CN1422042A - Communication network bandwidth controlling method - Google Patents

Abstract

The communication network bandwidth controlling method includes setting basic bandwidth parameters and maximum bandwidth parameters for the down ports; setting guard bandwith parameters for the up ports; and judging whether the up data frame passing through some down port accords with the set bandwidth parameters to decode transferring or discarding the data frame. The method makes it possible to control the bandwith of the up and down ports effectively while utilizing the idle port resource dynamically. The method may be used in Ethernet exchange, IP network and other bandwidth network.

Description

A kind of communication network bandwidth controlling method

Affiliated field

The present invention relates to the method that in a kind of communication network bandwidth control effectively.

Background technology

In communication network,, need take band width control method for the effective utilized bandwidth resource of energy.At different network characterizations, people have proposed various band width control method.Modal network is a network application illustraton of model as shown in Figure 1, and the several downlink port is arranged among Fig. 1, a uplink port.The uplink traffic that solid line is represented among the figure is used through the user that uplink port is distributed to each downlink port, and the downlink traffic that dotted line is represented is aggregated into uplink port by each downlink port.

In this model, need the flow between control uplink and downlink port, in traditional bandwidth control, generally be that the resource that preestablishes each downlink port is used number, limit the up-downgoing flow of each downlink port during use according to setting.Can guarantee the service quality (QoS) of each port like this.

To the relatively classical and more effective at present band width control method of this model is GFRA (interchangeable frame method of rate control, Generic Frame Rate Algorithm) control method, this method is from GCRA (the generic cell method of rate control at cell, Generic Cell Rate Algorithm) control method amplification, the bandwidth of transmission situation in network that can adapt to elongated Frame is controlled.

The GFRA control method is relatively come control data stream by the basic parameter to the traffic flow information that transmits on the downlink port and downlink port.Event data stream meets basic parameter, does not then control; If do not meet, then implement control.Accompanying drawing 2 is flow charts of GFRA method.

Two the most basic parameters of GFRA control method are Mean Speed and burst patient time, are designated as Rate and BT.Its basic controlling step is as follows:

The Mean Speed of supposing downlink port is that Rate (bit/s), burst patient time are BT (s);

I=1/Rate; L=BT; T is the current time; TREF is the current reference time of downlink port; TET is the downlink port time that expectation arrives to Frame; (annotate: time value increases progressively)

The TREF=T of this port of initialization when this port Rate and BT are set;

When a up/downlink data frame arrives, the step below carrying out:

Step 201: length is that the Frame of Len (bytes) arrives when T.

Step 202: calculate the expected time of port, TET=TREF+I*Len*8.

Step 203: judge that whether T is greater than TET.If, step 204; If not, step 205.

Step 204: give TREF (TREF=T) with the T assignment, skip to step 208.

Step 205: judge that whether T+L is greater than TET.If, step 206; If not, step

207。

Step 206: give TREF (TREF=TET) with the TET assignment, skip to step 208.

Step 207: bandwidth does not keep appointments (abandoning), finishes.

Step 208: bandwidth keeps appointments (forwarding), finishes.

This GFRA control method can be different to the setting of each port.Use GFRA control method can be controlled the bandwidth between the up-downgoing port effectively, but the dynamic assignment that can't realize idling-resource is used.That is to say that when uplink port has idling-resource other downlink port can not use this idling-resource, cause the wasting of resources of uplink port.Therefore be necessary on GFRA control method basis, to make improvement.

Summary of the invention

The technical problem to be solved in the present invention is by improving the effective control of GFRA control method realization to the port data bandwidth, and can satisfy the user in the demand that guarantees to utilize simultaneously under the primary bandwidth prerequisite network remaining bandwidth according to network condition dynamic assignment downlink port bandwidth.

A kind of band width control method of the present invention comprises the control of uplink and downlink flow, and is specific as follows described:

The Frame of uplink port A is transmitted to downlink port B, judges that at first whether this Frame observe the primary bandwidth parameter of downlink port B, if observe then transmit this Frame; Otherwise whether the decision data frame observes the maximum bandwidth parameter of downlink port B under the situation that dynamic bandwidth control enables, if observe, then whether the decision data frame observes the warning bandwidth parameter of uplink port A, observes and then transmits this Frame; Otherwise abandon this Frame.

The Frame of downlink port B is transmitted to uplink port A, judges that at first whether this Frame observe the primary bandwidth parameter of downlink port B, if observe then transmit this Frame; Otherwise whether the decision data frame observes the maximum bandwidth parameter of downlink port B under the situation that dynamic bandwidth control enables, if observe then whether the decision data frame observes the warning bandwidth parameter of uplink port A, observes and then transmits this Frame; Otherwise abandon this Frame.

For judging that whether the Frame of transmitting observes primary bandwidth parameter, the maximum bandwidth parameter of downlink port and the warning bandwidth parameter of uplink port of downlink port, can adopt the GFRA control method to judge; The method that can also adopt other simultaneously is as the bandwidth parameter rule judgment basis of observing of the present invention.

The present invention implements bandwidth control by the primary bandwidth parameter of downlink port, the maximum bandwidth parameter of downlink port, the warning bandwidth parameter of uplink port:

The setting of the primary bandwidth parameter of described downlink port is the setting according to system, and the necessary quality of service requirement of assurance downlink port is determined downlink port primary bandwidth ability;

The setting of described downlink port maximum bandwidth parameter is to be provided with to determine the maximum capacity that downlink port can bear according to the ability of downlink port and system;

The setting of the warning bandwidth parameter of described uplink port is to be provided with to determine the control ability of uplink port to slack resources according to the ability of uplink port and system.

The primary bandwidth parameter of described downlink port is made up of the basic rate and the basic burst patient time of downlink port;

The maximum bandwidth parameter of described downlink port is made up of the flank speed and the highest burst patient time of downlink port;

The warning bandwidth parameter of described uplink port is made up of the warning speed and the warning burst patient time of uplink port.

Bandwidth parameter setting for each uplink and downlink port can be different in addition.

Described uplink and downlink port can be an Ethernet interface, also can be the ATM mouth, can also be the port of access device.

In the GFRA control method, owing to just used the information of downlink port, thereby can't judge the idling-resource situation of uplink port, cause the situation that can not use the uplink port idling-resource.Band width control method of the present invention has been used the information of uplink and downlink ports simultaneously, thereby can effectively adjudicate the state of uplink port, reaches the situation of effectively utilizing uplink port.Use the present invention can dynamically use the idling-resource of uplink port, and basic service quality does not reduce, and realizes using effectively Internet resources.

Description of drawings

Below in conjunction with accompanying drawing the specific embodiment of the present invention is further described.

Fig. 1 is the basic network application model figure of flow control.

Fig. 2 is the flow chart of prior art GFRA control method.

Fig. 3 is the workflow schematic diagram of band width control method of the present invention.

Fig. 4 is a kind of specific implementation flow chart of band width control method of the present invention.

Fig. 5 is the application example of band width control method of the present invention in Ethernet switch.

Fig. 6 is the application example of band width control method of the present invention in IP network.

Embodiment

Band width control method of the present invention is in basic network application model as shown in Figure 1 the uplink and downlink flow to be carried out bandwidth control.Also be that GFRA control method is as shown in Figure 2 being carried out improved a kind of band width control method.

Band width control method flow chart of the present invention shown in 3 with reference to the accompanying drawings.It can be in system be realized flexibly: the present invention is to be that improvement has been done on the basis with the GFRA basic skills.Particular content has been described in detail in summary of the invention, has just repeated no more at this.

Specific implementation flow chart of the present invention shown in 4 with reference to the accompanying drawings.

Each downlink port is set two groups of bandwidth parameters, and one group is used to guarantee primary bandwidth, is designated as Basic_Rate and Basic_BT; Another group is used to limit maximum bandwidth, is designated as Peak_Rate and Peak_BT.Each uplink port is set one group of bandwidth parameter, be used for setting up warning bandwidth, be designated as Alarm_Rate and Alarm_BT.

The primary bandwidth parameter of supposing downlink port i is Basic_Rate (bit/s) and Basic_BT (s), and the maximum bandwidth parameter is Peak_Rate (bit/s) and Peak_BT (s); The warning bandwidth parameter of uplink port is Alarm_Rate (bit/s) and Alarm_BT (s), equivalent rate Equ_Rate (bit/s) (equivalent rate is the uplink port speed of each port working when the primary bandwidth parameter);

I_Basic＝1/Basic_Rate；I_Peak＝1/Peak_Rate；I_Alarm＝1/Alarm_Rate；

I_Equ＝1/Equ_Rate；

L_Basic＝Basic_BT；L_Peak_＝Peak_BT；L_Alarm＝Alarm_BT；L_Equ＝Equ_BT；

T is the current time;

TREF_Down is the port i reference time; TREF_Up is the uplink port reference time;

TET_Down is the port i expected time; TET_Up is the uplink port expected time;

Frame length is Len (bytes);

When being set, port parameter sets the TREF=T of this port;

When a up/downlink data frame arrives, the step below carrying out:

Arrive the Frame that length is Len (Bytes) during step 401:T.

Step 402: make TET_Down=TREF_Down+I_Basic*Len*8.

Step 403:, otherwise skip to step 405 if T＞TET_Down changes step 404 so.

Step 404: make TREF_Down=T, skip to step 407.

Step 405:, otherwise skip to step 411 if T+L_Basic＞TET_Down then changes step 406.

Step 406: make TREF_Down=TET_Down.

Step 407: make TET_Up=TREF_Up+I_Equ*Len*8.

Step 408:, otherwise skip to step 410 if TREF_Up＞T then changes step 409.

Step 409: make TREF_Up=T, skip to step 425.

Step 410.TREF_Up=TET_Up skips to step 425.

Step 411: if dynamic bandwidth control does not enable, then skip to step 426, otherwise change step 412.

Step 412: make TET_Down=TREF_Down+I_Peak*Len*8.

Step 413:, otherwise change step 414 if T＞TET_Down then skips to step 415.

If step 414. T+L_Peak＞TET_Down then skips to step 420, otherwise skips to step 426.

Step 415: make TET_Up=TREF_Up+I_Alarm*Len*8.

Step 416: if T＞TET_Up, step 417 then, otherwise step 418.

Step 417: make TREF_Down=T, TREF_Up=T skips to step 425.

Step 418:, otherwise skip to step 426 if T+L_Alarm＞TET_Up then changes step 419.

Step 419: make TREF_Down=T, TREF_Up=TET_Up skips to step 425.

Step 420: make TET_Up=TREF_Up+I_Alarm*Len*8.

Step 421:, otherwise skip to step 423 if T＞TET_Up then changes step 422.

Step 422: make TREF_Down=TET_Down, TREF_Up=T skips to step 425.

Step 423:, otherwise skip to step 426 if T+L_Alarm＞TET_Up then changes step 424.

Step 424: make TREF_Down=TET_Down, TREF_Up=TET_Up.

Step 425: bandwidth keeps appointments, and finishes.

Step 426: bandwidth does not keep appointments, and finishes.

(annotate: the setting of each port can be different)

Ethernet switch fast development has in recent years become important part in the network, is particularly extensively adopted by some Virtual network operators.Traditional Ethernet switch does not limit the user-network access capacity, is unfavorable for the assurance of quality of service, can't charge by the grade of service yet.The method that the present invention proposes can add the bandwidth control ability to the traditional ethernet switch, makes it can adapt to the needs of new network operation.With reference to the application of band width control method of the present invention in Ethernet switch shown in Figure 5.With certain Ethernet switch is example.This Ethernet switch has 24 ethernet ports and 1 atm interface, and two kinds of switch modes are arranged:

A, by certain Ethernet interface as up going port

Pattern b has adopted Ethernet interface as up going port, the control that frame is transmitted between up going port and down going port by

CPU finishes, and that is to say what flow control was controlled by CPU.

B, by the ATM mouth as up going port.

As up going port, the control that frame is transmitted between up going port and down going port is by CPU with the ATM mouth for pattern c

Finish, that is to say what flow control was controlled by CPU.

For the flexibility of bigger ground can be arranged, when flow control, uplink traffic and downlink traffic are provided with one group of parameter respectively.Owing to be to adopt CPU control, thereby require to realize simple efficient.Adopt the present invention, the dynamic use to the remaining bandwidth of uplink port can be provided under the advantage situation that keeps the GFRA control method, obtained good effect.

Utilize the method for the invention, can obtain following effect:

1. can realize control to bandwidth efficient between the Ethernet switch uplink and downlink port;

2. can dynamically provide according to demand and exceed the more remaining bandwidth of primary bandwidth.Like this, in network congestion

The time, can guarantee user's primary bandwidth, and when network was idle, it was bigger than primary bandwidth to offer the user

Many bandwidth;

3. can satisfy the demand of Virtual network operator according to the quality of service charge.

4. method is succinct.

Traditional IP network does not have flow control substantially, and the use on IP network along with some real time datas and multi-medium data requires IP network to have flow control function, and some IP operation need flow control simultaneously.For the user that real time data and multi-medium data business demand are arranged, in order to guarantee certain service quality, need the IP flow control, adopt the present invention can guarantee that its basic service demand also can make full use of Internet resources simultaneously.For IP network operator, can introduce the different grades of service by the present invention and adapt to business demand on the IP network.

As shown in Figure 6, user A and B are linked into the C of network insertion service provider.Access device at the C place adopts band width control method of the present invention to can be the user different service quality is provided.A, B have different service bandwidth requirements, adopt the present invention after, at A, their basic service bandwidth will be guaranteed when B hurry, during the free time, the opposing party can use corresponding idling-resource at A or B.If when same A also was an Access Service Provider, he still can adopt similar mode to handle to subordinate equipment.When if A is the end user, he also can adopt the present invention that his real-time requirement and non real-time demand separate processes are satisfied when guaranteeing real-time requirement and non real-time demand.

In present broadband networks, in fact also need flow control in addition.If there is not the flow control meeting to cause inequality to the user.Because upstream bandwidth is limited, how a user has used another user to lack.Problem is that everybody has paid same expense, can cause being discontented with of some users like this.Therefore need flow control, adopt the present invention, can combine with broadband network well, guarantee each user's basic service quality, allow the maximum utilization of bandwidth simultaneously again.Same this situation also can occur in an intranet, adopts aforesaid way to solve.

Claims (8)

1. a communication network bandwidth controlling method is characterized in that, one of them is uplink port for port A and B, and another is a downlink port, when Frame when port A is transmitted to port B,

Judge that at first whether this Frame observe the primary bandwidth parameter of the downlink port among port A or the B, if observe then transmit this Frame; Otherwise whether the decision data frame observes the maximum bandwidth parameter of described downlink port under the situation that dynamic bandwidth control enables, if observe, then whether the decision data frame observes the warning bandwidth parameter of the uplink port among port A or the B, observes and then transmits this Frame; Otherwise abandon this Frame.

2. a kind of communication network bandwidth controlling method according to claim 1, it is characterized in that, whether the Frame that described judgement is transmitted observes primary bandwidth parameter, the maximum bandwidth parameter of downlink port and the warning bandwidth parameter of uplink port of downlink port, adopts the GFRA control method to judge.

3. a kind of communication network bandwidth controlling method according to claim 1 is characterized in that,

The setting of the primary bandwidth parameter of described downlink port is the setting according to system, and the necessary quality of service requirement of assurance downlink port is determined downlink port primary bandwidth ability;

The setting of described downlink port maximum bandwidth parameter is to be provided with to determine the maximum capacity that downlink port can bear according to the ability of downlink port and system;

The setting of the warning bandwidth parameter of described uplink port is to be provided with to determine the control ability of uplink port to slack resources according to the ability of uplink port and system.

4. according to claim 1 or 3 described a kind of communication network bandwidth controlling methods, it is characterized in that,

The primary bandwidth parameter of described downlink port is made up of the basic rate and the basic burst patient time of downlink port;

The maximum bandwidth parameter of described downlink port is made up of the flank speed and the highest burst patient time of downlink port;

The warning bandwidth parameter of described uplink port is made up of the warning speed and the warning burst patient time of uplink port.

5. a kind of communication network bandwidth controlling method according to claim 1 is characterized in that, can be different for the bandwidth parameter setting of each uplink and downlink port.

6. a kind of communication network bandwidth controlling method according to claim 1 is characterized in that, described uplink and downlink port is an Ethernet interface.

7. a kind of communication network bandwidth controlling method according to claim 1 is characterized in that, described uplink and downlink port is the ATM mouth.

8. a kind of communication network bandwidth controlling method according to claim 1 is characterized in that, described uplink and downlink port is the port of access device.

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