\r
#. **VPP performance tests**\r
\r
- - *MRR tests* - New Maximum Receive Rate tests measure the packet\r
- forwarding rate under the maximum load offered by traffic\r
- generator over a set trial duration, regardless of packet loss.\r
- MRR tests are used for continuous performance trending and for\r
- comparison between releases.\r
+ - *MRR tests* - New Maximum Receive Rate tests measure the packet\r
+ forwarding rate under the maximum load offered by traffic\r
+ generator over a set trial duration, regardless of packet loss.\r
+ MRR tests are used for continuous performance trending and for\r
+ comparison between releases.\r
\r
- - *Service Chaining with SRv6* - New SRv6 (Segment Routing IPv6) proxy\r
- tests measure performance of SRv6 Endpoint fronting SR-unaware\r
- appliance via masquerading (End.AM), dynamic proxy (End.AD) or\r
- static proxy (End.AS) SR functions.\r
+ - *Service Chaining with SRv6* - New SRv6 (Segment Routing IPv6) proxy\r
+ tests measure performance of SRv6 Endpoint fronting SR-unaware\r
+ appliance via masquerading (End.AM), dynamic proxy (End.AD) or\r
+ static proxy (End.AS) SR functions.\r
\r
#. **Presentation and Analytics Layer**\r
\r
- - *Performance trending* - Added continuous performance trending and\r
- analysis. New Performance Trending and Performance Analysis jobs\r
- executed regular throughput tests, with results being subsequently\r
- analysed and trend and anomalies summarized and presented in VPP\r
- Performance Dashboard and trendline graphs.\r
+ - *Performance trending* - Added continuous performance trending and\r
+ analysis. New Performance Trending and Performance Analysis jobs\r
+ executed regular throughput tests, with results being subsequently\r
+ analysed and trend and anomalies summarized and presented in VPP\r
+ Performance Dashboard and trendline graphs.\r
\r
#. **Test Framework Optimizations**\r
\r
- - *Performance tests efficiency* - Qemu build/install optimizations,\r
- warmup phase handling, vpp restart handling. Resulted in improved\r
- stability and reduced total execution time by 30% for single pkt\r
- size e.g. 64B/78B.\r
+ - *Performance tests efficiency* - Qemu build/install optimizations,\r
+ warmup phase handling, vpp restart handling. Resulted in improved\r
+ stability and reduced total execution time by 30% for single pkt\r
+ size e.g. 64B/78B.\r
\r
- - *General code housekeeping* - ongoing RF keywords optimizations,\r
- removal of redundant RF keywords.\r
+ - *General code housekeeping* - ongoing RF keywords optimizations,\r
+ removal of redundant RF keywords.\r
\r
Performance Changes\r
-------------------\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
+.. note::\r
+\r
+ Test results have been generated by\r
+ `FD.io test executor vpp performance jobs`_ with Robot Framework result\r
+ files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_.\r
+\r
PDR Changes\r
~~~~~~~~~~~\r
\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
+.. note::\r
+\r
+ Test results have been generated by\r
+ `FD.io test executor vpp performance jobs`_ with Robot Framework result\r
+ files csit-vpp-perf-|srelease|-\*.zip `archived here <../_static/archive/>`_.\r
+\r
MRR Changes\r
~~~~~~~~~~~\r
\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
+.. note::\r
+\r
+ Test results have been generated by\r
+ `FD.io test executor vpp mrr jobs <https://jenkins.fd.io/view/csit/job/csit-vpp-perf-mrr-daily-master/>`_\r
+ with Robot Framework result files csit-vpp-perf-mrr-daily-master__*__output.xml.gz\r
+ `archived here <https://docs.fd.io/csit/master/trending/_static/archive/>`_.\r
+\r
Throughput Trending\r
-------------------\r
\r
| 4 | IPSec (software, no QAT HW) throughput | CSIT-1064 | IPSec throughput regression: NDR -3%..-8%, PDR -2%..-8%, MRR |\r
| | regression. | | -3%..-7%. Affects IPSec SW tests, QAT HW tests not affected. |\r
+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r
-| 5 | High failure rate of creating working container | CSIT-1065 | Orchestrated container topology tests failing data plane |\r
-| | topologies with K8s/Ligato orchestration. | | verification indicating configuration issue. Suspected issue |\r
-| | | | with Ligato vpp-agent. |\r
+| 5 | High failure rate of creating working container | CSIT-1065 | About 20% of orchestrated container topology tests failing data |\r
+| | topologies with K8s/Ligato orchestration. | | plane verification indicating configuration issue. Suspected |\r
+| | | | issue with Ligato vpp-agent. |\r
+---+-------------------------------------------------+------------+-----------------------------------------------------------------+\r