JPH09138718A - Information processing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To execute control with common hardware without having hardware of private device constitution control, power interruption control and power reset control for respective models even if power units differ in accordance with the scales of information processing systems by recognizing a device to which power is supplied from one power source device. SOLUTION: In a power supply setting means 9 in an external storage device 6, power supply information for the processors 30 and 31 and 40-45 of the power source devices 20 and 21 are set. The content of the power supply setting means 9 can be set with an SG means 10. A constitution control means 11 in a service processor 1 judges by which power source device power is supplied to the respective processors from the content of the power supply setting means 9, and it, controls device constitution. At the same time, power interruption control and power reset control can be executed.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an information processing system, and more particularly to an information processing system that performs device configuration control, power interrupt control, and power reset control in power control.

[0002]

2. Description of the Related Art In an information processing system having a multiprocessor configuration, various system configurations are possible depending on performance, price, etc., in response to a user's request. For example, for users who want an inexpensive system with low performance, the CPU
It is possible to provide a system configuration with a small number of (central processing units) and a small capacity of MMU (main storage unit), while a CPU is provided for users who demand high performance even if the price is high.
It is possible to provide a system configuration having a large number of units and a large MMU capacity.

FIG. 5, FIG. 6 and FIG. 7 are configuration diagrams illustrating device configuration control in conventional power supply control.

In FIGS. 5, 6 and 7, each of the power supply devices 20 to 22 can supply power to up to four processing devices.

In the conventional example shown in FIG. 5, the power supply device 20 includes the CPUs 30 and 31 and the signal line 12 via the signal lines 120 and 121.
Power is supplied to a total of four MMUs 40 and 41 via 6, 127, and the power supply device 21 receives CPUs 32 and 33 via signal lines 122 and 123 and MM through signal lines 128 and 129.
Power is supplied to a total of 4 units of U42 and 43, and the power supply device 22 is supplied to a total of 4 units of MMU44 and 45 through the signal lines 124 and 125, CPUs 34 and 35, and signal lines 130 and 131. There is.

In the conventional example of FIG. 6, the power supply device 20 transmits the CPUs 30 and 31 and the signal line 12 via the signal lines 120 and 121.
Power is supplied to a total of four MMUs 40 and 41 via 6, 127, and power supply device 21 is supplied to a total of two MMUs 42 and 43 via signal lines 128 and 129.
2 supplies power to a total of two MMUs 44 and 45 via signal lines 130 and 131.

In the conventional example of FIG. 7, the power supply device 20 uses the signal lines 120 and 121 to connect the CPUs 30, 31 and the MMU 4 to each other.
Power is supplied to a total of four units 0 and 41, and the power supply device 21 is supplying power to a total of four MMUs 42 to 45 via signal lines 128 to 131.

In FIG. 5, the power supply controller 8 and the signal line 1
From the power supply device 20 connected by 10 to the CPUs 30, 31,
When power is supplied to the MMUs 40 and 41, the power supply control device 8 sends a power supply confirmation signal of the power supply device 20 from the signal line 100 to the service processor 4. Power supply 2
The service processor 4, which has received the power supply confirmation signal of 0,
CPU 30, 31, MMU 4 in the configuration control means 12
Validate the configuration information of 0 and 41. From the power supply device 21 connected to the power supply control device 8 by the signal line 111 to the CPU 32,
When power is supplied to the 33, MMU 42, 43,
The power supply control device 8 sends a power supply confirmation signal of the power supply device 21 to the service processor 4 from the signal line 101. The service processor 4, which has received the power supply confirmation signal of the power supply device 21, receives the CPUs 32, 33, M in the configuration control means 12.
Validate the configuration information of the MUs 42 and 43. From the power supply device 22 connected to the power supply control device 8 by the signal line 112 to the CPU
When power is supplied to the MPUs 34 and 35 and the MMUs 44 and 45, the power supply control device 8 sends a power supply confirmation signal of the power supply device 22 to the service processor 4 from the signal line 102. The service processor 4 which has received the power supply confirmation signal of the power supply device 22 causes the CPU 34,
35, MMU 44, 45 configuration information is enabled.

In FIG. 6, the power supply controller 8 and the signal line 1
From the power supply device 20 connected by 10 to the CPUs 30, 31,
When power is supplied to the MMUs 40 and 41, the power supply control device 8 sends a power supply confirmation signal of the power supply device 20 from the signal line 100 to the service processor 4. Power supply 2
The service processor 4, which has received the power supply confirmation signal of 0,
CPU 30, 31, MMU 4 in the configuration control means 12
Validate the configuration information of 0 and 41. From the power supply device 21 connected to the power supply control device 8 by the signal line 111 to the MMU 42,
When power is supplied to 43, the power supply control device 8 sends the power supply device 2 to the service processor 4 from the signal line 101.
The power supply confirmation signal of 1 is transmitted. Upon receiving the power supply confirmation signal of the power supply device 21, the service processor 4 enables the configuration control means 12 to validate the configuration information of the MMUs 42 and 43. When power is supplied to the MMUs 44 and 45 from the power supply device 22 connected to the power supply control device 8 via the signal line 112, the power supply control device 8 sends the power supply confirmation signal of the power supply device 22 to the service processor 4 from the signal line 102. Is sent.
The service processor 4 receiving the power supply confirmation signal of the power supply device 22 causes the configuration control means 12 to receive the MMUs 44, 45.
Enable configuration information for.

In FIG. 7, the power supply controller 8 and the signal line 1
From the power supply device 20 connected by 10 to the CPUs 30, 31,
When power is supplied to the MMUs 40 and 41, the power supply control device 8 sends a power supply confirmation signal of the power supply device 20 to the service processor 5 from the signal line 100. Power supply 2
The service processor 5, which has received the power supply confirmation signal of 0,
CPU 30, 31, MMU 4 in the configuration control means 13
Validate the configuration information of 0 and 41. From the power supply device 21 connected to the power supply control device 8 through the signal line 111 to the MMU 42 to
When power is supplied to 45, the power supply control device 8 sends the power supply device 2 to the service processor 5 from the signal line 101.
The power supply confirmation signal of 1 is transmitted. The service processor 5 receiving the power supply confirmation signal of the power supply device 21 enables the configuration control means 13 to validate the configuration information of the MMUs 42 to 45.

When attention is paid to the configuration control of the MMU 44, the configuration information is made valid by the power supply confirmation signal of the power supply device 21 in FIGS. 5 and 6, whereas in FIG. The configuration information is validated by the power supply confirmation signal of. Therefore, the configuration control means 12 of FIGS. 5 and 6 and the configuration control means 13 of FIG. 7 have different hardware.

However, in FIG. 6, the configuration control means 1
2 has the same hardware as that of FIG. 5, but the configuration of the processing device is CPUs 30, 31 and MMUs 40 to 45. Despite the same as in FIG. 7, three power supply devices of 20 to 22 are required, One more unit than in FIG. 7.

The same applies to power interrupt control and power reset control.

[0014]

As described above, in the conventional information processing system having the multiprocessor structure, when the power supply unit is different depending on the size of the system, different device structure control and power supply interrupt control are made for each system model. Further, there is a problem that hardware for power supply reset control is required or a large number of power supply devices are required.

[0015]

The present invention comprises a plurality of processing devices, a power supply device for supplying power to the plurality of processing devices, a power supply control device for controlling the power supply devices, and a service processor. In the processing system, the power supply device comprises a power supply setting means for setting whether or not the power supply device is supplying power to the plurality of processing devices, and the service processor has information set in the power supply setting means. It is characterized by having a configuration control means for performing device configuration control according to the above.

The present invention provides an information processing system comprising a plurality of processing devices, a power supply device for supplying power to the plurality of processing devices, a power supply control device for controlling the power supply devices, and a service processor. The service processor comprises a power supply setting means for setting whether or not the device is supplying power to the plurality of processing devices,
It is characterized by having a power interruption control means for performing power interruption control according to the information set in the power supply setting means.

The present invention provides an information processing system comprising a plurality of processing devices, a power supply device for supplying power to the plurality of processing devices, a power supply control device for controlling the power supply devices, and a service processor. The service processor comprises a power supply setting means for setting whether or not the device is supplying power to the plurality of processing devices,
The power supply reset control means for performing power supply reset control according to the information set in the power supply setting means is provided.

The service processor may have a system generation means capable of setting the setting contents of the power supply setting means from the service processor.

[0019]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a configuration diagram showing a first embodiment of the present invention. The information processing system shown in FIG. 1 includes a service processor 1, an external storage device 6, a CRT-equipped keyboard 7, a power supply control device 8, and power supply devices 20 to 21.
And CPUs 30 and 31, and MMUs 40 to 45. The service processor 1 has an SG unit 10 and a configuration control unit 11. The external storage device 6 has a power supply setting means 9.

The CRT-equipped keyboard 7 is connected to the service processor 1 via a signal line 141 and can perform input / output operations with respect to the service processor 1. SG means 10
Is activated from the CRT-equipped keyboard 7, outputs a selection screen of a device connected to each power supply device to the CRT-equipped keyboard 7, and the CRT-equipped keyboard 7 prompts the operator for input. In the present embodiment, the power supply device 20 is the signal line 12
0, 121 to the CPUs 30 and 31, and signal lines 126 and 127 to the MMUs 40 and 41, and the power supply device 21 to the signal lines 128 to 131 for the MMUs 42 to 45.
Is supplying power to. When the operator selects the power supply, S
The G means 10 creates power supply setting information based on the information, and sets the contents of the power supply setting means 9. FIG. 2 shows the contents of the power supply setting means 9 in the present embodiment, and shows the devices to which the respective power supply devices 20 and 21 are supplying power. In FIG. 2, bit 00
˜05 correspond to the power supply information of the CPUs 30 to 35, and bits 06 to 11 correspond to the power supply information of the MMUs 40 to 45, respectively, and the supplied state is indicated by “1”.
Therefore, in the present embodiment, power supply device 20 supplies power to CPUs 30 and 31 and MMUs 40 and 41, and power supply device 21 supplies power to MMUs 42 to 45. The configuration control means 11 uses the power supply information set in the power supply setting means 9 to determine which processing device (in this case C
The device configuration control is performed by recognizing whether power is being supplied to the PU and MMU). For example, the power control device 8 and the signal line 110
When the power supply device 20 connected by (1) is turned on, the power supply control device 8 transmits a power supply confirmation signal to the service processor 1 through the signal line 100. When the configuration control means 11 in the service processor 1 receives the power supply confirmation signal from the power supply control device 8, the power supply setting means 9 in the external storage device 6 connected to the service processor 1 via the signal line 140 supplies the power. Recognizing that the devices to which the device 20 is supplying power are the CPUs 30, 31 and the MMUs 40, 41, the CPUs 30, 31 and the MMUs 40, 41 are recognized.
Enable configuration information for. When the power supply device 21 is powered on, the power supply control device 8 transmits a power supply confirmation signal to the service processor 1 through the signal line 101. When the configuration control means 11 in the service processor 1 receives the power supply confirmation signal from the power supply control device 8, the external storage device 6
From the contents of the power supply setting means 9 in the above, the power supply device 21 recognizes that the device supplying power is the MMU 42 to 45, and validates the configuration information of the MMU 42 to 45.

When the power supply confirmation signal is replaced with the power supply interrupt signal and the configuration control means is replaced with the interrupt control means, the power supply interrupt control can be similarly controlled.

FIG. 3 is a configuration diagram showing a second embodiment of the present invention. The information processing system shown in FIG. 3 includes a service processor 2, an external storage device 6, a CRT-equipped keyboard 7, a power supply control device 8, and power supply devices 20 to 21.
And CPUs 30 and 31, and MMUs 40 to 45. The service processor 2 has an SG unit 10 and an interrupt control unit 14. The external storage device 6 has a power supply setting means 9.

The CRT-equipped keyboard 7 is connected to the service processor 2 via a signal line 141 and can perform input / output operations with respect to the service processor 2. SG means 10
Is activated from the CRT-equipped keyboard 7, outputs a selection screen of a device connected to each power supply device to the CRT-equipped keyboard 7, and the CRT-equipped keyboard 7 prompts the operator for input. In the present embodiment, the power supply device 20 is the signal line 12
0, 121 to the CPUs 30 and 31, and signal lines 126 and 127 to the MMUs 40 and 41, and the power supply device 21 to the signal lines 128 to 131 for the MMUs 42 to 45.
Is supplying power to. When the operator selects the power supply, S
The G means 10 creates power supply setting information based on the information, and sets the contents of the power supply setting means 9. The contents of the power supply setting means 9 are the same as in FIG. Interrupt control means 1
Reference numeral 4 indicates which processing device (CPU here, CPU) from the power supply information set in the power supply setting means 9.
Power supply interrupt control is performed by recognizing whether power is being supplied to the MMU). For example, if the power supply device 20 causes a power interruption,
The power supply control device 8 transmits a power supply interrupt signal to the service processor 2 through the signal line 103. When the interrupt control means 14 in the service processor 2 receives the power interrupt signal from the power supply controller 8, the contents of the power supply setting means 9 in the external storage device 6 connected to the service processor 1 by the signal line 140. Recognizes that the devices to which the power supply device 20 is supplying power are the CPUs 30 and 31 and the MMUs 40 and 41, and the CPUs 30 and 31 and the MMUs 40 and 4 are recognized.
Enable the interrupt information of 1. When the power supply device 21 causes a power supply interrupt, the power supply control device 8 transmits a power supply interrupt signal to the service processor 2 through the signal line 104. When the interrupt control means 14 in the service processor 2 receives the power supply interrupt signal from the power supply control device 8, the power supply device 21 from the contents of the power supply setting means 9 in the external storage device 6.
Recognizes that the device that is supplying power is the MMU 42 to 45, and validates the interrupt information of the MMU 42 to 45.

Further, the power interrupt signal is used as a power reset signal,
When the interrupt control means is replaced with the reset control means, the power supply reset control can be similarly controlled.

FIG. 4 is a block diagram showing the third embodiment of the present invention. The information processing system shown in FIG. 4 includes a service processor 3, an external storage device 6, a CRT-equipped keyboard 7, a power supply control device 8, and power supply devices 20 to 21.
And CPUs 30 and 31, and MMUs 40 to 45. The service processor 3 has an SG unit 10 and a reset control unit 15. The external storage device 6 has a power supply setting means 9.

The CRT-equipped keyboard 7 is connected to the service processor 3 via a signal line 141 and can perform input / output operations with respect to the service processor 1. SG means 10
Is activated from the CRT-equipped keyboard 7, outputs a selection screen of a device connected to each power supply device to the CRT-equipped keyboard 7, and the CRT-equipped keyboard 7 prompts the operator for input. In the present embodiment, the power supply device 20 is the signal line 12
0, 121 to the CPUs 30 and 31, and signal lines 126 and 127 to the MMUs 40 and 41, and the power supply device 21 to the signal lines 128 to 131 for the MMUs 42 to 45.
Is supplying power to. When the operator selects the power supply, S
The G means 10 creates power supply setting information based on the information, and sets the contents of the power supply setting means 9. The contents of the power supply setting means 9 are the same as in FIG. The reset control means 15 uses the power supply information set in the power supply setting means 9 to determine which processing device each power supply device is (CP in this case).
U, MMU) and recognizes whether power is being supplied to the power supply reset control. For example, when the power supply device 20 is turned on, the power supply control device 8 transmits a power supply reset signal to the service processor 1 through the signal line 106. When the reset control means 15 in the service processor 3 receives the power supply reset signal from the power supply control device 8, the power supply setting means 9 in the external storage device 6 connected to the service processor 1 by the signal line 140 supplies the power. Device 20
The devices to which the power is supplied are CPUs 30, 31 and MM
U40 and 41 are recognized, and the reset information of CPU30 and 31 and MMU40 and 41 is validated. Further, when the power supply device 21 is turned on, the power supply control device 8
Transmits a power reset signal to the service processor 3 through the signal line 107. When the reset control means 15 in the service processor 3 receives the power supply reset signal from the power supply control device 8, the device to which the power supply device 21 is supplying power from the contents of the power supply setting means 9 in the external storage device 6 is the MMU 42 to. Recognizing that it is 45, MMU42
Validate ~ 45 reset information.

[0028]

As described above, according to the present invention, by recognizing which processing device is supplied with power by one power supply device, the power supply unit varies depending on the scale of the information processing system. , It is possible to perform configuration control, interrupt control, and reset control with common hardware without having dedicated device configuration control, power interrupt control, and power reset control hardware for each model. The effect is that it can be reduced.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a first embodiment of the present invention.

FIG. 2 is a diagram showing the contents of device number setting means in FIG.

FIG. 3 is a configuration diagram showing a second embodiment of the present invention.

FIG. 4 is a configuration diagram showing a third embodiment of the present invention.

FIG. 5 is a configuration diagram showing a first conventional example.

FIG. 6 is a configuration diagram showing a second conventional example.

FIG. 7 is a configuration diagram showing a third conventional example.

[Explanation of symbols]

 1-5 Service Processor 6 External Storage Device 7 CRT Keyboard 8 Power Supply Control Device 9 Power Supply Setting Means 10 SG Means 11-13 Configuration Control Means 14 Interruption Control Means 15 Reset Control Means 20-22 Power Supply 30-35 Central Processing Device 40-45 Main storage device 100-141 Signal line

Claims (4)

[Claims] 1. An information processing system comprising a plurality of processing devices, a power supply device that supplies power to the plurality of processing devices, a power supply control device that controls the power supply devices, and a service processor, wherein the power supply devices are A configuration control that includes a power supply setting unit that sets whether or not power is being supplied to the plurality of processing devices, and the service processor performs device configuration control according to information set in the power supply setting unit. An information processing system having means. 2. An information processing system comprising a plurality of processing devices, a power supply device that supplies power to the plurality of processing devices, a power supply control device that controls the power supply devices, and a service processor, wherein the power supply devices are A power supply including power supply setting means for setting whether or not power is being supplied to the plurality of processing devices, wherein the service processor performs power interrupt control according to information set in the power supply setting means. An information processing system having an interrupt control means. 3. An information processing system comprising a plurality of processing devices, a power supply device that supplies power to the plurality of processing devices, a power supply control device that controls the power supply devices, and a service processor, wherein the power supply devices are A power supply reset unit that includes a power supply setting unit that sets whether or not power is being supplied to the plurality of processing devices, and the service processor performs a power reset control according to information set in the power supply setting unit. An information processing system having a control means. 4. The service processor according to claim 1, wherein the service processor includes a system generation unit that enables the setting contents of the power supply setting unit to be set from the service processor. Information processing system.