JPS6229822B2 - - Google Patents

Description

Detailed Description of the Invention (A) Technical Field of the Invention The present invention relates to a data processing system having a current service processing device and a backup service processing device, in which when the current service processing device fails, the backup service processing device is activated. This relates to a standby console switching method.

(B) Background of the Invention Since a failure of a service processing device leads to the failure of the entire data processing system, in such a case,
It is necessary to recover quickly. For this reason, a system failure can be prevented by providing a backup service processing device (SVP) and immediately switching to the backup service processing device when the current service processing device breaks down.

(C) Prior art and problems In general, in order to switch from the current service processing device to the standby service processing device, it is not enough to physically switch the data bus connecting the service processing device and the main device; It is essential to reflect this on the backup service processing device and ensure logical consistency.

That is, the service processing device is a processor independent of the main device, and has its own internal system information and operates based on this information. For these system information, the initial values owned by the service processing unit according to the main unit configuration are loaded into the main unit at system power-on, and when these values change during operation of the data processing system, The value of the service processing device is also changed accordingly, and the two always match. In other words, they are in a logically consistent state. However, even if a backup service processing device can be given the same initial value as the current service processing device, values that have changed during operation cannot be updated. Therefore, it is necessary to perform this update when switching between active and standby. For this reason, it is necessary to memorize this value on the main unit side and configure it so that the service processing unit can read it.Also, in the service processing unit, after the data bus is physically connected, it is necessary to store this value on the main unit side. It is necessary to start a program that reads the system information and various status information and updates various control tables of the service processing device system.

Conventionally, this switching was done by turning off the power to both the main device and the standby SVP device and switching buses, which caused problems in that matching could not be guaranteed and switching took time.

(D) OBJECT OF THE INVENTION It is therefore an object of the invention to provide a data processing system having active and standby service processing units.
It is an object of the present invention to provide a standby console switching control system capable of quickly switching to a standby service processing apparatus when a current service processing apparatus breaks down.

(E) Structure of the Invention In order to achieve the above object, the present invention provides a data processing system having at least two service processors, one currently in use and one in reserve, in which the service processor is logically consistent with the main unit. Among the information stored for data processing, information that may change during operation of the data processing system is stored in the main unit and constantly updated by the current service processing unit, so that the main unit and each service processing The data bus between devices is switched from the current service processing device to the backup service processing device, and the backup service processing device is set to online mode.The backup service processing device starts a program using the online mode signal as a trigger, and transfers the current service processing device to the main device. By reading the above-mentioned information stored by the service processing device, the main device and the backup service processing device are logically matched, and the service processing device is switched from the active to the backup.

The present invention will be described in detail below with reference to the drawings.

(F) Embodiment of the invention The figure shows an embodiment of the invention.
SVP1 is an active service processing device, SVP2 is a backup service processing device, 1 is a switching mechanism for the active service processing device, 2 is a switching mechanism for the backup service processing device,
3 is a synchronous differential circuit; 4 is a data bus connecting the current and backup service processing units to the main unit; 5;
Reference numerals 5' denote a driver circuit and a receiver circuit, respectively, which connect the current and standby service processing devices to the data bus.

As shown in the figure, the active service processing device SVP1
Switching mechanism 1 for switching online/offline
is configured as a circuit controlled by a switch or an error signal. When the current service processing device SVP1 is in online mode, the output of this switching mechanism of the current device is input to the driver and receiver circuits,
The data bus of the active service processor SVP1 is enabled and an inhibit signal IH is applied to the backup service processor SVP2 to inhibit the backup machine from coming online.

The online/offline switching mechanism 2 of the backup service processing device is composed of a circuit controlled by a switch or an error signal, etc., like the switching mechanism 1.
Even if the service processing device SVP2 is set online, if the active service processing device SVP1 is online, it will be inhibited as described above, but when the active service processing device SVP1 is switched offline, the standby device will automatically go online. It is configured.
Furthermore, when the switching mechanism 2 is set online, its output is input to the driver/receiver circuit 5,
The data bus 4 of the backup service processing unit SVP2 becomes active.

Synchronous differentiator circuit 3 of backup service processing device SVP2
captures the rising edge of the online signal of the switching mechanism 2 and generates an interrupt signal INT. This interrupt signal
INT starts a program that reads status information from the main unit into a program processing unit (not shown). Through this program processing, status information is taken in from the main unit via the data bus 4 that connects the standby service processing unit and the main unit, and logical consistency is achieved between the main unit and the standby service processing unit SVP. Become.

(G) Effects of the Invention As explained above, according to the present invention, in a data processing system having a working service processing device and a backup service processing device, when the current service processing device breaks down, it is possible to quickly switch to the backup service processing device. This is extremely effective in improving system reliability.

[Brief explanation of the drawing]

The figure shows an embodiment of the present invention, and in the figure,
SVP1 is an active service processing device, SVP2 is a backup service processing device, 1 is a switching mechanism for the active service processing device, 2 is a switching mechanism for the backup service processing device,
3 is a synchronous differentiation circuit; 4 is a data bus connecting the current and backup service processing units to the main unit; 5;
Reference numerals 5' denote a driver circuit and a receiver circuit, respectively, which connect the current and standby service processing devices to the data bus.

Claims (1)

[Claims] 1. In a data processing system that has at least two active and two standby service processors, the information that the service processor stores to ensure logical consistency with the main unit may change during operation of the data processing system. possible information is stored in the main unit and constantly updated by the active service processing unit, and the data bus between the main unit and each service processing unit is switched from the active service processing unit to the standby service processing unit. At the same time, the backup service processing device is set to online mode, the backup service processing device starts a program using the online mode signal as a trigger, and reads the above-mentioned information stored by the current service processing device into the main unit. A backup console switching control method characterized by logically matching a main unit and a backup service processing device and switching the service processing device from active to backup.