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Report: Improve vnf_service_chains_reconf.rst
[csit.git]
/
docs
/
report
/
vpp_performance_tests
/
overview.rst
diff --git
a/docs/report/vpp_performance_tests/overview.rst
b/docs/report/vpp_performance_tests/overview.rst
index
3c95919
..
7fabebc
100644
(file)
--- a/
docs/report/vpp_performance_tests/overview.rst
+++ b/
docs/report/vpp_performance_tests/overview.rst
@@
-1,9
+1,7
@@
Overview
========
Overview
========
-VPP performance test results are reported for all three physical testbed
-types present in FD.io labs: 3-Node Xeon Haswell (3n-hsw), 3-Node Xeon
-Skylake (3n-skx), 2-Node Xeon Skylake (2n-skx) and installed NIC models.
+VPP performance test results are reported for a range of processors.
For description of physical testbeds used for VPP performance tests
please refer to :ref:`tested_physical_topologies`.
For description of physical testbeds used for VPP performance tests
please refer to :ref:`tested_physical_topologies`.
@@
-260,13
+258,16
@@
topologies and configurations:
- One-Way Packet Latency: measured at different offered packet loads:
- One-Way Packet Latency: measured at different offered packet loads:
- - 100% of discovered NDR throughput.
- - 100% of discovered PDR throughput.
+ - 90% of discovered PDR throughput.
+ - 50% of discovered PDR throughput.
+ - 10% of discovered PDR throughput.
+ - Minimal offered load.
- Maximum Receive Rate (MRR): measure packet forwarding rate under the
maximum load offered by traffic generator over a set trial duration,
regardless of packet loss. Maximum load for specified Ethernet frame
- Maximum Receive Rate (MRR): measure packet forwarding rate under the
maximum load offered by traffic generator over a set trial duration,
regardless of packet loss. Maximum load for specified Ethernet frame
- size is set to the bi-directional link rate.
+ size is set to the bi-directional link rate, unless there is a known
+ limitation preventing Traffic Generator from achieving the line rate.
|csit-release| includes following VPP data plane functionality
performance tested across a range of NIC drivers and NIC models:
|csit-release| includes following VPP data plane functionality
performance tested across a range of NIC drivers and NIC models:
@@
-291,7
+292,7
@@
performance tested across a range of NIC drivers and NIC models:
| IPv6 Scale | IPv6 routing with 20k, 200k and 2M FIB |
| | entries. |
+-----------------------+----------------------------------------------+
| IPv6 Scale | IPv6 routing with 20k, 200k and 2M FIB |
| | entries. |
+-----------------------+----------------------------------------------+
-| IPSecHW | IPSec encryption with AES-GCM, CBC-SHA
1
|
+| IPSecHW | IPSec encryption with AES-GCM, CBC-SHA
-256
|
| | ciphers, in combination with IPv4 routing. |
| | Intel QAT HW acceleration. |
+-----------------------+----------------------------------------------+
| | ciphers, in combination with IPv4 routing. |
| | Intel QAT HW acceleration. |
+-----------------------+----------------------------------------------+
@@
-299,15
+300,11
@@
performance tested across a range of NIC drivers and NIC models:
| | combination with LISP-GPE overlay tunneling |
| | for IPv4-over-IPv4. |
+-----------------------+----------------------------------------------+
| | combination with LISP-GPE overlay tunneling |
| | for IPv4-over-IPv4. |
+-----------------------+----------------------------------------------+
-| IPSecSW | IPSec encryption with AES-GCM, CBC-SHA
1
|
+| IPSecSW | IPSec encryption with AES-GCM, CBC-SHA
-256
|
| | ciphers, in combination with IPv4 routing. |
+-----------------------+----------------------------------------------+
| | ciphers, in combination with IPv4 routing. |
+-----------------------+----------------------------------------------+
-| K8s Containers Memif | K8s orchestrated container VPP service chain |
-| | topologies connected over the memif virtual |
-| | interface. |
-+-----------------------+----------------------------------------------+
| KVM VMs vhost-user | Virtual topologies with service |
| KVM VMs vhost-user | Virtual topologies with service |
-| | chains of 1
and 2 VMs using vhost-user
|
+| | chains of 1
VM using vhost-user
|
| | interfaces, with different VPP forwarding |
| | modes incl. L2XC, L2BD, VXLAN with L2BD, |
| | IPv4 routing. |
| | interfaces, with different VPP forwarding |
| | modes incl. L2XC, L2BD, VXLAN with L2BD, |
| | IPv4 routing. |