JP5224856B2 - KVM switch and program - Google Patents

Description

  The present invention relates to a KVM switch and a program.

  Conventionally, a KVM switch (K: keyboard, V: video, M: mouse) that can connect a plurality of computers and peripheral devices such as a keyboard, mouse, and monitor for inputting / outputting signals to / from the plurality of computers. ) Is known (see, for example, Patent Document 1). The KVM switch can switch a computer accessed from a console such as a keyboard, a mouse, and a monitor.

Conventionally, a KVM switch that connects a plurality of computers and a plurality of consoles in a many-to-many relationship is known. The console is not limited to a keyboard, mouse, and monitor, and includes a printer, a touch panel, and the like.
Japanese Patent Laid-Open No. 2005-18135

  By the way, in a KVM switch that connects a plurality of computers and a plurality of consoles (each console includes a touch panel) in a many-to-many relationship, the computer may be switched during communication of data on the touch panel. is there. In this case, there is a problem that the operation of the touch panel is stopped, and then the operation of the touch panel is not restored even if the switching of the computer is restored, and the touch panel cannot be used in a normal state. In order to return the touch panel from this state to a normal state, it is necessary to restart the computer.

  It is an object of the present invention to provide a KVM switch and a program that can prevent a touch panel from entering a stop state that cannot be recovered.

  In order to achieve the above object, the KVM switch of the present invention is a KVM switch that can be connected between a plurality of servers and a plurality of consoles including a keyboard, a mouse, a monitor and a touch panel. Receiving means for receiving an instruction to switch to another server, and a first determination for determining whether operation data of the touch panel has been received within a preset time after receiving the instruction to switch to the other server And a switching unit that does not switch the output destination of the operation data of the touch panel when it is determined that the operation data of the touch panel has been received.

  According to such a configuration, when the operation data of the touch panel is being communicated, the output destination of the operation data of the touch panel is not switched, so that it is possible to prevent the touch panel from entering a non-recoverable stop state.

  Preferably, the KVM switch according to the present invention determines whether or not the touch panel operation data has been received again after a predetermined time has elapsed when the switching unit does not switch the output destination of the touch panel operation data. A second discriminating unit, and when the first discriminating unit or the second discriminating unit discriminates that the operation data of the touch panel is not received, the switching unit is an output destination of the operation data of the touch panel Switching is executed.

  According to this configuration, it is possible to immediately switch the output destination of the operation data of the touch panel.

  Preferably, the switching of the output destination of the operation data of the touch panel is performed independently from the switching of the output destination of the video signal displayed on the monitor and the switching of the output destination of the operation data of the keyboard or the mouse. It is characterized by.

  According to this configuration, the output destination of the video signal and the operation data of the keyboard or mouse can be switched even when a large amount of operation data of the touch panel is generated. That is, the keyboard or mouse can be operated independently of the touch panel.

  In order to achieve the above object, the KVM switch of the present invention is a KVM switch that can be connected between a plurality of servers and a plurality of consoles including a keyboard, a mouse, a monitor and a touch panel. Receiving means for receiving an instruction to switch to the server, and whether or not control data for controlling the touch panel is received from the server within a preset time after receiving the instruction to switch to the other server And a switching unit that does not execute switching of the output destination of the control data of the touch panel when it is determined that the control data of the touch panel has been received. .

  According to such a configuration, when the touch panel control data is communicated, the touch panel control data output destination is not switched, so that the touch panel can be prevented from being brought into a non-recoverable stop state.

  Preferably, the KVM switch of the present invention determines whether or not the touch panel control data has been received again after a predetermined time when the switch means does not execute switching of the output destination of the touch panel control data. A second discriminating means, and when the first discriminating means or the second discriminating means discriminates that the touch panel control data is not received, the switching means is an output destination of the touch panel control data. Switching is executed.

  With this configuration, it is possible to immediately switch the output destination of the control data of the touch panel.

  Preferably, switching of the output destination of the control data of the touch panel is performed independently from switching of the output destination of the video signal displayed on the monitor and switching of the output destination of the operation data of the keyboard or the mouse. It is characterized by.

  According to this configuration, the output destination of the video signal and the operation data of the keyboard or mouse can be switched even when a large amount of control data of the touch panel is generated. That is, the keyboard or mouse can be operated independently of the touch panel.

  Preferably, the apparatus further includes on-screen display means for displaying a setting screen for setting the preset time on the monitor.

  According to this configuration, the user can freely set the time for determining whether or not the touch panel operation data or control data has been received after receiving an instruction to switch to another server. Further, even when the determination time varies depending on the type of the touch panel, various types of touch panels can be handled.

  Preferably, the KVM switch of the present invention further includes a plurality of server units respectively connected to the plurality of servers, and a plurality of console units respectively connected to the plurality of consoles, and each console unit is connected to each server unit. The communication rate of the data communicated with is higher than the communication rate of the data communicated between the console unit and the touch panel.

  According to such a configuration, it is possible to avoid delay and stay of operation data or control data of the touch panel.

  More preferably, the console unit detects whether the touch panel is connected to the console unit, and the access that the touch panel is connected or not connected to the console unit. And a notifying means for notifying a server in the server.

  According to such a configuration, traffic of data transmitted to the console unit in order to confirm whether or not the touch panel is connected to the server can be suppressed.

  In order to achieve the above object, the program of the present invention provides a KVM switch connectable between a plurality of servers and a plurality of consoles including a keyboard, a mouse, a monitor, and a touch panel, from the accessing server to another server. Receiving means for receiving a switching instruction, first determining means for determining whether operation data of the touch panel has been received within a preset time after receiving the switching instruction to the other server, the touch panel When it is determined that the operation data is received, it is made to function as a switching unit that does not switch the output destination of the operation data of the touch panel.

  According to such a configuration, when the operation data of the touch panel is being communicated, the output destination of the operation data of the touch panel is not switched, so that it is possible to prevent the touch panel from entering a non-recoverable stop state.

  In order to achieve the above object, the program of the present invention provides a KVM switch connectable between a plurality of servers and a plurality of consoles including a keyboard, a mouse, a monitor, and a touch panel, from the accessing server to another server. A receiving means for receiving a switching instruction for determining whether or not control data for controlling the touch panel has been received from the server within a preset time after receiving the switching instruction to the other server; When it is determined that the control data of the first touch panel is received, the first determining means functions as a switching means that does not execute switching of the output destination of the control data of the touch panel.

  According to such a configuration, when the touch panel control data is communicated, the touch panel control data output destination is not switched, so that the touch panel can be prevented from being brought into a non-recoverable stop state.

  ADVANTAGE OF THE INVENTION According to this invention, it can prevent that a touchscreen will be in the stop state which cannot be recovered.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a diagram illustrating a configuration of an information processing system including a KVM switch according to the present embodiment.

  The information processing system illustrated in FIG. 1 includes servers 101 to 108, a KVM switch 1, and consoles 201 to 208. The KVM switch 1 is a multi-user KVM switch that can connect up to eight servers and consoles. Each of the consoles 201 to 208 includes a monitor, a keyboard, a mouse, and a touch panel. In the following, the monitor is represented by adding a symbol a to the reference number of the corresponding console, the keyboard and the mouse are represented by adding a symbol b to the reference number of the corresponding console, and the touch panel has the reference number c of the corresponding console. Represent.

  The KVM switch 1 includes server units 11 to 18, a main unit 50, and console units 31 to 38. The server units 11 to 18 are connected to the servers 101 to 108, respectively, and the console units 31 to 38 are connected to the consoles 201 to 208, respectively. The server units 11 to 18 and the main unit 50 are connected by a cable having a maximum length of about 100 m, and the console units 31 to 38 and the main unit 50 are connected by a cable having a maximum length of about 300 m.

  Here, the main unit 50 of the KVM switch 1 selectively switches a set of consoles that operate one server. That is, one server receives mouse, keyboard, or touch panel data from a set of consoles, and RGB signals from the server are output to the monitor of the console.

  In the present embodiment, the server unit, the main unit 50, and the console unit are separated from each other in the KVM switch 1, but either or both of the console unit and the server unit are integrated with the main unit. It may be configured.

  FIG. 2 is a configuration diagram of the server unit 11.

  The server unit 11 includes an RGB port 121, a PS / 2 port 122, a USB port 123, a console transmission MCU (Micro Controller Unit) 124, a differential conversion circuit 125, and a COM port 126.

  The RGB port 121 is connected to the server 101, receives the RGB signal, the vertical synchronization signal, and the horizontal synchronization signal from the server 101, and outputs them to the differential conversion circuit 125. The differential conversion circuit 125 combines the RGB signal, the vertical synchronization signal, and the horizontal synchronization signal, converts the combined RGB signal into an analog balanced transmission signal, and outputs the analog balanced transmission signal to the main unit 50. The mouse operation data is received, converted into operation data for the PS / 2 port 122 or the USB port 123, and output to the console transmission MCU 124. Also, the differential conversion circuit 125 converts touch panel operation data (serial data) from the main unit 50 into operation data for the COM port 126 and outputs the operation data to the console transmission MCU 124. When the server 101 transmits control data including a setting command for the touch panel to a touch panel (not shown), the control data is transmitted to the main unit 50 via a signal line that receives keyboard or mouse operation data. It is transmitted to the unit 50.

  The console transmission MCU 124 outputs the operation data for the PS / 2 port 122 or the USB port 123 to the server 101 via the PS / 2 port 122 or the USB port 123, and the operation for the COM port 126 via the COM port 126. Data is output to the server 101. The data communication speed between the differential conversion circuit 125 and the main unit 50 is 115.2 Kbps, but the data communication speed between the COM port 126 and the server 101 is 9600 bps. Thus, the operation data (serial data) of the touch panel is transmitted at high speed from the console unit to the server unit, and the delay and stay of the operation data of the touch panel are avoided. In addition, delay and retention of control data including touch panel setting commands are also avoided.

  The USB port 123 can be connected to a USB device other than the server. The configuration of the other server units is the same as the configuration of the server unit 11, and the description thereof is omitted.

  FIG. 3 is a diagram illustrating a configuration of the main unit 50.

  The main unit 50 includes differential conversion circuits 501, 504, a switching unit 502 (receiving means, first and second determining means, switching means), OSD controller 503-N (N = 1, 2,...) (On-screen display And a control MCU 505 including a nonvolatile memory 506. The control MCU 505 may further include an external memory 507, and a part of data stored in the nonvolatile memory 506 may be stored in the external memory 507.

  The differential conversion circuit 501 converts an analog balanced transmission signal from each server unit into an RGB signal, a vertical synchronization signal, and a horizontal synchronization signal and outputs the converted signal to the switching circuit 502, and also provides operation data for the keyboard, mouse, and touch panel in a predetermined manner. Convert to the format.

  The switching unit 502 switches the output destination of the combination of the RGB signal, the vertical synchronization signal, and the horizontal synchronization signal, the output destination of the operation data of the keyboard or the mouse, and the output destination of the operation data of the touch panel according to the control command of the control MCU 505. The switching unit 502 can change the switching timing of the output destination of the operation data of the keyboard or mouse and the switching timing of the output destination of the operation data of the touch panel. That is, the switching unit 502 can switch the output destination of the operation data of the keyboard or the mouse regardless of the switching of the output destination of the operation data of the touch panel.

  The switching unit 502 monitors the reception interval of the operation data of the touch panel. If the switching unit 502 does not receive the touch panel operation data after a preset time, the switching unit 502 operates the touch panel. Although the data output destination is switched, if the switching unit 502 receives touch panel operation data within a preset time, the switching unit 502 does not switch the touch panel operation data output destination. .

  The OSD controller 503 -N receives on-screen display (OSD) function setting screen data stored in the nonvolatile memory 506 from the control MCU 505 and outputs the data to each console unit via the differential conversion circuit 504. .

  The differential conversion circuit 504 synthesizes the RGB signal, the vertical synchronization signal, and the horizontal synchronization signal, converts it into a balanced transmission signal, outputs it to each console unit, and outputs the operation data of the keyboard or mouse and touch panel to predetermined operation data. And output to the switching circuit 502.

  The control MCU 505 controls the operation of the switching circuit 502 and the OSD controller 503-N. The control MCU 505 acquires EDID information indicating the screen resolution that each monitor has and which can be supported by the monitor, and stores the EDID information in the nonvolatile memory 506.

  The nonvolatile memory 506 includes EDID information and user authentication data (not shown). Furthermore, the nonvolatile memory 506 includes various setting screen data displayed by an on-screen display (OSD) function.

  The non-volatile memory 506 holds control data including touch panel setting commands transmitted from each server. When the server is switched, the main unit 50 transmits the control data to the touch panel, so that the touch panel can be used in accordance with the server setting after switching even when different settings are made for each server. The setting command includes various settings such as a setting for playing a sound when the touch panel is touched by hand, and a setting for turning on / off the touch panel.

  FIG. 4 is a configuration diagram of the console unit 31.

  The console unit 31 includes a differential conversion circuit 311, a console reception MCU (Micro Controller Unit) 312 (detection means, notification means), an RGB port 313, a PS / 2 port 314, a USB port 315, and a COM port 316.

  The differential conversion circuit 311 converts the balanced transmission signal into an RGB signal, a vertical synchronization signal, and a horizontal synchronization signal, outputs the converted signal to the monitor 201a via the RGB port 313, and operates for the PS / 2 port 314 or the USB port 315. Data is received from the keyboard or mouse 201b, converted into keyboard or mouse operation data, and output to the main unit 50. Further, the differential conversion circuit 311 receives operation data for the COM port 316 from the touch panel 201 c, converts the operation data into touch panel operation data, and outputs the operation data to the main unit 50. When control data including a touch panel setting command is transmitted from the server 101 to the touch panel 201c, the control data is received from the main unit 50 via a signal line for transmitting keyboard or mouse operation data to the main unit 50. Is done.

  The RGB port 313 is connected to the monitor 201a, and outputs the RGB signal, the vertical synchronization signal, and the horizontal synchronization signal converted by the differential conversion circuit 311 to the monitor 201a.

  The console reception MCU 312 outputs keyboard or mouse operation data to the differential conversion circuit 311 via the PS / 2 port 314 or the USB port 315. The console reception MCU 312 outputs touch panel operation data to the differential conversion circuit 311 via the COM port 316.

  Further, the console reception MCU 312 detects whether or not the touch panel is connected to the COM port 316. If the touch panel is not connected to the COM port 316, the server and the main unit 50 in the switched server and the main unit 50 when the server is switched. The control MCU 505 is notified that the touch panel is not connected to the COM port 316. When the touch panel is connected to the COM port 316, the console reception MCU 312 confirms that the touch panel is connected to the COM port 316 in the server MCU after switching and the control MCU 505 in the main unit 50 when the server is switched. Notice. Thereby, the traffic of the data transmitted to the console unit in order to confirm whether or not the touch panel is connected to the server can be suppressed.

  The data communication speed between the differential conversion circuit 311 and the main unit 50 is 115.2 Kbps, but the data communication speed between the COM port 316 and the touch panel 201c is 9600 bps. As described above, the operation data (serial data) of the touch panel is transmitted at high speed from the console unit to the server unit, and the delay and stay of the operation data of the touch panel are avoided. In addition, delay and retention of control data including touch panel setting commands are also avoided.

  The USB port 315 can be connected to a USB device other than a keyboard or a mouse. The configuration of the other console units is the same as the configuration of the console unit 31 and will not be described.

  In the following description, the console unit 31 is used as a representative example of the console unit, and the server unit 11 is used as a representative example of the server unit.

  FIG. 5 is a diagram illustrating an example of an OSD function setting screen.

  When the OSD controller 503 -N receives predetermined keyboard operation data (in this case, hot key operation data) via the control MCU 505, the setting screen data is read from the non-volatile memory 506, and is transmitted via the corresponding console unit. To the monitor that the user is using. For example, when the user presses a hot key (for example, Ctrl + M) on the keyboard 201b, the setting screen of FIG. 5 is displayed on the monitor 201a.

  The setting screen of FIG. 5 includes a pull-down menu 121 for selecting a server to be switched to, a scale 122 for setting the switching timing of touch panel operation data, a server and console display 123 currently used by the user, and OK. A button 124 and a cancel button 125 are included. One scale of the scale 122 is set to 8 ms, for example.

  For example, when the user sets the value of the scale 122 to “4”, the switching unit 502 must receive touch panel operation data within 32 ms (= 4 × 8 ms) after receiving the server switching instruction. For example, the input destination of the operation data of the touch panel is switched in accordance with the server switching instruction, and the switching unit 502 receives the touch panel operation data within 32 ms after receiving the server switching instruction. Does not switch the input destination. Note that the setting screen of FIG. 5 may include an input field for setting the switching timing of the touch panel operation data by time instead of the scale 122 for setting the switching timing of the touch panel operation data. In this case, the user can freely set the switching timing of the operation data of the touch panel, and can deal with touch panels of various manufacturers.

  FIG. 6 is a flowchart showing a first process executed by the main unit 50. Here, it is assumed that the switching unit 502 constantly monitors whether touch panel operation data has been received.

  First, when the user instructs server switching on the OSD function setting screen, the control MCU 505 transmits a server switching instruction to the switching unit 502 (step S1). The switching unit 502 switches the output destinations of the RGB signal, the vertical synchronization signal, the horizontal synchronization signal, and the keyboard and mouse operation data in accordance with the server switching instruction (step S2).

  Next, the switching unit 502 determines whether or not touch panel operation data has been received within the time preset in the scale 122 of the setting screen or the input field after receiving the server switching instruction (step S3). .

  If YES in step S3, the switching unit 502 does not switch the output destination of the operation data on the touch panel (step S4), and ends this process. If NO in step S3, the switching unit 502 switches the output destination of the operation data on the touch panel (step S5), and ends this process.

  In step S4 of FIG. 6 described above, the switching unit 502 does not switch the output destination of the operation data on the touch panel and ends this processing. However, as illustrated in FIG. The output destination is not switched (step S4), and after a predetermined time has elapsed (for example, after 30 seconds, after 1 minute, etc.), it may be determined again whether operation data on the touch panel has been received (step S4). S6). Accordingly, even when a large amount of operation data on the touch panel is generated, the output destination of the operation data on the touch panel can be reliably switched.

  FIG. 8 is a flowchart showing a second process executed by the main unit 50.

  Here, it is assumed that the switching unit 502 constantly monitors whether touch panel control data is received from a touch panel driver included in the server. The touch panel control data is data transmitted from the touch panel driver included in the server to the touch panel, and includes touch panel setting commands and the like. In addition, the first process and the second process are simultaneously executed by the main unit 50.

  First, when the user instructs server switching on the OSD function setting screen, the control MCU 505 transmits a server switching instruction to the switching unit 502 (step S11). The switching unit 502 switches the output destinations of the RGB signal, the vertical synchronization signal, the horizontal synchronization signal, and the keyboard and mouse operation data in accordance with the server switching instruction (step S12).

  Next, switching unit 502 receives touch panel control data from the touch panel driver included in the server within the time set in advance in scale 122 of the setting screen or the input field after receiving the server switching instruction. Is determined (step S13).

  If YES in step S3, the switching unit 502 does not switch the output destination of the control data on the touch panel (step S14), and ends this process. If NO in step S3, the switching unit 502 switches the output destination of the control data of the touch panel (step S15), and ends this process.

  In step S14 of FIG. 8, the switching unit 502 does not switch the output destination of the control data of the touch panel and ends this processing. However, as shown in FIG. 9, the switching unit 502 displays the control data of the touch panel. The output destination is not switched (step S14), and after a predetermined time has elapsed (for example, 30 seconds, 1 minute, etc.), it may be determined again whether the touch panel control data has been received (step S14). S16). Thus, even when a large amount of touch panel control data is generated, the output destination of the touch panel control data can be reliably switched.

  As described above in detail, according to the present embodiment, switching unit 502 receives a switching instruction from the server being accessed to another server, and sets in advance after receiving the switching instruction to the other server. It is determined whether or not touch panel operation data or control data has been received within the specified time, and if it is determined that touch panel operation data or control data has been received, touch panel operation data or control data is output. Do not switch ahead. Therefore, when the operation data or control data of the touch panel is communicated, the output destination of the touch panel operation data or control data is not switched, so that it is possible to prevent the touch panel from entering an unrecoverable stop state. it can.

  Further, when it is determined that the touch panel operation data or control data has not been received, the switching unit 502 switches the output destination of the touch panel operation data or control data. The output destination of control data can be switched. In addition, even when a large amount of touch panel operation data or control data is generated, the touch panel operation data or control data output destination switching is performed separately from the keyboard and mouse operation data switching. Switching of the output destination of the control data can be surely executed.

  Even when the switching unit 502 and the control MCU 505 execute a software program supplied from the outside, the same effects as those of the above embodiment can be obtained.

  The present invention is not limited to the above-described embodiment, and can be implemented with various modifications within a range not departing from the gist thereof.

It is a figure which shows the structure of the information processing system provided with the KVM switch concerning this Embodiment. 2 is a configuration diagram of a server unit 11. FIG. FIG. 3 is a diagram illustrating a configuration of a main unit 50. 3 is a configuration diagram of a console unit 31. FIG. It is a figure which shows an example of the setting screen of an OSD function. 4 is a flowchart showing a first process executed by the main unit 50. 10 is a flowchart showing a modification of the first process executed by the main unit 50. 4 is a flowchart showing a second process executed by the main unit 50. 10 is a flowchart showing a modification of the second process executed by the main unit 50.

Explanation of symbols

1 KVM switch 11-18 Server unit 31-38 Console unit 50 Main unit 101-108 Server 121,313 RGB port 122,314 PS / 2 port 123,315 USB port 124,312 Console transmission MCU (Micro Controller Unit)
125,311 Differential conversion circuit 126,316 COM port 201-208 Console 201a Monitor 201b Keyboard / mouse 201c Touch panel 501 504 Differential conversion circuit 502 Switching unit 503-N OSD controller 505 Control MCU
506 Nonvolatile memory

Claims (11)

A KVM switch connectable between a plurality of servers and a plurality of consoles including a keyboard, a mouse, a monitor and a touch panel;
Receiving means for receiving a switching instruction from the server being accessed to another server;
First determination means for determining whether or not the operation data of the touch panel has been received within a preset time after receiving an instruction to switch to the other server;
And a switching unit that does not execute switching of an output destination of the operation data of the touch panel when it is determined that the operation data of the touch panel has been received. A second determining unit configured to determine whether the operation data of the touch panel is received again after a predetermined time when the switching unit does not perform switching of the output destination of the operation data of the touch panel;
When the first determination unit or the second determination unit determines that the touch panel operation data has not been received, the switching unit switches the output destination of the touch panel operation data. The KVM switch according to claim 1.   The switching of the output destination of the operation data of the touch panel is performed independently from the switching of the output destination of the video signal displayed on the monitor and the switching of the output destination of the operation data of the keyboard or the mouse. The KVM switch according to claim 1 or 2. A KVM switch connectable between a plurality of servers and a plurality of consoles including a keyboard, a mouse, a monitor and a touch panel;
Receiving means for receiving a switching instruction from the server being accessed to another server;
First determination means for determining whether or not control data for controlling the touch panel is received from the server within a preset time after receiving an instruction to switch to the other server;
And a switching unit that does not execute switching of an output destination of the control data of the touch panel when it is determined that the control data of the touch panel is received. A second determining unit configured to determine whether or not the touch panel control data is received again after a predetermined time when the switching unit does not perform switching of the output destination of the control data of the touch panel;
When the first determination unit or the second determination unit determines that the touch panel control data has not been received, the switching unit performs switching of the output destination of the touch panel control data. The KVM switch according to claim 4.   The switching of the output destination of the control data of the touch panel is performed independently of the switching of the output destination of the video signal displayed on the monitor and the switching of the output destination of the operation data of the keyboard or the mouse. The KVM switch according to claim 4 or 5.   The KVM switch according to any one of claims 1 to 6, further comprising on-screen display means for displaying a setting screen for setting the preset time on the monitor. The KVM switch further includes a plurality of server units respectively connected to the plurality of servers, and a plurality of console units respectively connected to the plurality of consoles,
The communication rate of data communicated between each console unit and each server unit is higher than a communication rate of data communicated between the console unit and the touch panel. The KVM switch according to any one of 1 to 7.   The console unit detects whether the touch panel is connected to the console unit, and the accessing server that the touch panel is connected or not connected to the console unit. The KVM switch according to claim 8, further comprising notification means for notifying. KVM switch connectable between multiple servers and multiple consoles including keyboard, mouse, monitor and touch panel
Receiving means for receiving an instruction to switch from the server being accessed to another server;
First determination means for determining whether or not operation data of the touch panel has been received within a preset time after receiving an instruction to switch to the other server;
When it is determined that the operation data of the touch panel has been received, the program is made to function as a switching unit that does not switch the output destination of the operation data of the touch panel. KVM switch connectable between multiple servers and multiple consoles including keyboard, mouse, monitor and touch panel
Receiving means for receiving an instruction to switch from the server being accessed to another server;
First determination means for determining whether or not control data for controlling the touch panel is received from the server within a preset time after receiving an instruction to switch to the other server;
When it is determined that the touch panel control data has been received, the program is made to function as a switching unit that does not switch the output destination of the touch panel control data.

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