to improve the utilization rate of the scarce resources of the integrated circuit is an urgent problem to be solved.

Disclosure of Invention

The invention aims to: the method and the system for using the scarce resources of the integrated circuit can effectively avoid the problem of resource waste caused by the fact that a user does not quit after using the scarce resources, and can guide the user to use the scarce resources later according to user information so as to improve the resource utilization rate.

In order to achieve the above object, the present invention provides the following technical solutions:

a method for using scarce resources of an integrated circuit, comprising the steps of:

acquiring user information, and pre-allocating the scarce resources of the integrated circuit according to the user information;

collecting resource reservation information of a user, wherein the resource reservation information comprises using time period information, and the amount of the resource which can be reserved is limited by pre-allocation data;

responding to the scarce resource using request of the user, and opening a scarce resource channel and distributing the resource amount to the user when judging that the scarce resource using request accords with the resource reservation information;

and when the preset time limit is reached, closing the scarce resource channel and releasing the resource amount occupied by the user.

Further, a resource period is set, and the supply amount of the scarce resource of the integrated circuit in the resource period is a constant value.

Further, dividing the scarce resources into N unit quantities, wherein each user needs M unit quantities during working, N and M are integers greater than 1, and M is smaller than N; setting a time ticket, wherein the time ticket represents a value of a product of a unit quantity and time quantity, setting total time quantity of one day as X, setting time quantity required by a user every day as T, wherein X and T are integers greater than 1, and T is less than X;

when pre-distribution is carried out, the historical use information of the user on the scarce resources is counted, and the machine hour tickets of the scarce resources are pre-distributed according to the historical use information;

when the user performs resource reservation, the reserved resource amount is limited by the pre-allocated time ticket.

Further, the historical usage information includes resource usage efficiency values, where the resource usage efficiency values = actual usage measurement values/predetermined usage measurement values, the predetermined usage measurement values are used for tracking expected usage data of the resource by the user, and the actual usage measurement values are used for tracking actual usage data of the resource by the user;

users with high resource usage efficiency values have higher priority and/or a greater number of tickets on the machine when pre-assigned.

And further, the method comprises the steps of carrying out statistical analysis on the resource preset information and the resource use information of the user to generate statistical data of the use condition of the scarce resources of the user, associating the statistical data with the user and storing the statistical data in a user information database, and adjusting the pre-distribution rule according to the statistical data.

Further, when carrying out statistical analysis, setting a coefficient K, K < =1, wherein the coefficient K = actual use time amount/preset use time amount, each user has a K value of the user, the K value is smaller than 1 when the user is not used on time in a preset time, and the coefficient K =1 of a new user;

and counting the K value of the user, and when the user reserves the scarce resource, reserving the resource quantity = pre-allocated resource quantity.

Or, counting K values of users, generating a period K value = K 'based on one cycle, and when a user reserves a scarce resource, reserving an amount of the resource = K' that can be reserved.

Further, the method also comprises the following steps:

monitoring the use condition of a user on resources to acquire the real-time use state of the resources;

judging whether the real-time use state of the resource is an effective use state;

and when the user is judged to be in the non-effective use state, sending out a resource forced closing prompt message, and closing the scarce resource channel of the user after the prompt is finished.

The manner of determining whether the real-time resource usage status is an effective usage status may include the following manners:

acquiring screen image data of a terminal corresponding to a user for judgment; and/or the presence of a gas in the gas,

collecting the current facial image data of a user for judgment; and/or the presence of a gas in the gas,

judging by adopting the current input operation information of the user; and/or the presence of a gas in the gas,

and judging by adopting the voice data of the user.

On the other hand, the invention also provides an integrated circuit scarce resource management system of the method, which comprises a Web front-end webpage, a Web front-end database and an integrated circuit scarce resource end tool server which are in communication connection;

the Web front-end webpage is used for acquiring login information of a user, resource reservation information of the user and opening and closing instruction information of the user on the integrated circuit scarce resource tool;

the Web front-end database is used for storing user information and resource information; the user information can comprise login user identity information and user resource reservation information, and the resource information comprises the amount of scarce resources and resource utilization rate information;

the integrated circuit scarce resource end tool server is used for receiving information of a web front end webpage, monitoring the use time of a user according to preset information, closing a scarce resource channel and releasing the resource amount occupied by the user when the preset time period is reached.

Preferably, the Web front end webpage is implemented by using Java language;

and/or, the Web front-end database is realized by Microsoft SQL Server;

and/or the tool server at the end of the scarce resource of the integrated circuit is realized by C language.

Due to the adoption of the technical scheme, compared with the prior art, the invention has the following advantages and positive effects as examples: the invention can order the use of the scarce resources of the integrated circuit, effectively solve the problem of resource waste caused by the fact that the user does not quit after the use, and guide the subsequent use of the user according to the actual use information of the resources of the user, thereby improving the utilization rate of the resources.

Drawings

Fig. 1 is a flowchart of a method for using a scarce resource of an integrated circuit according to an embodiment of the present invention.

Fig. 2 is a schematic diagram illustrating operations of ordered utilization of scarce resources according to an embodiment of the present invention.

Fig. 3 is a block diagram of a system according to an embodiment of the present invention.

Description of reference numerals:

a Web front end webpage 100;

a Web front end database 200;

an integrated circuit scarce resource tool server 300;

the integrated circuit scarce resources tool 400.

Detailed Description

The method and system for using the scarce resources of the integrated circuit disclosed by the invention are further described in detail in the following with reference to the attached drawings and specific embodiments. It should be noted that technical features or combinations of technical features described in the following embodiments should not be considered as being isolated, and they may be combined with each other to achieve better technical effects. In the drawings of the embodiments described below, the same reference numerals appearing in the respective drawings denote the same features or components, and may be applied to different embodiments. Thus, once an item is defined in one drawing, it need not be further discussed in subsequent drawings.

It should be noted that the structures, proportions, sizes, and other dimensions shown in the drawings and described in the specification are only for the purpose of understanding and reading the present disclosure, and are not intended to limit the scope of the invention, which is defined by the claims, and any modifications of the structures, changes in the proportions and adjustments of the sizes and other dimensions, should be construed as falling within the scope of the invention unless the function and objectives of the invention are affected. The scope of the preferred embodiments of the present invention includes additional implementations in which functions may be executed out of order from that described or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the embodiments of the present invention.

Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values.

Examples

Referring to fig. 1, a method for using a scarce resource of an integrated circuit specifically includes the following steps:

s100, acquiring user information, and pre-allocating the scarce resources of the integrated circuit according to the user information.

S200, collecting resource reservation information of a user, wherein the resource reservation information comprises using time period information, and the amount of the resource which can be reserved is limited by pre-allocation data.

S300, responding to the scarce resource using request of the user, and opening a scarce resource channel and distributing the resource amount to the user when the scarce resource using request is judged to be in accordance with the resource reservation information.

S400, when the preset time limit is reached, closing the scarce resource channel and releasing the resource amount occupied by the user.

In an implementation manner of this embodiment, the amount of the resource provided by the scarce resource in a certain time period is fixed, so a resource cycle is set for the scarce resource, and the supply amount of the integrated circuit scarce resource in the resource cycle is a fixed value. The resource period, by way of example and not limitation, may be, for example, one week, two weeks, one half month, one month, etc., which should not be construed as limiting the present invention. Taking a week as an example of the resource period, the resource amount of the scarce resource is fixed every week.

The scarce resource can be divided into N unit quantities, and each user needs M unit quantities when working, wherein N, M is an integer greater than 1, and M is smaller than N. And when the resources are distributed, the parameter machine time ticket is introduced to quantify the scarce resources.

The time ticket represents a value of the product of the aforementioned unit amount and the amount of time. Setting the total time amount of a day as X, and the time amount required by a user per day as T, wherein X and T are integers greater than 1, and T is less than X; the available total time ticket of the scarce resource in one day is N X, and the time ticket required by the user is M T.

Before the user applies for the resource on the webpage, the resource administrator can pre-allocate the machine hour ticket of the scarce resource according to the user information, such as the resource historical use information of the user obtained by statistics.

If a user needs to use the ticket, the user needs to perform a predetermined operation to determine the amount of resources that the user needs to use, and the amount of resources that the user can reserve is limited by the ticket to which the user is assigned.

Preferably, the historical usage information includes resource usage efficiency values, the resource usage efficiency values = actual usage measurement values/predetermined usage measurement values, the predetermined usage measurement values are used for tracking expected usage data of the resource by the user, and the actual usage measurement values are used for tracking actual usage data of the resource by the user. Users with high resource usage efficiency values have higher priority and/or a greater number of tickets on the machine when pre-assigned.

As a typical example and not by way of limitation, when calculating the actual usage measure value and the predetermined usage measure value, the calculation may be performed based on the accumulated total amount of resources. For example, if the user a accumulates the predetermined resource amount to 1000 tickets and the accumulated actually used resource amount to 936 tickets, the resource usage efficiency value =936/1000= 0.936.

Further, in order to keep the resource usage efficiency value up to date, an update process may be performed on a preset cycle basis, in which the actual usage measure value and the predetermined usage measure value are continuously accumulated on a time basis, so as to update the resource usage efficiency value.

It should be noted that, the above-mentioned manner of calculating the actual usage measure value and the predetermined usage measure value is by way of example and not limitation, for example, the method of calculating the actual usage measure value and the predetermined usage measure value may also be the usage amount of the resource and the predetermined amount of the resource in a certain time period by the user. Alternatively, the actual usage measurement value, the predetermined usage measurement value, is calculated based only on the resource usage time and the resource predetermined time.

For users with high resource usage efficiency values, there may be a higher priority and/or a greater number of tickets pre-assigned.

By the scheme, the expected resource usage of the user can be indicated according to the resource usage efficiency value of the user. Since the expected resource usage is typically inaccurate and has some degree of uncertainty, the possible uncertainty or randomness in the expected usage is compensated for by the resource usage efficiency values.

In another implementation manner of this embodiment, the method further includes the steps of: and performing statistical analysis on the resource preset information and the resource use information of the user to generate statistical data of the use condition of the scarce resources of the user, associating the statistical data with the user and storing the statistical data into a user information database, and adjusting a pre-allocation rule according to the statistical data.

Preferably, to facilitate the analysis of the statistical result, a coefficient K (K < = 1) is set, the coefficient K = actual usage time amount/predetermined usage time amount, each user has its own K coefficient value, for example, when the user is not used on time by a predetermined time, the K value is less than 1, and the coefficient K =1 of the new user is set by default. The next time the user subscribes to the scarce resource, the subscription ticket = pre-assigned ticket x K.

When calculating the coefficient K, the coefficient K may be based on the previous resource usage of the user, or may be based on the resource usage of the user in a certain time period. By way of example and not limitation, for example, with a period of 30 days, the value K used by the user each time in the 30-day time range is counted, and then a period K value = K 'is generated, and when the user reserves a scarce resource, the ticket that can be reserved = K' of the pre-distribution machine.

By way of example and not limitation, the present embodiment is described in detail below in units of hours of time.

A scarce resource is understood to be a drawer (unit quantity), for example, the scarce resource has 16 drawers in total, i.e., N = 16. One user needs 8 drawers to do his work, i.e. M = 8. Then in the same time period, the rarer resources only allow 2 users to use simultaneously, and other subsequent users need to queue according to their reservation time to wait for resource release, as shown in fig. 2.

The amount of time per day is 24 hours (h), the total hour ticket is 16 x 24=384 (drawer x h), and a user needs to apply for 8 x 8=64 hours of time tickets each day.

Before the user applies for the resources on the webpage, the resource administrator pre-allocates the 'machine hour coupon' of the scarce resources according to the statistical resource use condition. The user then performs resource reservations to determine the time period of his own usage, the amount of resources reserved being limited by the time ticket to which it is allocated.

After the use time of the user is up, the user can log in the webpage to start the tool for the scarce resources of the integrated circuit, and the scarce resources of the integrated circuit are used. After a predetermined time has elapsed, the web page may automatically turn off the tools for the scarce resources of the integrated circuit.

In the embodiment, the method uses the scarce resources of the integrated circuit in a predetermined manner to change the scarce resources of the integrated circuit from unordered to ordered, when the user has scheduled the time, the scarce resources of the integrated circuit tool can be automatically closed, and the user can not use the scarce resources of the integrated circuit tool in the non-scheduled time. Meanwhile, the concept of 'machine hour ticket' is introduced to carry out resource quantification on the scarce resources, and further, the relation between the preset time and the actual use time of the user can be regularly and automatically counted to carry out reverse guidance on the project, so that the whole process is influenced by the next preset resource of the user to form a closed loop.

In another implementation manner of this embodiment, the method may further include the steps of: monitoring the resource using condition of a user, acquiring the real-time resource using state, judging whether the real-time resource using state is an effective using state, sending out a resource forced closing prompt message when the real-time resource using state is judged to be a non-effective using state, and closing a scarce resource channel of the user after the prompt is finished.

In specific implementation, the manner of determining whether the real-time resource usage status is an effective usage status may be: acquiring screen image data of a terminal corresponding to a user for judgment; and/or, collecting the current face image data of the user for judgment; and/or judging by adopting the current input operation information of the user; and/or, the sound data of the user is adopted for judgment.

Preferably, after the scarce resource channel of the user is closed, if the user sends a reuse request within a second predetermined time period, the scarce resource channel is opened to the user, otherwise, the amount of resources occupied by the user is released.

Referring to fig. 3, a system for managing scarce resources of an integrated circuit is provided according to another embodiment of the present invention.

The system includes a Web front end Web page 100, a Web front end database 200, and an integrated circuit scarce resource end tool server 300, all communicatively connected.

The Web front-end Web page 100 is used for collecting login information of a user, resource reservation information of the user, and opening and closing instruction information of the user on the integrated circuit scarce resource tool.

The Web front-end database 200 is used for storing user information and resource information. The user information comprises login user identity information and user resource reservation information, and the resource information comprises the amount of scarce resources and resource utilization rate information.

The tool server 300 at the end of the scarce resource of the integrated circuit is used for receiving the information of the web front-end web page, monitoring the use time of the user according to the preset information, closing the scarce resource channel and releasing the resource amount occupied by the user when the preset time limit is reached.

Preferably, in this embodiment, the Web front end Web page is implemented by using Java language; the Web front-end database is realized by Microsoft SQL Server; the tool server at the scarce resource end of the integrated circuit is realized by C language.

An embodiment of the use of the system for scarce resources of an integrated circuit is described below in conjunction with fig. 3.

The Web front-end Web page 100 is provided with a user login trigger item, an integrated circuit scarce resource reservation trigger item, and an integrated circuit scarce resource tool opening or closing trigger item. The user can perform identity authentication in a Web front-end webpage to log in, perform resource reservation to determine a time period and a resource amount of expected resources to be used, and perform starting and closing operations of the integrated circuit scarce resource tool.

The Web front-end database 200 is in communication with the Web front-end Web page 100, and stores user information and resource information.

The user information may include identification information of a login-enabled user and user resource reservation information.

The resource information may include an amount of scarce resources and resource utilization information.

The tool server 300 for the end of the integrated circuit scarce resource is arranged between the web front-end device (including a front-end web page and a database) and the tool 400 for the end of the integrated circuit scarce resource, and is used for receiving instructions of the web front-end device to control the starting of the interface of the tool 400 for the integrated circuit scarce resource, and controlling the service time of the current user according to the resource reservation information of the user, if the user does not quit within the time, the tool server automatically closes the tool 400 for the integrated circuit scarce resource, thereby releasing the resource.

In specific implementation, the Web front-end Web page starts or closes the integrated circuit scarce resource tool 400 through the integrated circuit scarce resource tool server 300, and the integrated circuit scarce resource tool server 300 can also transmit the usage statistics of the user scarce resources to the Web front-end database 200 for storage, periodically generate the usage statistics of the integrated circuit scarce resources through the Web front-end Web page 100, and reversely guide the pre-allocation rule according to the statistics.

With continued reference to fig. 3, the integrated circuit scarce resource tool-side server 300 may redirect stdin (standard input port) and stdout (standard output port) of the integrated circuit scarce resource tool 400. The integrated circuit scarce resource tool end server 300 and the Web front end Web page 100 interact with each other by using a TCP/IP protocol, and the integrated circuit scarce resource tool end server 300 and the integrated circuit scarce resource tool 400 interact with each other by using stdin and stdout.

Other technical features are referred to the foregoing embodiments and will not be described herein.

In the foregoing description, the disclosure of the present invention is not intended to limit itself to these aspects. Rather, the various components may be selectively and operatively combined in any number within the intended scope of the present disclosure. In addition, terms like "comprising," "including," and "having" should be interpreted as inclusive or open-ended, rather than exclusive or closed-ended, by default, unless explicitly defined to the contrary. All technical, scientific, or other terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs unless defined otherwise. Common terms found in dictionaries should not be interpreted too ideally or too realistically in the context of related art documents unless the present disclosure expressly limits them to that. Any changes and modifications of the present invention based on the above disclosure will be within the scope of the appended claims.

Claims (9)

1. A method for using scarce resources of an integrated circuit, comprising the steps of:

acquiring user information, and pre-allocating the scarce resources of the integrated circuit according to the user information;

collecting resource reservation information of a user, wherein the resource reservation information comprises using time period information, and the amount of the resource which can be reserved is limited by pre-allocation data;

responding to the scarce resource using request of the user, and opening a scarce resource channel and distributing the resource amount to the user when judging that the scarce resource using request accords with the resource reservation information;

when the preset time limit is reached, closing the scarce resource channel and releasing the resource amount occupied by the user;

dividing the scarce resources into N unit quantities, wherein each user needs M unit quantities during working, N and M are integers greater than 1, and M is smaller than N; setting a time ticket, wherein the time ticket represents a value of a product of a unit quantity and time quantity, setting total time quantity of a day as X, setting time quantity required by a user every day as T, wherein X and T are integers larger than 1, and T is smaller than X;

when pre-distribution is carried out, the historical use information of the user on the scarce resources is counted, and the machine hour tickets of the scarce resources are pre-distributed according to the historical use information;

when the user performs resource reservation, the reserved resource amount is limited by the pre-allocated time ticket.

2. The method of claim 1, wherein: resource periods are set, and the supply quantity of the scarce resources of the integrated circuit in the resource periods is a constant value.

3. The method of claim 1, wherein: the historical usage information comprises resource usage efficiency values, the resource usage efficiency values = actual usage measurement values/preset usage measurement values, the preset usage measurement values are used for tracking expected usage data of the resources by users, and the actual usage measurement values are used for tracking actual usage data of the resources by the users;

users with high resource usage efficiency values have higher priority and/or a greater number of tickets on the machine when pre-assigned.

4. The method of claim 1, wherein: the method also comprises the steps of carrying out statistical analysis on the resource preset information and the resource use information of the user to generate statistical data of the use condition of the scarce resources of the user, associating the statistical data with the user and storing the statistical data in a user information database, and adjusting the pre-allocation rule according to the statistical data.

5. The method of claim 4, wherein: when statistical analysis is carried out, setting a coefficient K, K < =1, wherein the coefficient K = actual use time amount/preset use time amount, each user has a K value, the K value is smaller than 1 when the user is not used on time when the user reaches preset time, and the coefficient K =1 of a new user;

counting K values of users, and when the users reserve the scarce resources, reserving resource quantity = pre-distributed resource quantity xK;

or, counting K values of users, generating a period K value = K 'based on one cycle, and when a user reserves a scarce resource, reserving an amount of the resource = K' that can be reserved.

6. The method of claim 1, wherein: the method also comprises the step of carrying out the following steps,

monitoring the use condition of a user on resources to acquire the real-time use state of the resources;

judging whether the real-time use state of the resource is an effective use state;

and when the user is judged to be in the non-effective use state, sending out a resource forced closing prompt message, and closing the scarce resource channel of the user after the prompt is finished.

7. The method of claim 6, wherein: ways of determining whether the real-time usage status of the resource is a valid usage status include,

acquiring screen image data of a terminal corresponding to a user for judgment; and/or the presence of a gas in the gas,

collecting the current facial image data of a user for judgment; and/or the presence of a gas in the gas,

judging by adopting the current input operation information of the user; and/or the presence of a gas in the gas,

and judging by adopting the voice data of the user.

8. An integrated circuit scarce resource management system implementing the method of claim 1, wherein: the system comprises a Web front-end webpage, a Web front-end database and an integrated circuit scarce resource tool-end server which are in communication connection;

the Web front-end webpage is used for acquiring login information of a user, resource reservation information of the user and opening and closing instruction information of the user on the integrated circuit scarce resource tool;

the Web front-end database is used for storing user information and resource information; the user information comprises login user identity information and user resource reservation information, and the resource information comprises the amount of scarce resources and resource utilization rate information;

the integrated circuit scarce resource tool end server is used for receiving information of a web front end webpage, monitoring the use time of a user according to preset information, closing a scarce resource channel and releasing the resource amount occupied by the user when the preset time period is reached.

9. The system of claim 8, wherein: the Web front-end webpage is realized by Java language; and/or the presence of a gas in the gas,

the Web front-end database is realized by Microsoft SQL Server; and/or the presence of a gas in the gas,

the tool end server of the scarce resources of the integrated circuit is realized by C language.

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