CN103916450B - High-performance data warehouse architecture - Google Patents
High-performance data warehouse architecture Download PDFInfo
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- CN103916450B CN103916450B CN201310670444.1A CN201310670444A CN103916450B CN 103916450 B CN103916450 B CN 103916450B CN 201310670444 A CN201310670444 A CN 201310670444A CN 103916450 B CN103916450 B CN 103916450B
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Abstract
A kind of high-performance data warehouse architecture, including the second core switch, virtual local area network switch, the first optical fiber switch and the second optical fiber switch, also include load equalizer, exploitation server cluster, testing service device cluster, collection and commissioning server cluster and production server cluster, each cluster sets up communication link with optical fiber switch respectively, sets up communication link by load equalizer and the second core switch and virtual local area network switch respectively.Form complete hardware systems, form data warehouse exploitation hardware cluster corresponding with each professional system, test hardware cluster, collection debugging hardware cluster and production control hardware cluster, each hardware cluster is based on existing extensible technique framework, can not only preferably support and meet each secondary unit for independent development, autonomous management, autonomous O&M demand, evade the data safety risk of each secondary unit independent development, safe and reliable exploitation authority decentralization is realized, and with stronger autgmentability.
Description
Technical field
The present invention relates to a kind of data-storage system, more particularly to a kind of storage system of big data.
Background technology
For a group company, can all there is the branch company of multiple different geographicals, the rank of branch company can be from
Two grades, three-level until Pyatyi, each branch company is more willing to for the data of oneself to be placed on individually service as independent mechanism
On device, a single data warehouse, the referred to as this Based Data Warehouse System divided by company, distributed data storehouse are formed
Storehouse system.Because each Distributed Data Warehouse system can be formed by several relevant speciality systems, its data scoping is received
The structure limitation of software systems and hardware system so that the fusion and utilization of data are subject to territory restriction, are mainly manifested in:
Each Distributed Data Warehouse is difficult to management and control.The creation data consolidated accounts of group company is difficult in this distributed ring
Provided well under border.One of main data of consolidated accounts are exactly organization, all there is portion on every server
Single organization chart.A certain time point, it will be assumed that this organization's data is all in all Distributed Data Warehouses
The same.1 month is spent, branch company of the U.S. has merged company ABC, then this is changed in the data warehouse of branch company of the U.S.
Updated, but, in organization's data of group and in the absence of company ABC.African branch company and Far East branch company
Do not exist company ABC in data warehouse yet.The master data uniformity of each Distributed Data Warehouse cannot be ensured.
The data syn-chronization existence time of each Distributed Data Warehouse is poor.Distributed Data Warehouse system must select one together
At step time point, multiple data warehouses that all-network is connected are synchronized into renewal, just can guarantee that all Data Warehouses
Accuracy.The local personnel of this Distributed Data Warehouse can only check local data in principle, be looked into for other purposes
See that global data will face 2 problems, one is Data Consistency, the time that the synchronous time updates with company ABC must
There is a time difference, data are difficult to accomplish consistent between this time difference.
There is potential risk in data safety and the integrality transmission in the data synchronization process of each Distributed Data Warehouse.Point
Cloth data warehouse data transmission key element includes transmission frequency, the legitimacy of transmission(Across action scope), it is impossible to ensure that information is come
Come from correct place, it is impossible to set authority and ensure only it should be understood that the data warehouse that company ABC updates can just be received.
The professional system of Distributed Data Warehouse system is currently formed generally using SAP system software, is necessarily occurred out
Connection and it is connected with the software and hardware of specific production process between the complicated systems such as hair, test, collection and production, this can cause group
Plane data warehouse system cannot carry out effectively optimization of both software and hardware.
The content of the invention
It is an object of the invention to provide a kind of high-performance data warehouse architecture, Distributed Data Warehouse is solved due to hard
Part framework disperses, and causes software systems by action scope and physics territory restriction, the uniformity and synchronism of data, and data peace
The technical problem that full property cannot ensure.
High-performance data warehouse of the invention architecture, the second core switch, virtual local area network switch, the first light
Fine interchanger and the second optical fiber switch, also including load equalizer, exploitation server cluster, testing service device cluster, collection
With commissioning server cluster and production server cluster, each server cluster hands over the first optical fiber switch and the second optical fiber respectively
Change planes and set up communication link, each server cluster is handed over by load equalizer and the second core switch and VLAN respectively
Change planes and set up communication link.
Each server in each hardware server cluster includes four FPDPs, the 3rd of each server the
FPDP connects the first optical fiber switch, and the 4th FPDP of each server connects the second optical fiber switch, each load
Communication link is set up in the request side data port of balanced device with the second core switch and virtual local area network switch respectively.
The first FPDP of server connects the load distribution of the first load equalizer in the exploitation server cluster
The corresponding data port of side, the second FPDP of server connects the load of the second load equalizer in exploitation server cluster
Distribute the corresponding data port of side.
The first FPDP of server connects the load distribution of the second load equalizer in the testing service device cluster
The corresponding data port of side, the second FPDP of server connects the load of the first load equalizer in testing service device cluster
Distribute the corresponding data port of side.
Described collection is connected the negative of the 3rd load equalizer with the first FPDP of server in commissioning server cluster
The corresponding data port of distribution side is carried, collection is connected the 4th load with the second FPDP of server in commissioning server cluster
The corresponding data port of the load distribution side of balanced device.
The first FPDP of server connects the load distribution of the 4th load equalizer in the production server cluster
The corresponding data port of side, the second FPDP of server connects the load of the 3rd load equalizer in production server cluster
Distribute the corresponding data port of side.
Also include the second collection and commissioning server cluster, server therein all includes four FPDPs, server
The first FPDP connect the second core switch, each server the second FPDP connection VLAN exchange
Machine, the 3rd FPDP of each server connects the first optical fiber switch, the 4th FPDP connection of each server the
Two optical fiber switch.
The load balancing apparatus that the load equalizer is formed for the operand store space of server, exploitation server collection
Group includes an exploitation server, and testing service device cluster includes a testing service device, collection and commissioning server set
Group includes a collection and commissioning server, and production server cluster includes two production servers, load balancing apparatus
4 load requests distribute modules of middle setting, the second core switch and virtual local area network switch divide with each load requests respectively
Data access route is set up with module, the first load requests distribute module is respectively with the first of exploitation server and testing service device
FPDP sets up data access route, and the second load requests distribute module is respectively with the of exploitation server and testing service device
Two FPDPs set up data access route, the 3rd load requests distribute module respectively with collection with commissioning server and two lifes
The first FPDP for producing server sets up data access route, and the 4th load requests distribute module takes with collection with commissioning respectively
Second FPDP of business device and two production servers sets up data access route.
Development environment system is installed on exploitation server cluster, test environment system is installed on testing service device cluster
System, installs true environment debugging system in collection and commissioning server cluster, installs formal raw on production server cluster
Product system;Also include request interactive device, identification authentication system, performance guarantee device and tables of data in server cluster is produced
Existing device,
Request interactive device, the internet data interface for providing a user with standard is to be set up between PRD systems and user
Communication link;
Identification authentication system, for judging the user login information true and false, corresponding authority in PRD systems is given to real user
Data access voucher;
Performance guarantee device, the response process for asking PRD system of users for the access credentials according to user is dispatched
To the treatment of high speed memory environment;
Data Representation device, the data for response process to be processed are converted to the graph data of correlation, feed back to request
Interactive device.
In high-performance data warehouse of the invention architecture, by the hardware configuration unification of each Distributed Data Warehouse,
And a complete hardware systems are formed, form data warehouse exploitation hardware cluster corresponding with each professional system, test hardware
Cluster, collection debugging hardware cluster and production control hardware cluster, each hardware cluster are based on existing extensible technique framework, no
Be only capable of preferably supporting and meet each secondary unit for independent development, autonomous management, autonomous O&M demand, evade each two grades
The data safety risk of unit independent development, realizes safe and reliable exploitation authority decentralization, and with stronger autgmentability.
Using data warehouse architecture, each professional software system can be set up and improve global data warehouse software frame
Structure, set up clearly for different application data warehouse level, including data warehouse layer, information switching layer, data set city level,
Statement analysis layer, decision support layer etc., there is provided flexible data-interface, adapt to the business change of secondary unit.
On the basis of data warehouse architecture, it is possible to use the hardware systems of centralized data depository and each cluster
Highly scalable, flexibly realizes the distribution and optimization of hardware resource, meets the growing day by day of data warehouse capacity, while ensureing
The Effec-tive Function of complicated professional software system.
Embodiments of the invention are described further below in conjunction with the accompanying drawings.
Brief description of the drawings
Fig. 1 is the hardware architecture schematic diagram of high-performance data warehouse architecture embodiment of the present invention;
Fig. 2 is the hardware connection diagram of high-performance data warehouse architecture embodiment of the present invention;
Fig. 3 is the structural representation of the data warehouse software systems using high-performance data warehouse of the present invention architecture;
Fig. 4 is the structural representation of hardware another embodiment of connection of high-performance data warehouse of the present invention architecture.
Specific embodiment
As shown in figure 1, the present embodiment includes the first core switch 11, the second core switch 12, VLAN
Interchanger 15, the first optical fiber switch 13 and the second optical fiber switch 14, also including log server 19, the first storage server
16th, the second storage server 17 and magnetic tape station 18, instance server 51, core database server 52, core database service
The electric FPDP of first group of device 52 and the first core switch 11 set up redundant data links, core database server 52
Second group of electric FPDP and the second core switch 12 set up redundant data links, the 3rd group of core database server 52
Electric FPDP sets up data link, first group of electric number of instance server 51 with the different segment of virtual local area network switch 15
Set up redundant data links according to port and the first core switch 11, second group of electric FPDP of instance server 51 with it is virtual
The different segment of LAN switch 15 sets up data link.First group of light data port of core database server 52 and the
One optical fiber switch 13 sets up data link, and second group of light data port of core database server 52 exchanges with the second optical fiber
Machine 14 sets up data link.First optical fiber switch 13 and the second optical fiber switch 14 are taken with daily record respectively by light data port
Business device 19, the first storage server 16, the second storage server 17 and magnetic tape station 18 set up data link.Log server 19,
, with optical fiber switch in local disposition, the second storage server 17 is disposed in strange land for magnetic tape station 18, the first storage server 16.
Hardware above framework, by the way that exchange data port is in core database server 52, instance server 51 and deposits
Link network is set up between storage server so that core production system obtains most reliable O&M environment so that each professional system exists
Efficiently separated on physical structure, the change of any one project system directly produces interference all without to core system.
As shown in Fig. 2 the present embodiment includes exploitation server cluster D01, testing service device cluster Q01, collection and adjusts
Survey server cluster M01 and produce server cluster P01, it is every in hardware server cluster also including four load equalizers
Individual server all includes four FPDPs, and the 3rd FPDP of each server connects the first optical fiber switch 13, each
4th FPDP of server connects the second optical fiber switch 14;
The first FPDP of server connects the load point of the first load equalizer LB1 in exploitation server cluster D01
Corresponding data port with side, the second FPDP of server connects the second load equalizer in exploitation server cluster D01
The corresponding data port of the load distribution side of LB2;The first FPDP connection second of server in testing service device cluster Q01
The corresponding data port of the load distribution side of load equalizer LB2, the second data terminal of server in testing service device cluster Q01
The corresponding data port of the load distribution side of the first load equalizer LB1 of mouth connection;Taken in collection and commissioning server cluster M01
First FPDP of business device connects the corresponding data port of the load distribution side of the 3rd load equalizer LB3, collection and commissioning
The second FPDP of server connects the respective counts of the load distribution side of the 4th load equalizer LB4 in server cluster M01
According to port;The first FPDP of server connects the load distribution of the 4th load equalizer LB4 in production server cluster P01
The corresponding data port of side, the second FPDP of server connects the 3rd load equalizer LB3 in production server cluster P01
Load distribution side corresponding data port;
The request side data port of each load equalizer respectively with the second core switch 12 and virtual local area network switch
15 set up communication link.
It is installed above in the second core switch 12, virtual local area network switch 15, the first optical fiber switch 13 and second
Hardware structure between optical fiber switch 14 has fully ensured that the stability and scalability of data warehouse performance, it is ensured that collection
The reliability of Chinese style data warehouse, can be adjusted by centralized management to any portion in the present embodiment, dynamically suitable
Answer user's request increment simultaneously so that core software system can be separated with the logical layer application such as network gateway, software and hardware system
The optimization of system is able to depth realization.
The present embodiment also includes the second collection and commissioning server cluster M02, and server therein all includes four data
Port, the first FPDP of server connects the second core switch 12, and the second FPDP connection of each server is empty
Intend LAN switch 15, the 3rd FPDP of each server connects the first optical fiber switch 13, the of each server
Four FPDPs connect the second optical fiber switch 14.This cluster can be exchanged by the second core switch 12 and VLAN
Machine 15 emulates data warehouse external environment condition, and directly the true service data of collection production server cluster P01 forms commissioning
Data carry out system debug, improve the detection of system data uniformity and integrality.
As shown in figure 3, specific ERP professional software systems are installed on exploitation server cluster D01 and opened by taking SAP as an example
Hair ring border(DEV)System, test environment is installed on testing service device cluster Q01(QAS)System, in collection and commissioning server
True environment debugging is installed on cluster M01(MOCK)System, installs formal production on production server cluster P01(PRD)System
System.Also include request interactive device 100, identification authentication system 200, performance guarantee device 300 and 400 4, Data Representation device
Attachment device is used to complete corresponding systemic-function.
Request interactive device 100, the internet data interface for providing a user with standard, is between PRD systems and user
Set up communication link;
Identification authentication system 200, for judging the user login information true and false, gives corresponding in PRD systems to real user
The data access voucher of authority;
Performance guarantee device 300, the response process for asking PRD system of users for the access credentials according to user is adjusted
Degree to high speed memory environment is processed;
Data Representation device 400, the data for response process to be processed are converted to the graph data of correlation, and feeding back to please
Seek interactive device 100.
Specifically, request interactive device 100 can be Rich Media's web page server, or comprehensive ssl protocol portal
Stand.Identification authentication system 200 can be radius server, or ldap server.Performance guarantee device 300 can be blade
Server cluster, or DDR5 memory arrays.Data Representation device 400 can be the graphics workstation for configuring automatized script,
Or report server.
By on the data Layer that is formed in data warehouse, Access Layer being established and in data for user using apparatus above
Graphical data is formd between layer and Access Layer, standardization and authentication mechanism by Access Layer so that graphics data can
In a standard format for user quotes on different terminals, the limitation to user's request terminal is eliminated, be that user understands that data are carried
The reference of various visual angles is supplied, it is ensured that the real-time and accuracy of decision-making.
As shown in figure 4, on the basis of above example, the second core switch 12, virtual local area network switch 15 with
Operand store space between each server cluster using server forms load balancing apparatus AP, for specified difference clothes
The operand store of business device carries out unifying addressing.Several load requests distribute modules, shape are loaded in load balancing apparatus AP
Load requests distribute module into by internal memory completes to pass through exchange using the data cube computation with inter-exchange, realization in server
The user's request of machine can high speed be allocated by each load requests distribute module in internal memory, give full play to the effect of server
Energy.
In the present embodiment, exploitation server cluster D01 includes an exploitation server, testing service device cluster Q01
Include a testing service device, collection includes a collection and commissioning server, production clothes with commissioning server cluster M01
Business device cluster P01 includes two production servers, and 4 load requests distribute modules, second are set in load balancing apparatus AP
Core switch 12 and virtual local area network switch 15 set up data access route, first with each load requests distribute module respectively
First FPDPs of the load requests distribute module MS01 respectively with exploitation server and testing service device sets up data access road
By second FPDPs of the second load requests distribute module MS02 respectively with exploitation server and testing service device sets up data
Route is accessed, the 3rd load requests distribute module MS03 produces the first of server with collection with commissioning server and two respectively
FPDP set up data access route, the 4th load requests distribute module MS04 respectively with collection with commissioning server and two
The second FPDP for producing server sets up data access route.
In view of the reliability of communication link, any data port of each hardware server may be configured to one
Group, realizes the redundancy link of same communication link.
Above-described case study on implementation is only that the preferred embodiment of the present invention is described, not to of the invention
Scope is defined, and on the premise of design spirit of the present invention is not departed from, those of ordinary skill in the art are to technology of the invention
Various modifications and improvement that scheme is made, all should fall into the protection domain of claims of the present invention determination.
Claims (4)
1. a kind of data warehouse data treatment and performance acceleration method, including the second core switch (12), VLAN are handed over
Change planes (15), the first optical fiber switch (13) and the second optical fiber switch (14), it is characterised in that:Also accelerate including internal memory performance
Device, load equalizer, exploitation server cluster (D01), integration testing server cluster (Q01), simulation test server cluster
(M01) and production server cluster (P01), each server cluster exchanges with the first optical fiber switch (13) and the second optical fiber respectively
Machine (14) sets up communication link, and each server cluster passes through load equalizer and the second core switch (12) and virtual office respectively
Domain network switch (15) sets up communication link;It is furnished with internal memory performance accelerator on load equalizer (LB4), it is main to complete to production
The query and search of big data quantity accelerates function in server cluster;
Each server in each hardware server cluster includes four FPDPs, the 3rd data of each server
Port connects the first optical fiber switch (13), and the 4th FPDP of each server connects the second optical fiber switch (14), respectively
The request side data port of load equalizer is set up with the second core switch (12) and virtual local area network switch (15) respectively
Communication link;
The first FPDP of server connects the negative of the first load equalizer (LB1) in the exploitation server cluster (D01)
The corresponding data port of distribution side is carried, the second FPDP connection second of server is loaded in exploitation server cluster (D01)
The corresponding data port of the load distribution side of balanced device (LB2), load-balanced server is except the completing exploitation program application of the task
Share outer, the function of requirement developing PROGRAMMED REQUESTS transmission is also undertaken, from exploitation server cluster transmission to integration testing server
Cluster;
The first FPDP of server connects the second load equalizer (LB2) in the integration testing server cluster (Q01)
Load distribution side corresponding data port, in testing service device cluster (Q01) server the second FPDP connection first
The corresponding data port of the load distribution side of load equalizer (LB1), load-balanced server is except the completing integration testing of the task
It is balanced outer, the function of requirement developing PROGRAMMED REQUESTS transmission is also undertaken, from integrating server cluster transmission to simulation test server
Cluster;
The first FPDP of server connects the 3rd load equalizer (LB3) in the simulation test server cluster (M01)
Load distribution side corresponding data port, in simulation test server cluster (M01) server the second FPDP connection
The corresponding data port of the load distribution side of the 4th load equalizer (LB4), load-balanced server should except completion simulation test
Outside task sharing, the function of requirement developing PROGRAMMED REQUESTS transmission is also undertaken, life is transferred to from integration testing server cluster
Produce server cluster;
The first FPDP of server connects the negative of the 4th load equalizer (LB4) in production server cluster (P01)
The corresponding data port of distribution side is carried, the second FPDP connection the 3rd of server is loaded in production server cluster (P01)
The corresponding data port of the load distribution side of balanced device (LB3).
2. data warehouse data according to claim 1 is processed and performance acceleration method, it is characterised in that:Production server
It is divided into group and produces server (P01) and internal control server (P02);Its configuration of this two sets of server clusters and data need
It is mutually isolated;The application and development program biography that group produces server (P01) and internal control server (P02) is served to ensure
Defeated request and configuration can be by same set of exploitation server cluster (D01), integration testing server cluster (Q01), simulation tests
The path transmission of server cluster (M01) is to corresponding (P01) and (P02), it is necessary to build a set of virtual simulation test service
The program development and configuration that device cluster (M02) will belong to (P02) are transferred in corresponding system;Second virtual analog test clothes
Business device (M02), production server cluster (P02), server therein all includes four FPDPs, the first data of server
Port connects the second core switch (12), and the second FPDP of each server connects virtual local area network switch (15),
3rd FPDP of each server connects the first optical fiber switch (13), the 4th FPDP connection of each server the
Two optical fiber switch (14);Virtual analog testing service device (M02) actually has no physical machine, only realizes to production server
The corresponding transmitting device of cluster P02 and set.
3. data warehouse data according to claim 2 is processed and performance acceleration method, it is characterised in that:The load is equal
The load balancing apparatus (AP) that weighing apparatus is formed for the operand store space of server, and can simultaneously install and configure internal memory performance
Accelerate and transmission processing device, exploitation server cluster (D01) includes an exploitation server, testing service device cluster
(Q01) a testing service device is included, simulation test server cluster (M01) includes a simulation test server, it is raw
Producing server cluster (P01) includes two production servers, and 4 load requests distribution moulds are set in load balancing apparatus (AP)
Block, the second core switch (12) and virtual local area network switch (15) set up data visit with each load requests distribute module respectively
Ask the way by first FPDP of the first load requests distribute module (MS01) respectively with exploitation server and testing service device is built
Vertical data access route, the second load requests distribute module (MS02) respectively with exploitation server and the second number of testing service device
According to port set up data access route, the 3rd load requests distribute module (MS03) respectively with the physics of simulation test server
(M01) it is connected with virtual server (M02), and the first FPDP of two production servers of correspondence sets up data access road
By, the 4th load requests distribute module (MS04) respectively with simulation test server and the second data terminals of two production servers
Mouth sets up data access route.
4. data warehouse data according to claim 3 is processed and performance acceleration method, it is characterised in that:Serviced in exploitation
Development environment system is installed on device cluster (D01), test environment system is installed on integration testing server cluster (Q01),
True environment debugging system, internal memory performance acceleration system are installed, in production server set on simulation test server cluster (M01)
Formal production system is installed on group (P01);Also include request interactive device (100), identity in production server cluster (P01)
Authentication device (200), performance guarantee device (300) and Data Representation device (400);
Request interactive device (100), the internet data interface for providing a user with standard, is to be built between PRD systems and user
Vertical communication link;
Identification authentication system (200), for judging the user login information true and false, gives to real user and accordingly weigh in PRD systems
The data access voucher of limit;
Performance guarantee device (300), the response process for asking PRD system of users for the access credentials according to user is dispatched
To the treatment of high speed memory environment;
Data Representation device (400), the data for response process to be processed are converted to the graph data of correlation, feed back to request
Interactive device (100).
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| CN201310670444.1A CN103916450B (en) | 2013-12-10 | 2013-12-10 | High-performance data warehouse architecture |
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| CN201310670444.1A CN103916450B (en) | 2013-12-10 | 2013-12-10 | High-performance data warehouse architecture |
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| CN103916450B true CN103916450B (en) | 2017-06-13 |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN106713164A (en) * | 2016-12-29 | 2017-05-24 | 北京奇艺世纪科技有限公司 | System, method and apparatus for balancing flow between switch ports |
| CN108683567B (en) * | 2018-05-30 | 2021-12-07 | 郑州云海信息技术有限公司 | Switch port fault testing method and system based on MCS and server |
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| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101021910A (en) * | 2006-02-13 | 2007-08-22 | 中山市人民医院 | Large scale integrated hospital information system and equipment thereof |
| CN101841526A (en) * | 2010-03-04 | 2010-09-22 | 清华大学 | Cluster streaming media server system applied to large-scale user demand |
| CN101860078A (en) * | 2010-04-27 | 2010-10-13 | 山西省电力公司电力通信中心 | Electric power integrated communication resource management system |
| CN202886956U (en) * | 2012-10-16 | 2013-04-17 | 浙江天工自信科技工程有限公司 | Power-generator performance monitoring system based on similarity principle |
Family Cites Families (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US9621402B2 (en) * | 2011-09-12 | 2017-04-11 | Microsoft Technology Licensing, Llc | Load balanced and prioritized data connections |
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Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN101021910A (en) * | 2006-02-13 | 2007-08-22 | 中山市人民医院 | Large scale integrated hospital information system and equipment thereof |
| CN101841526A (en) * | 2010-03-04 | 2010-09-22 | 清华大学 | Cluster streaming media server system applied to large-scale user demand |
| CN101860078A (en) * | 2010-04-27 | 2010-10-13 | 山西省电力公司电力通信中心 | Electric power integrated communication resource management system |
| CN202886956U (en) * | 2012-10-16 | 2013-04-17 | 浙江天工自信科技工程有限公司 | Power-generator performance monitoring system based on similarity principle |
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