CN110442500A - A kind of test method and device of the super fusion clustering performance based on Unixbench - Google Patents
A kind of test method and device of the super fusion clustering performance based on Unixbench Download PDFInfo
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- CN110442500A CN110442500A CN201910653875.4A CN201910653875A CN110442500A CN 110442500 A CN110442500 A CN 110442500A CN 201910653875 A CN201910653875 A CN 201910653875A CN 110442500 A CN110442500 A CN 110442500A
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- super fusion
- virtual machine
- unixbench
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/34—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment
- G06F11/3409—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment for performance assessment
- G06F11/3428—Benchmarking
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F11/00—Error detection; Error correction; Monitoring
- G06F11/30—Monitoring
- G06F11/34—Recording or statistical evaluation of computer activity, e.g. of down time, of input/output operation ; Recording or statistical evaluation of user activity, e.g. usability assessment
- G06F11/3457—Performance evaluation by simulation
Abstract
The test method and device for the super fusion clustering performance based on Unixbench that the present invention relates to a kind of, this method comprises: the super fusion cluster of multiple nodes is created, to form the public resource pond of super fusion cluster;Linux virtual machine is respectively created on the server of each node of super fusion cluster;Unixbench is disposed in each Linux virtual machine;Unixbench is run on each Linux virtual machine respectively to test the performance in public resource pond, the test result distinguished;Summarize all test results, to obtain the performance test report of the super fusion cluster.The present invention further extends the application of Unixbench, is applied to the performance test of super fusion cluster by Linux virtual machine.Through the above technical solutions, realize cannot or it is inconvenient using HCIbench when super fusion cluster is tested for the property.
Description
Technical field
The present invention relates to clustering performance the field of test technology.It is super based on Unixbench that the invention further relates to a kind of
Merge the test method and device of clustering performance.
Background technique
Super fusion infrastructure (HCI) of Microsoft is that a server node cluster has both calculating and store function, is provided easily
In the height virtualization solution of deployment, management and extension.The framework simplifies IT infrastructure, needs client no longer
The calculating of traditional separate type, shared storage (SAN/NAS) and the network equipment are operation virtualization (Hyper-V) workloads
The idealization of middle-size and small-size IT enterprises selects.
Super fusion clustering performance testing tool it is popular at present be vmware HCIbench, this testing tool is not
Performance test suitable for the super fusion cluster of Microsoft.Meanwhile work also is tested without the super fusion clustering performance of special Microsoft at present
Tool and specification.In addition, in some cases, the test for surpassing fusion cluster HCIbench may also occurs and be not suitable for or make
With inconvenient possibility.
Accordingly, it is desirable to provide a kind of test method of the super fusion clustering performance independent of HCIbench, further mentions
For a kind of performance test methods of the super fusion cluster of Microsoft.
Summary of the invention
On the one hand, the present invention is based on above-mentioned purposes to propose a kind of survey of super fusion clustering performance based on Unixbench
Method for testing, this method at least include the following steps:
The super fusion cluster of multiple nodes is created, to form the public resource pond of super fusion cluster;
Linux virtual machine is respectively created on the server of each node of super fusion cluster;
Unixbench is disposed in each Linux virtual machine;
Unixbench is run on each Linux virtual machine respectively to test the performance in public resource pond, is distinguished
Test result;
Summarize all test results, to obtain the performance test report of the super fusion cluster.
The embodiment of the test method of super fusion clustering performance according to the present invention, wherein creating the super fusion of multiple nodes
Cluster, the public resource pond with the super fusion cluster of formation further comprises: by multiple server sections for being equipped with Windows system
Point builds super fusion cluster.
The embodiment of the test method of super fusion clustering performance according to the present invention, wherein creating the super fusion of multiple nodes
Cluster further comprises: creating the super fusion of at least 2, at most 16 nodes to form the public resource pond of super fusion cluster
Cluster.
The embodiment of the test method of super fusion clustering performance according to the present invention, wherein in each section of super fusion cluster
Linux virtual machine is respectively created further comprises on the server of point: on the server of each node of super fusion cluster minute
It Chuan Jian not at least one, at most 20 Linux virtual machines.
The embodiment of the test method of super fusion clustering performance according to the present invention, wherein on each Linux virtual machine
Deployment Unixbench further comprises:
Unixbench is deployed on the first Linux virtual machine on the server of each node;
Unixbench is copied on remaining Linux virtual machine on the server by the first Linux virtual machine.
The embodiment of the test method of super fusion clustering performance according to the present invention, wherein virtual in each Linux respectively
Unixbench is run on machine to test the performance in public resource pond, the test result obtained respectively further comprises: by each clothes
The Unixbench for the Linux virtual machine being engaged on the first Linux virtual machine batch starting server on device.
On the other hand, the test device for the super fusion clustering performance based on Unixbench that the invention also provides a kind of, should
Device includes:
At least one processor;With
Memory, the memory are stored with the program code that processor can be run, which runs by processor
Shi Zhihang following steps:
The super fusion cluster of multiple nodes is created, to form the public resource pond of super fusion cluster;
Linux virtual machine is respectively created on the server of each node of super fusion cluster;
Unixbench is disposed in each Linux virtual machine;
Unixbench is run on each Linux virtual machine respectively to test the performance in public resource pond, is distinguished
Test result;
Summarize all test results, to obtain the performance test report of super fusion cluster.
The embodiment of the test device of super fusion clustering performance according to the present invention, wherein super fusion cluster is by multiple peaces
The super fusion cluster that server equipped with Windows system is built, and in super fusion cluster all nodes share one it is public
Resource pool.
The test device of super fusion clustering performance according to the present invention, wherein being disposed on each Linux virtual machine
Unixbench further comprises:
Unixbench is deployed on the first Linux virtual machine on the server of each node;
Unixbench is copied on remaining Linux virtual machine on the server by the first Linux virtual machine.
The embodiment of the test device of super fusion clustering performance according to the present invention, wherein virtual in each Linux respectively
Unixbench is run on machine to test the performance in the public resource pond of super fusion cluster, the test result distinguished is further
It include: by the Unixbench of the Linux virtual machine on the first Linux virtual machine batch starting server on each server.
By adopting the above technical scheme, the present invention at least has the following beneficial effects: application of the present invention to Unixbench
It is further extended, test will be widely used under Unixbench this class unix (Unix, BSD, Linux) system
Performance test of the testing tool of Linux system host performance for super fusion cluster.Technical solution of the present invention proposition passes through
Linux virtual machine is created on super fusion cluster server, and runs above-mentioned Unixbench performance on Linux virtual machine and surveys
Trial work has with the common pool of test cluster, obtains respectively test result, finally summarizes each test result with synthesis
Analyze the test report of excess of export fusion cluster.Through the above technical solutions, realize cannot or it is inconvenient using HCIbench when
Super fusion cluster is tested for the property.
The present invention provides the various aspects of embodiment, should not be taken to limit protection scope of the present invention.According to retouching herein
The technology stated is contemplated that other embodiment, this is to those skilled in the art in research the following drawings and specific
It will be apparent after embodiment, and these embodiments intention is comprised in scope of the present application.
Below with reference to the accompanying drawings it is explained in greater detail and describes the embodiment of the present invention, but they should not be construed as this
The limitation of invention.
Detailed description of the invention
In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be in the prior art and embodiment description
Required attached drawing is briefly described, and the component in attached drawing is not drawn necessarily to scale, and can be omitted relevant
Element, or ratio may be amplified in some cases, it is described herein novel special to emphasize and to be clearly shown
Sign.In addition, as it is known in the art, structural order can be arranged differently.
In figure:
Fig. 1 shows the schematic block diagram of the embodiment of the test method of super fusion clustering performance according to the present invention.
Specific embodiment
Although the present invention can be implemented in a variety of manners, it is shown in the accompanying drawings and will be described below some show
Example property and non-limiting embodiment, it is understood that, the disclosure will be considered as that example of the invention is not intended this
Invention is limited to illustrated specific embodiment.
Fig. 1 shows the schematic block diagram of the embodiment of the test method of super fusion clustering performance according to the present invention.Such as
Shown in figure, this method is at least included the following steps:
S1: creating the super fusion cluster of multiple nodes, to form the public resource pond of super fusion cluster;
S2: Linux virtual machine is respectively created on the server of each node of super fusion cluster;
S3: Unixbench is disposed in each Linux virtual machine;
S4: it runs Unixbench on each Linux virtual machine respectively to test the performance in public resource pond, is divided
Other test result;
S5: summarizing all test results, to obtain the performance test report of the super fusion cluster.
Specifically, step S1 first creates the super fusion cluster of multiple nodes, with the magnetic of the server of each node
Disk resource is fused to each other the common pool to form super fusion cluster.The super fusion cluster formed herein especially refers to cannot
Or the inconvenient super fusion cluster being tested for the property using HCIbench.
Linux virtual machine is respectively created on the server of each node of the super fusion cluster in subsequent step S2.By
In the performance testing tool that Unixbench is under class unix (Unix, BSD, Linux) system, and created in step S1
Server in super fusion cluster does not have class unix (Unix, BSD, Linux) system, therefore step S2 in some cases
Creation Linux virtual machine is on the server for the operation Unixbench performance testing tool in the super fusion cluster.
After the Linux virtual machine creating for completing step S2, Linux of the step S3 on the server of each node is virtual
Unixbench is disposed in machine.After deployment is completed, step S4 is respectively on the Linux virtual machine on the server of each node
It runs Unixbench and obtains corresponding test result to be tested for the property to common pool involved in step S1,
That is Unixbench test result.The test result represents the use from different node servers to shared common pool
Performance index, express to a certain extent from different angles respectively it is super fusion cluster partial properties feature.
Finally, overall performance feature of the step S5 super fusion cluster in order to obtain, by all surveys obtained in step S4
Examination score summarizes and uses certain statistical means comprehensive analysis, finally obtains the whole performance test report of the super fusion cluster
It accuses.
In some embodiments of the test method of super fusion clustering performance of the invention, the super fusion of multiple nodes is created
Cluster, the public resource pond for forming super fusion cluster further comprises: by multiple server nodes for being equipped with Windows system
Build super fusion cluster.It is worth noting that, present invention is particularly suitable for the performance tests of the super fusion cluster of Microsoft, i.e., by multiple
The performance test for the super fusion cluster that the server of Windows system is built is installed.Super fusion cluster popular at present
Performance testing tool HCIbench is not particularly suited for the super fusion cluster of Microsoft, while also without the super fusion sociability of special Microsoft
Can testing tool and specification, therefore The inventive process provides the super fusion clustering performance test of simple and efficient realization Microsoft can
Energy.
In several embodiments of the test method of super fusion clustering performance of the invention, step S1 creates multiple nodes
Super fusion cluster, the public resource pond for forming super fusion cluster further comprises: creation at least two, at most 16 nodes it is super
Merge cluster.After the super fusion cluster for creating at most 16 nodes of at least two, corresponding at least two at most 16 sections
The disk resource of the server of point is fused to each other the common pool to form super fusion cluster.
In some embodiments of the test method of super fusion clustering performance of the invention, step S2 is in super fusion cluster
Linux virtual machine is respectively created on the server of each node further comprises: in the service of each node of super fusion cluster
At least one, at most 20 Linux virtual machines are respectively created on device.At least one Linux virtual machine is ensured and is then realized at this
Unixbench performance testing tool is run in super fusion cluster.Multiple Linux virtual machines are created on a single node then can
The performance test for preferably carrying out super fusion cluster, ultimately forms more comprehensive more fully overall performance test report.
In one or more embodiments of the test method of super fusion clustering performance of the invention, step S3 is each
Unixbench is disposed on Linux virtual machine further comprises:
S31: Unixbench is deployed on the first Linux virtual machine on the server of each node;
S32: remaining the Linux virtual machine being copied to Unixbench by the first Linux virtual machine on the server
On.
First on server that Unixbench is deployed in each node in the further sub-step S31 of step S3
On Linux virtual machine.If creating multiple Linux virtual machines on server, the first Linux virtual machine is in sequence the by name
One virtual machine.If only creating a Linux virtual machine on server, which is exactly sequence the by name
One virtual machine, i.e. the first Linux virtual machine.Unixbench is deployed in by sub-step S31 first to be determined according to mentioned above principle
The first Linux virtual machine on.Then when needed, that is, on the server when creation has multiple Linux virtual machines, son
Unixbench is copied on remaining Linux virtual machine on the server by step S32 by the first Linux virtual machine.In son
In step S32, the realization of the first automatized script is run by the first Linux virtual machine, Unixbench is copied to the server
On remaining Linux virtual machine on function.For example, naming Linux virtual machine with VM-i, wherein i is Linux virtual machine at this
Serial number suffix on server preferably has 20 Linux virtual machines, then executed on the Linux virtual machine of VM-1 this
One automatized script, code for example:
for i in{2..20};
do scp-r/home/unixbench/VM-$i:/home/;
done
To by the first Linux virtual machine for sub-step S32 can be automatically completed by executing above-mentioned first automatized script
Unixbench is copied to the process on remaining Linux virtual machine on the server.Subtracted by sub-step S31 and sub-step S32
Time and the process that copy function is carried out to each virtual machine are lacked.
In several embodiments of the test method of super fusion clustering performance of the invention, step S4 is respectively each
Unixbench is run on Linux virtual machine to test the performance in public resource pond, the test result distinguished further is wrapped
It includes: by the Unixbench of the Linux virtual machine on the first Linux virtual machine batch starting server on each server.In
This, the first Linux virtual machine determined according to aforementioned principle is started on the server by the second automatized script batch
The Unixbench of Linux virtual machine is to be tested for the property.For example, being further illustrated with aforementioned exemplary, in the Linux of VM-1
Execute second automatized script on virtual machine, code for example:
#!/user/bin/expect-f
For { set i 2 } { i≤20 $ } { incr i }
Spawn ssh-l root 192.168.1. $ i#IP fills in practical network segment
expect"*password:"
sleep 10
Send " 123456 r " #root user password
send"cd/home/unixbench\r"
send"make clean\r"
send"make\r"
send"./run\r"
expect eof
}
Executing above-mentioned second automatized script can be automatically completed by the first Linux virtual machine on each server
The process of the Unixbench of Linux virtual machine on batch starting server.Reduce through the above steps to each virtual machine
Execute time and the process of starting Unixbench operation.
On the other hand, the test device for the super fusion clustering performance based on Unixbench that the invention also provides a kind of, should
Device is tested for the property the super fusion cluster after being used for.The test device includes: at least one processor;And memory,
The memory is stored with the program code that processor can be run, which at least executes following step when being run by processor
It is rapid:
S1: creating the super fusion cluster of multiple nodes, to form the public resource pond of super fusion cluster;
S2: Linux virtual machine is respectively created on the server of each node of super fusion cluster;
S3: Unixbench is disposed in each Linux virtual machine;
S4: it runs Unixbench on each Linux virtual machine respectively to test the performance in public resource pond, is divided
Other test result;
S5: summarizing all test results, to obtain the performance test report of super fusion cluster.
In some embodiments of the test device of super fusion clustering performance of the invention, which is by multiple
The super fusion cluster that the server of Windows system is built is installed, and all nodes share a public affairs in super fusion cluster
Resource pool altogether.
In one or more embodiments of the test device of super fusion clustering performance of the invention, step S3 is each
Unixbench is disposed on Linux virtual machine at least to further include steps of
S31: Unixbench is deployed on the first Linux virtual machine on the server of each node;
S32: remaining the Linux virtual machine being copied to Unixbench by the first Linux virtual machine on the server
On.
In several embodiments of the test device of super fusion clustering performance of the invention, step S4 is respectively each
Unixbench is run on Linux virtual machine to test the performance in the public resource pond of super fusion cluster, the test distinguished point
Number further comprises: by the Linux virtual machine on the first Linux virtual machine batch starting server on each server
Unixbench。
It can be various electric terminal equipments, such as mobile phone, a number that the embodiment of the present invention, which discloses described device, equipment etc.,
Word assistant (PDA), tablet computer (PAD), smart television etc., are also possible to large-scale terminal device, such as server, therefore this hair
Protection scope disclosed in bright embodiment should not limit as certain certain types of device, equipment.The embodiment of the present invention discloses described
Client can be with the combining form of electronic hardware, computer software or both be applied to any one of the above electric terminal
In equipment.
Computer readable storage medium (such as memory) as described herein can be volatile memory or non-volatile
Memory, or may include both volatile memory and nonvolatile memory.As an example and not restrictive, it is non-easy
The property lost memory may include read-only memory (ROM), programming ROM (PROM), electrically programmable ROM (EPROM), electrically-erasable
Programming ROM (EEPROM) or flash memory.Volatile memory may include random access memory (RAM), the RAM
External cache can be served as.As an example and not restrictive, RAM can be obtained in a variety of forms, such as together
Walk RAM (DRAM), dynamic ram (DRAM), synchronous dram (SDRAM), double data rate SDRAM (DDR SDRAM), enhancing
SDRAM (ESDRAM), synchronization link DRAM (SLDRAM) and directly Rambus RAM (DRRAM).Disclosed aspect
Storage equipment is intended to the memory of including but not limited to these and other suitable type.
By adopting the above technical scheme, the present invention at least has the following beneficial effects: application of the present invention to Unixbench
It is further extended, test will be widely used under Unixbench this class unix (Unix, BSD, Linux) system
Performance test of the testing tool of Linux system host performance for super fusion cluster.Technical solution of the present invention proposition passes through
Create Linux virtual machine on super fusion cluster server, and run on Linux virtual machine above-mentioned Unixbench tool with
The common pool of test cluster obtains respectively test result, finally summarizes each test result with comprehensive analysis excess of export
Merge the test report of cluster.Through the above technical solutions, realize when HCIbench cannot be used to super fusion cluster into
Row performance test.
It should be understood that technically in feasible situation, above in relation to technical characteristic cited by different embodiments
It can be combined with each other, to form the additional embodiment in the scope of the invention.In addition, particular example as described herein and embodiment
It is non-limiting, and structure explained above, step and sequence can be revised accordingly without departing from the present invention
Protection scope.
In this application, the use of disjunctive is intended to include conjunction.Fixed or indefinite article use is not intended to
Indicate radix.Specifically, be intended to indicate that the reference of "the" object or " one " and "one" object can in multiple such objects
One of energy.However, removing and non-clearly limiting although element disclosed by the embodiments of the present invention can be described or be required in the form of individual
It is made as odd number, it is understood that be multiple.In addition it is possible to use conjunction "or" conveys simultaneous feature, rather than
Repelling programs.In other words, conjunction "or" is understood to include "and/or".Term " includes " is inclusiveness and has
Range identical with "comprising".
Above-described embodiment, especially any " preferably " embodiment are the possibility examples of embodiment, and just to clear
Chu understands the principle of the present invention and proposes.It, can without departing substantially from the spirit and principle of technique described herein
To make many change and modification to above-described embodiment.All modifications are intended to be included in the scope of the present disclosure.
Claims (10)
1. a kind of test method of the super fusion clustering performance based on Unixbench, which is characterized in that the method includes following
Step:
The super fusion cluster of multiple nodes is created, to form the public resource pond of the super fusion cluster;
Linux virtual machine is respectively created on the server of each node of the super fusion cluster;
Unixbench is disposed in each Linux virtual machine;
The Unixbench is run to test the performance in the public resource pond on each Linux virtual machine respectively, is obtained
To test result respectively;
Summarize all test results, to obtain the performance test report of the super fusion cluster.
2. the test method of super fusion clustering performance according to claim 1, which is characterized in that the multiple nodes of creation
Super fusion cluster, with formed it is described it is super fusion cluster public resource pond further comprise:
The super fusion cluster is built by multiple server nodes for being equipped with Windows system.
3. the test method of super fusion clustering performance according to claim 1, which is characterized in that the multiple nodes of creation
Super fusion cluster, with formed it is described it is super fusion cluster public resource pond further comprise:
Create the super fusion cluster of at least two, at most 16 nodes.
4. the test method of super fusion clustering performance according to claim 1, which is characterized in that described in the super fusion
Linux virtual machine, which is respectively created, on the server of each node of cluster further comprises:
At least one, at most 20 Linux virtual machines is respectively created on the server of each node of the super fusion cluster.
5. the test method of super fusion clustering performance according to claim 4, which is characterized in that described each described
Unixbench is disposed on Linux virtual machine further comprises:
The Unixbench is deployed on the first Linux virtual machine on the server of each node;
Remaining the Linux virtual machine being copied to the Unixbench by the first Linux virtual machine on the server
On.
6. the test method of super fusion clustering performance according to claim 5, which is characterized in that described respectively described each
The Unixbench is run on a Linux virtual machine to test the performance in the public resource pond, the test result distinguished
Further comprise:
The Linux virtual machine on the server is started by the first Linux virtual machine batch on each server
The Unixbench.
7. a kind of test device of the super fusion clustering performance based on Unixbench, which is characterized in that described device includes:
At least one processor;With
Memory, the memory are stored with the program code that processor can be run, and said program code is run by processor
Shi Zhihang following steps:
The super fusion cluster of multiple nodes is created, to form the public resource pond of the super fusion cluster;
Linux virtual machine is respectively created on the server of each node of super fusion cluster;
Unixbench is disposed in each Linux virtual machine;
The Unixbench is run to test the performance in the public resource pond on each Linux virtual machine respectively, is obtained
To test result respectively;
Summarize all test results, to obtain the performance test report of the super fusion cluster.
8. the test device of super fusion clustering performance according to claim 7, which is characterized in that the super fusion cluster is
The super fusion cluster built by multiple servers for being equipped with Windows system, and all nodes in the super fusion cluster
Share a common pool.
9. the test device of super fusion clustering performance according to claim 7, which is characterized in that described each described
Unixbench is disposed on Linux virtual machine further comprises:
The Unixbench is deployed on the first Linux virtual machine on the server of each node;
Remaining the Linux virtual machine being copied to the Unixbench by the first Linux virtual machine on the server
On.
10. the test device of super fusion clustering performance according to claim 9, which is characterized in that described respectively described
The Unixbench is run on each Linux virtual machine to test the performance in the public resource pond of the super fusion cluster, is obtained
Test result respectively further comprises:
The Linux virtual machine on the server is started by the first Linux virtual machine batch on each server
The Unixbench.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111061610A (en) * | 2019-12-09 | 2020-04-24 | 广州鼎甲计算机科技有限公司 | Generation method and device of cluster system performance test report and computer equipment |
CN114721922A (en) * | 2022-05-16 | 2022-07-08 | 北京并行科技股份有限公司 | Performance evaluation method of server cluster, computing equipment and storage medium |
CN114756413A (en) * | 2022-03-31 | 2022-07-15 | 北京志凌海纳科技有限公司 | Testing method and device for improving resource utilization rate |
-
2019
- 2019-07-19 CN CN201910653875.4A patent/CN110442500A/en not_active Withdrawn
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111061610A (en) * | 2019-12-09 | 2020-04-24 | 广州鼎甲计算机科技有限公司 | Generation method and device of cluster system performance test report and computer equipment |
CN111061610B (en) * | 2019-12-09 | 2020-10-20 | 广州鼎甲计算机科技有限公司 | Generation method and device of cluster system performance test report and computer equipment |
CN114756413A (en) * | 2022-03-31 | 2022-07-15 | 北京志凌海纳科技有限公司 | Testing method and device for improving resource utilization rate |
CN114721922A (en) * | 2022-05-16 | 2022-07-08 | 北京并行科技股份有限公司 | Performance evaluation method of server cluster, computing equipment and storage medium |
CN114721922B (en) * | 2022-05-16 | 2022-10-04 | 北京并行科技股份有限公司 | Performance evaluation method of server cluster, computing equipment and storage medium |
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Application publication date: 20191112 |