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author | JingLu5 <lvjing5@huawei.com> | 2018-04-23 02:47:08 +0000 |
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committer | Jing Lu <lvjing5@huawei.com> | 2018-04-24 02:08:16 +0000 |
commit | 4c20fb57684bc21e7ae0461341088100e518307d (patch) | |
tree | 2e1bf60a0a1fac157edaae3a98092b94aa743b64 /docs/release/results/os-nosdn-nofeature-noha.rst | |
parent | 7e2c35c4c33563d2007398f19f924cef9055ef4d (diff) |
Document for Euphrates test case results
JIRA: YARDSTICK-1132
In B and C releases, Yardstick provides an overview of the results of test cases
developed by Yardstick, executed on OPNFV community labs.
This work has not been done for the D and E releases, although result analysis
for Euphrates is available at (https://wiki.opnfv.org/display/yardstick/Euphrates+release+test+results+analysis).
We plan to restart to provide a basic test case results analysis for Fraser and compare performance data with Euphrates.
This JIRA ticket will be resolved into 3 commits: 1. Document for E release test case data; 2. Document for F release test case data;
3. Document for results analysis.
Change-Id: I372a60807ac3dfaab87e70cdb956c1059b019f7a
Signed-off-by: JingLu5 <lvjing5@huawei.com>
Diffstat (limited to 'docs/release/results/os-nosdn-nofeature-noha.rst')
-rw-r--r-- | docs/release/results/os-nosdn-nofeature-noha.rst | 259 |
1 files changed, 0 insertions, 259 deletions
diff --git a/docs/release/results/os-nosdn-nofeature-noha.rst b/docs/release/results/os-nosdn-nofeature-noha.rst deleted file mode 100644 index 8b7c184bb..000000000 --- a/docs/release/results/os-nosdn-nofeature-noha.rst +++ /dev/null @@ -1,259 +0,0 @@ -.. This work is licensed under a Creative Commons Attribution 4.0 International -.. License. -.. http://creativecommons.org/licenses/by/4.0 - - -======================================== -Test Results for os-nosdn-nofeature-noha -======================================== - -.. toctree:: - :maxdepth: 2 - - -Joid -===== - -.. _Grafana: http://testresults.opnfv.org/grafana/dashboard/db/yardstick-main -.. _POD5: https://wiki.opnfv.org/pharos?&#community_test_labs - -Overview of test results ------------------------- - -See Grafana_ for viewing test result metrics for each respective test case. It -is possible to chose which specific scenarios to look at, and then to zoom in -on the details of each run test scenario as well. - -All of the test case results below are based on 4 scenario test runs, each run -on the Intel POD5_ between September 12 and 15 in 2016. - -TC002 ------ -The round-trip-time (RTT) between 2 VMs on different blades is measured using -ping. Most test run measurements result on average between 1.50 and 1.68 ms. -Only one test run has reached greatest RTT spike of 2.92 ms, which has -the smallest RTT of 1.06 ms. The other three runs have no similar spike at all, -the minimum and average RTTs of which are approx. 1.50 ms and 1.68 ms. SLA set to -be 10 ms. The SLA value is used as a reference, it has not been defined by -OPNFV. - -TC005 ------ -The IO read bandwidth actually refers to the storage throughput, which is -measured by fio and the greatest IO read bandwidth of the four runs is 177.5 -MB/s. The IO read bandwidth of the four runs looks similar on different four -days, with an average between 46.7 and 62.5 MB/s. One of the runs has a minimum -BW of 680 KM/s and other has a maximum BW of 177.5 MB/s. The SLA of read -bandwidth sets to be 400 MB/s, which is used as a reference, and it has not -been defined by OPNFV. - -The results of storage IOPS for the four runs look similar with each other. The -test runs all have an approx. 1.55 K/s for IO reading with an minimum value of -less than 60 times per second. - -TC010 ------ -The tool we use to measure memory read latency is lmbench, which is a series of -micro benchmarks intended to measure basic operating system and hardware system -metrics. The memory read latency of the four runs is between 1.134 ns and 1.227 -ns on average. The variations within each test run are quite different, some -vary from a large range and others have a small change. For example, the -largest change is on September 15, the memory read latency of which is ranging -from 1.116 ns to 1.393 ns. However, the results on September 12 change very -little, which mainly keep flat and range from 1.124 ns to 1.55 ns. The SLA sets -to be 30 ns. The SLA value is used as a reference, it has not been defined by -OPNFV. - -TC011 ------ -Iperf3 is a tool for evaluating the pocket delay variation between 2 VMs on -different blades. The reported pocket delay variations of the four test runs -differ from each other. The results on September 13 within the date look -similar and the values are between 0.0213 and 0.0225 ms, which is 0.0217 ms on -average. However, on the third day, the packet delay variation has a large -wide change within the date, which ranges from 0.008 ms to 0.0225 ms and has -the minimum value. On Sep. 12, the packet delay is quite long, for the value is -between 0.0236 and 0.0287 ms and it also has the maximum packet delay of 0.0287 -ms. The packet delay of the last test run is 0.0151 ms on average. The SLA -value sets to be 10 ms. The SLA value is used as a reference, it has not been -defined by OPNFV. - -TC012 ------ -Lmbench is also used to measure the memory read and write bandwidth, in which -we use bw_mem to obtain the results. Among the four test runs, the memory -bandwidth of three test runs almost keep stable within each run, which is -11.65, 11.57 and 11.64 GB/s on average. However, the memory read and write -bandwidth on Sep. 14 has a large range, for it ranges from 11.36 GB/s to 16.68 -GB/s. Here SLA set to be 15 GB/s. The SLA value is used as a reference, it has -not been defined by OPNFV. - -TC014 ------ -The Unixbench is used to evaluate the IaaS processing speed with regards to -score of single cpu running and parallel running. It can be seen from the -dashboard that the processing test results vary from scores 3222 to 3585, and -there is only one result one date. No SLA set. - -TC037 ------ -The amount of packets per second (PPS) and round trip times (RTT) between 2 VMs -on different blades are measured when increasing the amount of UDP flows sent -between the VMs using pktgen as packet generator tool. - -Round trip times and packet throughput between VMs can typically be affected by -the amount of flows set up and result in higher RTT and less PPS throughput. - -The mean packet throughput of the four test runs is 124.8, 160.1, 113.8 and -137.3 kpps, of which the result of the second is the highest. The RTT results -of all the test runs keep flat at approx. 37 ms. It is obvious that the PPS -results are not as consistent as the RTT results. - -The No. flows of the four test runs are 240 k on average and the PPS results -look a little waved since the largest packet throughput is 243.1 kpps and the -minimum throughput is 37.6 kpps respectively. - -There are no errors of packets received in the four runs, but there are still -lost packets in all the test runs. The RTT values obtained by ping of the four -runs have the similar average vaue, that is between 32 ms and 41 ms, of which -the worest RTT is 155 ms on Sep. 14th. - -CPU load is measured by mpstat, and CPU load of the four test runs seem a -little similar, since the minimum value and the peak of CPU load is between 0 -percent and 9 percent respectively. And the best result is obtained on Sep. -15th, with an CPU load of nine percent. - -TC069 ------ -With the block size changing from 1 kb to 512 kb, the memory write bandwidth -tends to become larger first and then smaller within every run test, which -rangs from 22.4 GB/s to 26.5 GB/s and then to 18.6 GB/s on average. Since the -test id is one, it is that only the INT memory write bandwidth is tested. On -the whole, when the block size is 8 kb and 16 kb, the memory write bandwidth -look similar with a minimal BW of 22.5 GB/s and peak value of 28.7 GB/s. And -then with the block size becoming larger, the memory write bandwidth tends to -decrease. SLA sets to be 7 GB/s. The SLA value is used as a a reference, it has -not been defined by OPNFV. - -TC070 ------ -The amount of packets per second (PPS) and round trip times (RTT) between 2 VMs -on different blades are measured when increasing the amount of UDP flows sent -between the VMs using pktgen as packet generator tool. - -Round trip times and packet throughput between VMs can typically be affected by -the amount of flows set up and result in higher RTT and less PPS throughput. - -The network latency is measured by ping, and the results of three test runs look -similar with each other, and Within these test runs, the maximum RTT can reach -95 ms and the average RTT is usually approx. 36 ms. The network latency tested -on Sep. 14 shows that it has a peak latency of 155 ms. But on the whole, the -average RTTs of the four runs keep flat. - -Memory utilization is measured by free, which can display amount of free and -used memory in the system. The largest amount of used memory is 270 MiB on Sep -13, which also has the smallest minimum memory utilization. Besides, the rest -three test runs have the similar used memory with an average memory usage of -264 MiB. On the other hand, the free memory of the four runs have the same -smallest minimum value, that is about 223 MiB, and the maximum free memory of -three runs have the similar result, that is 226 MiB, except that on Sep. 13th, -whose maximum free memory is 273 MiB. On the whole, all the test runs have -similar average free memory. - -Network throughput and packet loss can be measured by pktgen, which is a tool -in the network for generating traffic loads for network experiments. The mean -network throughput of the four test runs seem quite different, ranging from -119.85 kpps to 128.02 kpps. The average number of flows in these tests is -240000, and each run has a minimum number of flows of 2 and a maximum number -of flows of 1.001 Mil. At the same time, the corresponding packet throughput -differ between 38k and 243k with an average packet throughput of approx. 134k. -On the whole, the PPS results seem consistent. Within each test run of the four -runs, when number of flows becomes larger, the packet throughput seems not -larger in the meantime. - -TC071 ------ -The amount of packets per second (PPS) and round trip times (RTT) between 2 VMs -on different blades are measured when increasing the amount of UDP flows sent -between the VMs using pktgen as packet generator tool. - -Round trip times and packet throughput between VMs can typically be affected by -the amount of flows set up and result in higher RTT and less PPS throughput. - -The network latency is measured by ping, and the results of the four test runs -look similar with each other. Within each test run, the maximum RTT can reach -79 ms and the average RTT is usually approx. 35 ms. On the whole, the average -RTTs of the four runs keep flat. - -Cache utilization is measured by cachestat, which can display size of cache and -buffer in the system. Cache utilization statistics are collected during UDP -flows sent between the VMs using pktgen as packet generator tool.The largest -cache size is 214 MiB in the four runs, and the smallest cache size is 100 MiB. -On the whole, the average cache size of the four runs is approx. 210 MiB. -Meanwhile, the tread of the buffer size looks similar with each other. On the -other hand, the mean buffer size of the four runs keep flat, since they have a -minimum value of approx. 7 MiB and a maximum value of 8 MiB, with an average -value of about 8 MiB. - -Packet throughput can be measured by pktgen, which is a tool in the network for -generating traffic loads for network experiments. The mean packet throughput of -the four test runs seem quite different, ranging from 113.8 kpps to 124.8 kpps. -The average number of flows in these tests is 240k, and each run has a minimum -number of flows of 2 and a maximum number of flows of 1.001 Mil. At the same -time, the corresponding packet throughput differ between 47.6k and 243.1k with -an average packet throughput between 113.8k and 160.1k. Within each test run of -the four runs, when number of flows becomes larger, the packet throughput seems -not larger in the meantime. - -TC072 ------ -The amount of packets per second (PPS) and round trip times (RTT) between 2 VMs -on different blades are measured when increasing the amount of UDP flows sent -between the VMs using pktgen as packet generator tool. - -Round trip times and packet throughput between VMs can typically be affected by -the amount of flows set up and result in higher RTT and less PPS throughput. - -The RTT results are similar throughout the different test dates and runs -between 0 ms and 79 ms with an average leatency of approx. 35 ms. The PPS -results are not as consistent as the RTT results, for the mean packet -throughput of the four runs differ from 113.8 kpps to 124.8 kpps. - -Network utilization is measured by sar, that is system activity reporter, which -can display the average statistics for the time since the system was started. -Network utilization statistics are collected during UDP flows sent between the -VMs using pktgen as packet generator tool. The largest total number of packets -transmitted per second look similar on the first three runs with a minimum -number of 10 pps and a maximum number of 97 kpps, except the one on Sep. 15th, -in which the number of packets transmitted per second is 10 pps. Meanwhile, the -largest total number of packets received per second differs from each other, -in which the smallest number of packets received per second is 1 pps and the -largest of that is 276 kpps. - -In some test runs when running with less than approx. 90000 flows the PPS -throughput is normally flatter compared to when running with more flows, after -which the PPS throughput decreases. For the other test runs there is however no -significant change to the PPS throughput when the number of flows are -increased. In some test runs the PPS is also greater with 1000000 flows -compared to other test runs where the PPS result is less with only 2 flows. - -There are lost packets reported in most of the test runs. There is no observed -correlation between the amount of flows and the amount of lost packets. -The lost amount of packets normally differs a lot per test run. - -Detailed test results ---------------------- -The scenario was run on Intel POD5_ with: -Joid -OpenStack Mitaka -OpenVirtualSwitch 2.5.90 -OpenDayLight Beryllium - -Rationale for decisions ------------------------ -Pass - -Conclusions and recommendations -------------------------------- -Tests were successfully executed and metrics collected. -No SLA was verified. To be decided on in next release of OPNFV. |