JP2007104206A - Station-side device and error information notification method for pon system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce loads in MAC chips of an OLT connected with a plurality of ONUs. <P>SOLUTION: A CPU requests the MAC chips in the system to notify an alarm when the number of errors reaches a threshold, while collecting error information in the OLT (a station-side device) constituting a PON system together with a plurality of the ONUs (home-side devices). <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a station side apparatus (OLT) that forms a PON (Passive Optical Network) using an optical fiber together with a plurality of home side apparatuses (ONU).

  In an optical network of the PON system, an optical fiber connected to a station side device (OLT) installed on a telephone station side is branched into a large number via an optical splitter, and each is a home side device installed on a user side. (ONU) is connected (see, for example, Non-Patent Document 1). Each of the OLT and the ONU is equipped with a MAC chip, and each MAC chip collects predetermined statistical information (such as error information) in the device. The CPU mounted on the OLT requests statistical information periodically (for example, at intervals of 1 second) from all ONUs connected to the OLT and the MAC chip of the OLT itself. Requests to the ONU MAC chip go through the OLT MAC chip.

NTT Technology Journal 2003.3.1 “Broadband Optical Access Technology Trends”

However, as the number of ONU connections increases, the load on the OLT MAC chip increases in accordance with the number of connections. The MAC chip in a high load state has a slow response to the CPU, and cannot obtain control information other than statistical information.
In view of the conventional problems as described above, an object of the present invention is to reduce a load on an OLT MAC chip to which a plurality of ONUs are connected.

The present invention requests a station side device that constitutes a PON system together with a plurality of home side devices to collect error information from a MAC chip in the system and notify an alarm when the number of errors reaches a threshold value. A CPU is provided.
In the station side device configured as described above, the MAC chip notifies the CPU of an alarm only when the number of errors reaches a threshold value. Therefore, the load on the OLT MAC chip to which a plurality of ONUs are connected is reduced.

In the station side device, the CPU may stop the alarm notification to the upper management device when the alarm is canceled within a predetermined time after receiving the alarm notification.
In this case, since an alarm that occurs only for a short period (a certain period of time) is not notified to the management apparatus, it is possible to refrain from reporting alarms more than necessary to the management apparatus, and to reduce the burden on the management apparatus.

Moreover, in the said station side apparatus, CPU may set a threshold separately with respect to each information contained in error information.
In this case, the alarm level for each error can be adjusted by setting a threshold value individually.

Moreover, in the said station side apparatus, CPU may set the threshold value for alarm cancellation with respect to each information.
In this case, the management device can be notified of the alarm release based on the threshold value. Therefore, the management device can grasp the alarm release, which is convenient for management.

On the other hand, the present invention is an error information notification method for a PON system constituted by a station side device and a plurality of home side devices, and error information to be acquired from the CPU of the station side device to the MAC chip in the system. And a threshold value for the number of errors, and the MAC chip collects error information and notifies the CPU of an alarm when the number of errors reaches the threshold value.
In the error information notification method as described above, the MAC chip notifies the CPU of an alarm only when the number of errors reaches a threshold value. Therefore, the load on the OLT MAC chip to which a plurality of ONUs are connected is reduced.

  According to the station side apparatus / error information notification method of the present invention, since the MAC chip notifies the CPU of an alarm only when the number of errors reaches a threshold, the load on the MAC chip of the OLT to which a plurality of ONUs are connected Can be reduced.

  FIG. 1 is a diagram showing a configuration of a GE-PON (Gigabit Ethernet-Passive Optical Network (Ethernet is a registered trademark)) system including a station-side apparatus according to an embodiment of the present invention. In the figure, an optical fiber 2 is connected to an OLT 1 (station side device) installed on the station side, and this is branched (for example, four branches) by an optical splitter 3. Furthermore, each branched optical fiber 2 is branched (for example, eight branches) by the optical splitter 4. An ONU 5 (home device) installed on the user side is connected to the end of the optical fiber 2. A user personal computer or the like is connected to the ONU 5. On the other hand, the OLT 1 is connected to the management device 7 via the switch 6. The management device 7 is a device of a communication carrier that manages the OLT 1 and the ONU 5, and is a higher-level device with respect to the OLT 1. Actually, other devices besides the management device 7 are connected to the switch 6, and the line can be switched by the operation of the switch 6.

  FIG. 2 is a diagram showing an outline of the internal configuration of the OLT 1. The OLT 1 includes a MAC chip 11 and a CPU 12. The MAC chip 11 is connected to the internal MAC chip 51 of each ONU 5 (only one is shown) via the optical fiber 2. The MAC chips 11 and 51 collect predetermined statistical information of the PON section (from the MAC chip 11 to the MAC chip 51).

FIG. 3 is a diagram illustrating a configuration of statistical information. This statistical information is composed of the following contents.
ID1 Octets transferred Number of bytes transferred ID2 Total frames transferred Number of frames transferred ID3 Unicast frames transferred Number of unicast frames transferred ID4 Broadcast frames transferred Number of broadcast frames transferred ID5 Multicast frames transferred Number of multicast frames transferred ID6 CRC-32 Errors Number of errors that occurred during PON transmission ID8 CRC-8 (preamble) Errors Number of errors that occurred in the device

  FIG. 4 is a diagram illustrating a signal sequence among the CPU 12, the MAC chips 11 and 51, and the management device 7. In the figure, when the ONU 5 is connected to the PON system, that is, when the ONU 5 first declares connection to the OLT 1, the CPU 12 of the OLT 1 sets parameters for the MAC chip 51 of the ONU 5. . This setting is done only once. However, it is also performed when the ONU 5 is once disconnected and then reconnected. The settings include the following: The CPU 12 performs the same setting for the MAC chip 11 of the OLT 1.

Alarm code (Alarm code: Error information to be acquired)
Tag (Tag: Error detection point)
Direction (Direction: Up or Down direction)
Rising Thresh (Rising Thresh: Threshold for the number of errors for alarm notification)
Falling Thresh (Falling threshold: threshold value for number of errors to cancel alarm)
Here, the threshold value can be set for each error information (CRC-32 Errors, CRC-8 Errors). Therefore, the alarm level for each error can be adjusted by setting the threshold value individually.

For example, in the example shown in the figure, regarding an upstream CRC-32 error in the OLT 1, an alarm is notified when the number of errors exceeds X frames per second, and the alarm is canceled when the number of errors becomes Y frames or less per second. Become. In this way, parameter setting is performed for all the MAC chips 11 and 51. The MAC chips 11 and 51 continue to collect error information and notify the CPU 12 of an alarm for the first time when the number of errors reaches the threshold value X (Report Alarm). The contents of the notification are as follows, for example.
Alarm code: CRC-32 Error (Error information is CRC-32 error)
Tag: OLT EPON (Error detection point is OLT EPON)
Direction: UP
Alarm State: ON

The CPU 12 having received the alarm notification waits for N seconds here, and then notifies the host management device 7 of “upstream error rate deterioration occurrence”. Thereafter, if the number of errors decreases and becomes equal to or less than the threshold Y, the MAC chips 11 and 51 notify the CPU 12 that the alarm has been canceled (Report Alarm). The contents of the notification are as follows, for example.
Alarm code: CRC-32 Error (Error information is CRC-32 error)
Tag: OLT EPON (Error detection point is OLT EPON)
Direction: UP
Alarm State: OFF
The CPU 12 that has received the alarm release notification waits for N seconds here, and then notifies the upper management apparatus 7 of “upstream error rate degradation clear”. Thereby, the management device 7 can grasp the alarm release, which is convenient for management.

  As described above, the error information is not regularly notified to the MAC chip regularly as in the past, but only when the number of errors reaches the set threshold value. Therefore, the MAC chip 11 of the OLT 1 to which a plurality of ONUs 5 are connected is not swayed by the acquisition of statistical information such as error information, and the load is reduced. As a result, the MAC chip 11 of the OLT 1 can reliably acquire control information other than statistical information without impairing quick response to the CPU 12.

  FIG. 5 is a diagram illustrating another example of a signal sequence among the CPU 12, the MAC chips 11 and 51, and the management device 7. The process up to parameter setting and alarm notification is the same as the signal sequence of FIG. 4, but the rest is different. That is, the CPU 12 that has received the alarm notification waits for N seconds, but if the number of errors decreases during this N seconds and falls below the threshold value Y for canceling the alarm, the MAC chips 11 and 51 notify the CPU 12 of the alarm. Notify that has been released. Receiving the alarm release notification, the CPU 12 stops the notification of “upstream error rate deterioration occurrence” to the upper management device 7 after N seconds have elapsed. In this way, it is possible to prevent the management device 7 from being notified of a short-term alarm that can be eliminated in N seconds. In other words, it is possible to refrain from alarm notifications more than necessary to the management device 7 and reduce the burden on the management device 7.

1 is a diagram illustrating a configuration of a GE-PON (Gigabit Ethernet-Passive Optical Network) system including a station-side device according to an embodiment of the present invention. It is a figure which shows the outline of the internal structure of OLT. It is a figure which shows the structure of statistical information. It is a figure which shows an example of the signal sequence between CPU, MAC chip, and a management apparatus. It is a figure which shows the other example of a signal sequence between CPU, a MAC chip, and a management apparatus.

Explanation of symbols

1 OLT (Station side equipment)
5 ONU (home-side equipment)
7 Management device 11, 51 MAC chip 12 CPU

Claims (5)

  In a station-side device that constitutes a PON system together with a plurality of home-side devices, a CPU is provided that requests the MAC chip in the system to collect error information and notify an alarm when the number of errors reaches a threshold value. A station side device characterized by the above.   The station-side apparatus according to claim 1, wherein the CPU stops the alarm notification to a higher-level management apparatus when the alarm is canceled within a predetermined time after receiving the alarm notification.   The station-side device according to claim 1 or 2, wherein the CPU sets a threshold value individually for each piece of information included in the error information.   The station side apparatus according to claim 3, wherein the CPU sets a threshold for releasing an alarm for each piece of information. An error information notification method of a PON system configured by a station side device and a plurality of home side devices,
Set error information to be acquired from the CPU of the station side device to the MAC chip in the system and a threshold value for the number of errors,
The MAC chip collects error information, and notifies the CPU of an alarm when the number of errors reaches a threshold value.

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