X-Git-Url: https://gerrit.fd.io/r/gitweb?a=blobdiff_plain;f=docs%2Freport%2Fvpp_performance_tests%2Fpacket_throughput_graphs%2Fipsec.rst;h=8b0f95d96627b0a8c090cb0cba0712da7d4bc2bd;hb=9d324eab35857dac39015da42ce4e7cd3554ffaf;hp=723e1f29de3e694b6c8980af181367530c3186c9;hpb=4fbf1ec2d535d322725d395c369b6c9f7222c8dd;p=csit.git
diff --git a/docs/report/vpp_performance_tests/packet_throughput_graphs/ipsec.rst b/docs/report/vpp_performance_tests/packet_throughput_graphs/ipsec.rst
index 723e1f29de..8b0f95d966 100644
--- a/docs/report/vpp_performance_tests/packet_throughput_graphs/ipsec.rst
+++ b/docs/report/vpp_performance_tests/packet_throughput_graphs/ipsec.rst
@@ -1,101 +1,48 @@
-IPSec Crypto HW: IP4 Routed-Forwarding
-======================================
-
-Following sections include summary graphs of VPP Phy-to-Phy performance with
-IPSec encryption used in combination with IPv4 routed-forwarding,
-including NDR throughput (zero packet loss) and PDR throughput (<0.5%
-packet loss). VPP IPSec encryption is accelerated using DPDK cryptodev
-library driving Intel Quick Assist (QAT) crypto PCIe hardware cards.
-Performance is reported for VPP running in multiple configurations of
-VPP worker thread(s), a.k.a. VPP data plane thread(s), and their
-physical CPU core(s) placement.
-
-NDR Throughput
-~~~~~~~~~~~~~~
-
-VPP NDR 64B packet throughput in 1t1c setup (1thread, 1core) is presented
-in the graph below.
-
-.. raw:: html
-
-
.. raw:: latex
- \begin{figure}[H]
- \centering
- \graphicspath{{../_build/_static/vpp/}}
- \includegraphics[clip, trim=0cm 8cm 5cm 0cm, width=0.70\textwidth]{64B-1t1c-ipsechw-ndrdisc}
- \label{fig:64B-1t1c-ipsechw-ndrdisc}
- \end{figure}
-
-*Figure 1. VPP 1thread 1core - NDR Throughput for Phy-to-Phy IPSEC HW.*
-
-CSIT source code for the test cases used for above plots can be found in
-`CSIT git repository `_.
-
-VPP NDR 64B packet throughput in 2t2c setup (2thread, 2core) is presented
-in the graph below.
+ \clearpage
.. raw:: html
-
-
-.. raw:: latex
+
-PDR Throughput
-~~~~~~~~~~~~~~
+IPSec IPv4 Routing
+==================
-VPP PDR 64B packet throughput in 1t1c setup (1thread, 1core) is presented
-in the graph below. PDR measured for 0.5% packet loss ratio.
-
-.. raw:: html
-
-
-
-.. raw:: latex
-
- \begin{figure}[H]
- \centering
- \graphicspath{{../_build/_static/vpp/}}
- \includegraphics[clip, trim=0cm 8cm 5cm 0cm, width=0.70\textwidth]{64B-1t1c-ipsechw-pdrdisc}
- \label{fig:64B-1t1c-ipsechw-pdrdisc}
- \end{figure}
-
-*Figure 3. VPP 1thread 1core - PDR Throughput for Phy-to-Phy IPSEC HW.*
-
-CSIT source code for the test cases used for above plots can be found in
-`CSIT git repository `_.
-
-VPP PDR 64B packet throughput in 2t2c setup (2thread, 2core) is presented
-in the graph below. PDR measured for 0.5% packet loss ratio.
-
-.. raw:: html
-
-
-
-.. raw:: latex
+Following sections include summary graphs of VPP Phy-to-Phy performance with
+IPSec encryption used in combination with IPv4 routed-forwarding,
+including NDR throughput (zero packet loss) and PDR throughput (<0.5%
+packet loss). VPP IPSec encryption is accelerated using DPDK cryptodev
+library driving Intel Quick Assist (QAT) crypto PCIe hardware cards.
+Performance is reported for VPP running in multiple configurations of
+VPP worker thread(s), a.k.a. VPP data plane thread(s), and their
+physical CPU core(s) placement.
- \begin{figure}[H]
- \centering
- \graphicspath{{../_build/_static/vpp/}}
- \includegraphics[clip, trim=0cm 8cm 5cm 0cm, width=0.70\textwidth]{64B-2t2c-ipsechw-pdrdisc}
- \label{fig:64B-2t2c-ipsechw-pdrdisc}
- \end{figure}
+CSIT source code for the test cases used for plots can be found in
+`CSIT git repository `_.
-*Figure 4. VPP 2thread 2core - PDR Throughput for Phy-to-Phy IPSEC HW.*
+.. toctree::
-CSIT source code for the test cases used for above plots can be found in
-`CSIT git repository `_.
+ ipsec-3n-skx-x710