KR20210030746A - User computer device and method to share resources with external device - Google Patents

Abstract

An embodiment of the present invention provides a user computer device that communicates with a resource sharing network server through a network. An embodiment of the present invention is to provid a user computer device and method that can efficiently share resources over a network. The user computer device includes a memory, a non-volatile storage media, a scripter that communicates with an attendance management server through a network and generates a command based on a leaving alarm signal from the attendance management server, and a hypervisor that generates a virtual machine occupying some memory space in the memory and some storage space in the non-volatile storage medium in response to the command of the scripter. After the scripter notifies a resource sharing network server of the creation of the virtual machine, when receiving a resource request signal from a resource sharing network server, the scripter controls the virtual machine to at least partially share some memory space in the memory and some storage space in the non-volatile storage medium with the resource sharing network server.

Description

USER COMPUTER DEVICE AND METHOD TO SHARE RESOURCES WITH EXTERNAL DEVICE}

The present invention relates to a network system, and more particularly, to a user computer device and method for sharing resources with an external device.

A network such as a public network or a private network connects a plurality of computer devices, and such computer devices can communicate with each other through the network. In addition, computer devices are connected to a server, which is a kind of computer device through a network, and may request specific tasks.

In this way, the server processes various signals and/or data as needed, as well as requests received from computer devices. Accordingly, the server has an intensive processing function and may include a relatively large number of resources for this purpose. However, a server having a higher specification may be required for a task that takes more resources to process, and providing a server with more resources in response to this is a considerable burden on the server provider.

On the other hand, when the amount of work to be processed is enormous, a distributed processing system is attracting attention to increase the efficiency by distributing the work amount to a plurality of computer devices and processing them jointly.

The above-described content is only intended to aid in understanding the background art of the technical idea of the present invention, and thus it cannot be understood as the content corresponding to the prior art known to those skilled in the art of the present invention.

Embodiments of the present invention are to provide a user computer device and method capable of efficiently sharing resources through a network. For example, a user computer device may share the resources at times when it is not expected to be used by the user.

A user computer device that communicates with a resource sharing network server through a network according to an embodiment of the present invention includes: a memory; Nonvolatile storage media; A scripter that communicates with the time and attendance management server through the network, and generates a command based on the exit alarm signal from the time and attendance management server; And a hypervisor for creating a virtual machine that occupies a partial memory space of the memory and a partial storage space of the nonvolatile storage medium in response to the command from the scripter, wherein the scripter provides the resource sharing network server to the resource sharing network server. After notifying the creation of a virtual machine, when receiving a resource request signal from the resource sharing network server, the partial memory space of the memory and the partial storage space of the nonvolatile storage medium are at least partially shared with the resource sharing network server The virtual machine to be controlled.

The scripter may provide an interface for the virtual machine to the resource sharing network server.

The user computer device may further include a processor including a plurality of processing units. The virtual machine further occupies a part of the plurality of processing units, and the scripter further shares the part of the plurality of processing units at least partially with the resource sharing network server when receiving the resource request signal. You can control the machine.

The memory further includes a memory space other than the partial memory space, the partial memory space and the other memory space are physically or logically separated from each other, and the nonvolatile storage medium further includes a storage space other than the partial storage space. And the partial storage space and the other storage space may be physically or logically separated from each other.

The user computer device may further include an application program running under an operating system associated with the hypervisor, and the application program may at least partially occupy the other memory space of the memory.

Access of the application program to the partial memory space of the memory and the partial storage space of the nonvolatile storage medium may be blocked.

The user computer device further includes a user interface, and the scripter may generate the command based on the exit alarm signal when a user input indicating consent to the creation of the virtual machine is received through the user interface. .

Another aspect of the present invention relates to a method of operating a user computer device that communicates with a resource sharing network server through a network. The user computer device includes a memory and a nonvolatile storage medium, and the method includes the steps of receiving an exit alarm signal from the time and attendance management server by communicating with a time and attendance management server through the network; Creating a virtual machine occupying a partial memory space of the memory and a partial storage space of the nonvolatile storage medium based on the leave alarm signal; Notifying the creation of the virtual machine to the resource sharing network server; And at least partially sharing the partial memory space of the memory occupied by the virtual machine and the partial storage space of the nonvolatile storage medium with the resource sharing network server when a resource request signal is received from the resource sharing network server. It includes the step of.

The user computer device further comprises a processor including a plurality of processing units, wherein the virtual machine further occupies part of the plurality of processing units, and the step of sharing with the resource sharing network server receives the resource request signal. And further sharing the part of the plurality of processing units at least partially with the resource sharing network server when it becomes available.

The memory further includes a memory space other than the partial memory space, the partial memory space and the other memory space are physically or logically separated from each other, and the nonvolatile storage medium further includes a storage space other than the partial storage space. And the partial storage space and the other storage space may be physically or logically separated from each other.

The virtual machine is created by a hypervisor, and an application program running under an operating system associated with the hypervisor may at least partially occupy the other memory space of the memory.

Access of the application program to the partial memory space of the memory and the partial storage space of the nonvolatile storage medium may be blocked.

The user computer device further includes a user interface, and in the step of generating the virtual machine, when a user input indicating consent to the creation of the virtual machine is received through the user interface, the virtual machine It may include the step of creating a machine.

According to another embodiment of the present invention, a user computer device for communicating with a resource sharing network server through a network includes: a communication device connected to the network; Memory; Nonvolatile storage media; And at least one processor configured to control the communicator, the memory, and the nonvolatile storage medium, wherein the at least one processor communicates with a time and attendance server through the network, and an exit alarm from the time and attendance management server Generate a command based on the signal; Creating a virtual machine occupying a partial memory space of the memory and a partial storage space of the nonvolatile storage medium in response to the commands; Notifying the resource sharing network server of the creation of the virtual machine; When receiving a resource request signal from the resource sharing network server, it may be configured to control the virtual machine to share the partial memory space of the memory and the partial storage space of the nonvolatile storage medium with the resource sharing network server. .

According to embodiments of the present invention, a user computer apparatus and method capable of efficiently sharing resources through a network are provided.

1 is a block diagram showing a network system according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating an embodiment of any one of first to kth user computer devices of FIG. 1.
3 is a block diagram showing components of a hardware layer and a software layer of the user computer device of FIG. 2.
FIG. 4 is a diagram for describing hardware resources occupied by the application application and the virtual machine of FIG. 3.
5 is a flowchart illustrating an embodiment of a method of operating a network system according to an embodiment of the present invention.
6 is a flowchart illustrating an embodiment of a method of sharing resources of a user computer device with a cloud server.
7 is a flowchart illustrating another embodiment of a method of sharing a resource of a user computer device with a cloud server.
8 is a flowchart illustrating an embodiment of a method of creating a virtual machine in steps S220 of FIG. 6 and S330 of FIG. 7.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, it should be noted that only parts necessary to understand the operation according to the present invention are described, and descriptions of other parts will be omitted so as not to obscure the subject matter of the present invention. In addition, the present invention is not limited to the embodiments described herein and may be embodied in other forms. However, the embodiments described herein are provided to explain in detail enough to be able to easily implement the technical idea of the present invention to those of ordinary skill in the art to which the present invention pertains.

Throughout the specification, when a part is said to be "connected" with another part, this includes not only "directly connected" but also "indirectly connected" with another element interposed therebetween. . The terms used herein are for describing specific embodiments and not for limiting the present invention. Throughout the specification, when a certain part "includes" a certain component, it means that other components may be further included rather than excluding other components unless specifically stated to the contrary. "At least any one of X, Y, and Z", and "at least any one selected from the group consisting of X, Y, and Z" means X one, Y one, Z one, or two of X, Y, and Z, or It can be interpreted as any combination beyond that (eg, XYZ, XYY, YZ, ZZ). Herein, "and/or" includes all combinations of one or more of the corresponding elements.

1 is a block diagram showing a network system according to an embodiment of the present invention.

Referring to FIG. 1, the network system 100 includes a network 105, first to kth user computer devices 111 to 11k, a cloud server 120, a time and attendance management server 130, and an access door system ( 140).

Network system 100 may include a plurality of devices, servers, and/or software components that operate to perform various methods in accordance with embodiments of the present invention described herein. The devices and/or servers shown in FIG. 1 may be configured in different ways, and the operations and services provided by the devices and/or servers may be combined or separated for the embodiments described herein. And may be performed by a greater or lesser number of devices and/or servers. One or more devices and/or servers may be run and/or maintained by the same or different enterprises.

The network 105 connects components in the network system 100 such as the first to kth user computer devices 111 to 11k, the cloud server 120, and the time and attendance management server 130. The network 105 may include at least one of a public network, at least one private network, a wired network, a wireless network, another suitable type of network, and combinations thereof. In embodiments, the network 105 may be a private network having a relatively high level of security, and may include components such as a firewall for this purpose. Each of the components in the network system 100 may include at least one of a wired communication function and a wireless communication function, and accordingly, may communicate with each other through the network 105.

The first to k-th user computer devices 111 to 11k are, for example, computer devices assigned to users in the company, and users may use the first to kth user computer devices 111 to 11k. Can perform tasks. The first to kth user computer devices 111 to 11k may support various functions so that users perform various tasks in the normal mode.

Each of the first to kth user computer devices 111 to 11k may communicate with the cloud server 120 and the T&A server 130 through the network 105. Each of the first to kth user computer devices 111 to 11k may share its resources with the cloud server 120 in the cloud mode. In response to the request from the cloud server 120, each of the first to kth user computer devices 111 to 11k will share resources such as its memory space, storage space, and the like with the cloud server 120. For example, each of the first to kth user computer devices 111 to 11k may process tasks requested from the cloud server 120 using shared resources and transmit the processing result to the cloud server 120. . In embodiments, the first to kth user computer devices 111 to 11k may configure a resource-sharing network and/or a distributed processing system together with the cloud server 120. have. In this case, the cloud mode may be triggered in response to a control signal from the time and attendance management server 130.

A resource sharing network server such as the cloud server 120, that is, a server receiving resource sharing from the first to k-th user computer devices 111 to 11k, is the first to k-th user computer devices through the network 105 Can communicate with (111~11k). When there are jobs that need to be processed, the cloud server 120 may access the first to kth user computer devices 111 to 11k according to the jobs to be processed to receive corresponding resources. Each user computer device may transmit a completion signal to the cloud server 120 when preparation for resource sharing is completed, and the cloud server 120 may access the user computer device that transmitted the completion signal and receive the corresponding resources. have.

The time and attendance management server 130 is connected to the network 105 and may also communicate with the access door system 140. The time and attendance management server 130 may trigger a cloud mode by transmitting a control signal to the user's computer device when the access door system 140 detects the user's leaving home. Accordingly, the resources can be shared with the cloud server 120 at a time when it is expected that the user will not use the user computer device, so that the resources of the user computer device can be efficiently utilized.

In embodiments, the time and attendance management server 130 may receive an identifier of a user whose work has been detected from the access door system 140. In this case, the time and attendance management server 130 may determine the user computer device corresponding to the received user identifier, and transmit a control signal to the determined user computer device to trigger its cloud mode. To this end, the time and attendance management server 130 may store a mapping relationship between each user computer device and its user identifier.

In embodiments, the T&A server 130 may communicate with the access door system 140 by wire/wireless. In embodiments, the time and attendance management server 130 may be connected to the access door system 140 through the network 105.

The access door system 140 may be installed at, for example, a specific area or an entrance of a building to detect a user's leaving home. For example, the access door system 140 provides wired/wireless interactions with objects held by users such as smart phones, web tablets, and cards that support various types of communication functions. , Biometric recognition, etc., can detect users' leaving work. In embodiments, the access door system 140 may transmit a corresponding user identifier to the time and attendance management server 130 according to the detection result.

FIG. 2 is a block diagram illustrating an embodiment of any one of first to kth user computer devices of FIG. 1.

Referring to FIG. 2, the user computer device 200 includes a communicator 210, a user interface 220, a display device 230, a nonvolatile storage medium 240, at least one processor 250, and a system memory ( 260).

The communicator 210 is configured to communicate with an external device through a network 105 (see FIG. 1) in response to the control of the processor 250. The communicator 210 may transmit and receive signals such as an external server and an external terminal. The communicator 210 may be configured to access the Internet. The communicator 210 may perform wired and/or wireless communication, where wireless communication is Wi-Fi communication, Bluetooth, LTE D2D communication, NFC, magnetic security transmission communication, ZigBee communication , Infrared Data Association (IrDA) communication, Ultra Wideband (UWB) communication, Ant+ communication, and/or communication using at least one communication protocol of the same.

The user interface 220 receives user inputs for controlling operations of the user computer device 200 or the processor 250 from a user.

The display device 230 displays information processed by the computer device 200 or the processor 250. In embodiments, the display device 230 may include at least one of a liquid crystal display, an organic light-emitting diode display, a flexible display, and the like.

The nonvolatile storage medium 240 may include at least one of a flash memory type, a hard disk type, a multimedia card, etc. that retains stored data even when power is cut off. have. The nonvolatile storage medium 240 is configured to write and read data in response to the control of the processor 250.

The processor 250 controls operations of the communicator 210, the user interface 220, the display device 230, the nonvolatile storage medium 240, and the system memory 260. The processor 250 may include a plurality of processing units (or a plurality of cores) to perform various processes such as calculation and comparison. For example, the processor 250 may include a central processing unit (CPU). For example, the processor 250 may further include a graphic processing unit (GPU).

The processor 250 may load program codes (or software) from the nonvolatile storage medium 240 into the system memory 260 and execute the loaded program codes.

The system memory 260 may include at least one of random access memory (RAM), read only memory (ROM), and other types of computer-readable storage media. In FIG. 2, the system memory 260 is shown as a separate component from the processor 250, but this is exemplary and at least a part of the system memory 260 may be included in the processor 250. The system memory 260 may be divided into a plurality of components as needed. The system memory 260 may be provided as a working memory and/or a buffer memory of the processor 250.

The processor 250 loads the operating system 270 into the system memory 260 and executes the loaded operating system 270 to control all operations of the user computer device 200. The operating system 270 is an application operating under the operating system 270 with an interface to the communicator 210, the user interface 220, the display device 230, the nonvolatile storage medium 240, and the system memory 260. It can be provided to programs. As such, the operating system 270 provides a base environment for application programs.

Also, the processor 250 may load the scripter 280 into the system memory 260 and execute the loaded scripter 280. The scripter 280 executed by the processor 250 may generate a virtual machine by sending a command to the hypervisor. In addition, the scripter 280 has an interaction function with the cloud server 120. When the creation of the virtual machine is completed, the scripter 280 provides a completion signal to the cloud server 120, and then, when receiving a resource request signal from the cloud server 120, the resource occupied by the virtual machine is stored in the cloud server 120. ) And share. The processor 250 may load program codes corresponding to components of the software layer of FIG. 3 into the system memory 260 and perform corresponding operations by executing the loaded program codes.

3 is a block diagram showing components of a hardware layer and a software layer of the user computer device of FIG. 2.

Referring to FIG. 3, the user computer device 200 of FIG. 2 may include a hardware layer and a software layer. First, the hardware layer may include processor resources 301, a memory 302, and a nonvolatile storage medium 303. The processor resources 301 are a plurality of processing units (or a plurality of cores) of the processor 250 of FIG. 2, the memory 302 is the system memory 260 of FIG. 2, and the nonvolatile storage medium 303 ) May be provided as the nonvolatile storage medium 240 of FIG. 2.

The software layer may include an operating system 311, a hypervisor 312, an application application 313, a scripter 314, and a virtual machine 315.

The operating system 311 may function as the operating system 270 of FIG. 2. The operating system 311 may control all operations of the computer device 200, and components of the software layer, for example, the application application 313, the scripter 314, and the underlying environment of the virtual machine 315 Can provide.

The operating system 311 may support a hypervisor 312 that creates a virtual machine 315. The hypervisor 312 may be included in the operating system 311. The hypervisor 312 is a virtual device that occupies the resources of the user computer device 200, such as a part of the processor resources 301, a part of the memory space of the memory 302, and a part of the storage space of the nonvolatile storage medium 303. Machine 315 can be created and managed. If necessary, an application APP may be driven on the created virtual machine 315.

The application application 313 runs under the operating system 311. The application application 313 may support various functions so that a user can perform various tasks using a computer device.

The scripter 314 can run under the operating system 311. The scripter 314 may interact with the cloud server 120 (see FIG. 1) and the T&A server 130 (see FIG. 1). The operating system 311 provides an interface to the communicator 210 to the scripter 314, and accordingly, the scripter 314 communicates with the cloud server 120 and the T&A server 130 through the operating system 311. can do.

The scripter 314 receives the leave alarm signal from the time and attendance management server 130, and transmits a command to the hypervisor 312 based on the received leave alarm signal, thereby causing the hypervisor 312 to start the virtual machine 315. Can be created. The generated virtual machine 315 is a user computer device 200 such as a part of the processor resources 301, a part of the memory space of the memory 302, and a part of the storage space of the nonvolatile storage medium 303 as described above. ) Resources can be occupied. In embodiments, the above command generated by the scripter 314 is data indicating a part of the processor resources 301 to be occupied, a part of the memory space of the memory 302, and a part of the storage space of the nonvolatile storage medium 303 It may include, and the hypervisor 312 may create a virtual machine 315 that occupies corresponding resources according to such a command.

When the creation of the virtual machine 315 is completed, the hypervisor 312 may provide a completion alarm to the scripter 314, and the scripter 314 transmits a completion signal to the cloud server 120 in response to the completion alarm. I can. In this case, the completion signal may include data on resources occupied by the virtual machine 315. This enables the cloud server 120 to determine tasks to be requested later adaptively to the resources occupied by the virtual machine 315.

Thereafter, the scripter 314 may provide an interface to the virtual machine 315 to the cloud server 120. The cloud server 120 may request tasks from the virtual machine 315 through the scripter 314. Accordingly, when a resource request signal is received from the cloud server 120, the scripter 314 controls the virtual machine 315 to at least partially share the above resources occupied by the virtual machine 315 with the cloud server 120. I can. In embodiments, the cloud server 120 may request specific tasks by transmitting a resource request signal. In this case, the scripter 314 provides the tasks requested from the cloud server 120 to the virtual machine 315, and The machine 315 may process tasks requested from the cloud server 120 by using at least partially the resources occupied by the machine 315 and transmit the processing result to the cloud server 120 through the scripter 314.

In embodiments, the scripter 314 may receive a user input indicating consent or rejection to the creation of the virtual machine 315 from the user through the user interface 220 (see FIG. 2 ). In this embodiment, the scripter 314 generates a command based on the leave alarm signal from the T&A server 130 only when a user input indicating consent to the creation of the virtual machine 315 is received, thereby generating a hypervisor. Allow 312 to create virtual machine 315.

In FIG. 3, the virtual machine 315 is shown as a separate component from the hypervisor 312. However, this is exemplary, and the virtual machine 315 may be included in the hypervisor 312. In embodiments, the scripter 314 may interact with the virtual machine 315 through the hypervisor 312.

According to an embodiment of the present invention, after the user leaves the office, the user computer device 200 shares the resources with the cloud server 120. Accordingly, the resources of the user computer device 200 can be shared with the cloud server 120 at a time when it is expected that the user will not use the user computer device 200, and thus, the resources of the user computer device 200 can be efficiently utilized.

According to an embodiment of the present invention, the user computer device 200 creates a virtual machine 315 and shares resources occupied by the created virtual machine 315 with the cloud server 120. Accordingly, even if unexpected operations are performed by the user computer device 200 due to various causes and the resources of the user computer device 200 occupied by the operations increase, the virtual machine 315 already occupies the resources. Therefore, the resources occupied by the virtual machine 315 can be stably shared with the cloud server 120.

FIG. 4 is a diagram for describing hardware resources occupied by the application application and the virtual machine of FIG. 3.

Referring to FIG. 4, processor resources 301 include first processing units PU1 and second processing units PU2 that are physically and/or logically separated, and the memory 302 is physically and/or logically separated. Or a first memory space MS1 and a second memory space MS2 that are logically divided, and the nonvolatile storage medium 303 includes a first storage space SS1 and a second storage space SS1 and a second It may include a storage space (SS2).

The application application 313 at least partially occupies the first processing units PU1 of the processor resources 301 and the first memory space MS1 of the memory 302, while the virtual machine 315 The second processing units PU2 of the s 301 and the second memory space MS2 of the memory 302 may be at least partially occupied. The application application 313 cannot access the second processing units PU2 of the processor resources 301 and the second memory space MS2 of the memory 302. For example, the operating system 311 may block the application application 313 from accessing the second processing units PU2 and the second memory space MS2. In addition, the application application 313 may access the first storage space SS1 of the nonvolatile storage medium 303 and cannot access the second storage space SS2. The second processing units PU2, the second memory space MS2, and the second storage space SS2, which are resources occupied by the virtual machine 315, can be accessed by various types of application applications 313. Therefore, it can have an improved security level.

The scripter 314 provides an interface to the virtual machine 315 to the cloud server 120. Accordingly, the scripter 314 at least partially shares the resources occupied by the virtual machine 315 with the cloud server 120 in response to a request from the cloud server 120.

5 is a flowchart illustrating an embodiment of a method of operating a network system according to an embodiment of the present invention.

Referring to FIG. 5, in step S110, the access door system 140 detects the user's leaving home. In step S120, the access door system 140 transmits the user identifier to the time attendance management server 130 in response to detecting the leaving home.

In step S130, the time and attendance management server 130 determines the user computer device 200 corresponding to the user identifier, and transmits an exit alarm signal to the determined user computer device 200.

The user computer device 200 may perform a cloud mode based on the retirement alarm signal. For example, the user computer device 200 may perform the cloud mode when a predetermined time (for example, 1 hour) elapses after the resignation alarm signal is received.

In step S140, in the cloud mode, the user computer device 200 creates a virtual machine that occupies a portion of each of its resources, for example, a processor, a memory, and a nonvolatile storage medium. In step S150, when the generation of the virtual machine is completed, the user computer device 200 transmits a completion signal to the cloud server 120. In this case, the completion signal may include data on resources occupied by the virtual machine. This enables the cloud server 120 to determine tasks to be requested later adaptively to the resources occupied by the virtual machine.

In step S160, the cloud server 120 registers resources corresponding to the virtual machine in the database according to the completion signal.

In step S170, the cloud server 120 transmits a resource request signal to the user computer device 200. In step S180, the user computer device 200 shares resources occupied by the virtual machine with the cloud server 120. In embodiments, the cloud server 120 may transmit a request to perform specific tasks as a resource request signal to the user computer device 200. The virtual machine of the user computer device 200 may process the requested tasks by using at least partially the resources occupied by the user computer device 200 and transmit the processing result to the cloud server 120.

According to an embodiment of the present invention, after the user leaves the office, the user computer device 200 shares the resources with the cloud server 120. Accordingly, the resources of the user computer device 200 can be shared with the cloud server 120 at a time when it is expected that the user will not use the user computer device 200, and thus, the resources of the user computer device 200 can be efficiently utilized.

According to an embodiment of the present invention, the user computer device 200 creates a virtual machine and shares resources occupied by the created virtual machine with the cloud server 120. Accordingly, even if unexpected operations are performed by the user computer device 200 due to various causes and the resources of the user computer device 200 occupied by the operations increase, the resources occupied by the virtual machine are stably maintained. It may be shared with the cloud server 120.

6 is a flowchart illustrating an embodiment of a method of sharing resources of a user computer device with a cloud server.

Referring to FIGS. 5 and 6, in step S210, the user computer device 200 performs step S220 according to whether or not it receives an exit alarm signal from the time and attendance management server 130.

In step S220, the user computer device 200 creates a virtual machine that occupies a part of each of the processor, the memory, and the nonvolatile storage medium based on the leave alarm signal.

In step S230, when a resource request signal is received from the cloud server 120, the user computer device 200 controls the virtual machine to at least partially share the occupied resources with the cloud server 120.

7 is a flowchart illustrating another embodiment of a method of sharing a resource of a user computer device with a cloud server.

5 and 7, steps S320, S330, and S340 are described in the same manner as steps S210, S220, and S230 of FIG. 6. Hereinafter, redundant descriptions are omitted.

The user computer device 200 is a user input indicating consent or rejection (or consent or rejection of sharing of some resources of the user computer device) for the creation of a virtual machine from the user through the user interface 220 (refer to FIG. 2). Can be received. In this embodiment, as in step S310, the user computer device 200 may perform step S320 when a user input indicating consent to the creation of a virtual machine is received.

8 is a flowchart illustrating an embodiment of a method of creating a virtual machine in steps S220 of FIG. 6 and S330 of FIG. 7.

Referring to FIGS. 3 and 8, in step S410, a command is generated by the scripter 314 based on the exit alarm signal, and the generated command is provided to the hypervisor 312. The command may include data representing processor resources, memory space, and storage space to be occupied,

In step S420, the hypervisor 312 generates a virtual machine 315 that occupies a part of each of the processor, memory, and nonvolatile storage medium in response to a command.

Although specific embodiments and application examples have been described herein, these are provided only to aid in a more general understanding of the present invention, and the present invention is not limited to the above embodiments, and those with ordinary knowledge in the field to which the present invention pertains. As it grows, various modifications and variations are possible from this description.

Therefore, the spirit of the present invention is limited to the described embodiments and should not be defined, and all things that are equivalent or equivalent to the claims as well as the claims to be described later fall within the scope of the spirit of the present invention. .

111 to 11k: first to kth user computer devices
120: cloud server
130: T&A server
140: access door system

Claims (14)

For a user computer device that communicates with a resource sharing network server over a network:
Memory;
Nonvolatile storage media;
A scripter that communicates with the time and attendance management server through the network, and generates a command based on the exit alarm signal from the time and attendance management server; And
In response to the command from the scripter, comprising: a hypervisor that creates a virtual machine that occupies a partial memory space of the memory and a partial storage space of the nonvolatile storage medium,
The scripter informs the resource sharing network server of the creation of the virtual machine and then, when receiving a resource request signal from the resource sharing network server, determines the partial memory space of the memory and the partial storage space of the nonvolatile storage medium. User computer device for controlling the virtual machine to be at least partially shared with the resource sharing network server. The method of claim 1,
The scripter provides an interface to the virtual machine to the resource sharing network server. The method of claim 1,
Further comprising a processor including a plurality of processing units,
The virtual machine further occupies some of the plurality of processing units,
The scripter controls the virtual machine to further share the part of the plurality of processing units at least partially with the resource sharing network server when receiving the resource request signal. The method of claim 1,
The memory further includes a memory space other than the partial memory space, the partial memory space and the other memory space are physically or logically separated from each other,
The nonvolatile storage medium further includes a storage space other than the partial storage space, and the partial storage space and the other storage space are physically or logically separated from each other. The method of claim 4,
Further comprising an application program running under an operating system associated with the hypervisor,
The application program at least partially occupies the other memory space of the memory. The method of claim 5,
Access to the partial memory space of the memory and the partial storage space of the nonvolatile storage medium by the application program is blocked. The method of claim 1,
Further includes a user interface,
The scripter generates the command based on the exit alarm signal when a user input indicating consent to the creation of the virtual machine is received through the user interface. In the operating method of a user computer device communicating with a resource sharing network server through a network:
The user computer device includes a memory and a nonvolatile storage medium,
The above method,
Receiving an exit alarm signal from the time and attendance management server by communicating with the time and attendance management server through the network;
Creating a virtual machine occupying a partial memory space of the memory and a partial storage space of the nonvolatile storage medium based on the leave alarm signal;
Notifying the creation of the virtual machine to the resource sharing network server; And
When a resource request signal is received from the resource sharing network server, at least partially sharing the partial memory space of the memory occupied by the virtual machine and the partial storage space of the nonvolatile storage medium with the resource sharing network server A method involving steps. The method of claim 8,
The user computer device further comprises a processor including a plurality of processing units,
The virtual machine further occupies some of the plurality of processing units,
The step of sharing with the resource sharing network server further includes at least partially sharing the part of the plurality of processing units with the resource sharing network server when the resource request signal is received. The method of claim 8,
The memory further includes a memory space other than the partial memory space, the partial memory space and the other memory space are physically or logically separated from each other,
The nonvolatile storage medium further includes a storage space other than the partial storage space, and the partial storage space and the other storage space are physically or logically separated from each other. The method of claim 10,
The virtual machine is created by the hypervisor,
An application program running under an operating system associated with the hypervisor occupies the other memory space at least partially in the memory. The method of claim 11,
The access of the application program to the partial memory space of the memory and the partial storage space of the nonvolatile storage medium is blocked. The method of claim 8,
The user computer device further comprises a user interface,
The step of creating the virtual machine includes generating the virtual machine based on the exit alarm signal when a user input indicating consent to the creation of the virtual machine is received through the user interface. For a user computer device that communicates with a resource sharing network server over a network:
A communicator connected to the network;
Memory;
Nonvolatile storage media; And
At least one processor configured to control the communicator, memory, and nonvolatile storage medium,
The at least one processor,
Communicates with a time and attendance management server through the network, and generates a command based on an exit alarm signal from the time and attendance management server;
Creating a virtual machine occupying a partial memory space of the memory and a partial storage space of the nonvolatile storage medium in response to the commands;
Notifying the resource sharing network server of the creation of the virtual machine;
A user computer, configured to control the virtual machine to share the partial memory space of the memory and the partial storage space of the nonvolatile storage medium with the resource sharing network server when receiving a resource request signal from the resource sharing network server Device.

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