JP2680302B2 - Processor expansion system - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Outline] In an electronic exchange, in order to minimize a call processing interruption time and to shift from a uniprocessor configuration to a multiprocessor configuration, an external storage device is added in advance. The system file is stored, the connection between the communication path system and the processor is switched, and the system is started up with the system file after the addition, thereby adding the processor for call processing. BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of adding processors to an electronic exchange. In an electronic exchange currently installed with a uniprocessor configuration, the processing capacity and the subscriber capacity may be insufficient when the number of subscribers increases. In this case, it is necessary to shift to a multiprocessor configuration that has both processing capacity and subscriber capacity, but it is problematic to stop the switchboard for a long time and perform expansion work because the effect on the subscriber is too great. large. Therefore, a method of shifting from the uniprocessor configuration to the multiprocessor configuration with the minimum down time (call processing suspension time) is required. [Prior Art] When switching from a uniprocessor configuration to a multiprocessor configuration when adding an electronic exchange, etc., conventionally, the exchange was temporarily stopped, the expansion was performed during that period, and then the IPL was started again.
(Initial Program Loader) is used to boot the system. [Problems to be Solved by the Invention] The conventional transfer method as described above has a problem that the call processing is interrupted for a long time and the subscriber is greatly affected. For example, it is necessary to dump the subscriber data onto a magnetic tape (hereinafter abbreviated as MT) or the like before adding the extension for taking over the subscriber data, and incorporate this into a system file for a new multiprocessor configuration. In that case, if the subscriber data is changed after dumping the subscriber data (such data change occurs in the case of billing data, etc.), there is a problem that the subscriber data does not match before and after the expansion. The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide a processor extension method capable of shifting from a uniprocessor configuration to a multiprocessor configuration in an electronic exchange in a short time. [Means for Solving Problems] FIG. 1 is a block diagram showing the principle of the method of adding a processor according to the present invention. In the figure, 1 is an existing processor, 2 and 3 are external storage devices for backing up system files,
It is multiplexed. Reference numerals 5 and 6 are input / output devices (hereinafter referred to as I / O devices). Here, 5 is a terminal for inputting and displaying commands and the like, and 6 is an MT deck. Reference numeral 4 is a channel device. The parts 1 to 6 form a uniprocessor system. Reference numeral 7 is an expansion processor that shares some functions including a communication path device, 9 and 10 are external storage devices for the expansion processor, and 8
Is an interprocessor communication device. Reference numeral 11 is a switching means for switching the connection between the communication path system device 4 and the processor 1, and 12 is a connecting means for connecting the interprocessor communication device 8 and the existing processor 1. Switches are usually used as the connection switching means 11 and the connection means 12. 13 and 14 are I / O devices for the additional processor 7, where 13 is a terminal and 14 is an MT deck. This I / O device is
It is used to load a system file into the external storage device of the expansion processor 7 or to test the expansion processor before expansion, and is removed after expansion. The processor 1 can be started up using any of the system files 2 and 3 for the external storage device. In the expansion method of the present invention, the system file in the uni-system configuration is left in the external storage device 3 and the system file in the multi-processor configuration after the expansion is stored in the external storage device 2.
, 9 to disconnect the connection between the existing processor and the inter-processor communication device, connect the communication path system device 4 and the additional processor 7, and simultaneously store the existing processor and the additional processor 7 in the external storage devices 2 and 9. It can be started up with a system file for a given multiprocessor. [Operation] In the present invention, since the system file after the expansion is loaded online in advance in the external storage device 2 of the standby system of the existing processor 1 and the external storage device 9 of the expansion processor 7, the uniprocessor configuration after the expansion is configured. To a multiprocessor configuration in a short time. Further, since the old system file remains in the external storage device of the one side system (hereinafter referred to as the one system) even after the expansion, the transfer of the subscriber data can be processed online. [Example] Hereinafter, an example of the present invention will be described in detail with reference to the drawings. FIG. 2 is a block diagram showing an embodiment of a duplicated system according to the present invention. In the figure, the same parts as those in FIG. 1 are designated by the same reference numerals. 20 is a channel controller,
The common buses 31 and 32 are controlled respectively. I / O devices are connected to the common bus. 40 is a channel controller, each of which is a common bus
Controls 51 and 52. The extension processor 7, the channel controller 40, the common buses 51 and 52, the external storage devices 9 and 10, the terminal 13, and the MT deck 14 constitute an extension system. 8a and 8b are inter-processor communication devices, which are connected to a common bus on the existing processor side and the additional processor side to perform communication between the processors. 11a and 11b are connection switching means, 12
Reference numerals a and 12b are connection means, and normally on / off switches are used (hereinafter, simply referred to as switches). The operation at the time of expansion in such a configuration will be described below with reference to the operation flow of FIG. The additional processor side system is assembled with the switch 11a turned on and the other switches 11b, 12a, 12b turned off. Load a temporary file (diagnostic system file) for the additional processor from the MT deck 14. The extension processor 7 is tested with a system file for diagnosis to confirm its normality. The system file for the expanded processor is loaded from the MT deck 14 to the external storage device 9. The external processor 2 from the MT deck 6 even on the existing processor side
Load the system file for the existing processor after expansion to. One-sided external storage device 3 contains a system file for uniprocessor configuration. At this point, the switch 11a is on, and the call processing is being performed.
Further, the external storage device 3 stores a system file for unisystem configuration. The switch 11a is turned off and the switches 11b, 12a, 12b are turned on, the existing processor 1 is started using the system file for the existing processor after the expansion stored in the external storage device 2, and at the same time stored in the external storage device 9. The additional processor 7 is started up using the system file for expansion. After that, it operates in a multiprocessor configuration. At startup, the subscriber data is taken over from the external storage device 3 to the external storage devices 2 and 9 by transferring the subscriber data from the system file for uniprocessor configuration. When the start-up is completed, the call processing suspended during the start-up is restarted, and it is confirmed that the system stability in the multiprocessor configuration is sufficient, the contents of the external storage device 2 are updated. To duplicate the external storage device. The MT deck 14 and terminal 13 used as tools are removed. With this operation, the call processing interruption time when shifting from the uniprocessor configuration to the multiprocessor configuration is only the time required for startup (usually 1 or 2 minutes). Also, even if the startup in the multiprocessor configuration fails or an error occurs after the startup, the switches 11b, 12a, 12b are turned off while the system file for the uniprocessor configuration remains in the external storage device 3. Then, the switch 11a is turned on and the existing processor 1 is started up using the system file of the external storage device 3, whereby the original uniprocessor configuration can be restored. [Effects of the Invention] As described in detail above, according to the present invention, it is possible to shift from the uniprocessor configuration to the multiprocessor configuration only by the time required to start up the call processing. In addition, since the system files in the old uniprocessor configuration are backed up even when the expansion fails, it is possible to quickly restore the uniprocessor configuration.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing the principle of the present invention, FIG. 2 is a block diagram showing an embodiment of the present invention, and FIG. 3 is a flow showing the assembly sequence of the system. 1 and 2, 1 is an existing processor, 2,3,9,10 are external storage devices, 4 are communication channel devices, 5 and 13 are terminals, 6 and 14 are MT decks, and 7 are expansions. Processor, 8,8a, 8b are inter-processor communication devices, 11,11
a, 11b, 12, 12a, 12b are switches, 20, 40 are channel controllers, and 31, 32, 51, 52 are common buses.

   ────────────────────────────────────────────────── ─── Continuation of front page    (72) Inventor Akinori Takeda               2-2-1 Ichibancho, Sendai City, Fujitsu East               North Communication System Co., Ltd.                (56) References JP-A-61-140264 (JP, A)                 IEICE Technical Report, Vol.               84, no. 227, (1984) p. 25-p.               29, “Multiprocessor system on               About line expansion ", Shuji Saito 3 outside

Claims (1)

(57) [Claims] A processor extension method for adding a switching system having a uniprocessor and having a multiplexed external storage device for storing a backup of system files to a multiprocessor configuration. , An additional processor that shares some functions including communication path control is provided, and one of the external storage devices of the existing processor retains the system file at the time of unisystem configuration,
The system file of the multiprocessor configuration after the migration is stored in the other external storage device, and the system file of the multiprocessor configuration after the migration is stored in the external storage device of the additional processor, and the existing processor and the additional processor are connected to make a call. The connection between the line system device and the existing processor is switched to the connection between the line system device and the additional processor, and the system file for the multiprocessor configuration stored in the external storage device of the existing processor side A processor expansion method comprising booting the system and booting the system on the expansion processor side with a system file for multiprocessor configuration stored in an external storage device on the expansion processor side.