KR20020045276A - Switch for hot spot traffic - Google Patents

Abstract

PURPOSE: A switch for a hot spot traffic is provided to optimize efficiency and switching capacity on switching element design by increasing only switching elements in a plurality of switching element series included in an other network having a hot spot characteristic by the number of S times. CONSTITUTION: A plurality of switching elements(200) perform the switching operation of data under the control of a switching control unit(100). Switching elements in a plurality of switching element series included in an other network having a hot spot traffic characteristic are increased by the number of S times among a plurality of switching elements(200). A plurality of switching elements(200) have a switching structure with a cross/bar state.

Description

Switch for hot spot traffic {SWITCH FOR HOT SPOT TRAFFIC}

The present invention relates to a switch for hot spot traffic that can be applied to a wired / wireless communication switch. More particularly, the present invention relates to another network having a hot spot characteristic among switching elements having an N × N structure. The present invention relates to a hot spot traffic exchanger that efficiently processes hot spot traffic by increasing the number of switching elements in a plurality of belonging switching element rows by S (S = natural number) times.

As is well known, the above-described hot spot is a switching network in which switching elements are mutually coupled. When a communication request increases in one component and an increase in communication delay of another component occurs, the communication request concentrates. Indicates a site.

A conventional ATM (Asynchronous Transfer Mode) for hot spot traffic is referred to as " ATM. &Quot; A switching control unit 10 for transmitting a switching control signal to a plurality of 2N ² switching elements 20 using a circuit Identical (hereinafter referred to as “VPI / VCI”); A plurality of (2N ² ) switching elements 20 each of which is designed in an N × 2N structure in which all columns are doubled, and performs switching operation of ATM cell data under switching control of the switching controller 10; The number (2N ²⁾ of the switching element 20 of the first are connected to the switching element (20) belonging to the second column (列), switching is the ATM cell data received from the front end block and stored while the own and the connection A plurality (N) Input Buffers 30 respectively output to the element 20; And a double switching element connected to each of the 2 × N (N = natural numbers) switching elements 20 belonging to the last row of the plurality of 2N ² switching elements 20 and connected thereto. It consists of a number (N) of output buffers (40) for storing the ATM cell data received from (20) for a while and transmitting the data to the other network connected to itself.

However, the conventional ATM switch for hot spot traffic described above is designed in an N × 2N structure in which all columns are doubled to support hot spot traffic, thereby reducing the cost of switching element design and production. In addition, there is a problem in that switching element design inefficiency and switching capacity are wasted by unconditionally doubling the switching element trains belonging to other networks to which hot spot traffic is not applied.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a hot spot traffic exchanger having a cheap and efficient hot spot traffic processing function.

In order to achieve the above object, the present invention provides a hot spot traffic switch comprising: a switching controller for outputting a switching control signal using destination information in a header of data transmitted from a front end block; A plurality of switching elements designed in an N × N structure to perform data switching operations under switching control of the switching controller; A plurality of switching elements each connected to the first column of the plurality of switching elements having an N × N structure, which temporarily store data received from the front end block and output the data to the switching elements connected to each other. N) input buffers; And a plurality of switching elements belonging to the last row of the plurality of switching elements having an N × N structure, respectively, temporarily storing data received from the switching element connected with the self, and transferring the data to another network connected with the switching element. In an exchange consisting of multiple (N) output buffers, each transmitting

The plurality of switching elements having the N × N structure may be configured such that only switching elements in a plurality of switching element columns belonging to another network having hot spot traffic characteristics are expanded by the number of times S (S = natural number). It is done.

1 is a functional block diagram showing the configuration of an ATM switch for a conventional hot spot traffic;

2 is a functional block diagram showing the configuration of an ATM switch for hot spot traffic according to an embodiment of the present invention;

3A is a view illustrating a state of bar switching of switching elements in an ATM switch for hot spot traffic according to FIG. 2;

3B is a diagram illustrating a cross switching state of switching elements in an ATM switch for hot spot traffic according to FIG. 2.

<Explanation of symbols for the main parts of the drawings>

100: switching control unit 200: switching element

300: input buffer 400: output buffer

Hereinafter, a hot spot traffic switch according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings, and the hot spot traffic switch according to an embodiment of the present invention is described in the first column. For example, the switching element is doubled to be suitable for hot spot traffic.

2 is a functional block diagram of a hot spot traffic switch according to an embodiment of the present invention, the hot spot traffic switch according to an embodiment of the present invention is a switching controller 100, a plurality of switching elements 200, It is composed of a plurality (N) of input buffers 300, and a plurality (N) of output buffers 400.

The switching controller 100 is a processor that controls the switching operations of the plurality of switching elements 200. After receiving ATM cell data from a front end block, the switching controller 100 checks the VPI / VCI stored in the header of the ATM cell to determine a destination network. After that, and then transmits a switching control signal corresponding to the VPI / VCI to the plurality of switching elements 200, respectively. Here, the other network means a destination of ATM cell data such as another ATM switch and a PSTN network.

In addition, the plurality of switching elements 200 are designed in an N × N structure and at the same time, the switching elements 200 in the first column are configured to be doubled in number to support hot spot traffic. After receiving ATM cell data from a plurality (N) of input buffer 300, and serves to switch to the corresponding output buffer 400 under the control of the switching controller 100.

In this case, the two switching elements 200 belonging to the last row in the first column are all connected to the first output buffer 400, and the plurality of switching elements 200 are all shown in FIG. 3A. Switchable to a bar state as shown and a cross state as shown in FIG. 3B.

Meanwhile, the plurality of N input buffers 300 are sequentially connected to the switching elements 200 belonging to the first column of the plurality of switching elements 200, respectively, to receive ATMs from the previous block. The cell data is temporarily stored and then output to the switching element 200 connected to the cell data.

In addition, the plurality of N output buffers 400 are sequentially connected to the switching elements 200 belonging to the last row of the plurality of switching elements 200, respectively, to be connected to the switching elements. It stores the ATM cell data received from the 200 for a while and transmits to the other network connected with itself.

At this time, the output buffer 400 connected to the two switching elements 200 in the first column among the plurality of N output buffers 400 is more sensitive to hot spot traffic than the other output buffers 400. It consists of a suitable high capacity buffer, the first output buffer 400 is connected to the other network having the hot spot characteristics.

Then, the operation of the hot spot traffic switch according to an embodiment of the present invention having the above configuration will be described with reference to FIGS. 2, 3A, and 3B.

First, any input buffer 300 of the plurality of N input buffers 300 stores ATM cell data for a while after receiving ATM cell data from a preceding block.

In this case, the switching control unit 100 receives ATM cell data from the front end block, checks the VPI / VCI stored in the header of the ATM cell, and checks the other network as the destination, and then switches the control corresponding to the VPI / VCI. The signal is transmitted to the plurality of switching elements 200.

Then, the plurality of switching elements 200 receive the switching control signal from the switching control unit 100, and then are converted into specific states as shown in FIGS. 3A and 3B, respectively, and thus, an arbitrary input buffer ( The routing path of the ATM cell data stored in 300 is determined. At this time, when the ATM cell data stored in any input buffer 300 is switched to the first output buffer 400 because it is hot spot traffic, the ATM cell data is duplicated in the first column. Route determines the routing path.

Then, after the switching state of the plurality of switching elements 200 is determined, the arbitrary input buffer 300 transmits the ATM cell data stored therein to the plurality of switching elements 200.

The switching elements 200 then switch the ATM cell data to the corresponding output buffer 400.

Subsequently, after receiving the switched ATM cell data through the switching elements 200, the output buffer 400 stores the data for a while and transmits the data to another network that is a destination connected to the output buffer 400.

As described above, according to the switch for hot spot traffic according to the present invention, each of the switching elements in a plurality of switching element columns belonging to another network having a hot spot characteristic among the switching elements of the N × N structure is respectively S. By increasing the number of times (S = natural number), the cost of switching element design and production can be reduced, and the switching element design efficiency and switching capacity can be maximized.

Claims (2)

A switching controller for outputting a switching control signal using destination information in the header of the data transmitted from the preceding block; A plurality of switching elements designed in an N × N structure to perform data switching operations under switching control of the switching controller; A plurality of switching elements each connected to the first column of the plurality of switching elements having an N × N structure, which temporarily store data received from the front end block and output the data to the switching elements connected to each other. N) input buffers; And a plurality of switching elements belonging to the last row of the plurality of switching elements having an N × N structure, respectively, temporarily storing data received from the switching element connected with the self, and transferring the data to another network connected with the switching element. In an exchange consisting of multiple (N) output buffers, each transmitting In the plurality of switching elements having the N × N structure, only the switching elements in the plurality of switching element columns belonging to another network having hot spot traffic characteristics are configured to be increased by the number of times S (S = natural number). An exchange for hot spot traffic. The method of claim 1, And the plurality of switching elements all have a cross / bar state switching structure.