JP2000215189A5 - - Google Patents

Description

[Claims]
1. A plurality of processors, a plurality of memories coupled to these processors, and a master console program that acts on one of the processors to create a software partition, each of which is one or more. Processors and computer systems that are designed to include one or more memory devices and one or more I / O devices.
At initialization, the master console program uses the environment variables stored earlier to create configuration data that defines the software partition.
Different operating system instances from each run in various software partitions created by the master console program described above.
Utilizes a heartbeat scheme that determines whether each operating system instance running in one partition can run at least one other operating system running in another partition. And monitor
Brother - Run the brother Scheme, the first operating system instance is selected as the second first it brother operating system instances, the second first operating system operating system instance of the of in this scheme Monitor the heartbeat from the instance to determine if the first operating system instance can work, and also the first operating system instance is the brother for the third operating system instance. Then it monitors the heartbeat from this third operating system instance, and when the second operating system instance determines that the first operating system instance does not work, the second operating system said. computer system instance has characterized <br/> monitoring the heartbeats from the third operating system instance.
2. The computer system according to claim 1, wherein at least two of the operating system instances are operating systems that are different from each other.
3. The computer system according to claim 1, wherein at least some memory is exclusively allocated to at least some partitions.
4. The computer system according to claim 1, wherein each compartment comprises two or more processors.
5. The computer system of claim 1, wherein each compartment comprises another copy of a console program that controls a processor in that compartment.
6. The computer system of claim 5 wherein the console program to exchange at least some among the configuration data each other in communication with the master console program in each partition.
Wherein said master console program when building a structure data processor, a memory device and I / O devices and a computer system according to claim 1 to study.
8. A computer system according to software partitions during operation after the computer system is initialized to claim 1 further comprising a software mechanism to reconfigure dynamically.
9. One or more processors, at least one memory device and I / O device, according to claim 8 which can be removed from the software compartment during operation after the computer system is initialized Computer system.
10. The processor, at least one memory device and I / O device, according to claim 8 et addition to software compartment is in operation after the computer system has been initialized the computer system.
11. A plurality of processors, a plurality of memories coupled to these processors, an I / O device coupled to the processor, and a software mechanism.
The processors, memory devices and I / O devices described above are organized into software partitions, each partition at initialization having one or more processors, one or more devices and one or more I / O. It is designed to be compatible with the device,
The software mechanism allows the correspondence between the software partition and the processor, memory device and I / O device to be dynamically changed during post-initialization operation of the computer system.
An operating system instance running in one partition uses a heartbeat to determine if an operating system instance running in another partition can work.
Brother - Run the brother scheme, the first operating system instance in this scheme second select an operating system instance First as brother, said second operating system instance is the first operating system instance Monitors the heartbeat of the first operating system instance to determine if it can work, and also the first operating system instance is the brother for the third operating system instance, and this a heartbeat from the third operating system instance to monitor, and said second operating system instance is the first operating system instance when decided not to operate the second operating system instance A computer system characterized by monitoring heartbeats from a third operating system instance.
12. One or more processors, at least one memory device and I / O device, according to claim 11 which can be removed from the software compartment during operation after the computer system is initialized Computer system.
13. The computer system of claim 11, wherein the software partition can be removed from the control of the computer system during operation.
14. A processor, the computer system according to claim 11 at least one of the memory devices or I / O devices, the computer system is found in addition to the software section is in operation after it has been initialized.
15. The computer system of claim 11, further comprising a master console program that uses previously stored environment variables during initialization to create structural data that defines software partitions.
16. The computer system of claim 11, wherein an operating system instance can be loaded, and after the computer system is initialized, the operating system instance is called to operate in a previously configured software partition.
17. The computer system of claim 11, wherein the operating system instance operates in various software compartments.
18. The computer system of claim 11, wherein at least two of the operating system instances are operating systems that are different from each other.
19. In a method of constructing a computer system including a processor, a memory device, and an I / O device, and having a plurality of system resources coupled to each other.
(A) Using previously stored environment variables during initialization, each partition contains one or more processors, one or more memory devices, and one or more I / O devices. Create structural data that defines multiple compartments configured in
(B) actuating the operating system instance in each of the plurality of software partitions,
(C) Determine if an operating system running in one partition can run an operating system instance running in another partition using a heartbeat scheme.
(D) Select the first operating system instance and monitor the heartbeat from the second operating system instance.
(E) Select a second operating system instance to monitor heartbeats from the third operating system instance and
(F) a method in which the second operating system decides not to operate, and thereafter (g) a first operating system instance and wherein the monitoring the heartbeats from the third operating system instance.
20. A method according to claim 19 for operating at least two different operating systems from each other by a plurality of software partitions.
21. The method of claim 19, further comprising a separate console program that can be run in each software partition to control the processor.
22. In a method of constructing a computer system including a processor, a memory device, and an I / O device, and having a plurality of system resources coupled to each other.
(A) Create multiple partitions during initialization, each of which is configured to contain one or more processors, one or more memory devices, and one or more I / O devices. ,
(B) Reconfigure the software compartment during operation
(C) Determine if an operating system running in one partition can run an operating system instance running in another partition using a heartbeat scheme.
(D) Select the first operating system instance and monitor the heartbeat from the second operating system instance.
(E) Select a second operating system instance to monitor heartbeats from the third operating system instance and
(F) Determines that the second operating system does not work, and (g) if the second operating system does not work, the first operating system monitors the heartbeat from the third operating system instance. A method characterized by doing.
23. The method of claim 22, wherein at least one of the processor, memory device and I / O device is removed from the software partition in (b).
24. The method of claim 22, wherein at least one of a processor, a memory device and an I / O device is added to the software partition in (b).