JPH0319443A - Line switching system - Google Patents

Abstract

PURPOSE:To relieve the load of the maintenance personnel and the reduction in the processing capability of each processor attended with the switching of a communication channel by storing the line information of a faulty communication line corresponding to a communication line in the standby state and switching the faulty line into the standby line. CONSTITUTION:When an optional communication channel 1 is faulty, a line switching means 400 retrieves the communication channel 1 in the standby line state from a line state management means 200, the line information of the faulty communication line 1 stored in a line information storage means 300 is stored corresponding to a standby communication channel 1 to switch the faulty line into the standby line. Thus, when a fault takes place in the communication channel, the standby line is autonomously decided to apply switching without communication of the line control processor 2 to other processor. Thus, the lowering in the processing capability due to the inter-processor communication of each processor is almost eliminated and the load of the maintenance personnel is relieved.

Description

[Detailed Description of the Invention] [Summary] Regarding the improvement of a line switching method in a functionally distributed multiprocessor system equipped with a line control processor that accommodates a plurality of communication lines including a protection line, With the aim of reducing processing capacity and the burden on maintenance personnel as much as possible, the line control processor is equipped with a line status management means for managing the operating status of each communication line accommodated, and line information indicating the attributes of each communication line. a line information storage means for storing a line information storage means for storing a communication line in a standby line state from a line state management means when an arbitrary communication line is damaged; The system is configured to provide a line switching means for switching a affected line to a protection line by storing information corresponding to a communication line in a protection line state.

[Industrial application field]

The present invention relates to a functionally distributed multiprocessor system,
In particular, the present invention relates to an improvement in a line switching system in a functionally distributed multiprocessor system equipped with a line control processor that accommodates a plurality of communication lines including protection lines.

In recent years, with the diversification and sophistication of various communication services,
There is a need for a communication system that can easily and economically add new functions and services.

Such a communication system includes multiple types of processors each realizing a unit function or unit service, and requires information to be transferred between each processor. This is realized by a multiprocessor system with distributed functions.

[Conventional technology]

FIG. 4 is a diagram showing an example of a conventional function-distributed multiprocessor system, and FIG. 5 is a diagram showing an example of the line switching system in FIG. 4.

In FIG. 4, the functionally distributed multiprocessor system accommodates a plurality of communication lines &'il (individual communication lines are referred to as 1-1 to 1-n), and controls the transmission and reception of signals for each communication line l. a line control processor 2 that manages the communication line l; a line management processor 3 that manages the operational status of each communication line l;
A system management processor 4 that manages the entire distributed multiprocessor system and a workstation 5 that exchanges various messages and commands with maintenance personnel are interconnected by an inter-processor bus 6. It is assumed that the communication line 1 accommodated in the line control block sensor 2 includes a communication line l on standby as a backup line.
The line control processor 2 is connected to an arbitrary communication line (for example, 1-1).
), the failure notification signals a(1-1) and b() specifying the communication line l-1 are sent to the line management processor 3 and system management processor 4 via the inter-processor bus 6, respectively. 11) Transfer.

The system management processor 4, which has received the failure notification signal b(1-1), transfers the failure notification signal c(1-1) to the workstation 5 via the inter-processor bus 6. The workstation 5, which has received the failure notification signal c(1-1), outputs a failure notification message d(1-1) notifying the maintenance person of the failure of the communication line 1-1. A maintenance person who observed the failure notification message d (1-1) decides to switch the affected communication line 11-1 to a backup line (for example, 1-n), and switches the affected communication line 1-1 and the backup communication line. Line switching command e (1-n) that specifies 1-n
1, 1-n) on workstation 5 manually,
The workstation 5 sends a line switching instruction signal f (
1-1, 1-n). After receiving the line switching instruction signal f (1-1, 1-n), the system management processor 4 stores the line information stored corresponding to the communication line 1-1 also for the communication line In. A switching line activation request signal g(1-n.) requesting activation of communication lines 'a1-n is transferred to the line management processor 3 via the inter-processor bus 6.

Upon receiving the switching line activation request signal g (1-n), the line management processor 3 sends a switching line activation request to the line control processor 2 via the inter-processor bus 6 to request activation of the communication line 1-n. Transfer signal h(1-n). The line control processor 2 that has received the switching line activation request signal h (1-n) sends a line information acquisition signal i (1-n) to the system management processor 4 via the inter-processor bus 6.
n), and after acquiring line information regarding the communication line 1-n from the system management processor 4, activating the communication line 1-n based on the acquired line information, and then A switched line activation notification signal j (1-n) and a switched line activation notification signal k (1-n) are transferred to the line management processor 3 and system management processor 4, respectively. The system management processor 4, which has received the switching line activation notification signal k (1-n), sends the switching line activation notification signal m(
1-n).

The workstation 5, which has received the switching line activation notification signal m(1-n), outputs a switching line activation message n(1-n) to the maintenance person. The maintenance person receives the switching line activation message n output to the workstation 5.
By observing (1-n), it is confirmed 61 that the communication line 1-1 has been completely switched to the communication line 1-n. [Invention tries to solve it! ! i! [Problem] As is clear from the above explanation, in a conventional function-distributed multiprocessor system, in order for the line control processor 2 to switch the communication line 1-1 in which a failure has been detected to another communication line,
Since it was necessary to transfer a large number of signals between the line control processor 2, line management processor 3, and system management processor 4, the processing capacity of each line control processor 2, line management processor 3, and system management processor 4 was reduced by the inter-processor communication load. There is a problem that the communication line (1-n in the previous example) is subject to switching.
The maintainer has to specify this, which increases the burden on the maintainer. An object of the present invention is to reduce as much as possible the reduction in the processing ability of each processor due to switching of communication lines and the burden on maintenance personnel.

[Means to solve the problem]

FIG. 1 is a diagram showing the principle of the present invention.

In Figure 1, 1 is a communication line, 2 is a plurality of communication lines l
It is a line control processor accommodating the processor 100, and together with the other processors 100, it forms a function-distributed multiprocessor system. It is assumed that communication line 1 includes a backup line. Reference numeral 200 denotes line status management means provided in the line control processor 2 according to the present invention.

300 is line information storage means provided in the line control processor 2 according to the present invention. 400 is a line switching means provided in the line control processor 2 according to the present invention. [Function] The line status management stage 200 manages the operational status of each communication line 1 accommodated. The line information storage means 300 stores line information indicating attributes of each communication line 1. When any II1 communication line 1 is affected, the line switching means 400 searches the line status management means 200 for a communication line l in a backup line state, and stores the affected communication line l in the line information storage means 300. By storing the line information of 1 in correspondence with the communication line 1 in the protection line state, the affected line is switched to the protection line.

Therefore, if a failure occurs in the communication line, the line control processor autonomously determines and switches to a backup line without communicating with other processors, so inter-processor communication between each processor is There is almost no reduction in processing capacity caused by this, and there is no need for maintenance personnel to bother, and the processing capacity, economy, and convenience of the functionally distributed multiprocessor system are improved.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 2 is a diagram showing a functionally distributed multiprocessor system according to an embodiment of the present invention, and FIG. 3 is a diagram showing an example of the line switching system in FIG. 2. The same reference numerals indicate the same objects throughout the figures. In FIG. 2, the line status management means 2 in FIG.
00, the communication line status management section 222, and the line information storage means 300 in FIG. 1, the logical line correspondence section 2.
23 and a logical line information management unit 224 are provided in the line management unit 22 in the line control processor 2, and a processing unit 221 as the line switching means 400 in FIG. A control section 21 is also provided. The communication line status management unit 222 determines the operational status of each communication line l accommodated in the communication line control unit 21 (for example, in operation,
(during active duty, on standby as a backup line, etc.) is stored.
In addition, the logical line correspondence section 223 stores a logical line number used to identify each communication line 1 by the line management processor 3 or system management processor 4, etc., corresponding to each communication line l. The line information management unit 224 stores line information for each communication line l in correspondence with a logical line number. In FIG. 2 as well, it is assumed that the communication line IIO accommodated in the line control processor 2 includes a communication line I on standby as a backup line.

2 and 3, the communication line control unit 2l of the line control processor 2 controls an arbitrary communication line (for example, 1-1
), the line management unit 22 detects that a failure has occurred in
A failure notification signal aa-(
1-1). In the line management unit 22, when the processing unit 221 receives the failure notification signal aa(1-1),
The line status extraction signal ab is transmitted to the communication line status management unit 222, and the line status information ac of each communication line IIiA1 is extracted to search for the communication line 1 that is on standby as a backup line.

This time, when it is detected that the communication line 'a1-n is on standby as a protection line, it is decided to switch the affected communication line 'hA1-1 to the protection communication line 1-n, and the communication line status management unit 222 The line status change signal ad is transmitted, the line status information ac corresponding to communication line 1-1 is changed from active to active, and the line status information ac corresponding to communication line 1-n is set to standby as a backup line. Change during operation.

Subsequently, the processing unit 221 transmits the logical line correspondence switching signal ae to the logical line correspondence unit 223, and transfers the logical line number (for example, Nα) stored corresponding to the communication line 1-1 to the communication line 1-n. Change accordingly. Subsequently, the processing unit 221 sends the logical line information management unit 224 a line information acquisition signal af (Nα
) and extracts the line information ag stored corresponding to the logical line number Nα.

Subsequently, the processing unit 221 sends an activation instruction signal a specifying the communication line 1-n and line information ag to the communication line control unit 2l.
h (I n, a g) is transmitted.

'a which received the activation instruction signal ah (1-n, ag)
The communication line control unit 21 sets the communication line 1-n to line information ag.
Activate based on. When the communication line Ml-n has been activated, the processing unit 221 indicates the affected communication line 1-1 and the switched communication line l-n to the system management processor 4 via the inter-processor interface unit 23 and the inter-processor bus 6. Transfer the failure notification signal at(1-1, I1n). The system management processor 4 that has received the fault notification signal ai (1-1, 1-n) sends the fault notification signal aj (1-1, 1-n) to the workstation 5 via the inter-processor bus 6.
Transfer n). Failure notification signal aj (1-1, 1-n)
The workstation 5 that has received the message ak(1 1, 1 n) outputs a failure notification message ak(1 1, 1 n) to the maintenance personnel. By observing the failure notification message ak (1-1, 1-n) output to the workstation 5, the maintenance person can determine that a failure has occurred in the communication line 1-1 and that the switch has been completed to the communication line 1-n. Recognize that.

As is clear from the above description, according to this embodiment, when the communication line control unit 2l detects a failure that has occurred in the communication line '4IA1-1, the line management unit 22 autonomously establishes the backup communication line 1-n. Select the affected communication line 1-1 as backup communication line 1
-n and only transfers the failure notification signal at(1-l→1-n) to the system management processor 4, the amount of communication between processors is significantly reduced, and maintenance No intervention required.

Note that FIGS. 2 and 3 are only one embodiment of the present invention, and the structure of the functionally distributed multiprocessor system that is the object of the present invention is not limited to what is shown in the figures. Although many other modifications may be considered, the effects of the present invention remain the same in any case.

〔Effect of the invention〕

As described above, according to the present invention, in the function distributed multiprocessor system, when a failure occurs in the communication line, the line control processor autonomously operates without communicating with other processors. Since the backup line is determined and switched, there is almost no reduction in processing capacity due to inter-processor communication of each processor, and there is no need for maintenance personnel to do so, and the processing capacity of the functionally distributed multiprocessor system is reduced. , economic efficiency and convenience will be improved. Figure 3 is a diagram showing an example of the line switching method in Figure 2, Figure 4 is a diagram showing an example of a conventional function-distributed multiprocessor system, and Figure 5 is a diagram showing the line switching method in Figure 4. It is a figure showing an example of a method.

In the figure, l is a communication line, 2 is a line control processor,
3 is a line management processor, 4 is a system management processor, 5 is a workstation, 6 is a bus between processors, 2
1 is a communication line control unit, 22 is a line management unit, 23 is an inter-processor interface unit, 100 is a processor, 200
221 is a processing unit, 222 is a communication line status management unit, 223 is a logical line corresponding unit, 224 is a logical line information management unit, 300 is a line information storage unit, 4

[Brief explanation of drawings]

Fig. 1 is a diagram showing the principle of the present invention, and Fig. 2 is a diagram showing the origin of the functionally distributed multiprocessor according to an embodiment of the present invention. Figure 2 Figure 1

Claims (1)

[Scope of Claims] A functionally distributed multiprocessor system comprising a line control processor (2) accommodating a plurality of communication lines (1) including a protection line, wherein each of the above-mentioned communication lines accommodated in the line control processor (2) A line status management means (200) for managing the operational status of the communication line (1); a line information storage means (300) for storing line information indicating attributes of each of the communication lines (1); (
1) is affected, the line status management means (200
) is searched for the communication line (1) in the protection line state, and the line information of the affected communication line (1) stored in the line information storage means (300) is searched for from the communication line (1) in the protection line state. 2.) A line switching system comprising: a line switching means (400) for switching the affected line to the protection line by storing information corresponding to the line switching means (400).