KR20040083871A - ATM Switching Device of Low Capacitance - Google Patents

Abstract

PURPOSE: A small-capacity ATM switch device is provided to delete an IMA function chip, an ATM layer processing chip, and a process module from a line card, and to concentratively dispose the chips and the module in a central switch and a control card, thereby reducing a cost without using another switch fabric chip while decreasing power consumption. CONSTITUTION: An interface card(100) consists of passive elements and connectors for link interface. A line card(200) receives 4 ports while mounting LIUs and framer chips thereon, and supports 16 T1 or E1 ports. The line card(200) comprises as follows. An LED portion(210) displays a link state. A clock synchronizer(220) adjusts a synchronization by receiving a reference clock. A duplexing logic portion(230) performs an active port decision to support a hot standby port duplexing, and controls an output enable function of an output buffer. A control interface(240) is used for a chip initialization command and a framer control command interface.

Description

ATM Switching Device of Low Capacitance

The present invention relates to an E1 / T1 matched small capacity ATM switch that supports port redundancy with eight line cards that accept E1 or T1 16 links. In particular, the interface between the framer chip and the IMA chip of the line card is relatively slow. Focusing on the 2.048Mbps serial interface, the IMA chip, which accommodates up to 84 links, is mounted on the switch and control card, and the port output of the redundant line card is configured in the hot-standby form. The card does not have a processor, so each line card can be controlled from the switch and control card, and the switch Alone mode of the ATM buffer management chip is used to perform the switch function and to support the redundancy of the switch fabric. For low-cost, small-capacity ATM switches that can accommodate up to 80 T1 ports or up to 63 E1 ports A.

In general, in the case of the small-capacity ATM switch device according to the prior art, it is not possible to smoothly support port duplication in hardware, or the cost of the line card by configuring a processor, an ATM function chip, and an IMA function chip in each line card There was a high problem, and since the switch card and the control card must be provided separately, there was a problem that the price of the entire ATM switch device is high.

Accordingly, the present invention is proposed to solve the above problems of the prior art,

An object of the present invention is to focus on the fact that the interface between the framer framer chip and the IMA chip of the line card is a relatively low-speed up to 2.048Mbps serial interface, mounted on the switch and control card to accommodate up to 84 links The line output of the line card is configured as Hot-Standby, each line card can be controlled from the switch and control card without a processor in each line card, and the stand-alone of the ATM buffer management chip It provides a low-cost, small-capacity ATM switch that can accommodate up to 80 T1 ports or up to 63 E1 ports for redundancy by performing switch functions using stand-alone mode and supporting redundancy of the switch fabric. .

The present invention for achieving the above object,

An interface card containing 16 ports, consisting of passive components and connectors for link matching,

A line card that accommodates four ports, mounts LIU and four framer chips, and accommodates 16 ports around the framer;

It is characterized in that it is composed of a switch and a control card which perform variable allocation of bands and ATM cell switching, and provide matching functions for control between redundant boards and control commands of each line card.

In addition, the line card according to the present invention for achieving the above object,

An LED for indicating link status, a clock synchronizer for receiving and synchronizing a reference clock from a switch and a control card, and an active port judgment and support for hot standby port redundancy. The apparatus is characterized in that it comprises a redundancy logic section for performing output enable control of the output buffer, and a control matching section for matching chip initialization instructions and framer control instructions from the processor of the switch and the control card.

In addition, the switch and the control card according to the present invention for achieving the above object,

An IMA function unit for grouping each link into a variable bandwidth, an ATM layer processor for setting connection setting information, an ABM chip for stand-alone ATM cell switching, a switch, Control card redundancy The redundancy control unit to support processor duplication and switch duplication among boards, IMA output redundancy to line card, 8260 processor module that controls switch device, and 8260 processor module of switch and control card each line card The apparatus is characterized in that it comprises a control matching unit that provides a matching function for performing a control command of the apparatus.

1 is a view showing the configuration of the interface card and line card for accommodating 16 ports according to the present invention,

2 is a view showing the configuration of a switch and a control card according to the present invention,

3 is a view showing a link redundancy configuration between a link and a switch and a control card according to the present invention;

4 is a view showing a switch duplication configuration between the switch and the control card according to the present invention,

5 is a view showing the entire mounting shape of the small capacity switch device according to the present invention,

6 is a diagram illustrating an example in which an optical interface is added to a switch and a control card according to the present invention.

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

100 ..... Interface Card

200 ..... Line Card

300 ..... Switches and Control Cards

Hereinafter, a preferred embodiment of the "small capacity ATM switch device" of the present invention according to the above technical concept will be described in detail with reference to the accompanying drawings.

1 is a view showing the configuration of an interface card and a line card for accommodating 16 ports according to the present invention.

As shown therein, reference numeral 100 denotes an interface card, which is composed of passive elements, and reference numeral 200 denotes a line card, which is configured around the framer.

That is, in the accompanying drawings, the left side is the interface card 100 and the right side is the line card 200. Here, the interface card 100 is composed of passive elements and connectors for link matching, such as transformers, and the line card 200 accommodates four ports to mount four LIUs and framer chips to mount 16 T1s. Or configured to support an E1 port.

In addition, the line card 200 includes an LED unit 210 for indicating a link state, a clock synchronizer 220 for receiving and synchronizing a reference clock from a switch and a control card, and a hot standby. Redundancy logic 230 performing active port determination and output enable control of the output buffer to support port redundancy, and chip initialization from the processor of the switch and the control card Control matching unit 240 for command and framer control command matching.

2 is a view showing the configuration of a switch and a control card according to the present invention.

As shown in the drawing, the switch and the control card according to the present invention set up an inverse multiplexing for ATM (IMA) function unit 310 for linking each link into a group and variably allocating bands, and connection setting information. Processor layer 320, ABM chip 330 for stand-alone ATM cell switching, switch and control card redundancy boards, processor redundancy, switch redundancy, and IMA output redundancy to line card. The redundancy control unit 340, the 8260 processor module 350 for controlling the switch device, and the 8260 processor module 350 for the switch and the control card provide a matching function for performing control commands for each line card. The control matching unit 360 is configured to.

3 is a view illustrating a link redundancy configuration between a link and a switch and a control card according to the present invention, and FIG. 4 is a view showing a switch redundancy configuration between a switch and a control card according to the present invention.

As shown therein, the link redundancy configuration between the link and the switch and the control card is characterized in that the link redundancy is controlled through the output port control in the direction of the switch and the control card in the line card or in the direction of the line card in the switch and the control card. Active Port) indicates the redundancy of the Hot-Standby structure that controls the signal output.

On the other hand, Figure 4 shows a switch redundancy configuration between the switch and the control card, the ABM chip in charge of the stand-alone (Stand Alone) switch function has two output ports and two input ports, in this case, two outputs All ports are available, and input is to select one port.

However, since only the card whose switch is active transmits the cell in the line card direction, it is not necessary to process the cell by receiving the cell coming from the active card in the switch and the control card which are actually standby. Therefore, as shown in the accompanying drawings, the ABM chip can always select and process the incoming signal looped back.

In this case, the standby card also needs to take over the existing connection settings and operate smoothly. Therefore, the standby card must handle the operation except for the processing of the actual cell such as connection setting through the IPC communication between processors.

5 is a view showing the overall mounting shape of the small-capacity switch device according to the present invention, Figure 5a is a front mounting view, Figure 5b is a view showing a rear mounting view.

As shown therein, the power card 511 and 512, the switch and control card 520, the T1 / E1 line card 530, the T1 / E1 interface card 630, and the expansion T1 line card. 540 and an expansion T1 interface card 640.

Here, the expansion T1 line card 540 and the interface card 640 are mounted only when matching the T1 link, and the power card 511 one at the left / right side of the entire apparatus in the front mounting diagram (FIG. 5A) ( 512 is mounted, and the switch and control card 520 is mounted redundantly in the middle of the front mounting position.

At this time, in the arrangement considering the redundancy of the line card, the accompanying drawings are shown based on the vertical symmetrical arrangement around the center switch card.However, when the redundancy between adjacent boards is configured, the cards related to the expansion T1 are arranged adjacently. Will be.

As described above, the present invention is applied to an ATM switch having a capacity of 600 Mbps for switching an ATM cell through an E1 or T1 level port. This is especially true when you need a reliable, low-cost, small-capacity ATM switch that requires port redundancy and switch redundancy, and ATMs that require 80 T1 or 63 E1 links redundant through 160 or 126 ports. Applies to the exchange.

As described above, in the detailed description of the present invention, specific embodiments of the small-capacity ATM switch device will be described. However, the present invention may be modified in various ways without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims below but also by the equivalents of the claims.

According to the present invention "small capacity ATM switch device" described above,

In the present invention, the IMA function chip, the ATM layer processing chip, and the processor module are all deleted from the line card and concentrated in the central switch and control card unit, and the cost is not reduced by using a separate switch fabric chip. The overall power consumption can be reduced, and this also reduces the power consumption, which has the side effect of reducing the cost of the power card.

In addition, the group configuration used for the IMA function can be grouped from 0 to 16 links up to 32 links as a group, and can be grouped with any link on the device, thereby providing flexibility of the device. Has the advantage to increase.

In addition, the redundant configuration can be configured as hot-standby, enabling fast hardware switching in the case of link switching, and there are 30 IMA groups that can be supported throughout the device, and Ethernet is supported between the redundant processors. Since 1: 1 IPC communication is realized, it is possible to establish a very high speed IPC communication.

Claims (4)

In the small capacity ATM switch device, An interface card comprised of passive elements and connectors for link matching and accommodating 16 ports; An LED for indicating link status, a clock synchronizer for receiving and synchronizing a reference clock from a switch and a control card, and an active port judgment and support for hot standby port redundancy. A line card including a redundancy logic unit configured to perform an output enable control of an output buffer, and a control matching unit for matching chip initialization instructions and framer control instructions from a processor of a switch and a control card; A small capacity ATM switch device comprising a switch and a control card for performing variable allocation of bands and ATM cell switching, and providing a matching function for performing control between redundant boards and control commands of each line card. . The method of claim 1, wherein the switch and the control card, An IMA function unit for grouping each link into a variable bandwidth, an ATM layer processor for setting connection setting information, an ABM chip for stand-alone ATM cell switching, a switch, Redundant control unit to support processor redundancy and switch redundancy between control card redundancy board and redundancy of Inverse Multiplexing for ATM (IMA) output to line card, 8260 processor module for controlling switch device, 8260 switch and control card And a processor matching module including a control matching unit for providing a matching function for performing a control command of each line card. The method of claim 1, The link redundancy configuration between the link and the switch and control card allows the link redundancy to output the active port signal through output port control from the line card to the switch and control card or from the switch and control card to the line card. A small-capacity ATM switch device that supports redundancy with a controlled hot-standby structure. The method of claim 1, Switch redundancy between the switch and the control card is composed of two output ports and two input ports of the ABM chip, which functions as a stand-alone switch function, and the output is possible with both ports, and the input is one. Small capacity ATM switch device characterized in that configured to select the port.