JPH08213997A - Asynchronous transfer mode local area network controller - Google Patents

Abstract

PURPOSE: To simplify the device to increase the speed of switching function and to easily secure a band between LANs. CONSTITUTION: An ATM terminal adapter 1 as a component of an ATM-LAN controller is provided with first to fourth LAN terminating parts 4a to 4d, a LAN terminating control part 5 which is connected to first to fourth LAN terminating parts 4a to 4d and controls these parts 4a to 4d, and an ATM interface part 6 which is connected to the LAN terminating control part 5 and is provided with an assembling/separating means which assembles and separates ATM cells formed by dividing transmission information by prescribed fixed length.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an asynchronous transfer mode intra-area network controller, and more particularly to an asynchronous transfer mode intra-area network controller in a communication system in which an intra-area communication network such as Ethernet and an asynchronous transfer mode intra-area network coexist.

[0002]

2. Description of the Related Art Conventionally, in order to expand the number of communication terminals connected to an area communication network (Local Area Network; hereinafter referred to as "LAN") such as Ethernet or to secure a band, a bridge is provided between LANs. The technology of connecting with a router or the like is already known. Further, in recent years, a technology has been developed to secure the number and bandwidth of communication terminals by using a hub having a switching function, which is formed by extending star-shaped from the hub and connecting each communication terminal, that is, a switch type hub. The above-mentioned conventional techniques include a concentrator having a switching function, and in a LAN such as Ethernet, a received media access control address (Media access control add
ress; hereinafter referred to as "MAC address"), the LAN port to be output is selected.

On the other hand, asynchronous transfer mode (asynchronous transfer
de; hereinafter referred to as "ATM") The development and standardization of an exchange system are also actively carried out. The ATM switching system divides the transmission information into fixed length blocks (53 bytes) and divides them into asynchronous transfer mode cells (hereinafter referred to as "ATM cells").
Is generated and the ATM cells are sequentially sent out, it is possible to reduce the switching delay while inheriting the high transmission efficiency of the conventional packet switching.

Further, ATM-LAN is used as a multimedia-compatible LAN utilizing the ATM technology.
Has been actively developed, and attempts have been made to transmit information such as video / audio / documents at high speed while accommodating a conventional LAN.

By the way, as a first method of incorporating the above-mentioned conventional switch type hub for LAN into an ATM-LAN, there is provided a termination function as a bridge connecting LANs and an ATM cell assembling / separating function. It is conceivable that each LAN port is provided, and each LAN port negotiates and exchanges traffic (the amount of information flowing in a fixed time) with an ATM switch for exchange.

However, in the first method,
Each of the LAN ports has an ATM cell assembly / separation function and O
It is necessary to have a network management function and the like by AM cells, and each of these LAN ports has traffic negotiations with ATM switches, which causes a problem of increasing the processing amount.

In addition, the switch type hub for the LAN is
The second method adopted in TM-LAN is LAN
It is conceivable that a switching hub dedicated to the LAN is used for the space, and when it goes out from each LAN port of the switching hub, it is output via an ATM switch under one ATM interface section.

However, in the second method,
Bandwidth cannot be effectively used for switching between LANs connected to a switching hub, and high-speed information processing is limited. Also, as a result of overlapping switching functions between LANs and ATMs, it also functions as a function. There is a problem that waste occurs. Further, as in the case of the first method, there is a problem that the processing amount is increased.

The present invention has been made in view of the above problems, and an asynchronous transfer mode intra-area network control device that simplifies the device, speeds up the switching function, and easily secures a band between LANs. The purpose is to provide.

[0010]

In order to achieve the above object, an asynchronous transfer mode intra-area network control device according to the present invention includes a predetermined communication network terminating unit connected to a communication terminal on a predetermined communication network, and at least one unit. A predetermined communication network termination control unit that is connected to the predetermined communication network termination unit and controls the predetermined communication network termination unit, and a transmission information from the communication terminal that is connected to the predetermined communication network termination control unit and predetermined. Assembly / separation of asynchronous transfer mode cells formed by dividing into fixed length
An asynchronous transfer mode terminal adapter having an asynchronous transfer mode interface unit having a separating means is provided, and the predetermined communication network is an intra-area communication network, and a switching function is further provided. It is characterized in that the provided ATM branching device is connected to the ATM interface unit.

Specifically, the predetermined communication network terminating unit stores a predetermined communication network transceiver unit that transmits and receives information to and from the communication terminal, and stores the information and the MAC address of at least one communication terminal. And a predetermined communication network control unit that performs a predetermined control operation based on information transmitted from either the predetermined communication network or the predetermined communication network termination control unit. The network control unit monitors the information on the predetermined communication network, and the destination address contained in the information detected by the monitoring unit matches the address of the communication terminal connected to the predetermined communication network. It is characterized in that it is provided with a judging means for judging whether or not to do.

Further, the predetermined communication network termination control unit is transmitted from either the second storage unit for storing the MAC address output from the communication termination unit or the communication termination unit or the ATM interface unit. It is characterized by including a control main body section that performs a predetermined control operation based on the information.

Further, the ATM interface section stores a transmission / reception data, a third storage section for storing a virtual path identifier and a virtual channel identifier processed by the ATM-LAN, and an ATM transceiver section for transmitting / receiving the ATM cell. It is characterized by having.

[0014]

According to the above-mentioned structure, the terminating end of each LAN port and the ATM for controlling the terminating end and for assembling / separating ATM cells
The interface unit is integrated and processed, and various functions other than the switching function are integrated and processed.

Since the switching function is capable of high-speed processing, information can be processed at high speed.

[0016]

Embodiments of the present invention will now be described in detail with reference to the drawings.

FIG. 1 is an overall configuration diagram showing an embodiment of an asynchronous transfer mode intra-area network (ATM-LAN) control device according to the present invention.

That is, the ATM-LAN controller is
An ATM which terminates a normal LAN such as Ethernet and converts LAN packet information into an ATM cell, which will be described later, and information transmission to a partner communication terminal and reverse conversion of the received ATM cell information into a LAN packet, if necessary. AT connected to the terminal adapter 1 and the ATM terminal adapter 1
The ATM branching device 2 performs M switching operations.

The ATM terminal adapter 1 has a first
First to first connected to each of the fourth communication terminals 3a to 3d
Fourth LAN termination units 4a to 4d and a LAN termination control unit 5 that controls these first to fourth LAN termination units 4a to 4d.
And an ATM interface unit 6 that controls the interface operation with the ATM branching device 2.
The first to fourth communication terminals 3a to 3d are connected to a normal LAN such as Ethernet.

FIG. 2 is a block diagram showing the internal structure of the ATM terminal adapter 1 in detail. Only the first LAN terminating unit 4a is shown for simplicity of the LAN terminating unit. The LAN termination units 4b to 4d are also the same as the first LAN termination unit 4a.

Therefore, the first LAN termination unit 4a is L
A LAN transceiver unit 7 that transmits and receives LAN packets and the like to and from the first communication terminal 4a connected to the AN, and information from the first communication terminal 4 and a physical address on the LAN of the communication terminal group. It comprises a first storage unit 8 for storing a MAC address and a LAN control unit 9 for performing a predetermined control operation based on information transmitted from either the LAN transceiver 7 or the LAN termination control unit.

The first storage unit 8 is specifically a LAN packet for storing a LAN packet received via the LAN transceiver 7 when the destination MAC address does not exist on the currently connected LAN. The buffer area 8a and M for storing the MAC addresses of the communication terminals that can be connected on the LAN based on the information acquired in advance
It has an AC address table area 8b. Further, the LAN packet buffer area 8a is also used as an output buffer for outputting the LAN packet received from the LAN termination control unit 5 to the first communication terminal 3a.

The LAN control section 9 also has a monitoring means for monitoring information on the LAN and a judging means for judging whether or not the address information included in the information and the address of the destination terminal match. are doing. Then, the LAN control unit 9
Checks the MAC address of the destination that can be obtained by matching the address information and the address of the destination terminal, and when multiple communication terminals are connected on each line, the destination of the packet transferred on the line When the MAC address does not exist on the line, it has a function of passing the MAC address to the LAN termination control unit 5. Further, the LAN control unit 9
When the destination MAC address of the LAN packet transmitted from the LAN termination control unit 5 exists on its own LAN, the LAN packet is transmitted to its own LAN.

The LAN termination control unit 5 includes the first to fourth LAs.
A MAC address table (second storage unit) 10 that stores the MAC address created for each of the N terminal units 4a to 4b as a table, and the first to fourth LAN terminal units 4a to 4b.
And a LAN termination control main body 11 that performs a predetermined control operation based on information from the ATM interface unit 6. That is, the LAN termination control body 11 receives all the LANs received from the first to fourth LAN termination units 4a to 4b.
While the packet is transmitted to the ATM interface unit 6, the A transmitted from the ATM interface unit 6
The contents of the TM cell are inversely converted to create a LAN packet, the MAC address is detected from the created LAN packet, the MAC address and the MAC address stored in the MAC address table 10 are referred to, and further connection is made. It is checked whether or not a corresponding MAC address is present on each LAN packet to be transmitted, and whether or not the received LAN packet is to be transferred to any of the LAN termination units 4a to 4b connected to the LAN termination control unit 5. to decide.
When the corresponding MAC address is present, the LAN packet is passed to the LAN terminating unit, and the corresponding M
When the AC address does not exist, the LAN packet is discarded.

Then, the ATM interface unit 6
Is a first for performing transmission / reception of ATM cells to / from the ATM branching device 2 and execution of a protocol (signaling) for connecting to the ATM branching device 2, synchronization and error detection.
Of the ATM transceiver unit 12 and the ATM cells received from the first ATM transceiver unit 12
A that converts into an AN packet and assembles a LAN packet received from the LAN termination control unit 5 into an ATM A
The TM cell assembling / separating unit 13, the transmission / reception buffer area 14a for temporarily storing transmission / reception data, the virtual path identifier (VPI) and the virtual channel identifier (VCI) included in the ATM cell at the time of transmission or received are tabulated. Controls a third storage unit 14 having a VPI / VCI table area 14b for temporary storage, the first ATM transceiver unit 12, the ATM assembly / separation unit 13, and the third storage unit 14. And an interface unit 15 that operates. In addition, the first ATM transceiver unit 1
The control unit 2 also controls transmission of OAM cells for network management or reception of OAM cells based on control by the interface control unit 15.

FIG. 3 is a frame configuration diagram of a LAN packet used in this embodiment. The frame configuration diagram is IE.
Compliant with EE (American Institute of Electrical and Electronics Engineers) 802.3.

The preamble section 16 includes a frame start delimiter and is composed of 8 bytes. Further, the destination address part (DA part) 17 stores the MAC address of the other party and is composed of 6 bytes. The source address part (SA part) 18 stores its own MAC address,
Like the DA unit 17, it is composed of 6 bytes. The length field portion 19 is a field indicating the information length and is composed of 2 bytes. The data portion 20 stores the amount of information actually transmitted on the LAN, and 46 to 1500 bytes are used according to the amount of information. The error check unit 21 is composed of a CRC (cyclic redundancy check) of a cyclic code system that detects an error for each block, and is composed of 4 bytes. And the LA mentioned above
The N control unit 9 controls the frame structure of the LAN packet,
The destination address stored in the DA unit 17 is detected, and the detected destination address and the MAC address table 8b are detected.
It is determined whether or not there is a match by comparing with the MAC address stored in.

FIG. 4 is a frame configuration diagram of an ATM cell which is a data frame between the ATM terminal adapter 1 and the ATM branching device 2.

The ATM cell constitutes one cell with a total of 53 bytes, and consists of a 5-byte header section 22 in which cell control information is stored and a data field 23 in which transmission information is stored.

The header section 22 is specifically the GFC section 2
4, VPI section 25, VCI section 26, PT section 27 and CLP
It comprises a unit 28 and an HEC unit 29.

The GFC section 24 is a generative flow control for avoiding collision of ATM cells transmitted from a plurality of communication terminals, and is composed of 4 bits. Also,
VPI and VCI are identifiers for identifying a connection to which an ATM cell belongs, and the VPI section 25 is composed of 1 byte and the VCI section 26 is composed of 2 bytes.
Then, each ATM cell is transferred to the partner communication terminal via these identifiers. The PT (payload type) unit 27 indicates whether the information of the data field 23 is information of a communication terminal connected to the LAN or control information in the public network, and is composed of 3 bits. .
The CLP unit 28 is a cell loss priority display that indicates whether the priority of the ATM cell is high or low, and is composed of 1 bit. The HEC unit 29 includes the GFC in the header unit 22.
An error is detected for 4 bytes from the section 24 to the CLP section 29, and is composed of 1 byte.
The assembly / separation of these ATM cells is performed by the interface control unit 15 in the ATM cell assembly / separation unit 13.
Under the control of, the information stored in the transmission / reception buffer 14a is used.

FIG. 5 is a block diagram showing the internal structure of the ATM branching device 2 in detail. The ATM branching device 2 is a second AT connected to the ATM terminal adapter 1.
M transceiver 24 and A connected to another ATM terminal
TM transceiver group 25, switch unit 26 having a switching function using tags, and input side VPI / V
A tag is added to or removed from the input / output VPI / VCI correspondence table 27 for converting the CI into the VPI / VCI on the output side and storing it, and the ATM cells received from the second ATM transceiver 24 and the ATM transceiver group 25. The switch input / output unit 28 and the second ATM transceiver 2
4, an ATM transceiver group 25, a switch unit 26, an input / output VPI / VCI correspondence table 27, and a branch device control unit 29 for controlling the switch input / output unit 28.

The second ATM transceiver 24 and the ATM transceiver group 25 perform the transmission / reception of ATM cells, the synchronization and the error detection, as in the case of the first ATM transceiver 12.

Specifically, the switch input / output unit 28 switches the ATM cells received from the second ATM transceiver 24 and the ATM transceiver group 25 via the switch unit 26, and transmits the ATM cells stored in the ATM cells. Previous VPI / VCI and input / output VPI / VCI correspondence table 2
7, the tag necessary for routing after conversion is added to the VPI / VCI at the time of output, or the switch unit 2
A new VPI / VC by removing the tag based on the output of 6
The ATM cell to be output to the network including I is stored.

Next, the ATM-LA constructed as described above
In the N control device, as shown by an arrow A in FIG.
A case where information is transmitted from the communication terminal 3a to the third communication terminal 3c will be described in detail.

First communication terminal 3a and third communication terminal 3c
If a line is not set between the first communication terminal 3a and the third communication terminal 3c, it is necessary to set a line by an ARP (Address Resolution Protocol) command or the like in Ethernet. The command is output. The ARP command includes the IP address (terminal identification information) of the third communication terminal 3c that is the partner communication terminal, and the first communication terminal 3a causes the third communication terminal 3a to match the IP address. 3c MAC address information can be obtained. That is, when it is determined that the ARP command is received by the first LAN termination unit 4a of the ATM terminal adapter 1 connected to the first communication terminal 3a, the ARP command is transferred to the broadcast without specifying the destination. And the second to fourth communication terminals 3
It is received not only by b to 3d but also by other ATM terminals on the network. That is, the ARP command is input to the ATM interface unit 6 from the first LAN termination unit 4a via the LAN termination control unit 5, converted into ATM cells by the ATM interface unit 6, and input to the ATM branching device 2. . Next, the ATM cell input to the ATM branching device 2 is transferred from the ATM branching device 2 to another ATM terminal, and at the same time, is input again to the ATM interface unit 6 of the ATM terminal adapter 1, and the second to fourth Communication terminal 3b-
It is received by 3d. Then, in this case, the MAC of the third terminal 3c from the third terminal 3c having the matching IP address
A response to which the address is added is returned to the first communication terminal 3a. That is, the response is AT
It is transferred from the M interface unit 6 to the ATM branching device 2, and at this time, VPI / V is set between the MAC address of the first communication terminal 3a and the MAC address of the third communication terminal 3c.
The CI value is set, and this value is stored in the input / output VPI / VCI correspondence table of the ATM branching device 2.

FIG. 6 shows the details of the switch input / output unit 28 and the switch unit 26 in the ATM branching device 2. I / O ₁ indicates an input / output port for the ATM terminal adapter 1, and I / O ₂ and I / O ₃ indicates an input / output port for another ATM terminal.

From the first communication terminal 3a, "a" is set as the VPI and "b" is set as the VCI between the ATM interface unit 6 and the ATM branching unit 2 and input to the input / output port I / O _1. , And the input / output port I / O ₁
Outputs the value of VPI / VCI to the first communication terminal 3a. Similarly, from the third communication terminal 3c, the ATM
VP between the interface unit 6 and the ATM branching device 2
I is set to "m" and VCI is set to "n", which is input to the input / output port I / O _1.
/ O ₁ to the value of the VPI / VCI is the third communication terminal 3
c. Then, these values are created when the line is first set and stored in the input / output VPI / VCI correspondence table 27.

After the line is set in this way, it is confirmed that the DA portion 17 of the LAN packet sent from the first communication terminal 3a includes the MAC address of the third communication terminal 3c. When detected, the LAN packet is sent to the ATM interface unit 6 via the LAN termination control unit 5. The ATM interface unit 6
VPI "a" on ATM cell for MAC address
Then, the VCI is set to "b" and transmitted to the ATM branching device 2, and the ATM branching device 2 outputs the I / O port I / O ₁
VPI and VCI from the same, that is, VPI is converted to “m” and VCI is converted to “n” for “a” and “b”, and output from the first input / output port I / O ₁ to the ATM terminal adapter 1. To do. That is, by such switching, the AT
The ATM interface unit 6 of the M terminal adapter 1 converts the ATM cell back to a LAN packet and
The packet is sent to the LAN termination control unit 5, and the LAN termination control body 11 of the LAN termination control unit 5 determines the MAC address of the third terminal 3c and the value of the DA unit 17 of the LAN packet based on the MAC address table 10. It is judged whether or not they match, and if it is confirmed that they match, the LAN packet is sent to the third communication terminal 3c. That is, by combining the ATM terminal adapter 1 and the ATM branching device 2 of this embodiment, ATM-LAN switching can be realized.

As described above, in the ATM-LAN control device, the ATM terminal adapter 1 is connected to the first to fourth communication terminals 3a to 3d and the LAN control units 4a to 4d are connected.
And a LAN termination control unit 5 that controls the LAN termination units 4a to 4d, and an ATM interface unit 6 that assembles and separates ATM terminations and ATM cells, so that the processing is unified and simple. Therefore, the operations other than the switching operation can be collectively performed by the ATM adapter 1, and the efficiency of information processing can be improved.
Also, the high-speed exchange of ATM can be used, and the band between LANs can be secured easily.

[0041]

As described above in detail, according to the asynchronous transfer mode intra-area network (ATM-LAN) control device of the present invention, all the operations other than the switching operation can be integrated and processed by the ATM terminal adapter. It is possible to simplify the configuration and improve the efficiency of processing.

By combining an ATM branching device having a switching function capable of high-speed processing,
The high-speed exchange possessed by the TM can also be used, the high-speed exchange can be realized by further improving the processing efficiency, and the band securing between the LANs can be easily realized.

[Brief description of drawings]

FIG. 1 is in an asynchronous transfer mode area (ATM-
FIG. 3 is a block diagram showing an embodiment of a LAN) control device.

FIG. 2 is a block diagram showing the internal structure of an ATM terminal adapter in detail.

FIG. 3 is a frame configuration diagram of a LAN packet.

FIG. 4 is a frame configuration diagram of an ATM cell.

FIG. 5 is a block diagram showing in detail the internal structure of the ATM branching device.

FIG. 6 is a diagram for explaining a transmission state in a switch input / output unit and a switch unit in an ATM branching device.

[Explanation of symbols]

1 ATM terminal adapter (asynchronous transfer mode terminal adapter) 2 ATM branching device (asynchronous transfer data branching device) 3a-3d 1st-4th communication terminal (communication terminal) 4a-4d 1st-4th LAN termination unit ( Predetermined communication network termination unit 5 LAN termination control unit (predetermined communication network termination control unit) 6 ATM interface unit (asynchronous transfer mode interface unit) 7 LAN transceiver (predetermined communication network transceiver) 8 First storage unit 9 LAN control unit ( Predetermined communication network control unit 10 MAC address table (second storage unit) 11 LAN control body (control body unit) 12 First ATM transceiver (asynchronous transfer mode transceiver) 13 ATM cell assembling / separating unit (asynchronous transfer mode assembly) · Separation means) 14 Third storage unit

Continuation of the front page (51) Int.Cl. ⁶ Identification number Office reference number FI technical display location H04Q 3/00 9466-5K H04L 11/20 B

Claims (6)

[Claims] 1. An asynchronous transfer mode intra-area network control device for coexisting a predetermined communication network and an asynchronous transfer mode intra-area network, comprising: a predetermined communication network terminating unit connected to a communication terminal on the predetermined communication network. A predetermined communication network termination control unit connected to at least one predetermined communication network termination unit to control the predetermined communication network termination unit; and a communication terminal connected to the predetermined communication network termination control unit and from the communication terminal. And an asynchronous transfer mode interface unit having an assembling / separating means for assembling / separating an asynchronous transfer mode cell obtained by dividing the transmission information of the above into a predetermined fixed length. Asynchronous transfer mode Intra-area network controller. 2. The asynchronous transfer mode intra-area network control device according to claim 1, wherein the predetermined communication network is an intra-area communication network. 3. The asynchronous transfer mode intra-area network according to claim 1, wherein an asynchronous transfer mode branching device having a switching function capable of high-speed processing is connected to the asynchronous transfer mode interface unit. Control device. 4. The predetermined communication network termination unit stores a predetermined communication network transceiver unit that transmits and receives information to and from the communication terminal, and stores the information and medium access control addresses of at least one or more communication terminals. The predetermined communication network includes a first storage unit and a predetermined communication network control unit that performs a predetermined control operation based on information transmitted from either the predetermined communication network or the predetermined communication network termination control unit. The control unit monitors the information on the predetermined communication network, and the monitoring unit, the destination address included in the information detected by the monitoring unit, and the address of the communication terminal connected to the predetermined communication network match. 4. The asynchronous transfer mode intra-area network control device according to claim 1, further comprising: a determination unit that determines whether or not it is. 5. The predetermined communication network termination control unit stores a medium access control address output from the communication termination unit, and either the communication termination unit or the asynchronous transfer mode interface unit. 5. The asynchronous transfer mode intra-area network control device according to any one of claims 1 to 4, further comprising: a control main body that performs a predetermined control operation based on information transmitted from one side. 6. The third transfer unit for storing the transmission / reception data, the virtual path identifier and the virtual channel identifier processed by the asynchronous transfer mode intra-area network, and the transmission / reception of the asynchronous transfer mode cell. The asynchronous transfer mode intra-area network control device according to any one of claims 1 to 5, further comprising an asynchronous transfer mode transceiver section for performing the above.