JP3765198B2 - Computer system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a system control method for a computer system that includes a low-cost client system that can be realized with a simple hardware architecture and a high-reliability, high-performance server and storage system.
[0002]
[Prior art]
As shown in Japanese Patent Application Laid-Open No. 10-105482, a multi-protocol model in a network system is used to construct a seamless system. The network system constituting the system is duplicated and the operation side is considered. No. Also, there is no one that takes into account the simplification of the hardware architecture of the client system.
[0003]
[Problems to be solved by the invention]
Improves the reliability, performance, functionality, and ease of operation management of computer systems connected to multiple client systems. In addition, the price is reduced by simplifying the hardware and architecture of the client system. Achieve system expandability when the number of client systems increases.
[0004]
[Means for Solving the Problems]
In order to solve the above-mentioned object, system control means at the time of multiplexing by network connection having different protocols, operation means at the time of failure occurrence, and transmission path selection switching means according to transmission traffic are provided.
[0005]
The present invention provides a client system including a CPU (central processing unit), a secondary cache memory, a main memory, a host controller, a system controller, a system ROM, and a display control unit, which have the following configurations, and a plurality of protocols with different protocols A computer system comprising a server system connection via a network and a storage system connection means, a server system and a storage system, and comprising system control and operation means.
[0006]
In addition, the computer system is characterized by comprising multiplexing connection means using different networks with different transmission rates and communication control means corresponding to the amount of communication traffic between the client system and the server system.
[0007]
Further, in these computer systems, there is a system control system characterized by including transmission route selection means according to the amount of data to be transmitted, and a computer system equipped with the system control system.
[0008]
In addition, these computer systems are equipped with a system control system characterized by comprising means for detecting a multiplexed network failure and a means for switching a data transmission / reception route connection between the client system when the failure occurs and the system control method. It is also a computer system.
[0009]
In addition, the computer system is characterized in that these different networks are an IP protocol LAN (local area network) and an SCSI protocol SAN (storage area network).
[0010]
In the computer system described above, a server system having processing control means for high-quality, high-quality images and large-capacity data, a storage system for storing the processed data, and a client system for displaying, operating, and controlling the data It is also a computer system composed of
[0011]
In the computer system described above, a control command transmission line and a data transmission line sent and received from a client system are independent of each other.
[0012]
Further, the computer system is characterized in that, in a client system connected to a plurality of the computer systems, a network transmission path control means multiplexed according to the operating system load status at the time of initial power-on.
[0013]
The client system connected to the computer system includes system control means for operating without installing a storage device having a spindle such as an HDD device, an FDD device, or a CD-ROM device. It is also a client system.
[0014]
Furthermore, the client system described above is a client system that is integrated with a liquid crystal display device.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a configuration diagram of a computer system showing an embodiment of the present invention. An embodiment of the present invention will be described below with reference to FIG.
[0016]
In FIG. 1, 1 is a plurality of client systems that constitute a computer system, 2 is a LAN that performs communication using an IP protocol, 3 is a server system that constitutes a computer system, and 4 is an optical fiber that performs storage data transfer using a SCSI protocol. The storage area networks SAN and 5 are storage systems that are disk array devices that transfer data via the SAN.
[0017]
The computer system of the present invention is characterized by a network configuration in which the client system 1, the server system 3, and the storage system 5 are duplicated of LAN2 and SAN4. With such a configuration, the client system 1 can improve storage access performance in the storage system 5 and manage the storage collectively without mounting a local disk, and has high operability. It is possible to provide a highly reliable system. In addition, since the client system 1, the server system 3, and the storage system 5 are directly connected via the LAN 2 and the SAN 4, logging of data transmission / reception processing contents from the client system 1 to the storage system 5 can be recorded in the server system 3. Management of transaction processing of the computer system becomes easy. Furthermore, the operation command from the client system 1 is transmitted to the server system 3 in a job format, so that the server system 2 executes the job, thereby facilitating access to the database in the storage system 5.
[0018]
When there is a large traffic capacity in a network in which several tens or hundreds of client systems 1 are connected, the server system 3 controls access to the storage system 5 of the client system 1 via the LAN 2 and the network traffic capacity is small. Processing can also be performed via the LAN 2. In addition, when several tens or more client systems 1 are powered on at the same time, the server system 3 loads the operating system from the storage system 5 of each client system 1 or powers on by remote management control. The centralized access processing at the same time can be relaxed.
[0019]
FIG. 2 is a hardware block diagram showing the configuration of the client system 1. 6 is a CPU as a central processing unit, 7 is a secondary cache memory, 8 is a host controller for controlling data with various devices for CPU 6 operations, 9 is a main memory composed of memory, and 10 is a system bus , 11 is a system ROM in which a program for initializing the system, starting up an operating system, etc. is written, 12 is a keyboard, pointing device, system controller for controlling power supply, and 13 is a PCI to which various I / O devices are connected. A local bus such as a bus, 14 is a SAN control unit for connecting to the SAN 4, 15 is a LAN control unit for connecting to the LAN 2, 16 is a display control unit for controlling display on a display device such as a CRT or liquid crystal, and 17 is Display memory.
[0020]
In the computer system of the present invention, the client system 1 does not need to be equipped with a local disk, and the server system 3 is also a storage system for installing driver software, installing an operating system provided by a medium such as a CD-ROM, and application software. 5 can be processed all at once. The LAN control unit 15 activates the system controller 12 in accordance with an access request from the server system 3 or a power-on instruction, and the system controller 12 receiving the instruction performs a power-on process by performing a power-on process. The activation of the client system 1 can be controlled.
[0021]
The LAN controller 15 can also notify the server of an abnormality via the LAN controller 15 when there is no response from the system controller 12 or when there is an abnormality in the client system 1.
[0022]
When data is transmitted / received between the client systems 1, in a conventional computer system, data is read from a local disk connected to the host controller 8 and transmitted to the LAN 2 via the local bus 13 and the LAN controller 15. However, in this computer system, transfer within the storage system 5 can be performed.
[0023]
FIG. 3 is a diagram showing data transmission / reception of the storage device in the storage system 5 in the computer system at the normal time. Reference numeral 18 denotes a data upload path from the client system 1 at the normal time. The client system 1 uploads data stored in the storage system 5 via the SAN 4.
[0024]
FIG. 4 is a diagram showing data transmission / reception of the storage device in the storage system 5 in the computer system when the SAN 4 fails. Reference numeral 19 denotes a data upload path from the client system 1 when the SAN 4 fails. Normally, data is transmitted / received via the upload path 18 via the SAN 4, but when a failure occurs in the SAN 4 network, the storage system 5 changes the route to the upload path 19 via the LAN 2, and the system caused by the failure occurs. It becomes possible to avoid down. Although the current SAN 4 is duplexed and a high reliability system is constructed, it is possible to construct an inexpensive high reliability system by constructing a duplex system with the LAN 2.
[0025]
FIG. 5 shows a processing flowchart at the time of failure. When there is a failure in the SAN 4, the storage system 5 detects the SAN 4 network failure because there is no response to the data transmission / reception, and performs the SAN failure occurrence processing (S101). The contents of the data transmission / reception from the client system 1 and transfer The capacity is determined, and a determination process (S102) is performed to determine whether there is no problem with communication traffic. If there is a lot of traffic as a result of the determination, an alarm process (S103) is performed on the server system 3 via the LAN 2 and a communication process (S105) for notifying the client system 1 is performed and the process is terminated. If there is no problem in communication traffic, a process of transferring via LAN 2 (S104) is performed, data transfer to client system 1 is performed via LAN 2 (S105), and the process ends. If a failure occurs in the SAN 4 and communication traffic increases and communication takes time, it is confirmed whether or not communication is performed even if time is required, and after temporarily storing in the server system 3, the client It is also possible to send and receive to the system 1 when communication traffic drops. In this system configuration diagram, the client system 1, the server system 3, and the storage system 5 are connected to the same LAN. Generally, however, the server system 3 is connected to the client system 1 via a low-speed LAN, and the storage system 5 Are often connected by a high-speed LAN.
[0026]
FIG. 6 is a diagram showing a communication path of a control command system in the computer system showing the second embodiment. A control command communication path 20 has a small communication traffic capacity. A control command system with little communication traffic is transmitted and received via the low-speed LAN 2.
[0027]
FIG. 7 is a diagram showing a data communication path in the computer system according to the second embodiment. A data communication path 21 has a large communication traffic capacity. A data system with a lot of communication traffic is transmitted and received via the high-speed SAN 4. A control command to the storage system 5 can be directly transmitted and received from the storage system 5 by being executed via the SAN 4. In this way, by separating and operating the control command communication path 20 and the data communication path 21, transaction processing mediated by the server system 3 can be performed, and control command restrictions due to differences in the IP protocol and SCSI protocol are also received. It becomes possible to construct an optimum computer system.
[0028]
FIG. 8 is a system configuration diagram of a triple computer system. Reference numeral 22 denotes a SAN 2 in which the SAN is duplicated. If a data system with a large amount of communication traffic is duplicated and a switching operation is performed when a failure occurs in the SAN 4, in addition to an increase in traffic capacity, the SAN 4 and the SAN 2 22 are operated in parallel. It becomes possible to build a system. When the server system 3 or the storage system 5 monitors the status of the SAN 4 and the SAN 2 22, it is possible to perform operation, stop control, and distribution of communication paths according to the communication traffic capacity of the SAN 4 and the SAN 2 22. SAN4 construction is expensive when constructing infrastructure, such as optical fiber cables and optical communication compatible HUBs, but it is effective when high reliability and high performance computer systems are required.
[0029]
FIG. 9 shows a process flowchart in the event of a failure in the system shown in FIG. As described above, when a failure occurs in the SAN 4, the storage system 5 detects a SAN 4 network failure because there is no response to the data transmission / reception, and performs a SAN failure occurrence process (S 201). The contents of data transmission / reception and the transfer capacity are determined, and a determination process (S202) is performed to determine whether there is a problem with communication traffic. As a result of the determination, if there is a lot of traffic, a transfer process via the SAN2 22 (S203) is performed, an alarm process (S205) is performed on the server system 3 and a communication process (S206) is performed to notify the client system 1. finish. If there is no problem in communication traffic, a process of transferring via LAN 2 (S204) is performed, data transfer to client system 1 is performed via LAN 2 (S206), and the process is terminated.
[0030]
In this case, the storage system 5 automatically switches the communication path from the SAN 4 to the SAN 2 22 according to the occurrence of the failure, and notifies the server system 3 of the failure of the SAN 4.
[0031]
Similar to this processing flowchart, the communication traffic is monitored to determine the state of the communication traffic of the SAN 4 and SAN 2 22 and to operate to distribute the communication load.
[0032]
FIG. 10 shows a configuration diagram of a computer system using a multi-protocol compatible SAN. When the SAN 4 and SAN 2 22 are compatible with the IP protocol used in the LAN 2, the system configuration of the computer system of the present invention can be realized as shown in FIG. It is possible to build a high-performance system with a redundant system. The construction of the computer system shown in the present invention will become effective as the infrastructure is improved as will be seen in the future of using optical fiber for telephone lines. Network connection equipment such as HUB can be reduced to one type.
[0033]
FIG. 11 shows a hardware block diagram of a client system in a duplex computer system based on LAN and SAN. Reference numeral 22 denotes a liquid crystal display integrated with the client system, reference numeral 23 denotes a LAN connector connected to the LAN 2, and reference numeral 25 denotes an optical fiber connector connected to the SAN 2. In the computer system of the present invention, the devices and hardware installed in the client system 1 can be reduced, and a space-saving thin client system can be realized by installing a liquid crystal. If an area is specified in the storage system 5 for each client system 1 that writes an area for each client system, such as a user's personal information, other operating systems and applications can be shared, updated, and installed. You can do it all at once.
[0034]
As shown in the figure, in the client system 1 of the present invention, the connection cable may be only the connection of the LAN connector 24 and the optical fiber connector 25 in addition to the power source and the input device. Furthermore, if these functions are all mounted on a single substrate and the substrate is mounted on the back of the large screen liquid crystal, it is possible to provide a low-cost and thin client system.
[0035]
FIG. 12 is a hardware block diagram of the multi-protocol compatible client system 1. An optical fiber connector 2 is connected to the SAN2 22. With such a configuration, the hardware cost of the client system 1 can be further reduced, and the reliability of the system can be maintained. Further, since the SAN control unit 14 has a function of monitoring the traffic of the two ports, the client system 1 itself can freely select a communication path, and high performance can be achieved. In addition, an optimum computer system can be constructed by determining the priorities of the two SAN 4 and SAN 2 22 and determining the communication path to be used according to the type of command and data transfer.
[0036]
【The invention's effect】
Since the present invention is configured as described above, the following effects can be obtained.
(1) It is possible to construct a detour route at the time of failure and provide a highly reliable system.
(2) It is possible to improve the performance according to the command control system, data system, and communication traffic capacity.
(3) The server system can record transactions between client systems, storage systems, and between client systems.
(4) A low-cost and space-saving client system can be realized.
(5) When the number of connected client systems is large, it is possible to reduce the performance and to optimize and smooth the transaction processing.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of a computer system showing a system configuration of the present invention.
FIG. 2 is a hardware block diagram showing the configuration of the client system 1;
FIG. 3 is a diagram showing data transmission / reception of a storage device in the storage system in the computer system at a normal time.
FIG. 4 is a diagram showing data transmission / reception of a storage device in the storage system in the computer system when a SAN failure occurs.
FIG. 5 is a processing flowchart at the time of failure.
FIG. 6 is a diagram showing a communication path of a control command system.
FIG. 7 is a diagram showing a communication path of a data system.
FIG. 8 is a system configuration diagram of a triple computer system.
FIG. 9 is a processing flowchart at the time of failure.
FIG. 10 is a configuration diagram of a computer system using a multi-protocol compatible SAN.
FIG. 11 is a hardware block diagram of a client system in a duplex computer system based on LAN and SAN.
FIG. 12 is a hardware block diagram of a multi-protocol compatible client system.

Claims (5)

A computer system having a client device, a server and a storage connected to the client device via two or more networks having different protocols,
The client device includes a controller, a storage device in which a startup program of the client device executed by the controller is written, a SAN control unit for connecting to a SAN of the two or more networks, the two or more A LAN controller for connecting to a LAN of the network, and a bus connecting the controller, the storage device, the SAN controller, and the LAN controller,
The client device sends a control command to the storage via the LAN control unit, sends data to the storage via the SAN control unit ,
The storage determines the transfer capacity from the client device when there is no acknowledgment of data transmission / reception,
If the transfer capacity is large, perform alarm processing to the server via the LAN and notify the client,
When there is no problem in the transfer capacity, the computer system performs data transfer to the client device via the LAN . A computer system having a client device, a server and a storage connected to the client device via two or more networks having different protocols,
The client device includes a controller, a storage device in which a startup program of the client device executed by the controller is written, a SAN control unit for connecting to a SAN of the two or more networks, the two or more A LAN controller for connecting to a LAN of the network, and a bus connecting the controller, the storage device, the SAN controller, and the LAN controller,
The client device sends a control command to the storage via the LAN control unit , sends data to the storage via the SAN control unit,
The client device, the server, and the storage are further connected by another SAN,
The client device further includes another SAN control unit,
The storage determines the transfer capacity from the client device when there is no acknowledgment of data transmission / reception,
If the transfer capacity is large, when it said SAN Faulty performs a data transfer to the client device via the another SAN,
When there is no problem in the transfer capacity, the computer system performs data transfer to the client device via the LAN. The computer system according to claim 1,
The LAN control unit starts the controller based on the access request transmitted from the server,
The computer system executes the start program to start the client device.   The computer system according to claim 1,
  The server system records a data transmission / reception processing content history from the client device to the storage.   The computer system according to claim 1,
  The computer system according to claim 1, wherein the client device does not have a disk device.

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