KR101875187B1 - Apparatus and method for controlling power-saving of network switch - Google Patents

Abstract

Disclosed are a power-saving control apparatus for a network switch and a method thereof. According to the present invention, provided is a power-saving control method for a network switch which is performed by a power-saving control apparatus for a network switch. The method includes the steps of: determining whether a current time is a power saving execution time based on a power saving schedule of a network switch to control power saving of the network switch; determining whether at least one port of the network switch meets a sleep mode entry condition when it is determined that the current time is the power saving execution time; performing power saving control by setting the port satisfying the sleep mode entry condition to a sleep mode; setting the port of the sleep mode to a virtual sleep mode when a time corresponding to the first period elapses after entering the sleep mode; determining, during a second period, whether the port of the sparse mode satisfies a wakeup condition; and performing power saving control by resetting the port to the sleep mode when it is determined that the port does not satisfy the wakeup condition.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus and a method for controlling power saving of a network switch,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power saving control technique for a network switch, and more particularly, to a technique for managing a power saving schedule of a network switch and performing power saving of the network switch according to a power saving schedule.

The PHY IC of the Ethernet switch periodically transmits a link pulse to check whether it is connected to the other terminal. In general, an Ethernet switch transmits a link pulse at a period of about 10 ms for fast connection with a counterpart terminal. As the transmission period of the link pulse is shorter, the amount of power consumed by the Ethernet switch increases.

Therefore, the function of saving the power consumed in generating the link pulse is implemented in the PHY IC by increasing the transmission period of the link pulse to several seconds. However, the conventional technologies only support a passive power saving function of setting a transmission period of a link pulse to a long time, but do not support a technique of actively performing power saving according to day or time. In addition, according to the related art, there is a limit to maintain a part of the PHY IC circuit in the operating state in order to transmit the link pulse every few seconds even during the power saving operation.

Therefore, it is possible to set a period for transmitting a link pulse according to a predetermined power saving schedule and to maintain a sleep mode for a longer period of time. In the sleep mode, most of the PHY IC is kept in a power saving state, It is necessary to develop a technology that minimizes the amount of power.

Korean Registered Patent No. 10-1055163, August 08, 2011 Announcement (Name: Ethernet switch with various PHY chips available)

SUMMARY OF THE INVENTION An object of the present invention is to convert a port not used by a network switch into a power saving state, thereby realizing green IT and contributing to energy saving.

It is another object of the present invention to provide a method of controlling a period of maintaining a power saving state and a period of determining a power saving state releasing condition, thereby saving more energy than a conventional power saving function of a PHY IC.

It is also an object of the present invention to reduce the power consumption of the network switch by shutting off the power of the PHY according to the power saving schedule set for each port.

According to an aspect of the present invention, there is provided a method of controlling power saving of a network switch performed by a power saving control device of a network switch, the method comprising: Determining whether the at least one port of the network switch satisfies a sleep mode entry condition if it is determined to be the power saving execution time, determining whether the at least one port of the network switch satisfies the sleep mode entry condition, Setting a port of the sleep mode to a sparse mode when a time corresponding to a first period elapses after entering the sleep mode, setting a port in a sleep mode, , Judges whether or not the port of the erroneous mode satisfies the wakeup condition And performing power saving control by resetting the port to the sleep mode when it is determined that the port does not satisfy the wakeup condition.

In this case, the determining whether the sleep mode entry condition is satisfied may determine that the port satisfies the sleep mode entry condition when the port is in an unused state.

In this case, the step of determining whether the port satisfies the wakeup condition may include: if the port transmits a link pulse and a link with the counterpart terminal is connected within the second period, the port satisfies the wakeup condition .

In this case, if the sleep mode entry condition is not satisfied or the wakeup condition is satisfied, setting the port to the active mode may be further included.

At this time, the power saving schedule of the network switch may include at least one of the port information to which the power saving schedule is to be applied, the start time of the power saving performance, the end time of the power saving performance, the first period and the second period have.

At this time, the port of the sleep mode maintains the sleep mode during the first period, and the port of the spill mode may transmit the link pulse during the second period.

At least one of the first period and the second period may be set based on at least one of a network state of the network switch, an operation state of the network switch, and a number of the sleeping mode ports.

Resetting the first period based on at least one of a network state of the network switch, an operation state of the network switch, and the number of the ports in the sleep mode after the port is reset to the sleep mode Wherein the step of setting the port to the erasure mode further comprises resetting the port of the sleep mode to the erasure mode after waiting for a time corresponding to the reset first period can do.

The method may further include storing power saving performance information including at least one of a time at which the port is set to the sleep mode, a time at which the port is set at the erasure mode, and a time at which the port is reset to the sleep mode.

The method may further include resetting the port to the sleep mode and then resetting the first period based on the power saving performance information corresponding to the port.

According to another aspect of the present invention, there is provided a power saving control apparatus for a network switch, the apparatus including: a power saving schedule management unit for determining whether a current time is a power saving execution time based on a power saving schedule of the network switch, A condition judging unit for judging whether or not at least one port of the network switch satisfies the sleep mode entry condition if it is judged to be the power saving execution time or judging whether the port of the erroneous mode satisfies the wake up condition, And setting the port satisfying the sleep mode entry condition to a sleep mode or setting the port of the sleep mode to the spill lip mode when a time corresponding to a first period elapses after entering the sleep mode, It is determined that the port does not satisfy the wakeup condition during the second period When resetting the port to the sleep mode, and a sleep control unit for performing the power saving control of the network switch.

Here, the condition determiner may determine that the port satisfies the sleep mode entry condition when the port is in an unused state.

In this case, the condition determining unit may determine that the port satisfies the wakeup condition when the port transmits a link pulse and a link with the counterpart terminal is connected within the second period.

At this time, the power saving control unit may set the port to the active mode if the sleep mode entry condition is not satisfied or the wakeup condition is satisfied.

At this time, the power saving schedule of the network switch may include at least one of the port information to which the power saving schedule is to be applied, the start time of the power saving performance, the end time of the power saving performance, the first period and the second period have.

At this time, the port of the sleep mode maintains the sleep mode during the first period, and the port of the spill mode may transmit the link pulse during the second period.

At least one of the first period and the second period may be set based on at least one of a network state of the network switch, an operation state of the network switch, and a number of the sleeping mode ports.

And resetting the first period based on at least any one of a network state of the network switch, an operation state of the network switch, and the number of the ports in the sleep mode after resetting the port to the sleep mode, The power saving control unit may reset the port of the sleep mode to the spill-up mode after waiting for a time corresponding to the reset first period.

The power saving information storage unit may further include at least one of power save information including at least one of a time at which the port is set to the sleep mode, a time at which the port is set at the erasure mode, and a time at which the port is reset to the sleep mode .

In this case, after the port is reset to the sleep mode, the period resetting unit may reset the first period based on the power saving performance information corresponding to the port.

According to the present invention, a port that is not used in a network switch is switched to a power saving state, thereby realizing Green IT and contributing to energy saving.

Further, according to the present invention, it is possible to save more energy than the conventional power saving function of the PHY IC by adjusting the period of maintaining the power saving state and the period of determining the powering off condition.

In addition, according to the present invention, power consumption of the network switch can be reduced by shutting down the power of the PHY according to a power saving schedule set for each port.

1 is a block diagram showing a configuration of a power saving control apparatus of a network switch according to an embodiment of the present invention.
2 is a flowchart illustrating a power saving control method of a network switch according to an embodiment of the present invention.
FIG. 3 is a flowchart illustrating a process of determining whether the sleep mode entry condition is satisfied in step S220 of FIG.
4 is a flowchart illustrating a process of determining whether or not a wakeup condition is satisfied in step S260 of FIG.
5 is a diagram illustrating an example of a power saving schedule of a network switch according to an exemplary embodiment of the present invention.
6 is a diagram illustrating power saving performance information of a network switch according to an exemplary embodiment of the present invention.
7 is a flowchart illustrating a method of performing power saving control of a network switch by resetting a first period according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail.

It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the relevant art and are to be interpreted in an ideal or overly formal sense unless explicitly defined in the present application Do not.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In order to facilitate the understanding of the present invention, the same reference numerals are used for the same constituent elements in the drawings and redundant explanations for the same constituent elements are omitted.

Hereinafter, a configuration of a power saving control apparatus for a network switch according to an embodiment of the present invention will be described in detail with reference to FIG.

1 is a block diagram showing a configuration of a power saving control apparatus of a network switch according to an embodiment of the present invention.

The power saving control device 100 of the network switch connected to the network switch controls the operation state (mode) of the network switch to perform the power saving control of the network switch. Here, the network switch may mean an Ethernet switch, a router, etc., and the power saving control device 100 of the network switch may perform active power saving control by shutting off the power of the PHY of the network switch based on the predetermined power saving schedule have.

1, the power saving control apparatus 100 of the network switch includes a power saving schedule management unit 110, a condition determination unit 120, a power saving control unit 130, a period resetting unit 140, (150).

First, the power saving schedule management unit 110 manages the power saving schedule of the network switch for controlling the power saving of the network switch. The power saving schedule management unit 110 determines whether the current time is the power saving execution time based on the power saving schedule of the network switch.

Here, the power saving schedule of the network switch may be the one received from the user or automatically generated by analyzing the usage pattern of the network switch. The power saving schedule of the network switch can be set for each port included in the network switch. The power saving duration information such as time and day of the week, the first period, which is the time duration of the sleep mode, 2 periods.

Next, the condition determination unit 120 determines whether the current time is the power saving execution time. If it is determined that the current time is the power saving execution time based on the power saving schedule of the network switch, the condition determination unit 120 determines whether one or more ports of the network switch satisfy the sleep mode entry condition.

The sleep mode entry condition is a condition for determining whether to set the port of the network switch to the sleep mode. When the port is unused, the condition determination unit 120 can determine that the corresponding port satisfies the sleep mode entry condition have. On the other hand, when the port is in use, the condition determination unit 120 may determine that the corresponding port does not satisfy the sleep mode entry condition.

The port set to the sleep mode satisfying the sleep mode entry condition maintains the sleep mode for the first period and is set to the misleading mode when the time corresponding to the first period elapses. That is, the power saving control apparatus 100 of the network switch according to the embodiment of the present invention allows the port to maintain the sleep mode for the first period corresponding to the power saving schedule, .

In addition, the power saving control device 100 of the network switch sets the power saving state of most of the PHY ICs of the network switch while maintaining the sleep mode, thereby consuming only a minimum amount of power, thereby reducing power consumption.

The condition determination unit 120 can determine whether the port in the false mode satisfies the wakeup condition. The wakeup condition is a condition for determining whether to set the port in the false mode to the active mode. When the port transmits a link pulse in the second period and the link with the counterpart terminal is connected, It can be determined that the port satisfies the wakeup condition.

In addition, the power saving control unit 130 sets the port satisfying the sleep mode entry condition to the sleep mode to perform the power saving control of the network switch, or enters the sleep mode, and after the lapse of the time corresponding to the first period, Can be set to the erase mode.

The power saving control unit 130 turns off the power of the PHY corresponding to the port set to the sleep mode and activates the PHY only when the first period passes to enable the link connection to be searched through the transmission of the link pulse.

If it is determined that the port does not satisfy the wakeup condition during the second period, the power saving controller 130 may reset the port to the sleep mode to perform the power saving control of the network switch. On the other hand, if the sleep mode entry condition is not satisfied or the wakeup condition is satisfied, the power saving control unit 130 may stop the power saving control of the corresponding port and set the active mode.

The period resetting unit 140 resets the period of at least one of the first period and the second period. After the power saving control unit 130 resets the port to the sleep mode, the period resetting unit 140 may reset the port based on at least one of the network state of the network switch, the operation state of the network switch, Can be reset. The power saving control unit 130 may wait for a time corresponding to the reset first period, and then reset the sleep mode port to the erasure mode.

In addition, the period resetting unit 140 may reset the first period based on the power saving performance information corresponding to the port after the power saving control unit 130 resets the port to the sleep mode. Here, the power saving performance information corresponding to the port may be stored by the power saving performance information storage unit 150 described later.

The period resetting unit 140 may reset at least one of the first period and the second period according to necessity. The period resetting unit 140 may reset at least one of the first period and the second period, have.

Lastly, the power saving performance information storage unit 150 stores power saving performance information. The power saving performance information storage unit 150 stores at least any one of the time set in the sleep mode for each port, the time set in the erasure mode, the time set in the sleep mode, the time the sleep mode is released, And can store the power saving performance information included therein.

The stored power save information may be used to set or reset at least one of the first period and the second period, and may be reported to the user.

Hereinafter, a power saving control method of a network switch performed by the power saving control apparatus of a network switch according to an embodiment of the present invention will be described in detail with reference to FIG. 2 through FIG.

2 is a flowchart illustrating a power saving control method of a network switch according to an embodiment of the present invention.

First, the power saving control apparatus 100 of the network switch determines whether the current time is the power saving execution time (S210).

The power saving control apparatus 100 of the network switch can determine whether the current time is a power saving execution time based on a power saving schedule corresponding to a network switch to be subjected to power saving control. At this time, the power saving schedule may be set for each port of the network switch, and the power saving control device 100 of the network switch can determine whether or not the current time is the power saving execution time for each port.

If it is determined that the time is the power saving execution time (S210: YES), the power saving controller 100 of the network switch determines whether the port satisfies the sleep mode entry condition (S220).

The power saving control apparatus 100 of the network switch can determine that the corresponding port does not satisfy the sleep mode entry condition when the port is currently in use. If the port is not in use, the power saving controller 100 of the network switch can determine that the corresponding port satisfies the sleep mode entry condition.

FIG. 3 is a flowchart illustrating a process of determining whether the sleep mode entry condition is satisfied in step S220 of FIG.

As shown in FIG. 3, the power saving control apparatus 100 of the network switch determines the current link state of the port (S310).

If the port is currently in use (S320 YES), the power saving controller 100 of the network switch determines that the corresponding port does not satisfy the sleep mode entry condition (S330). Then, the power saving control device 100 of the network switch performs step S270 of FIG.

In contrast, when the port is not in use (NO in S320), the power saving controller 100 of the network switch determines that the corresponding port satisfies the sleep mode entry condition (S340) Step S230 may be performed.

Referring again to FIG. 2, the power saving control apparatus 100 of the network switch sets the corresponding port satisfying the sleep mode entry condition to the sleep mode (S230).

If it is determined in step S340 of FIG. 3 that the sleep mode entry condition is satisfied, the power saving control apparatus 100 of the network switch can set the corresponding port to the sleep mode.

The power saving controller 100 of the network switch sets the port to the sleep mode, and then determines whether the time corresponding to the first period has elapsed (S240).

The power saving control apparatus 100 of the network switch may periodically determine whether or not a time corresponding to the first period has elapsed. If the time corresponding to the first period has not elapsed, step S240 may be performed again.

If it is determined that the time corresponding to the first period has elapsed (S240 YES), the power saving control apparatus 100 of the network switch sets the corresponding port to the erasure mode (S250), and if the port satisfies the wakeup condition (S260).

The power saving control device 100 of the network switch determines whether the port satisfies the wakeup condition in a state where the port is set to the erasure mode. That is, when the first period has elapsed, the port of the sleep mode is not immediately set to the active mode, and it is determined whether or not the port is set to the active mode by setting it to the false mode. Accordingly, the power saving control apparatus 100 of the network switch according to the embodiment of the present invention can perform active power saving control for the corresponding port, and can save more energy than the related art.

4 is a flowchart illustrating a process of determining whether or not a wakeup condition is satisfied in step S260 of FIG.

The power saving control apparatus 100 of the network switch transmits a link pulse during the second period (S410).

During the second period of transmitting the link pulse, the corresponding port for transmitting the link pulse maintains the sparse mode. Here, the erase mode refers to a state in which a link pulse is transmitted as compared with the sleep mode state, and a part of circuits for judging the success of the link connection is activated.

Then, it is determined whether the link connection with the target terminal has succeeded in the second cycle (S420).

If the link connection to the target terminal is successful in the second cycle (YES in S420), the power saving control device 100 of the network switch determines that the wakeup condition is satisfied (S430), and performs step S270 of FIG.

On the other hand, if the connection to the target terminal is not successful in the second cycle (NO in S420), the power saving control apparatus 100 of the network switch determines that the wakeup condition is not satisfied (S440) Step can be performed.

Referring again to FIG. 2, when it is determined that the wakeup condition is satisfied, the power saving control apparatus 100 of the network switch sets the corresponding port to the active mode (S270).

Here, the active mode means a state in which all the circuits corresponding to the port of the network switch operate. The power saving control apparatus 100 of the network switch may perform step S270 of setting the active mode, and then perform step S210 to repeatedly perform the power saving control process of the network switch of FIG.

At this time, the power saving control apparatus 100 of the network switch compares the current time with the power saving execution end time, and may perform step S220 only if the current time is not the power saving end time.

On the other hand, if it is determined that the wakeup condition is not satisfied (NO at S260), the power saving control device 100 of the network switch performs step S230 again to reset the corresponding port to the sleep mode.

If it is determined that the wakeup condition is not satisfied because the link connection with the target terminal is not established within the second period as a result of determining whether or not the wakeup condition is satisfied in the erasure mode, Resets the port to sleep mode again.

The power saving control apparatus 100 of the network switch may perform a process of resetting the first period before performing the step S240 after resetting to the sleep mode. The process of resetting the first period will be described in more detail with reference to FIG. 7, which will be described later.

Hereinafter, the power saving schedule of the network switch according to one embodiment of the present invention will be described in more detail with reference to FIG.

5 is a diagram illustrating an example of a power saving schedule of a network switch according to an exemplary embodiment of the present invention.

5, the power saving schedule 500 of the network switch includes the port information 510, the power save execution start time 520, the power save execution end time 530, the first period 540, and the second period 550). A plurality of power saving schedules may be set for one network switch, one or more power saving schedules may be set for each port of the network switch, or a power saving schedule may not be set.

The port information 510 indicates information of a port to which the power saving schedule is to be applied. The power save execution start time 520 and the power save execution end time 530 refer to a start time and an end time for applying the power saving operation to the port corresponding to the port information 510. [ At this time, the power save execution start time 520 and the power save execution end time 530 may be set in the form of day of the week, time, specific date, etc. as shown in FIG.

The first period 540 indicates a period of time when the port corresponding to the port information 510 is set to the sleep mode and a period corresponding to the first period 540 is elapsed It is set to the erasure mode.

In the second period 550, the port corresponding to the port information 510 maintains the erasure mode and the time for transmitting the link pulse, and the port in the erasure mode corresponds to the second period 550 The link pulse can be transmitted for a predetermined time to establish a link connection with the target terminal.

In this case, the period in which the port transmits the link pulse may be a value set for all the ports equally or may be different for each port, or may be a predetermined fixed value, a value set according to the network status of the network switch, have.

In Fig. 5, Port 1 is set as the power saving execution time for 10 minutes from 8:00 to 8:10 on Monday, Wednesday, and Friday. The power saving control apparatus 100 of the network switch sets the port 1 to the sleep mode and performs power saving when the port 1 is in the unused state at the power saving execution time.

When 3 seconds elapses after the sleep mode is set, the power saving controller 100 of the network switch turns port 1 into the erasure mode so that the port 1 transmits the link pulse for 5 seconds. When the link connection between the port 1 and the target terminal is established within 5 seconds, the power saving control device 100 of the network switch sets the port 1 to the active mode. However, if the link connection is not established within 5 seconds, the power saving control device 100 of the network switch can reset the port 1 to the sleep mode.

In addition, a plurality of power saving schedules 500 of the network switches can be set for one port. As shown in FIG. 5, the power saving schedule for setting the power saving execution time from 12:00 to 13:30 every day may be set in Port 2, and from Monday to Friday from 22:00 to 7:00 The power saving schedule to be set as the power saving execution time may be set.

The power saving schedule 500 of the network switch may be set to a day and a time and may be applied repeatedly or may be set to be temporarily applied only to a specific day such as a peak schedule set in the port 3. [

Hereinafter, power saving performance information of the network switch according to an embodiment of the present invention will be described in more detail with reference to FIG.

6 is a diagram illustrating power saving performance information of a network switch according to an exemplary embodiment of the present invention.

As shown in FIG. 6, the power saving control device 100 of the network switch can store power saving performance information 600 of the network switch.

The power save information 600 of the network switch may include port information 610, a mode type 620, a mode setting time 630, and a mode end time 640. Herein, the port information 610 indicates information of a port to be subjected to power saving, the mode type 620 indicates a type of a mode in which the corresponding port is entered (set) or released (terminated) And the mode end time means the time when the mode is entered and released.

In FIG. 5, Port 1 is set to the sleep mode at 08:03 on August 14, 2017, and the sleep mode is terminated at 08:08 on August 14, 2017, Active mode was set at 13 minutes, and active mode was terminated at 10:10 on August 14, 2017. Also, Port 2 is set to the sleep mode at 09:20 on August 14, 2017, and the sleep mode is terminated at 11:03 on August 14, 2017.

6 shows only the power saving information 600 for the sleep mode and the active mode, but the present invention is not limited thereto. The power saving controller 100 of the network switch may also store the power saving performance information 600 for the malfunction mode.

The stored power saving performance information 600 may be used to set or reset at least one of the first period and the second period, and may be reported to the user.

The power saving control apparatus 100 of the network switch stores the power saving performance information 600 of the network switch irrespective of the mode. However, the present invention is not limited to this, and the power saving control apparatus 100 May store power saving performance information corresponding to the sleep mode, power saving performance information corresponding to the active mode, and power saving performance information corresponding to the erasure mode as separate power saving performance information, or may store power saving performance information for each port.

Hereinafter, the process of resetting the period of the power saving control apparatus of the network switch according to the embodiment of the present invention will be described in detail with reference to FIG.

7 is a flowchart illustrating a method of performing power saving control of a network switch by resetting a first period according to an embodiment of the present invention.

If it is determined in step S260 that the port does not satisfy the wake-up condition, the power saving control apparatus 100 of the network switch resets the corresponding port to the sleep mode (S710). Then, the power saving control device 100 of the network switch resets the first period (S720).

For convenience of explanation, if it is determined in step S260 of FIG. 2 that the port in the erasure mode does not satisfy the wakeup condition, the port is reset to the sleep mode, and then the first period is reset. However, , The power saving control device 100 of the network switch can perform the process of resetting the first period irrespective of the order of steps as needed.

The power saving control device 100 of the network switch determines whether or not the network state of the network switch after the port is reset to the sleep mode, the operation state of the network switch, and the number of the ports in the sleep mode, Based on at least one of them, the first period can be reset.

For example, if the ratio of ports in the sleep mode among the ports of the network switch is greater than a predetermined threshold value, the power saving control device 100 of the network switch can set the first period to be longer than the first period .

Also, the power saving control device 100 of the network switch may reset the port to the sleep mode, and then reset the first period based on the power saving performance information corresponding to the port. For example, if the time that port 1 is set to sleep mode is 08:03 on Monday, August 14, 2017, the time when sleep mode ends is 08:18 on Monday, August 14, 2017, and the current time is 2017 It is assumed that it is 08:00 on Monday, August 21. At this time, the power saving control device 100 of the network switch can reset the first period to 10 seconds which is longer than the original first period of 3 seconds.

Next, the power saving control apparatus 100 of the network switch determines whether the reset first period has elapsed (S730), and resets the port to the malfunction mode when the reset first period passes (S740).

The power saving control apparatus 100 of the network switch may perform step S260 of FIG. 2 again to determine whether the corresponding port satisfies the wake-up condition.

Also, the power saving control device 100 of the network switch may reset the second period before determining whether or not the wakeup condition is satisfied after resetting to the sparse mode. The power saving control device 100 of the network switch can determine whether the corresponding port satisfies the wakeup condition based on the reset second period.

As described above, the power saving control apparatus and method of the network switch according to the present invention are not limited to the configurations and the methods of the embodiments described above, but the embodiments can be applied to various implementations All or some of the examples may be selectively combined.

100: Power saving control device of network switch
110: Power saving schedule manager
120: Condition judging unit
130: power saving control unit
140: Cycle Resetting Government
150: Power save execution information storage unit
500: Schedule the power saving of the network switch
510: Port information
520: Start time to save power
530: Power save end time
540: First cycle
550: Second cycle
600: Information on performing power saving of the network switch
610: Port information
620: Mode type
630: Mode setting time
640: Mode End Time

Claims (20)

A power saving control method of a network switch performed by a power saving control device of a network switch,
Determining whether a current time is a power saving execution time based on a power saving schedule of the network switch in order to control power saving of the network switch,
Determining whether each of the one or more ports of the network switch satisfies a sleep mode entry condition based on whether or not each of the one or more ports of the network switch is currently in use,
Performing power saving control by setting the port satisfying the sleep mode entry condition to a sleep mode,
Setting the port of the sleep mode to the erasure mode at a time lapse corresponding to the first period after entering the sleep mode,
Determining, during a second period, whether the port of the sparse mode meets a wakeup condition; and
Performing power saving control by resetting the port to the sleep mode when it is determined that the port does not satisfy the wakeup condition
/ RTI >
Wherein the step of determining whether the sleep mode entry condition is satisfied comprises:
When the port is in an unused state, determines that the port satisfies the sleep mode entry condition,
Wherein the step of determining whether or not the wake-
And when the port transmits a link pulse and the link with the counterpart terminal is connected within the second period, the port determines that the port satisfies the wakeup condition. delete delete The method according to claim 1,
Further comprising setting the port to the active mode if the sleep mode entry condition is not satisfied or the wakeup condition is satisfied. The method according to claim 1,
The power saving schedule of the network switch may include:
Wherein the power saving control method comprises at least one of port information to which the power saving schedule is to be applied, a start time of the power saving operation, an end time of the power saving operation, the first period, and the second period. 6. The method of claim 5,
Wherein the port of the sleep mode comprises:
Maintaining the state of the sleep mode for the first period,
Wherein said port of said sparse mode comprises:
And transmits the link pulse during the second period. The method according to claim 6,
Wherein at least one of the first period and the second period
Wherein the network switch is set based on at least one of a network state of the network switch, an operation state of the network switch, and a number of the ports in the sleep mode. 8. The method of claim 7,
Resetting the first period based on at least one of a network state of the network switch, an operation state of the network switch, and the number of the sleeping mode ports after resetting the port to the sleep mode ≪ / RTI &
Wherein setting the port to the erasure mode comprises:
Further comprising resetting the port of the sleep mode to the erase mode after waiting for a time corresponding to the reset first period. The method according to claim 1,
Saving information including at least one of a time at which the port is set to the sleep mode, a time at which the port is set to the sleep mode, and a time at which the port is reset to the sleep mode. Power saving control method. 10. The method of claim 9,
Resetting the port to the sleep mode, and resetting the first period based on the power saving performance information corresponding to the port. A power saving schedule management unit for determining whether a current time is a power saving execution time based on a power saving schedule of the network switch,
Determining whether each of the one or more ports of the network switch satisfies a sleep mode entry condition based on whether or not each of the one or more ports of the network switch is currently in use, Up condition is satisfied; and
Setting the port satisfying the sleep mode entry condition to the sleep mode or setting the port of the sleep mode to the spoof mode when a time corresponding to the first period elapses after entering the sleep mode, And resetting the port to the sleep mode when it is determined that the port does not satisfy the wake-up condition during the period, and performing power saving control of the network switch,
The condition judging unit judges,
Wherein when the port is in an unused state, it is determined that the port satisfies the sleep mode entry condition, and in the second period, when the port transmits a link pulse and a link with the counterpart terminal is connected, The power saving control unit determines that the wakeup condition is satisfied. delete delete 12. The method of claim 11,
The power-
And sets the port to the active mode when the sleep mode entry condition is not satisfied or the wakeup condition is satisfied. 12. The method of claim 11,
The power saving schedule of the network switch may include:
Wherein the power saving control unit includes at least one of port information to which the power saving schedule is to be applied, a start time of the power saving operation, an end time of the power saving operation, the first period, and the second period. 16. The method of claim 15,
Wherein the port of the sleep mode comprises:
Maintaining the state of the sleep mode for the first period,
Wherein said port of said sparse mode comprises:
And transmits the link pulse during the second period. 17. The method of claim 16,
Wherein at least one of the first period and the second period
Wherein the network switch is set based on at least one of a network state of the network switch, an operation state of the network switch, and a number of the ports in the sleep mode. 18. The method of claim 17,
A period resetting unit for resetting the first period based on at least one of a network state of the network switch, an operation state of the network switch, and a number of the sleeping mode ports after resetting the port to the sleep mode, Further,
The power-
And resets the port of the sleep mode to the spill-up mode after waiting for a time corresponding to the reset first period. 12. The method of claim 11,
And a power saving performance information storage unit that stores power saving performance information including at least one of a time at which the port is set to the sleep mode, a time at which the port is set to the sleep mode, and a time at which the port is reset to the sleep mode. Power saving control device of network switch. 20. The method of claim 19,
Further comprising a period resetting unit for resetting the first period based on the power saving performance information corresponding to the port after resetting the port to the sleep mode.

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