KR20110049648A - Method and apparatus for power-efficient link group-based communication - Google Patents

Abstract

PURPOSE: A link group communication device is provided to reduce the power consumption by controlling traffic transmission operation of links in a link group. CONSTITUTION: A link group management unit(100) constitutes a plurality of physical links into one link group. The link group management unit establishes the packet transmission to each physical link of the link group. A traffic distribution unit(110) transmits the packet through the set physical link. A link state monitoring unit(120) measures an average traffic quantity through the set physical link. The link state monitoring unit transmits the measured average traffic quantity to the link group management unit.

Description

Link group communication apparatus and method for reducing power {Method and Apparatus for Power-Efficient Link Group-based Communication}

The present invention relates to a link group-based communication method for efficiently saving power, and a technique for reducing power in a link group communication method in which a communication system logically bundles and links a plurality of links to form a logical link having an individual link bandwidth or more. Is about

Switches, routers, and servers generally use link group-based communication in which multiple physical links are grouped into one link group and behave logically as one link to provide more than one link speed.

Typically, Ethernet uses a link aggregation method according to a standard to bundle multiple Gigabit Ethernet interfaces to create a logical link of several gigabit bandwidths. In addition to Ethernet, for example, a packet over sonet (POS), a logical link group can be created to configure a high-bandwidth logical interface.

When the link group is formed in this way, the traffic destined for the link group is uniformly distributed to all member links, so that traffic over the individual link bandwidth can be handled. However, this method has a disadvantage in that system resources or power are wasted because all links must be used even when the traffic amount is small.

The present invention is to solve such a problem, when performing link group communication, according to the amount of traffic to be transmitted, using only the appropriate number of links in the group (active mode), the remaining links are set to the idle state (power Power saving mode, which transmits traffic only through the links operating in the active mode, and the remaining links in the power saving mode use minimum power to maintain the link connection, thereby reducing link power in link group communication. An apparatus and a method thereof are provided.

In a link group communication apparatus according to an aspect of the present invention, in a communication system for transmitting and receiving packets by connecting a plurality of physical links with an adjacent node, a plurality of physical links are configured as one link group, and each physical link in the link group is provided. A link group management unit configured to set whether to transmit a packet, a traffic distribution unit that distributes packets through a physical link configured to transmit packets in the link group, and average traffic transmitted through a physical link configured to transmit packets in the link group Link status monitoring unit for measuring the amount, and transmits the measured average traffic volume to the link group management unit.

In addition, the plurality of physical links may be composed of only links having the same transmission rate, or may be composed of links having different transmission rates.

In addition, the link group manager sets a predetermined physical link to an active mode that performs packet transmission according to the average traffic volume for each physical link in the link group, and the other physical link to a power saving mode that does not perform packet transmission. Can be set.

Also, the link group manager may switch the physical link set to the active mode in the link group to the power saving mode or the physical link set to the power saving mode to the active mode according to the average amount of traffic received from the link state monitoring unit. Can be.

In addition, when the link group manager switches the physical link set to the active mode to the power saving mode, the traffic distribution unit may redistribute traffic allocated to the physical link switched to the power saving mode to the physical link set to the active mode.

The traffic distribution unit may redistribute some of the traffic allocated to the physical link preset to the active mode to the physical link switched to the active mode when the link group manager switches the physical link set to the power saving mode to the active mode. have.

The apparatus may further include a link buffer positioned at the front end of the physical link so that the packets distributed by the traffic distribution unit are transmitted through each physical link, and temporarily storing the packet.

In addition, the link state monitoring unit may calculate an average storage length of the link buffer connected to the physical link set to the active mode in the link group, and measure the average amount of traffic transmitted through the physical link.

In addition, the average storage length may be calculated by calculating the length average of the link buffers connected to the physical link set to the active mode in the link group every predetermined time, and by calculating the calculated average of the operation of the time window interval of a predetermined length. have.

In a link group communication method according to an aspect of the present invention, in a communication system for transmitting and receiving a packet by connecting a plurality of physical links with an adjacent node, configuring a plurality of physical links into one link group, each physical in the link group According to the traffic volume, the predetermined physical link is set to an active mode that performs packet transmission, and the remaining physical links are set to a power saving mode that does not perform packet transmission, and the physical link is set to an active mode in a link group. Distributing and transmitting packets over the network, measuring an average amount of traffic transmitted through the physical links set to the active mode in the link group, and determining a physical link set to the active mode in one link group according to the measured average traffic volume. Set the power saving mode, or put the physical link set to the power saving mode to the active mode. It may include a determining step.

In addition, when the average storage length is smaller than the predetermined minimum threshold, a predetermined physical link set to the active mode to switch to the power saving mode according to the difference between the minimum threshold and the average storage length of the physical link set to the active mode in the link group. The method may further include redistributing traffic allocated to the selected physical link to a physical link set to an active mode other than the physical link, and switching the selected physical link to a power saving mode.

In addition, when the average storage length is larger than the predetermined maximum threshold, selecting a predetermined physical link to switch to the active mode according to the difference between the maximum threshold value and the average storage length of the physical link set to the power saving mode in the link group, selection The method may further include converting the physical link into the active mode and redistributing some of the traffic transmitted through the physical link preset in the active mode to the physical link switched to the active mode.

According to the present invention, in a link group communication method in which a communication system bundles a plurality of physical links to form a link group and operates one high-bandwidth link group, the number of links used for transmission is controlled according to the amount of traffic destined for the link group. In addition, the remaining links can be idled and placed in a low power state, thereby achieving efficient power saving in link group communication.

In addition, it is possible to control the traffic transmission operation of the links in the link group, it is possible to efficiently use the link resources of the communication system as a whole.

1 is a block diagram showing a link group communication apparatus according to an embodiment of the present invention.
2 is a basic flowchart illustrating a link group communication method according to an embodiment of the present invention.
3A and 3B are detailed flowcharts illustrating a link group communication method according to an embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram illustrating a communication system according to an exemplary embodiment of the present invention.

In the present invention, a communication system is a system having a plurality of physical links and a packet as a transmission unit, and examples thereof may include a server, a switch, a router, and the like. In the present invention, a link is a physical communication interface. For example, a link may include a general communication interface such as Ethernet, Passive Optical Network (PON) interface, Packet Over Sonet (POS), Wireless Lan, CDMA, GSM, or the like.

Referring to FIG. 1, the communication system includes a link group management unit 100, a traffic distribution unit 110, a link state monitoring unit 120, and a link buffer 130. More specifically, at least one physical link, the link buffer 130 linked to the physical link, the link status monitoring unit 120 for monitoring the length of the link buffer 130, traffic distribution unit for sending packet traffic to the output link 110, a link group manager 100 for setting a link group and managing members.

When a high bandwidth communication channel with an adjacent system is required, the link group manager 100 may set an appropriate number of physical links to one link group and set a mode of an individual link as necessary. More than one link group can be set in a system, and the link group manager can manage each link group.

Links within a link group may have an active mode and a power saving mode depending on whether packets can be transmitted. The link in active mode refers to a state in which traffic can be delivered through the link at a set transmission rate of the link, and is active in the present invention in the case of an Ethernet supporting a multi-rate mode of 10 Mbps, 100 Mbps, and 1 Gbps. The mode may include all three speed modes.

When the link is in power saving mode, it means that the link cannot transmit packets, i.e., it is idle.

The power saving mode can be at various levels depending on the implementation of the link management system. For example, the power saving mode can be completely cut off from the power supply. It may be.

The link buffer 130 refers to a storage space in which a packet to be transmitted through a physical link stays.

The traffic distribution unit 110 properly distributes packet traffic destined for each link group to physical links in the link group. As an example of implementing the traffic distribution unit 110, the header information of the packet may be hashed and allocated for each link according to the hashing result so that packets belonging to the same flow may be transmitted through the physical link of the same link group. Various other dispensing methods are possible, and are not limited to the dispensing method described above.

The link state monitoring unit 120 monitors the length of the link buffer 130, calculates the average length of the link buffer connected to the link set to the active mode in a certain time interval for each link group to maintain this value. .

One example of obtaining the average link buffer length for each link group is to average the length of link buffers set in the active mode in the link group every unit time, and to take a moving average for a certain length of time window. The present invention may include various calculation methods other than the link state monitoring method described above.

2 is a basic flowchart illustrating a link group communication method according to an embodiment of the present invention.

First, in a communication system connected to a neighbor node by a plurality of physical links to transmit and receive a packet, a plurality of physical links connected to the neighbor node are configured as one link group (200).

According to the amount of traffic to be transmitted for each physical link in the configured link group, a predetermined physical link is set to an active mode that performs packet transmission, and the other physical link is set to a power saving mode that does not perform packet transmission (210). .

The packet is distributed and transmitted through the physical links set to the active mode in the link group (220).

The average traffic amount transmitted through the physical links set to the active mode in the link group is measured (230), and the physical link set to the active mode in the link group according to the measured average traffic amount is set to the power saving mode or the power The physical link set to the save mode is set to the active mode (240).

In this case, if the measured average traffic volume is insufficient to perform packet transmission compared to the capacity of the physical links currently set to the active mode, the physical link set to the power saving mode is set to the active mode and packet transmission is performed. In case of excessive load, the physical link set in the active mode is switched to the power saving mode.

3A and 3B are detailed flowcharts illustrating a link group communication method according to an embodiment of the present invention.

3A and 3B, the operation of the link group communication device of FIG. 1 will be described in detail.

The link group manager 100 sets N links to link groups through user setting or an indication by a signaling protocol (300). Link group configuration must be made in both systems connected to each other by N physical links. In this step, link group configuration can be implemented through negotiation by signaling for link group creation or through configuration of an administrator.

When creating a link group consisting of N links, an appropriate number of k (1≤k≤N) links are selected by an algorithm or setting (traffic quantity prediction, etc.) and set to an active mode in which packets can be transmitted, and the remaining links are idle. Set to the power saving mode of the state (310).

When setting the mode of a specific physical link in the link group, the counterpart system connected to the physical link must also set the corresponding physical link in the same mode. The implementation of this is negotiated by mutual communication between the two systems, or through an external control server. It may be possible through.

The traffic distribution unit 110 distributes the traffic destined for each link group only to the physical link set to the active mode through an appropriate method (320).

In this case, the link state monitoring unit 120 periodically calculates an average length of the link buffers connected to the physical link set to the active mode for each link group (330).

The link state monitoring unit 120 manages two thresholds for each link group, that is, a normal threshold (idle_threshold) and a frequency division threshold (busy_threshold), and a frequency division threshold (busy_threshold) is generally larger than the normal threshold (idle_threshold). When the calculated average buffer length is smaller than the normal threshold (idle_threshold) (340) or larger than the busy threshold (350), the link group manager 100 notifies it.

When the link group manager 100 is informed that the average link buffer length is smaller than the normal threshold, it determines that the amount of traffic flowing into the link group is smaller than the number of physical links set to the active mode, and the power among the active mode physical links is determined. An appropriate number of links to be switched to the reduced mode is selected and notified to the traffic distribution unit 110 (341).

The traffic distribution unit 110 redistributes packet traffic flowing through the physical link to be switched to the power saving mode from the active mode to the remaining active mode physical link, and notifies the link group management unit 100 (342).

When notified that the traffic distribution is completed, the link group manager 100 switches the selected active mode physical link to the power saving mode (343). When setting the mode of a specific link in the link group, the partner system connected to the link should also set the link in the same mode. The implementation of this can be achieved through negotiation through mutual communication between the two systems, or setting through an external control server. Can be.

When the link group manager 100 is informed that the average link buffer length is larger than the busy_threshold, the link group manager 100 determines that the active mode physical link in the link group is insufficient for traffic, and the active mode among the power saving mode physical links in the link group. An appropriate number of links to be switched to is selected (351), the selected power saving mode physical link is switched to an active mode, and the traffic distribution unit 110 is notified of this (352).

In this step, the traffic distribution unit 110 redistributes the traffic transmitted to the existing active link to the newly switched link to the active mode physical link (353).

One aspect of the present invention may be embodied as computer readable code on a computer readable recording medium. The code and code segments implementing the above program can be easily deduced by a computer programmer in the field. Computer-readable recording media include all kinds of recording devices that store data that can be read by a computer system. Examples of the computer-readable recording medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, optical disk, and the like. The computer-readable recording medium may also be distributed over a networked computer system and stored and executed in computer readable code in a distributed manner.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be construed to include various embodiments within the scope of the claims.

100 Link Group Management Department
110 traffic distribution
120 Link Status Monitor
130 Link Buffer

Claims (14)

In a communication system connected to an adjacent node by a plurality of physical links to transmit and receive packets, the link group configures the plurality of physical links into one link group and sets whether to transmit a packet to each physical link in the link group. Management;
A traffic distribution unit for distributing and transmitting the packet through a physical link configured to transmit a packet in the link group; And
And a link state monitoring unit for measuring an average amount of traffic transmitted through a physical link configured to transmit a packet in the link group, and transmitting the measured average amount of traffic to the link group management unit. The method of claim 1,
The plurality of physical links are composed of only links having the same transmission rate, or link group communication apparatus consisting of links having different transmission rates. The method of claim 1, wherein the link group management unit
For each physical link in the link group, a predetermined physical link is set to an active mode that performs packet transmission according to the average traffic amount, and the other physical link is set to a power saving mode that does not perform packet transmission. Communication device. The method of claim 3, wherein the link group management unit
And linking the physical link set in the active mode in one link group to the power saving mode or the physical link set in the power saving mode to the active mode according to the average amount of traffic received from the link state monitoring unit. The method of claim 4, wherein the traffic distribution unit
And in the link group management unit, redistributing traffic allocated to the physical link switched to the power saving mode to the physical link set to the active mode when the physical link set to the active mode is switched to the power saving mode. The method of claim 4, wherein the traffic distribution unit
And in the link group management unit, when the physical link set to the power saving mode is switched to the active mode, a portion of the traffic allocated to the physical link preset to the active mode is redistributed to the physical link switched to the active mode. The method of claim 3, wherein
And a link buffer positioned at the front of the physical link to temporarily store the packet so that the packet distributed by the traffic distribution unit is transmitted through each physical link. The method of claim 7, wherein the link state monitoring unit
And calculating an average storage length of a link buffer connected to a physical link set to an active mode in the link group to measure an average amount of traffic transmitted through the physical link. The method of claim 8, wherein the average storage length is
A link group communication device for calculating a length average of the link buffers connected to the physical link set to the active mode in the link group every predetermined time, and by calculating the average of the operation of the time window interval of a predetermined length. In a communication system connected to a neighbor node by a plurality of physical links to transmit and receive packets, configuring the plurality of physical links in a link group;
For each physical link in the link group, setting a predetermined physical link to an active mode that performs packet transmission and setting the other physical link to a power saving mode that does not perform packet transmission;
Distributing and transmitting the packet through physical links set to an active mode in the link group;
Measuring an average amount of traffic transmitted over physical links set to an active mode in the link group; And
And setting a physical link set in an active mode in one link group to a power saving mode or setting a physical link set in a power saving mode to an active mode according to the measured average traffic volume. The method of claim 10,
And calculating an average storage length of a link buffer connected to a physical link set to an active mode in the link group to measure an average amount of traffic transmitted through the physical link. The method of claim 11, wherein the average storage length is
A link group communication method for calculating a length average of the link buffers connected to the physical link set to the active mode in the link group every predetermined time, and by calculating the average of the operation of the time window interval of a predetermined length. The method of claim 12,
When the average storage length is smaller than a predetermined minimum threshold, a predetermined physical set to the active mode to switch to a power saving mode according to the difference between the minimum threshold and the average storage length among the physical links set to the active mode in the link group. Selecting a link;
Redistributing traffic allocated to the selected physical link to a physical link set to an active mode other than the physical link; And
And switching the selected physical link to a power saving mode. The method of claim 12,
Selecting a predetermined physical link to switch to an active mode according to a difference between the maximum threshold value and the average storage length among physical links set to a power saving mode in the link group when the average storage length is larger than a preset maximum threshold. ;
Switching the selected physical link to an active mode; And
And redistributing a part of the traffic transmitted through the physical link preset in the active mode to the physical link switched to the active mode.

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