-#. VPP performance test environment changes\r
-\r
- - Further optimizations of VM and vhost-user test environment - various\r
- Qemu virtio queue size testing with value of 256 and 1024. Applied\r
- Linux CFS optimization to run VPP worker threads and Qemu worker threads\r
- with highest priority.\r
-\r
-#. VPP performance test framework changes\r
-\r
- - Full code review, optimization and refactor.\r
-\r
-#. T-rex changes\r
-\r
- - Full refactor of T-rex driver and introduce of traffic profiles that\r
- improves readability, manageability of traffic profiles for various\r
- test scenarios.\r
-\r
-#. Added VPP performance tests\r
-\r
- - **LXC memif**\r
-\r
- - Memif interface tests interconnecting two VPP instances on single SUT.\r
- Master VPP instance running on native OS with Intel x520 NIC and guest\r
- VPP instance running in Linux Container (LXC) doing the L2 cross\r
- connect loop. LXC running in privileged mode is pinned to dedicated\r
- cores. All VPP instances are same version.\r
-\r
- - **Stateful Security Groups**\r
-\r
- - **VM vhost use cases**\r
-\r
-Performance Improvements\r
-------------------------\r
-\r
-Substantial improvements in measured packet throughput have been\r
-observed in a number of CSIT |release| tests listed below, with relative\r
-increase of double-digit percentage points. Relative improvements are\r
-calculated against the test results listed in CSIT |release-1| report.\r
-VPP-16.09 numbers are provided for reference.\r
-\r
-NDR Throughput\r
-~~~~~~~~~~~~~~\r
-\r
-Non-Drop Rate Throughput discovery tests:\r
-\r
-.. csv-table::\r
- :align: center\r
- :header-rows: 1\r
- :file: ../../../docs/report/vpp_performance_tests/performance_improvements/ndr_throughput.csv\r
-\r
-PDR Throughput\r
-~~~~~~~~~~~~~~\r
-\r
-Partial Drop Rate thoughput discovery tests with packet Loss Tolerance of 0.5%:\r
-\r
-.. csv-table::\r
- :align: center\r
- :header-rows: 1\r
- :file: ../../../docs/report/vpp_performance_tests/performance_improvements/pdr_throughput.csv\r
-\r
-Measured improvements are in line with VPP code optimizations listed in\r
-`VPP-17.07 release notes\r
-<https://docs.fd.io/vpp/17.07/release_notes_1707.html>`_.\r
-\r
-Other Performance Changes\r
--------------------------\r
-\r
-Other changes in measured packet throughput, with either minor relative\r
-increase or decrease, have been observed in a number of CSIT |release|\r
-tests listed below. Relative changes are calculated against the test\r
-results listed in CSIT |release-1| report.\r
-\r
-NDR Throughput\r
-~~~~~~~~~~~~~~\r
-\r
-Non-Drop Rate Throughput discovery tests:\r
-\r
-.. csv-table::\r
- :align: center\r
- :header-rows: 1\r
- :file: ../../../docs/report/vpp_performance_tests/performance_improvements/ndr_throughput_others.csv\r
-\r
-PDR Throughput\r
-~~~~~~~~~~~~~~\r
-\r
-Partial Drop Rate thoughput discovery tests with packet Loss Tolerance of 0.5%:\r
-\r
-.. csv-table::\r
- :align: center\r
- :header-rows: 1\r
- :file: ../../../docs/report/vpp_performance_tests/performance_improvements/pdr_throughput_others.csv\r
-\r
+#. **Added VPP performance tests**\r
+\r
+ - *MRR tests :* New MRR tests measure the packet forwarding rate\r
+ under the maximum load offered by traffic generator over a set\r
+ trial duration, regardless of packet loss. Maximum load for\r
+ specified Ethernet frame size is set to the bi-directional link\r
+ rate. MRR tests are used for continuous performance trending and\r
+ for comparison between releases.\r
+\r
+ - *Service Chaining with SRv6 :* SRv6 (Segment Routing IPv6) proxy tests\r
+ verifying performance of Endpoint to SR-unaware appliance via\r
+ masquerading (End.AM), dynamic proxy (End.AD) or static proxy (End.AS)\r
+ functions.\r
+\r
+#. **Presentation and Analytics Layer (PAL)**\r
+\r
+ - Added continuous performance measuring, trending and anomaly\r
+ detection. Includes new PAL code and Jenkins jobs for Performance\r
+ Trending (PT) and Performance Analysis (PA) producing performance\r
+ trending dashboard and trendline graphs with summary and drill-\r
+ down views across all specified tests that can be reviewed and\r
+ inspected regularly by FD.io developers and users community.\r
+\r
+#. **Test Framework Optimizations**\r
+\r
+ - *Performance tests efficiency :* Qemu build/install\r
+ optimizations, warmup phase handling, vpp restart handling.\r
+ Resulted in improved stability and reduced total execution time by\r
+ 30% for single pkt size e.g. 64B/78B.\r
+\r
+ - *General code housekeeping :* ongoing RF keywords\r
+ optimizations, removal of redundant RF keywords.\r
+\r
+Performance Changes\r
+-------------------\r
+\r
+Relative performance changes in measured packet throughput in CSIT\r
+|release| are calculated against the results from CSIT |release-1|\r
+report. Listed mean and standard deviation values are computed based on\r
+a series of the same tests executed against respective VPP releases to\r
+verify test results repeatibility, with percentage change calculated for\r
+mean values. Note that the standard deviation is quite high for a small\r
+number of packet throughput tests, what indicates poor test results\r
+repeatability and makes the relative change of mean throughput value not\r
+fully representative for these tests. The root causes behind poor\r
+results repeatibility vary between the test cases.\r
+\r
+NDR Throughput Changes\r
+~~~~~~~~~~~~~~~~~~~~~~\r
+\r
+NDR small packet throughput changes between releases are available in a CSV and\r
+pretty ASCII formats:\r
+\r
+ - `csv format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.csv>`_,\r
+ - `csv format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.csv>`_,\r
+ - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-ndr-1t1c-full.txt>`_,\r
+ - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-ndr-2t2c-full.txt>`_.\r
+\r
+PDR Throughput Changes\r
+~~~~~~~~~~~~~~~~~~~~~~\r
+\r
+NDR small packet throughput changes between releases are available in a CSV and\r
+pretty ASCII formats:\r
+\r
+ - `csv format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.csv>`_,\r
+ - `csv format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.csv>`_,\r
+ - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-pdr-1t1c-full.txt>`_,\r
+ - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-pdr-2t2c-full.txt>`_.\r
+\r
+MRR Throughput Changes\r
+~~~~~~~~~~~~~~~~~~~~~~\r
+\r
+MRR changes between releases are available in a CSV and\r
+pretty ASCII formats:\r
+\r
+ - `csv format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.csv>`_,\r
+ - `csv format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.csv>`_,\r
+ - `csv format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.csv>`_,\r
+ - `pretty ASCII format for 1t1c <../_static/vpp/performance-changes-mrr-1t1c-full.txt>`_,\r
+ - `pretty ASCII format for 2t2c <../_static/vpp/performance-changes-mrr-2t2c-full.txt>`_,\r
+ - `pretty ASCII format for 4t4c <../_static/vpp/performance-changes-mrr-4t4c-full.txt>`_.\r
+\r
+Throughput Trending\r
+-------------------\r
+\r
+In addition to reporting throughput changes between VPP releases, CSIT provides\r
+continuous performance trending for VPP master branch:\r
+\r
+#. `VPP Performance Dashboard <https://docs.fd.io/csit/master/trending/introduction/index.html>`_\r
+- per VPP test case throughput trend, trend compliance and summary of detected\r
+anomalies.\r
+\r
+#. `Trending Methodology <https://docs.fd.io/csit/master/trending/methodology/index.html>`_\r
+- throughput test metrics, trend calculations and anomaly classification\r
+(progression, regression, outlier).\r
+\r
+#. `Trendline Graphs <https://docs.fd.io/csit/master/trending/trending/index.html>`_\r
+- per VPP build MRR throughput measurements against the trendline with anomaly\r
+highlights, with associated CSIT test jobs.\r