JP2008236691A - Eos (ether-over sonet) communication equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To configure EoS communication equipment in which packet losses do not occur, without causing increase in buffer memory. <P>SOLUTION: In the EoS (Ether-over SONET) communication equipment, when increasing a VCAT (virtual concatenation) band in an LCAS (link capacity adjustment scheme) to be equal to or higher than the speed of an output Ethernet (R) line, a pause frame is transmitted from an Ethernet (R) line transmission processing section to an Ether line, the input of a packet from the Ether line is stopped and after packets, within a buffer of a GFP transmission processing section, become smaller than or equal to certain capacitance, band increase is performed by the LCAS. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to an EoS (Ether over SONET) communication device, and more particularly to an EoS communication device capable of buffer control in LCAS (Link Capacity Adjustment Scheme) communication.

  2. Description of the Related Art Conventionally, a communication network is mainly composed of a telephone, and SDH (Synchronous Digital Hierarchy) is an ITU-T Recommendation G. 703 is defined. In recent years, data communication has increased from voice communication, and voice communication has been replaced by IP telephones, and data communication has occupied the majority. As a data communication line, Ethernet (registered trademark) has been used as an interface between apparatuses.

  Furthermore, as a result of improvement of SDH multiplexing transmission technology, GFP (Generic Framing Procedure), VCAT (Virtual Concatenation) and LCAS (Link Capacity Adjustment Scheme) are available (see, for example, Patent Documents 1 to 3).

GFP is a framing technique for encapsulating Ethernet packets on an SDH line for transmission. GFP is an ITU-T recommendation G. 7041 is standardized. VCAT combines multiple virtual containers (VCs), which are SDH transmission units, into one transmission unit, and a group composed of multiple VCs is called a VCG (Virtual Concatenation Group). It is. The conventional SDH transmission unit is
VC3 = about 50Mbps
VC4 = about 150Mbps
And is not suitable for transmitting Ethernet line speeds of 10 Mbps, 100 Mbps, 1 Gbps, and 10 Gbps. Therefore, when VC4-7v, which is a VCG in which seven VC4s are combined by using the VCAT technology, is composed of approximately 1.05 Gbps, which is suitable for transmitting a 1 Gbps Ethernet line. VCAT is an ITU-T recommendation G.264. 707 is standardized. LCAS is a technology that flexibly adds or deletes a VC constituting a VCG while a communication device and another communication device are communicating. LCAS is an ITU-T Recommendation G. 7042 is standardized.

  Patent Document 1 (Japanese Patent Application Laid-Open No. 2004-023259) discloses a virtual concatenation that enables a virtual concatenation band change without loss of a MAC frame and without an error without a high-speed and complicated circuit. A technology related to a path uninterrupted change method is described. Patent Document 2 (Japanese Patent Laid-Open No. 2005-184301) describes a technique for realizing improvement in network bandwidth use efficiency and improvement in higher layer throughput in a transmission apparatus. Patent Document 3 (Japanese Patent Application Laid-Open No. 2005-236423) describes a technique for performing control so as not to exceed the reception allowable speed of the opposed Ethernet terminal.

  Here, the EoS communication apparatus 101 that realizes EoS using conventional GFP, VCAT, and LCAS will be described. FIG. 1 is a block diagram showing a configuration of a conventional EoS communication apparatus 101. Referring to FIG. 1, an Ethernet line receiving unit 102 receives a packet from an Ethernet line. The packet is sent to the GFP transmission processing unit 103 and held in the transmission processing unit buffer memory 111 of the GFP transmission processing unit 103. Packets stored in the transmission processing unit buffer memory 111 of the GFP transmission processing unit 103 are encapsulated with a GFP header and sent to the VCAT-LCAS transmission processing unit 104. The VCAT-LCAS transmission processing unit 104 maps the packet to the virtual concatenation VCG, and the SDH line transmission processing unit 105 adds the SDH overhead and transmits the packet to the SDH line.

  When the EoS communication apparatus 101 receives the SDH data from the SDH line, the SDH line reception processing unit 106 performs SDH frame synchronization and transmits the VC path in the SDH frame to the VCAT-LCAS reception processing unit 107. The VCAT-LCAS reception processing unit 107 performs phase synchronization of the VCs constituting the VCG, extracts the VC payload portion in which the GFP frame is multiplexed, and transmits the VC payload processing unit 108 to the GFP frame. The GFP reception processing unit 108 performs GFP synchronization from the received payload portion, removes the GFP header, and stores the Ethernet packet in the reception processing unit buffer memory 112. The Ethernet packet in the reception processing unit buffer memory 112 of the GFP reception processing unit 108 is sent to the Ethernet line transmission unit 109 and output to the Ethernet line. In this way, the conventional EoS communication apparatus 101 transmits the Ethernet line packet to the remote Ethernet line using the SDH line.

JP 2004-023259 A JP 2005-184301 A JP 2005-236423 A

  The LCAS can increase / decrease the bandwidth on the SDH line carrying packets by increasing / decreasing the VCG group without interrupting communication. For this reason, the packet stored in the buffer memory of the GFP transmission processing unit 103 is sent to the EoS communication apparatus 101 that is opposed to the packet at once when the bandwidth is increased. At this time, if a packet larger than the capacity of the reception processing unit buffer memory 112 of the GFP reception processing unit 108 is received, the reception buffer (reception processing unit buffer memory 112) may cause overflow and packet loss may occur. If the capacity of the buffer memory of the GFP reception processing unit 108 is increased to suppress packet loss, the EoS communication apparatus 101 may become expensive.

  The problem to be solved by the present invention is to provide an inexpensive EoS communication apparatus that does not cause packet loss without increasing the buffer memory of the GFP reception processing unit 108.

  The means for solving the problem will be described below using the numbers used in [Best Mode for Carrying Out the Invention]. These numbers are added to clarify the correspondence between the description of [Claims] and [Best Mode for Carrying Out the Invention]. However, these numbers should not be used to interpret the technical scope of the invention described in [Claims].

  In order to solve the above problem, the communication device (1) provided between the Ethernet line and the SDH line is configured as follows. The communication device (1) includes an Ethernet line receiving unit (2) that receives a packet via the Ethernet line, an SDH line transmission processing unit (5) that outputs the packet to the SDH line side, and a bandwidth by LCAS control. A VCAT-LCAS transmission processing unit (4) that performs an increase, and an Ethernet line transmission unit (9) that outputs a pause frame for stopping transmission of a new packet to another communication device connected to the Ethernet line; It preferably has a buffer memory (11) for holding a plurality of packets, and a GFP transmission processing unit (3) for instructing the Ethernet line transmission unit (9) to output the pause frame. . Then, after the GFP transmission processing unit (3) outputs the instruction, when the amount of packets stored in the buffer memory (11) reaches a level at which no overflow occurs in the opposite device, the VCAT -Let the LCAS transmission processing unit (4) start LCAS bandwidth increase control.

  The communication device (1) may further include a VCAT-LCAS reception processing unit (7). In this case, when the VCAT-LCAS reception processing unit (7) recognizes that the band increase has been completed by the LCAS control, it sends a pause frame transmission stop command to the Ethernet line transmission unit (9). At this time, it is preferable that the Ethernet line transmission unit (9) stops the transmission of the pause frame in response to the pause frame transmission stop command.

  In the communication device (1), the GFP transmission processing unit (3) may include a shaping circuit (13). In this case, when the shaping circuit (13) sends a packet from the buffer memory (11) of the GFP transmission processing unit (3) to the VCAT-LCAS transmission processing unit (4), the shaping circuit (13) It is preferable to output the packet at a speed below the line.

  In order to solve the above problem, the communication device (1) provided between the Ethernet line and the SDH line may be configured as follows. The communication device (1) has an Ethernet line receiving unit (2) that receives packets via the Ethernet line, an SDH line transmission processing unit (5) that outputs packets to the SDH line side, and a bandwidth by LCAS control. A VCAT-LCAS transmission processing unit (4) that performs an increase, and an Ethernet line transmission unit (9) that outputs a pause frame for stopping transmission of a new packet to another communication device connected to the Ethernet line; A GFP transmission processing unit (3) having a shaping circuit (13) and a buffer memory (11) for holding a plurality of packets, and instructing the Ethernet line transmission unit (9) to output the pause frame. Configure as follows. Here, when the shaping circuit (13) sends a packet from the buffer memory (11) of the GFP transmission processing unit (3) to the VCAT-LCAS transmission processing unit (4), the shaping circuit (13) The packet is output at a speed below the line.

Moreover, in order to solve the said subject, you may perform data communication with the following communication methods. The communication method is
[A] receiving a packet via an Ethernet line;
[B] outputting a packet to the SDH line side;
[C] performing bandwidth increase by LCAS control;
It shall comprise. put it here,
The step [c] includes
Instructing another communication device connected to the Ethernet line to output a pause frame for stopping transmission of a new packet;
Outputting the pause frame in response to the instruction;
It is preferable to include a step of starting LCAS bandwidth increase control when the amount of packets stored in the buffer memory (11) reaches a level that does not cause an overflow in the opposite device after outputting the instruction. .

In the communication method,
[D] outputting a pause frame transmission stop command when recognizing that the bandwidth increase is completed by the LCAS control;
[E] Data communication may be performed by a communication method including a step of stopping transmission of the pause frame in response to the pause frame transmission stop command.

In the communication method,
[F] When sending a packet from the buffer memory (11), data communication may be performed by a communication method including a step of outputting the packet at a speed equal to or lower than the Ethernet line of the opposite device.

In order to solve the above problem, in order to perform data communication with the communication device (1) provided between the Ethernet line and the SDH line,
[A] performing bandwidth increase by LCAS control;
[B] instructing to output a pause frame for stopping transmission of a new packet;
[C] A communication program showing a procedure for executing a method comprising: outputting the pause frame to another communication apparatus connected to the Ethernet line in response to the instruction. put it here,
The step [a] includes:
After the instruction is output, LCAS bandwidth increase control is started when the amount of packets stored in the buffer memory (11) holding a plurality of packets reaches a level that does not cause overflow in the opposite device. Preferably, the procedure for executing the method including the steps on a computer is shown.

In the communication program,
[D] receiving a packet via the Ethernet line;
[E] It is preferable that a procedure for executing by a computer a method including the step of outputting a packet to the SDH line side is shown.

In the communication program,
[F] The step of outputting a pause frame transmission stop command when recognizing that the bandwidth increase is completed by the LCAS control, and stopping the transmission of the pause frame in response to the pause frame transmission stop command. It preferably represents a procedure for executing the method on a computer.

In the communication method,
[G] shows a procedure for executing by a computer a method comprising the step of outputting the packet at a speed equal to or lower than the Ethernet line of the opposite device when sending the packet from the buffer memory (11). It is preferable.

  In this way, in an EoS (Ether over SONET) communication device, when the VCAT band is increased by the LCAS (Link Capacity Adjustment Scheme) beyond the speed of the output Ethernet line, the pause frame is transmitted from the Ethernet line transmission processor to the Ether line. , Stop the input of packets from the Ether line, and increase the bandwidth by LCAS after the packet in the buffer of the GFP transmission processing unit falls below a certain capacity, causing packet loss due to buffer overflow Suppress.

  According to the present invention, the amount of accumulated packets is reduced so as not to cause a buffer overflow in the opposite device, and then the bandwidth is increased by LCAS. Therefore, communication without packet loss can be realized on the opposite device side.

  Further, according to the present invention, communication without packet loss can be realized on the opposite device side without increasing the buffer memory of the EoS communication device 1. Therefore, it is possible to suppress an increase in cost when configuring the EoS communication apparatus 1.

[First Embodiment]
Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. FIG. 2 is a block diagram illustrating the configuration of the EoS communication apparatus 1 according to the first embodiment of this invention. Referring to FIG. 2, the EoS communication apparatus 1 according to the present embodiment includes an Ethernet line receiver 2, a GFP transmission processor 3, a VCAT-LCAS transmission processor 4, an SDH line transmission processor 5, and an SDH line reception. A processing unit 6, a VCAT-LCAS reception processing unit 7, a GFP reception processing unit 8, and an Ethernet line transmission unit 9 are configured.

  The Ethernet line receiver 2 receives a packet from the Ethernet line. The Ethernet line receiving unit 2 supplies the packet to the GFP transmission processing unit 3. The GFP transmission processing unit 3 stores the packet supplied from the Ethernet line receiving unit 2 in the transmission processing unit buffer memory 11. The GFP transmission processing unit 3 encapsulates the packet stored in the transmission processing unit buffer memory 11 with a GFP header and supplies the packet to the VCAT-LCAS transmission processing unit 4. The VCAT-LCAS transmission processing unit 4 maps the packet sent from the GFP transmission processing unit 3 to a virtual concatenation VCG and sends it to the SDH line transmission processing unit 5. The SDH line transmission processing unit 5 adds the SDH overhead to the packet and transmits it to the SDH line.

  The SDH line reception processing unit 6 of the EoS communication apparatus 1 receives SDH data from the SDH line. The SDH line reception processing unit 6 performs SDH frame synchronization and transmits the VC path in the SDH frame to the VCAT-LCAS reception processing unit 7. The VCAT-LCAS reception processing unit 7 synchronizes the phase of the VCs constituting the VCG, extracts the VC payload portion in which the GFP frame is multiplexed, and transmits the VC payload processing unit 8 to the CAT. The GFP reception processing unit 8 performs GFP synchronization from the transmitted payload portion, removes the GFP header, and stores the Ethernet packet in the reception processing unit buffer memory 12. The Ethernet packet stored in the reception processing unit buffer memory 12 of the GFP reception processing unit 8 is sent to the Ethernet line transmission unit 9. The Ethernet line transmission unit 9 outputs the Ethernet packet supplied from the GFP reception processing unit 8 to the Ethernet line. In this way, the EoS communication apparatus 1 transmits the Ethernet line packet to the remote Ethernet line using the SDH line.

  Here, the operation in the case where the EoS communication apparatus 1 increases the band by the LCAS sequence will be described. When the VCAT-LCAS transmission processing unit 4 increases the bandwidth by the LCAS control, the EoS communication apparatus 1 sends a pause frame output command 21 to the Ethernet line transmission unit 9 before increasing the bandwidth by the LCAS control. The pause frame output command 21 is a command for instructing the Ethernet line transmission unit 9 to transmit a pause frame. The Ethernet line transmission unit 9 outputs a pause frame in response to the pause frame output command 21.

  When the pause frame is output from the Ethernet line transmission unit 9, the other communication devices connected to the Ethernet line stop the packet transmission. Therefore, the Ethernet line receiver 2 does not receive a packet. Accordingly, there is no input packet supplied from the Ethernet line receiving unit 2 to the GFP transmission processing unit 3, and the GFP transmission processing unit 3 performs only an operation of outputting the packet stored in the transmission processing unit buffer memory 11 to the SDH line side. Execute. As a result, the number of packets in the transmission processing unit buffer memory 11 decreases with time.

  At this time, the GFP transmission processing unit 3 monitors whether or not the amount of packets stored in the transmission processing unit buffer memory 11 has decreased to a level that does not cause an overflow in the opposite device. The GFP transmission processing unit 3 outputs a band increase control start command 23 to the VCAT-LCAS transmission processing unit 4 when the amount of packets held is reduced to that level. The VCAT-LCAS transmission processing unit 4 starts LCAS band increase control in response to the band increase control start command 23.

  When the VCAT-LCAS reception processing unit 7 recognizes that the LCAS control band increase has been completed, the VCAT-LCAS reception processing unit 7 sends a pause frame transmission stop command 22 to the Ethernet line transmission unit 9. The Ethernet line transmitter 9 stops the pause frame transmission in response to the pause frame transmission stop command 22. Thereby, packet transmission is started from the communication apparatus connected to the Ethernet line.

  In this way, in the present embodiment, the amount of packets accumulated in the transmission processing unit buffer memory 11 of the GFP transmission processing unit 3 before the VCAT-LCAS transmission processing unit 4 increases the VCAT bandwidth overflows in the opposite device. Reduced to a level that does not cause Thus, the buffer memory of the GFP reception processing unit 8 of the opposite EoS communication apparatus does not overflow, and communication without packet loss can be continuously performed.

[Second Embodiment]
Below, 2nd Embodiment of this invention is described with reference to drawings. FIG. 3 is a block diagram illustrating the configuration of the EoS communication apparatus 1 according to the second embodiment. The EoS communication apparatus 1 according to the second embodiment is configured by including a shaping circuit 13 in the GFP transmission processing unit 3. When the packet is sent from the transmission processing unit buffer memory 11 of the GFP transmission processing unit 3 to the VCAT, the shaping circuit 13 outputs the packet at a speed equal to or lower than the Ethernet line of the opposite device. Thereby, the EoS communication apparatus 1 of 2nd Embodiment can prevent overflow with the buffer of the GFP reception process part 8 of an opposing apparatus.

  In the conventional EoS communication apparatus 101 described above, when the VCAT band is increased by the LCAS beyond the speed of the output Ethernet line, no special control is performed on the buffer of the GFP transmission processing unit 103. Therefore, if the VCAT band increases, the packet data stored in the transmission processing unit buffer memory 111 of the GFP transmission processing unit 103 is increased in bandwidth and transmitted to the SDH line. At this time, the GFP packet may be received by the GFP reception processing unit 108 of the opposite apparatus at a speed higher than that of the Ethernet line, the buffer of the GFP reception processing unit 108 overflows, and packet loss may occur.

  The EoS communication apparatus 1 in the above-described embodiments transmits a pause frame from the Ethernet line transmission processing unit to the Ether line when the VCAT band is increased by the LCAS beyond the speed of the output Ethernet line. By stopping the packet input and increasing the bandwidth by LCAS after the packet in the buffer of the GFP transmission processing unit falls below a certain capacity, the occurrence of packet loss due to buffer overflow is suppressed.

  Note that the above-described plurality of embodiments can be implemented in combination as long as there is no contradiction in the configuration and operation.

FIG. 1 is a block diagram showing a configuration of a conventional EoS communication apparatus 101. FIG. 2 is a block diagram illustrating the configuration of the EoS communication apparatus 1 according to the first embodiment. FIG. 3 is a block diagram illustrating the configuration of the EoS communication apparatus 1 according to the second embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... EoS communication apparatus 2 ... Ethernet line receiving part 3 ... GFP transmission process part 4 ... VCAT-LCAS transmission process part 5 ... SDH line transmission process part 6 ... SDH line reception process part 7 ... VCAT-LCAS reception process part 8 ... GFP Reception processing unit 9 ... Ethernet line transmission unit 11 ... Transmission processing unit buffer memory 12 ... Reception processing unit buffer memory 13 ... Shaping circuit 21 ... Pause frame output command 22 ... Pause frame transmission stop command 23 ... Band increase control start command 101 ... EoS Communication device 102 ... Ethernet line receiver 103 ... GFP transmission processor 104 ... VCAT-LCAS transmission processor 105 ... SDH line transmission processor 106 ... SDH line reception processor 107 ... VCAT-LCAS reception processor 108 ... GFP reception processor 109-Ethernet line transmission unit 111-Transmission processing unit Ffamemori 112 ... reception processing unit buffer memory

Claims (11)

A communication device provided between an Ethernet line and an SDH line,
An Ethernet line receiver for receiving packets via the Ethernet line;
An SDH line transmission processing unit for outputting a packet to the SDH line side;
A VCAT-LCAS transmission processing unit for increasing bandwidth by LCAS control;
An Ethernet line transmitter that outputs a pause frame for stopping transmission of a new packet to another communication device connected to the Ethernet line; and
A GFP transmission processing unit having a buffer memory for holding a plurality of packets, and instructing the Ethernet line transmission unit to output the pause frame;
Comprising
The GFP transmission processing unit outputs the instruction,
A communication device that causes the VCAT-LCAS transmission processing unit to start LCAS bandwidth increase control when the amount of packets stored in the buffer memory reaches a level at which no overflow occurs in the opposite device. The communication device according to claim 1, further comprising:
A VCAT-LCAS reception processing unit;
The VCAT-LCAS reception processing unit
When recognizing that the bandwidth increase is completed by the LCAS control, a pause frame transmission stop command is sent to the Ethernet line transmission unit,
The Ethernet line transmitter is
A communication device that stops transmission of the pause frame in response to the pause frame transmission stop command. The communication device according to claim 1 or 2,
The GFP transmission processing unit includes a shaping circuit,
The shaping circuit includes:
A communication device that, when sending a packet from the buffer memory of the GFP transmission processing unit to the VCAT-LCAS transmission processing unit, outputs the packet at a speed equal to or lower than the Ethernet line of the opposite device. A communication device provided between an Ethernet line and an SDH line,
An Ethernet line receiver for receiving packets via the Ethernet line;
An SDH line transmission processing unit for outputting a packet to the SDH line side;
A VCAT-LCAS transmission processing unit for increasing bandwidth by LCAS control;
An Ethernet line transmitter that outputs a pause frame for stopping transmission of a new packet to another communication device connected to the Ethernet line; and
A GFP transmission processing unit having a shaping circuit and a buffer memory for holding a plurality of packets, and instructing the Ethernet line transmission unit to output the pause frame;
Comprising
The shaping circuit includes:
A communication device that, when sending a packet from the buffer memory of the GFP transmission processing unit to the VCAT-LCAS transmission processing unit, outputs the packet at a speed equal to or lower than the Ethernet line of the opposite device. (A) receiving a packet via an Ethernet line;
(B) outputting a packet to the SDH line side;
(C) performing band increase by LCAS control;
Comprising
The step (c) includes:
Instructing another communication device connected to the Ethernet line to output a pause frame for stopping transmission of a new packet;
Outputting the pause frame in response to the instruction;
After outputting the instruction, the communication method includes a step of starting LCAS bandwidth increase control when the amount of packets stored in the buffer memory reaches a level that does not cause overflow in the opposite device. The communication method according to claim 5, further comprising:
(D) outputting a pause frame transmission stop command when recognizing that the bandwidth increase is completed by the LCAS control;
(E) A communication method comprising a step of stopping transmission of the pause frame in response to the pause frame transmission stop command. The communication method according to claim 5 or 6, further comprising:
(F) A communication method comprising a step of outputting the packet at a speed equal to or lower than the Ethernet line of the opposite device when the packet is transmitted from the buffer memory. A communication program showing a procedure for performing data communication with a communication device provided between an Ethernet line and an SDH line, the communication program comprising:
(A) performing bandwidth increase by LCAS control;
(B) instructing to output a pause frame for stopping transmission of a new packet;
(C) outputting a pause frame to another communication device connected to the Ethernet line in response to the instruction;
The step (a) includes:
A step of starting LCAS bandwidth increase control when the amount of packets stored in a buffer memory holding a plurality of packets reaches a level that does not cause overflow in the opposite device after the instruction is output. A communication program showing a procedure for executing the method on a computer. The communication program according to claim 8, further comprising:
(D) receiving a packet via the Ethernet line;
(E) A communication program showing a procedure for executing, by a computer, a method comprising: outputting a packet to the SDH line side. The communication program according to claim 9, further comprising:
And (f) outputting a pause frame transmission stop command when recognizing that the bandwidth increase is completed by the LCAS control, and stopping the transmission of the pause frame in response to the pause frame transmission stop command. A communication program showing a procedure for executing the method on a computer. The communication method according to any one of claims 8 to 10, further comprising:
(G) A communication program showing a procedure for executing, by a computer, a method comprising the step of outputting the packet at a speed equal to or lower than the Ethernet line of the opposite device when the packet is transmitted from the buffer memory.

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