CSIT/VPP-16.09 Test Report Draft

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Contents

Introduction

This report aims to provide a comprehensive and self-explanatory summary of all CSIT test cases that have been executed against FD.io VPP-16.09 code release, driven by the automated test infrastructure developed within the FD.io CSIT project (FD.io Continuous System and Integration Testing).

CSIT source code for the executed test suites is available in CSIT branch rls1609 in the directory ./tests/<name_of_the_test_suite>. A local copy of CSIT source code can be obtained by cloning CSIT git repository ("git clone https://gerrit.fd.io/r/csit"). The CSIT testing virtual environment can be run on a local workstation/laptop/server using Vagrant by following the instructions in CSIT tutorials.

Followings sections provide brief description of CSIT performance and functional test suites executed against VPP-16.09 release (vpp branch stable/1609). Description of LF FD.io virtual and physical test environments is provided to aid anyone interested in reproducing the complete LF FD.io CSIT testing environment, in either virtual or physical test beds. The last two sections cover complete list of CSIT test suites and test cases executed against VPP-16.09 release (vpp branch stable/1609), with description and results per test case.

Functional tests description

Functional tests run on virtual testbeds which are created in VIRL running on a Cisco UCS C240 servers hosted in Linux Foundation labs. There is currently only one testbed topology being used for functional testing - a three node topology with two links between each pair of nodes as shown in this diagram:

        +--------+                      +--------+
        |        <---------------------->        |
        |  DUT1  |                      |  DUT2  |
        |        <---------------------->        |
        +--^--^--+                      +--^--^--+
           |  |                            |  |
           |  |                            |  |
           |  |         +-------+          |  |
           |  +--------->       <----------+  |
           |            |   TG  |             |
           +------------>       <-------------+
                        +-------+

Virtual testbeds are created dynamically whenever a patch is submitted to gerrit and destroyed upon completion of all functional tests. During test execution, all nodes are reachable thru the MGMT network connected to every node via dedicated NICs and links (not shown above for clarity). Each node is a Virtual Machine and each connection that is drawn on the diagram is available for use in any test case.

For a subset of test cases that requires VPP to communicate over vhost-user interfaces, a nested VM is created on DUT1 and/or DUT2 for the duration of that particular test case only.

The following functional test suites are included in the CSIT-16.09 Release:

  • L2XC - L2 Cross-Connect switching of Ethernet frames (untagged, VLAN single-tag 802.1q, double-tag 802.1ad).
  • L2BD - L2 Bridge-Domain switching of Ethernet frames (untagged, 802.1q, 802.1ad).
  • IPv4 - IPv4 routed-forwarding, RPF, ARP, Proxy ARP, ICMPv4.
  • IPv6 - IPv6 routed-forwarding, NS/ND, RA, ICMPv6.
  • DHCP - DHCP Client and Proxy (IPv4, IPv6).
  • VXLAN - VXLAN tunnelling integration with L2BD, L2XC (untagged, 802.1q).
  • COP - COP address security, white-listing and black-listing (IPv4, IPv6).
  • GRE - GRE tunnelling integration with IP routed-forwarding (IPv4, IPv6).
  • LISP - LISP tunneling dataplane with IP routed-forwarding (IPv4) and API functionality.
  • VRF - IP VPN routed-forwarding (IPv4, IPv6).
  • iACL - Ingress Access Control List security (IPv4, IPv6, L2).
  • QoS Policer - ingress packet rate measuring, marking and limiting (IPv4, IPv6).
  • IPFIX - IPFIX Netflow (IPv4, IPv6).
  • IPSec - IPSec transport and tunnel mode (IPv4, IPv6).
  • Softwire - IPv4-over-IPv6 Softwire Concentration including LightWeight4over6, MAP-E, MAP-T.
  • VLAN rewrites - L2 VLAN rewrite tests 2-2, 2-1, 1-2 with L2XC and L2BD.
  • Tap Interface - baseline Linux tap interface tests.
  • HoneyComb - HoneyComb control plane interface into VPP.

Performance tests description

Performance tests run on physical testbeds hosted in Linux Foundation labs and consist of three Cisco UCS C240 servers each with 2x XEON CPUs (E5-2699v3 2.3GHz 18c). The logical testbed topology is fundamentally the same structure as the functional testbeds, but for any given tests, there is only a single link between each pair of nodes as shown in this diagram:

        +--------+                      +--------+
        |        |                      |        |
        |  DUT1  <---------------------->  DUT2  |
        |        |                      |        |
        +---^----+                      +----^---+
            |                                |
            |                                |
            |           +-------+            |
            |           |       |            |
            +----------->   TG  <------------+
                        |       |
                        +-------+

At a physical level there are actually five units of 10GE and 40GE NICs per DUT made by different vendors: Intel 2p10GE NICs (x520, x710), Intel 40GE NICs (xl710), Cisco 2p10GE VICs, Cisco 2p40GE VICs. During test execution, all nodes are reachable thru the MGMT network connected to every node via dedicated NICs and links (not shown above for clarity). Currently the performance tests only utilize one model of Intel NICs.

Because performance testing is run on physical test beds and some tests require a long time to complete, the performance test jobs have been split into short duration and long duration variants. The long jobs run all of the long performance test suites discovering the throughput rates, and are run on a periodic basis. The short jobs run the short performance test suites verifying throughput against the reference rates, and are intended to be run against all VPP patches (although this is not currently enabled). There are also separate test suites for each NIC type.

The following performance test suites are included in the CSIT-16.09 Release:

  • Long performance test suites with Intel X520-DA2 (10 GbE):
    1. L2 Cross-Connect: NDR & PDR for forwarding of untagged and QinQ, 801.2Q Vlan, VXLAN tagged packets.
    2. L2 Bridge-Domain: NDR & PDR for L2 Bridge Domain forwarding.
    3. IPv4: NDR & PDR for IPv4 routing.
    4. IPv6: NDR & PDR for IPv6 routing.
    5. COP Address Security: NDR & PDR for IPv4 and IPv6 with COP security.
    6. iACL Address Security: NDR & PDR for IPv4 and IPv6 with iACL security.
    7. Scale IPv4: NDR & PDR for IPv4 routing with 20K, 200K, 2M FIB entries.
    8. Scale IPv6: NDR & PDR for IPv6 routing with 20K, 200K, 2M FIB entries.
    9. vhost-user - NDR & PDR for L2 Cross-Connect, L2 Bridge-Domain, IPv4 routing with VM over vhost-user interface.
  • Long performance test suites with Intel XL-710 NIC (2 ports 40GbE):
    1. L2 Cross-Connect - NDR & PDR for forwarding of untagged and QinQ, 801.2Q Vlan, VXLAN tagged packets.
    2. L2 Bridge-Domain - NDR & PDR for L2 Bridge Domain forwarding. (results to be added)
    3. IPv4 - NDR & PDR for IPv4 routing. (results to be added)
    4. IPv6 - NDR & PDR for IPv6 routing. (results to be added)
  • Short performance test suites with Intel X520-DA2 (10 GbE):
    1. L2 Cross-Connect - untagged and QinQ, 801.2Q Vlan, VXLAN tagged packets.
    2. L2 Bridge-Domain - L2 Bridge Domain forwarding.
    3. IPv4 - IPv4 routing.
    4. IPv6 - IPv6 routing.
    5. COP Address Security - IPv4 and IPv6 with COP security.
    6. iACL Address Security - IPv4 and IPv6 with iACL security.
    7. IPv4 Scale - IPv4 routing with 20K, 200K, 2M FIB entries.
    8. IPv6 Scale - IPv6 routing with 20K, 200K, 2M FIB entries.
    9. vhost-user - L2 Cross-Connect, L2 Bridge-Domain, IPv4 routing with VM over vhost-user interface.

Functional tests environment

CSIT functional tests are currently executed in VIRL, as mentioned above. The physical VIRL testbed infrastructure consists of three identical VIRL hosts, each host being a Cisco UCS C240-M4 (2x Intel(R) Xeon(R) CPU E5-2699 v3 @ 2.30GHz, 18c, 512GB RAM) running Ubuntu 14.04.3 and the following VIRL software versions:

 STD server version 0.10.24.7
 UWM server version 0.10.24.7

Whenever a patch is submitted to gerrit for review, one of the three VIRL hosts is selected randomly, and a three-node (TG+SUT1+SUT2), "double-ring" topology is created as a VIRL simulation on the selected host. The binary Debian VPP packages built by Jenkins for the patch under review are then installed on the two SUTs, along with their /etc/vpp/startup.conf file.

Current VPP 16.09 tests have been executed on a single VM operating system and version only, as described in the following paragraphs.

In order to enable future testing with different Operating Systems, or with different versions of the same Operating System, and simultaneously allowing others to reproduce tests in the exact same environment, CSIT has established a process where a candidate Operating System (currently only Ubuntu 14.04.4 LTS) plus all required packages are installed, and the versions of all installed packages are recorded. A separate tool then creates, and will continue to create at any point in the future, a disk image with these packages and their exact versions. Identical sets of disk images are created in QEMU/QCOW2 format for use within VIRL, and in VirtualBox format for use in the CSIT Vagrant environment.

In CSIT terminology, the VM operating system for both SUTs and TG that VPP 16.06 has been tested with, is the following:

 ubuntu-14.04.4_2016-05-25_1.0

which implies Ubuntu 14.04.4 LTS, current as of 2016/05/25 (that is, package versions are those that would have been installed by a "apt-get update", "apt-get upgrade" on May 25), produced by CSIT disk image build scripts version 1.0.

The exact list of installed packages and their versions (including the Linux kernel package version) are included in CSIT source repository:

 resources/tools/disk-image-builder/ubuntu/lists/ubuntu-14.04.4_2016-05-25_1.0

A replica of this VM image can be built by running the "build.sh" script in CSIT repository resources/tools/disk-image-builder/, or by downloading the Vagrant box from Atlas:

 https://atlas.hashicorp.com/fdio-csit/boxes/ubuntu-14.04.4_2016-05-25_1.0

In addition to this "main" VM image, tests which require VPP to communicate to a VM over a vhost-user interface, utilize a "nested" VM image.

This "nested" VM is dynamically created and destroyed as part of a test case, and therefore the "nested" VM image is optimized to be small, lightweight and have a short boot time. The "nested" VM image is not built around any established Linux distribution, but is based on BuildRoot (https://buildroot.org/), a tool for building embedded Linux systems. Just as for the "main" image, scripts to produce an identical replica of the "nested" image are included in CSIT GIT repository, and the image can be rebuilt using the "build.sh" script at:

  resources/tools/disk-image-builder/ubuntu/lists/nested

Functional tests utilize Scapy version 2.3.1 as a traffic generator.

Performance tests environment

To execute performance tests, there are three identical testbeds, each testbed consists of two SUTs and one TG.

Hardware details (CPU, memory, NIC layout) are described in CSIT/CSIT_LF_testbed; in summary:

  • All hosts are Cisco UCS C240-M4 (2x Intel(R) Xeon(R) CPU E5-2699 v3 @ 2.30GHz, 18c, 512GB RAM),
  • BIOS settings are default except for the following:
    • Hyperthreading disabled,
    • SpeedStep disabled
    • TurboBoost disabled
    • Power Technology: Performance
  • Hosts run Ubuntu 14.04.3, kernel 4.2.0-36-generic
  • Linux kernel boot command line option "intel_pstate=disable" is applied to both SUTs and TG. In addition, on SUTs, only cores 0 and 18 (the first core on each socket) are available to the Linux operating system and generic tasks, all other CPU cores are isolated and reserved for VPP.
  • In addition to CIMC and Management, each TG has 4x Intel X710 10GB NIC (=8 ports) and 2x Intel XL710 40GB NIC (=4 ports), whereas each SUT has:
    • 1x Intel X520 NIC (10GB, 2 ports),
    • 1x Cisco VIC 1385 (40GB, 2 ports),
    • 1x Intel XL710 NIC (40GB, 2 ports),
    • 1x Intel X710 NIC (10GB, 2 ports),
    • 1x Cisco VIC 1227 (10GB, 2 ports). This allows for a total of five "double-ring" topologies, each using a different NIC.

Config: VPP (DUT)

NIC types

0a:00.0 Ethernet controller: Intel Corporation 82599ES 10-Gigabit SFI/SFP+ Network Connection (rev 01)
        Subsystem: Intel Corporation Ethernet Server Adapter X520-2
0a:00.1 Ethernet controller: Intel Corporation 82599ES 10-Gigabit SFI/SFP+ Network Connection (rev 01)
        Subsystem: Intel Corporation Ethernet Server Adapter X520-2
85:00.0 Ethernet controller: Intel Corporation Ethernet Controller XL710 for 40GbE QSFP+ (rev 01)
        Subsystem: Intel Corporation Ethernet Converged Network Adapter XL710-Q2
85:00.1 Ethernet controller: Intel Corporation Ethernet Controller XL710 for 40GbE QSFP+ (rev 01)
        Subsystem: Intel Corporation Ethernet Converged Network Adapter XL710-Q2

VPP Version

vpp-16.09_amd64

VPP Compile Parameters

VPP Compile Job: https://jenkins.fd.io/view/vpp/job/vpp-merge-1609-ubuntu1404/

VPP Install Parameters

$ dpkg -i --force-all

VPP Startup Configuration

VPP startup configuration changes per test case with different settings for CPU cores, rx-queues and no-multi-seg parameter. Startup config is aligned with applied test case tag:

Tagged by: 1_THREAD_NOHTT_RXQUEUES_1

$ cat /etc/vpp/startup.conf
unix {
  nodaemon
  log /tmp/vpe.log
  cli-listen localhost:5002
  full-coredump
}

api-trace {
  on
}

cpu {
  main-core 0 corelist-workers 1
}

dpdk {
  socket-mem 1024,1024
  dev default {
    num-rx-queues 1
  }
  dev 0000:0a:00.1
  dev 0000:0a:00.0
  no-multi-seg
}

ip6 {
  hash-buckets 2000000
  heap-size 500m
}

Tagged by: 2_THREAD_NOHTT_RXQUEUES_1

$ cat /etc/vpp/startup.conf
unix {
  nodaemon
  log /tmp/vpe.log
  cli-listen localhost:5002
  full-coredump
}

api-trace {
  on
}

cpu {
  main-core 0 corelist-workers 1-2
}

dpdk {
  socket-mem 1024,1024
  dev default {
    num-rx-queues 1
  }
  dev 0000:0a:00.1
  dev 0000:0a:00.0
  no-multi-seg
}

ip6 {
  hash-buckets 2000000
  heap-size 500m
}

Tagged by: 4_THREAD_NOHTT_RXQUEUES_2

$ cat /etc/vpp/startup.conf
unix {
  nodaemon
  log /tmp/vpe.log
  cli-listen localhost:5002
  full-coredump
}

api-trace {
  on
}

cpu {
  main-core 0 corelist-workers 1-4
}

dpdk {
  socket-mem 1024,1024
  dev default {
    num-rx-queues 2
  }
  dev 0000:0a:00.1
  dev 0000:0a:00.0
  no-multi-seg
}

ip6 {
  hash-buckets 2000000
  heap-size 500m
}

Config: Traffic Generator - TRex

TG Version

TRex v2.07

DPDK version

DPDK v16.07 (20e2b6eba13d9eb61b23ea75f09f2aa966fa6325 - in DPDK repo)

TG Build Script used

https://gerrit.fd.io/r/gitweb?p=csit.git;a=blob;f=resources/tools/t-rex/t-rex-installer.sh;h=d015015c9275c706d47788cf308aee2a0477231f;hb=refs/heads/rls1609

TG Startup Configuration

$ cat /etc/trex_cfg.yaml
- port_limit      : 2
  version         : 2
  interfaces      : ["0000:0d:00.0","0000:0d:00.1"]
  port_info       :
          - dest_mac        :   [0x3c,0xfd,0xfe,0x9c,0xee,0xf5]
            src_mac         :   [0x3c,0xfd,0xfe,0x9c,0xee,0xf4]
          - dest_mac        :   [0x3c,0xfd,0xfe,0x9c,0xee,0xf4]
            src_mac         :   [0x3c,0xfd,0xfe,0x9c,0xee,0xf5]

TG common API - pointer to driver

https://gerrit.fd.io/r/gitweb?p=csit.git;a=blob;f=resources/tools/t-rex/t-rex-stateless.py;h=8a7f34b27aaf86d81540d72f05959b409e2134a5;hb=refs/heads/rls1609

Functional tests results

Bridge Domain
Bridge Domain Untagged
  • L2 bridge-domain test cases
  • [Top] Network Topologies: TG=DUT1 2-node topology with two links between nodes; TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes; TG=DUT1=DUT2=TG 3-node circular topology with double parallel links and TG=DUT=VM 3-node topology with VM and double parallel links.
  • [Enc] Packet Encapsulations: Eth-IPv4-ICMPv4 for L2 switching of IPv4; Eth-IPv6-ICMPv6 for L2 switching of IPv6 use. Both apply to all links.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 bridge-domain (L2BD) switching combined with static MACs; MAC learning enabled and Split Horizon Groups (SHG) depending on test case.
  • [Ver] TG verification: Test ICMPv4 (or ICMPv6) Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 (IPv6) src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: DUT reports active interfaces [Top] TG=DUT1; TG-DUT1-DUT2-TG. [Enc] None. [Cfg] Discovered active interfaces. [Ver] Report active interfaces on DUT. [Ref] PASS
TC02: DUT with L2BD (MAC learning) switch ICMPv4 between two TG links [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure two i/fs into L2BD with MAC learning. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 in both directions and are correct on receive. [Ref] PASS
TC03: DUT1 and DUT2 with L2BD (MAC learning) switch between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and DUT2 configure two i/fs into L2BD with MAC learning. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 in both directions and are correct on receive. [Ref] PASS
TC04: DUT1 and DUT2 with L2BD (static MACs) switch between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and DUT2 configure two i/fs into L2BD with static MACs. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 in both directions and are correct on receive. [Ref] PASS
TC05: DUT1 and DUT2 with L2BD (MAC learn) and SHG switch between four TG links [Top] TG=DUT1=DUT2=TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and DUT2 configure four i/fs into L2BD with MAC learning and the same SHG on i/fs towards TG. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 in both directions and are correct on receive; verify no pkts are switched thru SHG isolated interfaces. [Ref] PASS
TC06: DUT with two L2BDs (MAC learn) switches ICMPv4 between TG and VM links [Top] TG=DUT=VM. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure two L2BDs with MAC learning, each with vhost-user i/f to local VM and i/f to TG; configure VM to loop pkts back betwen its two virtio i/fs. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and VM in both directions and are correct on receive. [Ref] PASS
TC07: DUT with two L2BDs (MAC learn) switches ICMPv6 between TG and VM links [Top] TG=DUT=VM. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 configure two L2BDs with MAC learning, each with vhost-user i/f to local VM and i/f to TG; configure VM to loop pkts back betwen its two virtio i/fs. [Ver] Make TG verify ICMPv6 Echo Req pkts are switched thru DUT1 and VM in both directions and are correct on receive. [Ref] PASS
TC08: DUT with two L2BDs (static MACs) switches ICMPv4 between TG and VM links [Top] TG=DUT=VM. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure two L2BDs with static MACs, each with vhost-user i/f to local VM and i/f to TG; configure VM to loop pkts back betwen its two virtio i/fs. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and VM in both directions and are correct on receive. [Ref] PASS
TC09: DUT with two L2BDs (static MACs) switches ICMPv6 between TG and VM links [Top] TG=DUT=VM. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 configure two L2BDs with static MACs, each with vhost-user i/f to local VM and i/f to TG; configure VM to loop pkts back betwen its two virtio i/fs. [Ver] Make TG verify ICMPv6 Echo Req pkts are switched thru DUT1 and VM in both directions and are correct on receive. [Ref] PASS
Cop
Cop Whitelist Blacklist
  • COP Security IPv4 Blacklist and Whitelist Tests
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-ICMPv4 on all links.
  • [Cfg] DUT configuration: DUT1 is configured with IPv4 routing and static routes. COP security white-lists are applied on DUT1 ingress interface from TG. DUT2 is configured with L2XC.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent in one direction by TG on link to DUT1; on receive TG verifies packets for correctness and drops as applicable.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: DUT permits IPv4 pkts with COP whitelist set with IPv4 src-addr [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure interface IPv4 addresses and routes in the main routing domain, add COP whitelist on interface to TG with IPv4 src-addr matching packets generated by TG; on DUT2 configure L2 xconnect. [Ver] Make TG send ICMPv4 Echo Req on its interface to DUT1; verify received ICMPv4 Echo Req pkts are correct. [Ref] PASS
TC02: DUT drops IPv4 pkts with COP blacklist set with IPv4 src-addr [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure interface IPv4 addresses and routes in the main routing domain, add COP blacklist on interface to TG with IPv4 src-addr matching packets generated by TG; on DUT2 configure L2 xconnect. [Ver] Make TG send ICMPv4 Echo Req on its interface to DUT1; verify no ICMPv4 Echo Req pkts are received. [Ref] PASS
cop whitelist blacklist IPv6
  • COP Security IPv6 Blacklist and Whitelist Tests
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6-ICMPv6 on all links.
  • [Cfg] DUT configuration: DUT1 is configured with IPv6 routing and static routes. COP security white-lists are applied on DUT1 ingress interface from TG. DUT2 is configured with L2XC.
  • [Ver] TG verification: Test ICMPv6 Echo Request packets are sent in one direction by TG on link to DUT1; on receive TG verifies packets for correctness and drops as applicable.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: DUT permits IPv6 pkts with COP whitelist set with IPv6 src-addr [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 configure interface IPv6 addresses and routes in the main routing domain, add COP whitelist on interface to TG with IPv6 src-addr matching packets generated by TG; on DUT2 configure L2 xconnect. [Ver] Make TG send ICMPv6 Echo Req on its interface to DUT1; verify received ICMPv6 Echo Req pkts are correct. [Ref] PASS
TC02: DUT drops IPv6 pkts with COP blacklist set with IPv6 src-addr [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 configure interface IPv6 addresses and routes in the main routing domain, add COP blacklist on interface to TG with IPv6 src-addr matching packets generated by TG; on DUT2 configure L2 xconnect. [Ver] Make TG send ICMPv6 Echo Req on its interface to DUT1; verify no ICMPv6 Echo Req pkts are received. [Ref] PASS
Dhcp
Dhcp Client
  • DHCP Client related test cases
Name Documentation Status
VPP sends a DHCP DISCOVER Configure DHCP client on interface to TG without hostname and check if DHCP DISCOVER message contains all required fields with expected values. PASS
VPP sends a DHCP DISCOVER with hostname Configure DHCP client on interface to TG with hostname and check if DHCP DISCOVER message contains all required fields with expected values. PASS
VPP sends DHCP REQUEST after OFFER Configure DHCP client on interface to TG and check if DHCP REQUEST message contains all required fields. PASS
VPP honors DHCPv4 lease time Send IP configuration to the VPP client via DHCP. Address is checked with ICMP echo request and there should be no reply for echo request when lease has expired. PASS
Dhcp V4 Proxy
  • DHCP proxy test cases
  • [Top] Network Topologies: TG = DUT with two links between the nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-UDP-BOOTP-DHCP
  • [Cfg] DUT configuration: DUT is configured with DHCP proxy.
  • [Ver] TG verification: Test DHCP packets are sent on TG on first link to DUT and received on TG on second link. On receive TG verifies if DHCP packets are valid.
Name Documentation Status
TC01: VPP proxies valid DHCPv4 request to DHCPv4 server [Top] TG=DUT [Enc] Eth-IPv4-UDP-BOOTP-DHCP [Cfg] On DUT setup DHCP proxy. [Ver] Make TG verify matching DHCP packets between client and DHCP server through DHCP proxy. PASS
TC02: VPP proxy ignores invalid DHCPv4 request [Top] TG=DUT [Enc] Eth-IPv4-UDP-BOOTP-DHCP [Cfg] On DUT setup DHCP proxy. [Ver] Make TG verify matching invalid DHCP packets are dropped. PASS
Dhcp V6 Proxy
  • DHCPv6 proxy test cases
  • [Top] Network Topologies: TG = DUT with two links between the nodes.
  • [Cfg] DUT configuration: DUT is configured with DHCP proxy.
  • [Ver] TG verification:Test DHCP packets are sent on TG on first link to DUT and received on TG on second link. On receive TG verifies if DHCP packets are valid
  • [Ref] Applicable standard specifications: RFC 3315
Name Documentation Status
TC01: VPP proxies valid DHCPv6 request to DHCPv6 server [Top] TG=DUT [Cfg] On DUT setup DHCP proxy. [Ver] Make TG verify matching DHCPv6 packets between client and DHCP server through DHCP proxy. [Ref] RFC 3315 PASS
Gre
Gre Encapsulation
  • GREoIPv4 test cases
  • [Top] Network Topologies: TG=DUT1 2-node topology with two links between nodes; TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-GRE-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for routing over GRE tunnel; Eth-IPv4-ICMPv4 on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT for GREoIPv4 encapsulation and decapsulation verification.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and static routes. GREoIPv4 tunnel is configured between DUT1 and DUT2.
  • [Ver] TG verification: Test ICMPv4 (or ICMPv6) Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; GREoIPv4 encapsulation and decapsulation are verified separately by TG; on receive TG verifies packets for correctness and their IPv4 (IPv6) src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC2784.
Name Documentation Status
TC01: DUT1 and DUT2 route over GREoIPv4 tunnel between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-GRE-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure GREoIPv4 tunnel with IPv4 routes towards each other. [Ver] Make TG send ICMPv4 Echo Req between its interfaces across both DUTs and GRE tunnel between them; verify IPv4 headers on received packets are correct. [Ref] RFC2784. PASS
TC02: DUT encapsulates IPv4 into GREoIPv4 tunnel - GRE header verification [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure GREoIPv4 tunnel with IPv4 route towards TG. [Ver] Make TG send non-encapsulated ICMPv4 Echo Req to DUT; verify TG received GREoIPv4 encapsulated packet is correct. [Ref] RFC2784. PASS
TC03: DUT decapsulates IPv4 from GREoIPv4 tunnel - IPv4 header verification [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure GREoIPv4 tunnel towards TG. [Ver] Make TG send ICMPv4 Echo Req encapsulated into GREoIPv4 towards VPP; verify TG received IPv4 de-encapsulated packet is correct. [Ref] RFC2784. PASS
TC04: DUT encapsulates IPv4 into GREoIPv4 different tunnels - GRE header verification [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure two GRE tunnels with loopback's source address. Destination address of tunnels are routed via next hop address of DUT's to TG if2, where should be only GRE encapsulated packets. Each tunnel has IPv4 address and configured prefix routed through the tunnel. [Ver] Make TG send non-encapsulated ICMPv4 Echo Req to DUT; verify TG received GREoIPv4 encapsulated packet is correct for each tunnel. [Ref] RFC2784. PASS
TC05: DUT re-encapsulates IPv4 GRE into other GRE tunnel - GRE header verification [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure two GRE tunnels with loopback's source address. Destination address of tunnels are routed via next hop address of DUT's to TG if2, where should be only GRE encapsulated packets. Each tunnel has IPv4 address and configured prefix routed through the tunnel. [Ver] Make TG send encapsulated IPv4 UDP to DUT; Encapsulated IP source is behind configured tunnel same as destination; verify TG received GREoIPv4 encapsulated packet is correct. [Ref] RFC2784. PASS
TC06: DUT do not process GRE with wrong tunnel destination IP [Top] TG=DUT1. [Enc] Eth-IPv4-ICMPv4 on TG_if1-DUT, Eth-IPv4-GRE-IPv4-ICMPv4 on TG_if2_DUT. [Cfg] On DUT1 configure two GRE tunnels with loopback's source address. Destination address of tunnels are routed via next hop address of DUT's to TG if2, where should be only GRE encapsulated packets. On DUT's to TG if1 interface is configured test destination host MAC address. [Ver] Make TG send GRE encapsulated ICMPv4 Echo Req to DUT; verify TG received de-capsulated packet is correct, then send packet with wrong tunnel destination address. [Ref] RFC2784. PASS
Iacl
Ipv4 Iacl Untagged
  • IPv4 routing with ingress ACL test cases Encapsulations: Eth-IPv4 on links TG-DUT1, TG-DUT2, DUT1-DUT2. IPv4 ingress ACL (iACL) tests use 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured with IPv4 routing and static routes. DUT1 is configured with iACL on link to TG, iACL classification and permit/deny action are configured on a per test case basis. Test ICMPv4 Echo Request packets are sent in one direction by TG on link to DUT1 and received on TG link to DUT2. On receive TG verifies if packets are dropped, or if received verifies packet IPv4 src-addr, dst-addr and MAC addresses.
Name Documentation Status
TC01: DUT with iACL IPv4 src-addr drops matching pkts On DUT1 add source IPv4 address to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC02: DUT with iACL IPv4 dst-addr drops matching pkts On DUT1 add destination IPv4 address to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC03: DUT with iACL IPv4 src-addr and dst-addr drops matching pkts On DUT1 add source and destination IPv4 addresses to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC04: DUT with iACL IPv4 protocol set to TCP drops matching pkts On DUT1 add protocol mask and TCP protocol (0x06) to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC05: DUT with iACL IPv4 protocol set to UDP drops matching pkts On DUT1 add protocol mask and UDP protocol (0x11) to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC06: DUT with iACL IPv4 TCP src-ports drops matching pkts On DUT1 add TCP source ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC07: DUT with iACL IPv4 TCP dst-ports drops matching pkts On DUT1 add TCP destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC08: DUT with iACL IPv4 TCP src-ports and dst-ports drops matching pkts On DUT1 add TCP source and destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC09: DUT with iACL IPv4 UDP src-ports drops matching pkts On DUT1 add UDP source ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC10: DUT with iACL IPv4 UDP dst-ports drops matching pkts On DUT1 add TCP destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC11: DUT with iACL IPv4 UDP src-ports and dst-ports drops matching pkts On DUT1 add UDP source and destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
Ipv6 Iacl Untagged
  • IPv6 routing with ingress ACL test cases Encapsulations: Eth-IPv6 on links TG-DUT1, TG-DUT2, DUT1-DUT2. IPv6 ingress ACL (iACL) tests use 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured with IPv6 routing and static routes. DUT1 is configured with iACL on link to TG, iACL classification and permit/deny action are configured on a per test case basis. Test ICMPv6 Echo Request packets are sent in one direction by TG on link to DUT1 and received on TG link to DUT2. On receive TG verifies if packets are dropped, or if received verifies packet IPv6 src-addr, dst-addr and MAC addresses.
Name Documentation Status
TC01: DUT with iACL IPv6 src-addr drops matching pkts On DUT1 add source IPv6 address to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC02: DUT with iACL IPv6 dst-addr drops matching pkts On DUT1 add destination IPv6 address to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC03: DUT with iACL IPv6 src-addr and dst-addr drops matching pkts On DUT1 add source and destination IPv6 addresses to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC04: DUT with iACL IPv6 protocol set to TCP drops matching pkts On DUT1 add protocol mask and TCP protocol (0x06) to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC05: DUT with iACL IPv6 protocol set to UDP drops matching pkts On DUT1 add protocol mask and UDP protocol (0x11) to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC06: DUT with iACL IPv6 TCP src-ports drops matching pkts On DUT1 add TCP source ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC07: DUT with iACL IPv6 TCP dst-ports drops matching pkts On DUT1 add TCP destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC08: DUT with iACL IPv6 TCP src-ports and dst-ports drops matching pkts On DUT1 add TCP source and destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC09: DUT with iACL IPv6 UDP src-ports drops matching pkts On DUT1 add UDP source ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC10: DUT with iACL IPv6 UDP dst-ports drops matching pkts On DUT1 add TCP destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC11: DUT with iACL IPv6 UDP src-ports and dst-ports drops matching pkts On DUT1 add UDP source and destination ports to classify table with 'deny'. Make TG verify matching packets are dropped. PASS
TC12: DUT with iACL MAC src-addr and iACL IPv6 UDP src-ports and dst-ports drops matching pkts On DUT1 add source MAC address to classify (L2) table and add UDP source and destination ports to classify (hex) table with 'deny'. Make TG verify matching packets are dropped. PASS
L2 Iacl Untagged
  • Ingress ACL test cases
  • [Top] Network Topologies: TG - DUT1 - DUT2 - TG with one link between the nodes.
  • [Cfg] DUT configuration: DUT2 is configured with L2 Cross connect. DUT1 is configured with iACL classification on link to TG,
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent in one direction by TG on link to DUT1 and received on TG link to DUT2. On receive TG verifies if packets are dropped.
Name Documentation Status
TC01: DUT with iACL MAC src-addr drops matching pkts [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 add source MAC address to classify table with 'deny'. [Ver] Make TG verify matching packets are dropped. PASS
TC02: DUT with iACL MAC dst-addr drops matching pkts [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 add destination MAC address to classify table with 'deny'. [Ver] Make TG verify matching packets are dropped. PASS
TC03: DUT with iACL MAC src-addr and dst-addr drops matching pkts [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 add source and destination MAC address to classify table with 'deny'. [Ver] Make TG verify matching packets are dropped. PASS
TC04: DUT with iACL EtherType drops matching pkts [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 add EtherType IPv4(0x0800) to classify table with 'deny'. [Ver] Make TG verify matching packets are dropped. PASS
Ipsec
Ipsec Transport Mode Ipv4
  • IPv4 IPsec transport mode test suite.
  • [Top] Network topologies: TG-DUT1 2-node topology with one link between nodes.
  • [Cfg] DUT configuration: On DUT1 create loopback interface, configure loopback an physical interface IPv4 addresses, static ARP record, route and IPsec manual keyed connection in transport mode.
  • [Ver] TG verification: ESP packet is sent from TG to DUT1. ESP packet is received on TG from DUT1.
  • [Ref] Applicable standard specifications: RFC4303.
Name Documentation Status
TC01: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC05: VPP process ESP packet in Transport Mode with AES-CBC-192 encryption and SHA-256-128 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-192 and integrity algorithm SHA-256-128 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC09: VPP process ESP packet in Transport Mode with AES-CBC-256 encryption and SHA-384-192 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-384-192 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC12: VPP process ESP packet in Transport Mode with AES-CBC-256 encryption and SHA-512-256 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-512-256 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC13: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send an ESP packet encrypted by encryption key different from encryption key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC14: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity - different integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send an ESP packet authenticated by integrity key different from integrity key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC15: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption and integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send an ESP packet authenticated by integrity key and encrypted by encryption key different from integrity and encryption keys stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
Ipsec Transport Mode Ipv6
  • IPv6 IPsec transport mode test suite.
  • [Top] Network topologies: TG-DUT1 2-node topology with one link between nodes.
  • [Cfg] DUT configuration: On DUT1 create loopback interface, configure loopback an physical interface IPv6 addresses, static ARP record, route and IPsec manual keyed connection in transport mode.
  • [Ver] TG verification: ESP packet is sent from TG to DUT1. ESP packet is received on TG from DUT1.
  • [Ref] Applicable standard specifications: RFC4303.
Name Documentation Status
TC01: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC05: VPP process ESP packet in Transport Mode with AES-CBC-192 encryption and SHA-256-128 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-192 and integrity algorithm SHA-256-128 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC09: VPP process ESP packet in Transport Mode with AES-CBC-256 encryption and SHA-384-192 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-384-192 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC12: VPP process ESP packet in Transport Mode with AES-CBC-256 encryption and SHA-512-256 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-512-256 in transport mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC13: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send an ESP packet encrypted by encryption key different from encryption key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC14: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity - different integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send an ESP packet authenticated by integrity key different from integrity key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC15: VPP process ESP packet in Transport Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption and integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in transport mode. [Ver] Send an ESP packet authenticated by integrity key and encrypted by encryption key different from integrity and encryption keys stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
Ipsec Tunnel Mode Ipv4
  • IPv4 IPsec tunnel mode test suite.
  • [Top] Network topologies: TG-DUT1 2-node topology with one link between nodes.
  • [Cfg] DUT configuration: On DUT1 create loopback interface, configure loopback an physical interface IPv4 addresses, static ARP record, route and IPsec manual keyed connection in tunnel mode.
  • [Ver] TG verification: ESP packet is sent from TG to DUT1. ESP packet is received on TG from DUT1.
  • [Ref] Applicable standard specifications: RFC4303.
Name Documentation Status
TC01: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC05: VPP process ESP packet in Tunnel Mode with AES-CBC-192 encryption and SHA-256-128 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-192 and integrity algorithm SHA-256-128 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC09: VPP process ESP packet in Tunnel Mode with AES-CBC-256 encryption and SHA-384-192 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-384-192 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC12: VPP process ESP packet in Tunnel Mode with AES-CBC-256 encryption and SHA-512-256 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-512-256 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC13: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send an ESP packet encrypted by encryption key different from encryption key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC14: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity - different integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send an ESP packet authenticated by integrity key different from integrity key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC15: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption and integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send an ESP packet authenticated by integrity key and encrypted by encryption key different from integrity and encryption keys stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
Ipsec Tunnel Mode Ipv6
  • IPv6 IPsec tunnel mode test suite.
  • [Top] Network topologies: TG-DUT1 2-node topology with one link between nodes.
  • [Cfg] DUT configuration: On DUT1 create loopback interface, configure loopback an physical interface IPv6 addresses, static ARP record, route and IPsec manual keyed connection in tunnel mode.
  • [Ver] TG verification: ESP packet is sent from TG to DUT1. ESP packet is received on TG from DUT1.
  • [Ref] Applicable standard specifications: RFC4303.
Name Documentation Status
TC01: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC05: VPP process ESP packet in Tunnel Mode with AES-CBC-192 encryption and SHA-256-128 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-192 and integrity algorithm SHA-256-128 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC09: VPP process ESP packet in Tunnel Mode with AES-CBC-256 encryption and SHA-384-192 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-384-192 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC12: VPP process ESP packet in Tunnel Mode with AES-CBC-256 encryption and SHA-512-256 integrity [Top] TG-DUT1. [Ref] RFC4303. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-256 and integrity algorithm SHA-512-256 in tunnel mode. [Ver] Send and receive ESP packet between TG and VPP node. PASS
TC13: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send an ESP packet encrypted by encryption key different from encryption key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC14: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity - different integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send an ESP packet authenticated by integrity key different from integrity key stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
TC15: VPP process ESP packet in Tunnel Mode with AES-CBC-128 encryption and SHA1-96 integrity - different encryption and integrity alogrithms used [Top] TG-DUT1. [Cfg] On DUT1 configure IPsec manual keyed connection with encryption algorithm AES-CBC-128 and integrity algorithm SHA1-96 in tunnel mode. [Ver] Send an ESP packet authenticated by integrity key and encrypted by encryption key different from integrity and encryption keys stored on VPP node from TG to VPP node and expect no response to be received on TG. [Ref] RFC4303. PASS
Ipv4
Ipv4 Arp Untagged
  • IPv4 ARP test cases RFC826 ARP: Eth-IPv4 and Eth-ARP on links TG-DUT1, TG-DUT2, DUT1-DUT2: IPv4 ARP tests use 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured with IPv4 routing and static routes. DUT ARP functionality is tested by making TG send ICMPv4 Echo Requests towards its other interface via DUT1 and DUT2.
Name Documentation Status
TC01: DUT sends ARP Request for unresolved locally connected IPv4 address Make TG send test packet destined to IPv4 address of its other interface connected to DUT2. Make TG verify DUT2 sends ARP Request for locally connected TG IPv4 address. PASS
TC02: DUT sends ARP Request for route next hop IPv4 address Make TG send test packet destined to IPv4 address matching static route on DUT2. Make TG verify DUT2 sends ARP Request for next hop of the static route. PASS
Ipv4 Proxy Arp Untagged
  • RFC1027 Proxy ARP test cases
  • [Top] Network topologies: TG-DUT1 2-node topology with single link between nodes.
  • [Cfg] DUT configuration: DUT1 is configured with Proxy ARP
  • [Ver] TG verification: Test ARP Request packet is sent from TG on link to DUT1; on receive TG verifies ARP reply packet for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC1027.
Name Documentation Status
TC01: DUT sends ARP reply on behalf of another machine from the IP range [Top] TG-DUT1. [Ref] RFC1027. [Cfg] On DUT1 configure interface IPv4 address and proxy ARP for IP range. [Ver] Make TG send ARP request to DUT1 interface, verify if DUT1 sends correct ARP reply on behalf of machine which IP is in range. PASS
TC02: DUT sends ARP reply on behalf of another machine from beginning of the IP range [Top] TG-DUT1. [Ref] RFC1027. [Cfg] On DUT1 configure interface IPv4 address and proxy ARP for IP range. [Ver] Make TG send ARP request to DUT1 interface, verify if DUT1 sends correct ARP reply on behalf of machine which IP is from beginning of the IP range. PASS
TC03: DUT sends ARP reply on behalf of another machine from end of the IP range [Top] TG-DUT1. [Ref] RFC1027. [Cfg] On DUT1 configure interface IPv4 address and proxy ARP for IP range. [Ver] Make TG send ARP request to DUT1 interface, verify if DUT1 sends correct ARP reply on behalf of machine which IP is from end of the IP range. PASS
TC04: DUT does not send ARP reply on behalf of another machine from below of the IP range [Top] TG-DUT1. [Ref] RFC1027. [Cfg] On DUT1 configure interface IPv4 address and proxy ARP for IP range. [Ver] Make TG send ARP request to DUT1 interface, verify if DUT1 does not send ARP reply on behalf of machine which IP is from below of the IP range. PASS
TC05: DUT does not send ARP reply on behalf of another machine from above of the IP range [Top] TG-DUT1. [Ref] RFC1027. [Cfg] On DUT1 configure interface IPv4 address and proxy ARP for IP range. [Ver] Make TG send ARP request to DUT1 interface, verify if DUT1 does not send ARP reply on behalf of machine which IP is from above of the IP range. PASS
Ipv4 Untagged
  • IPv4 routing test cases RFC791 IPv4, RFC826 ARP, RFC792 ICMPv4. Encapsulations: Eth-IPv4-ICMPv4 on links TG-DUT1, TG-DUT2, DUT1-DUT2. IPv4 routing tests use circular 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured with IPv4 routing and static routes. Test ICMPv4 Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2 and received on TG links on the other side of circular topology. On receive TG verifies packets IPv4 src-addr, dst-addr and MAC addresses.
Name Documentation Status
TC01: DUT replies to ICMPv4 Echo Req to its ingress interface Make TG send ICMPv4 Echo Req to DUT ingress interface. Make TG verify ICMP Echo Reply is correct. PASS
TC02: DUT routes IPv4 to its egress interface Make TG send ICMPv4 Echo Req towards DUT1 egress interface connected to DUT2. Make TG verify ICMPv4 Echo Reply is correct. PASS
TC03: DUT1 routes IPv4 to DUT2 ingress interface Make TG send ICMPv4 Echo Req towards DUT2 ingress interface connected to DUT1. Make TG verify ICMPv4 Echo Reply is correct. PASS
TC04: DUT1 routes IPv4 to DUT2 egress interface Make TG send ICMPv4 Echo Req towards DUT2 egress interface connected to TG. Make TG verify ICMPv4 Echo Reply is correct. PASS
TC05: DUT1 and DUT2 route IPv4 between TG interfaces Make TG send ICMPv4 Echo Req between its interfaces across DUT1 and DUT2. Make TG verify ICMPv4 Echo Replies are correct. PASS
TC06: DUT replies to ICMPv4 Echo Reqs with size 64B-to-1500B-incr-1B Make TG send ICMPv4 Echo Reqs to DUT ingress interface, incrementating frame size from 64B to 1500B with increment step of 1Byte. Make TG verify ICMP Echo Replies are correct. PASS
TC08: DUT replies to ARP request Make TG send ARP Request to DUT and verify ARP Reply is correct. PASS
Ipv6
Ipv6 Ra
  • IPv6 Router Advertisement test cases RFC4861 Neighbor Discovery. Encapsulations: Eth-IPv6-RA on links TG-DUT1. IPv6 Router Advertisement tests use 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured with IPv6 routing and static routes. TG verifies received RA packets.
Name Documentation Status
TC01: DUT transmits RA on IPv6 enabled interface [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPv6 interface on the link to TG. [Ver] Make TG wait for IPv6 Router Advertisement packet to be sent by DUT1 and verify the received RA packet is correct. PASS
TC02: DUT retransmits RA on IPv6 enabled interface after a set interval [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPv6 interface on the link to TG. [Ver] Make TG wait for two IPv6 Router Advertisement packets to be sent by DUT1 and verify the received RA packets are correct. PASS
TC03: DUT responds to Router Solicitation request [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPv6 interface on the link to TG and suppress sending of Router Advertisement packets periodically. [Ver] Make TG send IPv6 Router Solicitation request to DUT1, listen for response from DUT1 and verify the received RA packet is correct. FAIL
TC04: DUT responds to Router Solicitation request sent from link local address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPv6 interface on the link to TG and suppress sending of Router Advertisement packets periodically. [Ver] Make TG send IPv6 Router Solicitation request to DUT1, listen for response from DUT1 and verify the received RA packet is correct. FAIL
Ipv6 Untagged
  • IPv6 routing test cases RFC2460 IPv6, RFC4443 ICMPv6, RFC4861 Neighbor Discovery. Encapsulations: Eth-IPv6-ICMPv6 on links TG-DUT1, TG-DUT2, DUT1-DUT2; Eth-IPv6-NS/NA on links TG-DUT. IPv6 routing tests use circular 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 and DUT2 are configured with IPv6 routing and static routes. Test ICMPv6 Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2 and received on TG links on the other side of circular topology. On receive TG verifies packets IPv6 src-addr, dst-addr and MAC addresses.
Name Documentation Status
TC01: DUT replies to ICMPv6 Echo Req to its ingress interface Make TG send ICMPv6 Echo Req to DUT ingress interface. Make TG verify ICMPv6 Echo Reply is correct. PASS
TC02: DUT replies to ICMPv6 Echo Req pkt with size 64B-to-1500B-incr-1B Make TG send ICMPv6 Echo Reqs to DUT ingress interface, incrementating frame size from 64B to 1500B with increment step of 1Byte. Make TG verify ICMP Echo Replies are correct. PASS
TC04: DUT routes to its egress interface Make TG send ICMPv6 Echo Req towards DUT1 egress interface connected to DUT2. Make TG verify ICMPv6 Echo Reply is correct. PASS
TC05: DUT1 routes to DUT2 ingress interface Make TG send ICMPv6 Echo Req towards DUT2 ingress interface connected to DUT1. Make TG verify ICMPv6 Echo Reply is correct. PASS
TC06: DUT1 routes to DUT2 egress interface Make TG send ICMPv6 Echo Req towards DUT2 egress interface connected to TG. Make TG verify ICMPv6 Echo Reply is correct. PASS
TC07: DUT1 and DUT2 route between TG interfaces Make TG send ICMPv6 Echo Req between its interfaces across DUT1 and DUT2. Make TG verify ICMPv6 Echo Replies are correct. PASS
TC08: DUT replies to IPv6 Neighbor Solicitation On DUT configure interface IPv6 address in the main routing domain. Make TG send Neighbor Solicitation message on the link to DUT and verify DUT Neighbor Advertisement reply is correct. PASS
L2 Xconnect
L2 Xconnect Untagged
  • L2 cross-connect test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes; TG=DUT1=DUT2=TG 3-node circular topology with double parallel links and TG=DUT=VM 3-node topology with VM and double parallel links.
  • [Enc] Packet Encapsulations: Eth-IPv4-ICMPv4 for L2 switching of IPv4; Eth-IPv6-ICMPv6 for L2 switching of IPv6 use. Both apply to all links.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross-connect (L2XC) switching.
  • [Ver] TG verification: Test ICMPv4 (or ICMPv6) Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 (IPv6) src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: DUT1 and DUT2 with L2XC switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 and DUT2 configure L2 cross-connect (L2XC), each with one interface to TG and one Ethernet interface towards the other DUT. [Ver] Make TG send ICMPv4 Echo Req in both directions between two of its interfaces to be switched by DUT1 and DUT2; verify all packets are received. [Ref] PASS
TC02: DUT1 and DUT2 with L2XC switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT1 and DUT2 configure L2 cross-connect (L2XC), each with one interface to TG and one Ethernet interface towards the other DUT. [Ver] Make TG send ICMPv6 Echo Req in both directions between two of its interfaces to be switched by DUT1 and DUT2; verify all packets are received. [Ref] PASS
TC03: DUT with two L2XCs switches ICMPv4 between TG and local VM links [Top] TG=DUT=VM. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT configure two L2 cross-connects (L2XC), each with one untagged interface to TG and untagged i/f to local VM over vhost-user. [Ver] Make TG send ICMPv4 Echo Reqs in both directions between two of its i/fs to be switched by DUT to and from VM; verify all packets are received. [Ref] PASS
TC04: DUT with two L2XCs switches ICMPv6 between TG and local VM links [Top] TG=DUT=VM. [Enc] Eth-IPv6-ICMPv6. [Cfg] On DUT configure two L2 cross-connects (L2XC), each with one untagged i/f to TG and untagged i/f to local VM over vhost-user. [Ver] Make TG send ICMPv6 Echo Reqs in both directions between two of its i/fs to be switched by DUT to and from VM; verify all packets are received. [Ref] PASS
Lisp
Lisp Api Untagged
  • LISP API test cases
  • [Top] Network Topologies: DUT1 1-node topology.
  • [Enc] Packet Encapsulations: None.
  • [Cfg] DUT configuration: DUT1 gets configured with all LISP parameters.
  • [Ver] Verification: DUT1 operational data gets verified following configuration.
  • [Ref] Applicable standard specifications: RFC6830.
Name Documentation Status
TC01: DUT can enable and disable LISP [Top] DUT1. [Enc] None. [Cfg1] Test LISP enable/disable API; On DUT1 enable LISP. [Ver1] Check DUT1 if LISP is enabled. [Cfg2] Then disable LISP. [Ver2] Check DUT1 if LISP is disabled. [Ref] RFC6830. PASS
TC02: DUT can add and delete locator_set [Top] DUT1. [Enc] None. [Cfg1] Test LISP locator_set API; on DUT1 configure locator_set and locator. [Ver1] Check DUT1 configured locator_set and locator are correct. [Cfg2] Then remove locator_set and locator. [Ver2] check DUT1 locator_set and locator are removed. [Ref] RFC6830. PASS
TC04: DUT can add and delete eid address [Top] DUT1. [Enc] None. [Cfg1] Test LISP eid API; on DUT1 configure LISP eid IP address. [Ver1] Check DUT1 configured data is correct. [Cfg2] Remove configured data. [Ver2] Check DUT1 all eid IP addresses are removed. [Ref] RFC6830. PASS
TC05: DUT can add and delete LISP map resolver address [Top] DUT1. [Enc] None. [Cfg1] Test LISP map resolver address API; on DUT1 configure LISP map resolver address. [Ver1] Check DUT1 configured data is correct. [Cfg2] Remove configured data. [Ver2] Check DUT1 all map resolver addresses are removed. [Ref] RFC6830. PASS
Lisp Dataplane Untagged
  • LISP static adjacency test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv4 tunnel; Eth-IPv6-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn for IPv6 routing over LISPoIPv6 tunnel; Eth-IPv6-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv6 tunnel; Eth-IPv4-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn for IPv6 routing over LISPoIPv4 tunnel.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 (IPv6) routing and static routes. LISPoIPv4 (oIPv6) tunnel is configured between DUT1 and DUT2.
  • [Ver] TG verification: Test ICMPv4 (or ICMPv6) Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 (IPv6) src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC6830.
Name Documentation Status
TC01: DUT1 and DUT2 route IPv4 bidirectionally over LISPoIPv4 tunnel [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure IPv4 LISP static adjacencies. [Ver] Make TG send ICMPv4 Echo Req between its interfaces across both DUTs and LISP tunnel between them; verify IPv4 headers on received packets are correct. [Cfg2] Reconf LISP. [Ver2] Verify packets are received again via LISP tunnel. [Ref] RFC6830. PASS
TC02: DUT1 and DUT2 route IPv6 bidirectionally over LISPoIPv6 tunnel [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure IPv6 LISP static adjacencies. [Ver] Make TG send ICMPv6 Echo Req between its interfaces across both DUTs and LISP tunnel between them; verify IPv4 headers on received packets are correct. [Cfg2] Reconf LISP. [Ver2] Verify packets are received again via LISP tunnel. [Ref] RFC6830. PASS
TC03: DUT1 and DUT2 route IPv4 bidirectionally over LISPoIPv6 tunnel [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv6-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure IPv6 LISP static adjacencies. [Ver] Make TG send ICMPv4 Echo Req between its interfaces across both DUTs and LISP tunnel between them; verify IPv4 headers on received packets are correct. [Cfg2] Reconf LISP. [Ver2] Verify packets are received again via LISP tunnel. [Ref] RFC6830. PASS
TC04: DUT1 and DUT2 route IPv6 bidirectionally over LISPoIPv4 tunnel [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure IPv4 LISP static adjacencies. [Ver] Make TG send ICMPv6 Echo Req between its interfaces across both DUTs and LISP tunnel between them; verify IPv4 headers on received packets are correct. [Cfg2] Reconf LISP. [Ver2] Verify packets are received again via LISP tunnel. [Ref] RFC6830. PASS
TC05: DUT1 and DUT2 route IPv4 over LISPoIPv4 tunnel after disable-enable [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg1] On DUT1 and DUT2 configure IPv4 LISP static adjacencies. [Ver1] Make TG send ICMPv4 Echo Req between its interfaces across both DUTs and LISP tunnel between them; verify IPv4 headers on received packets are correct. [Cfg2] Disable LISP. [Ver2] Verify packets are not received via LISP tunnel. [Cfg3] Re-enable LISP. [Ver3] Verify packets are received again via LISP tunnel. [Ref] RFC6830. PASS
Lisp Ipv4 Lispgpe Ipv4
  • ip4-lispgpe-ip4 encapsulation test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv4 tunnel.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and static routes. LISPoIPv4 tunnel is configured between DUT1 and DUT2.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC6830.
Name Documentation Status
TC01: DUT1 and DUT2 route IPv4 bidirectionally over LISP GPE tunnel using physical interfaces Case: ip4-lispgpe-ip4 - phy2lisp [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISPGPE-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] Configure IPv4 LISP static adjacencies on DUT1 and DUT2. [Ver] Make TG send ICMPv4 Echo Req between its interfaces across both DUTs and LISP GPE tunnel between them; verify IPv4 headers on received packets are correct. [Ref] RFC6830. PASS
TC02: DUT1 and DUT2 route IPv4 bidirectionally over LISP GPE tunnel using physical interfaces and VRF is enabled Case: ip4-lispgpe-ip4 - vrf, phy2lisp [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-LISPGPE-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] Configure IPv4 LISP static adjacencies on DUT1 and DUT2. [Ver] Make TG send ICMPv4 Echo Req between its interfaces across both DUTs and LISP GPE tunnel between them; verify IPv4 headers on received packets are correct. [Ref] RFC6830. PASS
Policer
Policer Ip4
  • IPv4 policer test cases
  • [Top] Network topologies: TG=DUT1 2-node topology with two links between nodes.
  • [Cfg] DUT configuration: On DUT1 configure interfaces IPv4 adresses, and static ARP record on the second interface.
  • [Ver] TG verification: Test packet is sent from TG on the first link to DUT1. Packet is received on TG on the second link from DUT1.
  • [Ref] Applicable standard specifications: RFC2474, RFC2697, RFC2698.
Name Documentation Status
TC01: VPP policer 2R3C Color-aware marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2698. [Cfg] On DUT1 configure 2R3C color-aware policer on the first interface. [Ver] TG sends IPv4 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv4 TCP packet with correct DSCP on the second link to TG. PASS
TC02: VPP policer 2R3C Color-blind marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2698. [Cfg] On DUT1 configure 2R3C color-blind policer on the first interface. [Ver] TG sends IPv4 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv4 TCP packet with correct DSCP on the second link to TG. PASS
TC03: VPP policer 1R3C Color-aware marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2697. [Cfg] On DUT1 configure 1R3C color-aware policer on the first interface. [Ver] TG sends IPv4 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv4 TCP packet with correct DSCP on the second link to TG. PASS
TC04: VPP policer 1R3C Color-blind marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2697. [Cfg] On DUT1 configure 1R3C color-blind policer on the first interface. [Ver] TG sends IPv4 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv4 TCP packet with correct DSCP on the second link to TG. PASS
Policer Ip6
  • IPv6 policer test cases
  • [Top] Network topologies: TG=DUT1 2-node topology with two links between nodes.
  • [Cfg] DUT configuration: On DUT1 configure interfaces IPv6 adresses, and static neighbor record on the second interface.
  • [Ver] TG verification: Test packet is sent from TG on the first link to DUT1. Packet is received on TG on the second link from DUT1.
  • [Ref] Applicable standard specifications: RFC2474, RFC2697, RFC2698.
Name Documentation Status
TC01: VPP policer 2R3C Color-aware marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2698. [Cfg] On DUT1 configure 2R3C color-aware policer on the first interface. [Ver] TG sends IPv6 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv6 TCP packet with correct DSCP on the second link to TG. PASS
TC02: VPP policer 2R3C Color-blind marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2698. [Cfg] On DUT1 configure 2R3C color-blind policer on the first interface. [Ver] TG sends IPv6 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv6 TCP packet with correct DSCP on the second link to TG. PASS
TC03: VPP policer 1R3C Color-aware marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2697. [Cfg] On DUT1 configure 1R3C color-aware policer on the first interface. [Ver] TG sends IPv6 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv6 TCP packet with correct DSCP on the second link to TG. PASS
TC04: VPP policer 1R3C Color-blind marks packet [Top] TG=DUT1. [Ref] RFC2474, RFC2697. [Cfg] On DUT1 configure 1R3C color-blind policer on the first interface. [Ver] TG sends IPv6 TCP packet on the first link to DUT1, verify if DUT1 sends correct IPv6 TCP packet with correct DSCP on the second link to TG. PASS
Rpf
Ipv4 Rpf Untagged
  • Source RPF check on IPv4 test cases
  • [Top] Network Topologies: TG - DUT1 - DUT2 - TG with one link between the nodes.
  • [Cfg] DUT configuration: DUT2 is configured with L2 Cross connect. DUT1 is configured with IP source check on link to TG,
  • [Ver] TG verification:Test ICMP Echo Request packets are sent in one direction by TG on link to DUT1 and received on TG link to DUT2. On receive TG verifies if packets which source address is not in routes are dropped.
Name Documentation Status
TC01: VPP source RPF check on IPv4 src-addr [Top] TG-DUT1-DUT2-TG [Cfg] On DUT1 setup IP source check. [Ver] Make TG verify matching packets which source address is not in routes are dropped. PASS
TC02: VPP pass traffic on non-enabled RPF interface [Top] TG-DUT1-DUT2-TG [Cfg] On DUT1 setup IP source check. [Ver] Make TG verify matching packets on non-enabled RPF interface are passed. PASS
Softwire
Lightweight 4Over6
  • Lightweight 4 over 6 test cases LW4o6 is a subset of MAP-E, with per-subscriber rules. It uses the same tunneling mechanism and configuration as MAP-E. It does not use embedded address bits.
  • [Top] Network Topologies: TG=DUT1 2-node topology with two links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-UDP on TG_if1-DUT, Eth-IPv6-IPv4-UDP on TG_if2_DUT.
  • [Cfg] DUT configuration: DUT1 is configured as lwAFTR.
  • [Ver] TG verification: Test UDP ICMP Echo Request in IPv4 are sent to lwAFTR and are verified by TG for correctness their encapsulation in IPv6 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC7596 RFC7597.
Name Documentation Status
TC01: Encapsulate IPv4 into IPv6. IPv6 dst depends on IPv4 and UDP destination [Top] TG=DUT1. [Enc] Eth-IPv4-UDP on TG_if1-DUT, Eth-IPv6-IPv4-UDP on TG_if2_DUT. [Cfg] On DUT1 configure Map domain and Map rule. [Ver] Make TG send non-encapsulated UDP to DUT; verify TG received IPv4oIPv6 encapsulated packet is correct. [Ref] RFC7596 RFC7597 PASS
TC02: Encapsulate IPv4 ICMP into IPv6. IPv6 dst depends on IPv4 addr and ICMP ID [Top] TG=DUT1. [Enc] Eth-IPv4-ICMP(type 0 and 8) on TG_if1-DUT, Eth-IPv6-IPv4-ICMP on TG_if2_DUT. [Cfg] On DUT1 configure Map domain and Map rule. [Ver] Make TG send non-encapsulated ICMP to DUT; verify TG received IPv4oIPv6 encapsulated packet is correct. Checks IPv6 destination based on ICMP Identifier field. [Ref] RFC7596 section 8.1 PASS
TC03: Decapsulate IPv4 UDP from IPv6. [Top] TG=DUT1. [Enc] Eth-IPv6-IPv4-UDP on TG_if2_DUT, Eth-IPv4-UDP on TG_if1-DUT. [Cfg] On DUT1 configure Map domain and Map rule. [Ver] Make TG send encapsulated UDP to DUT; verify TG received IPv4 non-encapsulated packet is correct. [Ref] RFC7596 RFC7597 PASS
TC04: Hairpinning of traffic between two lwB4 [Top] DUT1-TG. [Enc] Eth-IPv6-IPv4-UDP on TG_if2_DUT, Eth-IPv6-IPv4-UDP on TG_if2_DUT. [Cfg] On DUT1 configure Map domain and two Map rules. [Ver] Make TG send encapsulated UDP to DUT; verify TG received encapsulated packet is correct. [Ref] RFC7596 RFC7597 PASS
Tap
Tap Interface
  • Tap Interface Traffic Tests
  • [Top] Network Topologies: TG=DUT1 2-node topology with two links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-ICMPv4 for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 bridge-domain (L2BD) MAC learning enabled; Split Horizon Groups (SHG) are set depending on test case; Namespaces (NM) are set on DUT1 with attached linux-TAP.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent by TG on link to DUT1; On receipt TG verifies packets for correctness and their IPv4 src-addr, dst-addr, and MAC addresses.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: Tap Interface Simple BD [Top] TG-DUT1-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure two L2BD with two if's for each L2BD with MAC learning and one L2BD joining two linux-TAP interfaces created by VPP located in namespace. [Ver] Packet sent from TG is passed through all L2BD and received back on TG. Then src_ip, dst_ip and MAC are checked. PASS
TC02: Tap Interface IP Ping Without Namespace [Top] TG-DUT1-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure two interface addresses with IPv4 of which one is TAP interface ( dut_to_tg_if and TAP ). and one is linux-TAP. [Ver] Packet sent from TG gets to the destination and ICMP-reply is received on TG. PASS
TC03: Tap Interface IP Ping With Namespace [Top] TG-DUT1-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure two interface addresses with IPv4 of which one is TAP interface ( dut_to_tg_if and TAP ). and one is linux-TAP in namespace. [Ver] Packet sent from TG gets to the destination and ICMP-reply is received on TG. PASS
TC04: Tap Interface BD - Different Split Horizon [Top] TG-DUT1-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure one if into L2BD with MAC learning. Add two TAP interfaces into this L2BD and assign them different SHG. Setup two namespaces and assign two linux-TAP interfaces to it respectively. [Ver] Packet is sent from TG to both linux-TAP interfaces and reply is checked. Ping from First linux-TAP to another should pass. PASS
TC05: Tap Interface BD - Same Split Horizon [Top] TG-DUT1-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] On DUT1 configure one if into L2BD with MAC learning. Add two TAP interfaces into this L2BD and assign them same SHG. Setup two namespaces and assign two linux-TAP interfaces to it respectively. [Ver] Packet is sent from TG to both linux-TAP interfaces and reply is checked. Ping from First linux-TAP to another should fail. PASS
TC06: Tap Interface Modify And Delete [Top] TG-DUT1-TG. [Enc] Eth-IPv4-ICMPv4. [Cfg] Set two TAP interfaces. [Ver] Verify that TAP interface can be modified, deleted, and no other TAP interface is affected. PASS
Vlan
Qinq L2 Xconnect
  • L2 cross-connect with QinQ test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross-connect (L2XC) switching with 802.1ad QinQ VLAN tag push and pop.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: IEEE 802.1ad.
Name Documentation Status
TC01: DUT1 and DUT2 with L2XC and two VLAN push-pop switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure L2 cross-connect (L2XC), each with one interface to TG and one Ethernet interface towards the other DUT; each DUT pushes two VLAN tags on packets received from local TG, and popping two VLAN tags on packets transmitted to local TG. [Ver] Make TG send ICMPv4 Echo Req in both directions between two of its interfaces to be switched by DUT1 and DUT2; verify all packets are received. [Ref] IEEE 802.1ad. PASS
Vlan Tag Translate L2 Bridge Domain Ipv4
  • L2 bridge domain with VLAN tag rewrite test cases - IPv4
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-dot1q-IPv4-ICMPv4 or Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2 for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 is configured with bridge domain (L2BD) switching combined with MAC learning enabled and added VLAN sub-interface with VLAN tag rewrite translate-1-1 method of interface towards TG and interface towards DUT2. DUT2 is configured with L2 bridge domain (L2BD) switching between VLAN sub-interface with VLAN tag rewrite pop-1 method of interface towards DUT1 and interface towards TG.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent from TG on link to DUT1 and received in TG on link form DUT2; on receive TG verifies packets for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: IEEE 802.1q, IEEE 802.1ad.
Name Documentation Status
TC01: DUT1 and DUT2 with L2BD and VLAN translate-1-1 (DUT1) switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1 and DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-1 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q PASS
TC03: DUT1 and DUT2 with L2BD and VLAN translate-1-2 (DUT1) switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-2 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC07: DUT1 and DUT2 with L2BD and VLAN translate-2-1 (DUT1) switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1, Eth-dot1q-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-1 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req tagged with Dot1ad tags from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC09: DUT1 and DUT2 with L2BD and VLAN translate-2-2 switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-2 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 tagged with Dot1ad tags from one of its interfaces to another one method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1ad PASS
Vlan Tag Translate L2 Bridge Domain Ipv6
  • L2 bridge domain with VLAN tag rewrite test cases - IPv6
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-dot1q-IPv6-ICMPv6 or Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2 for L2 switching of IPv6.
  • [Cfg] DUT configuration: DUT1 is configured with bridge domain (L2BD) switching combined with MAC learning enabled and added VLAN sub-interface with VLAN tag rewrite translate-1-1 method of interface towards TG and interface towards DUT2. DUT2 is configured with L2 bridge domain (L2BD) switching between VLAN sub-interface with VLAN tag rewrite pop-1 method of interface towards DUT1 and interface towards TG.
  • [Ver] TG verification: Test ICMPv6 Echo Request packets are sent from TG on link to DUT1 and received in TG on link form DUT2; on receive TG verifies packets for correctness and their IPv6 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: IEEE 802.1q, IEEE 802.1ad.
Name Documentation Status
TC01: DUT1 and DUT2 with L2BD and VLAN translate-1-1 (DUT1) switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1 and DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-1 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req tagged with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q PASS
TC03: DUT1 and DUT2 with L2BD and VLAN translate-1-2 (DUT1) switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-2 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req tagged with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC07: DUT1 and DUT2 with L2BD and VLAN translate-2-1 (DUT1) switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1, Eth-dot1q-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-1 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req tagged with Dot1ad tags from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC09: DUT1 and DUT2 with L2BD and VLAN translate-2-2 switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 bridge domain (L2BD) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-2 method; on DUT2 configure L2 bridge domain (L2BD) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 tagged with Dot1ad tags from one of its interfaces to another one method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1ad PASS
Vlan Tag Translate L2 Xconnect Ipv4
  • L2 cross-connect with VLAN tag rewrite test cases - IPv4
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-dot1q-IPv4-ICMPv4 or Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2 for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 is configured with L2 cross-connect (L2XC) switching between VLAN sub-interface with VLAN tag rewrite translate-1-1 method of interface towards TG and interface towards DUT2. DUT2 is configured configured with L2 cross-connect (L2XC) switching between VLAN sub-interface with VLAN tag rewrite pop-1 method of interface towards DUT1 and interface towards TG.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent from TG on link to DUT1 and received in TG on link form DUT2; on receive TG verifies packets for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: IEEE 802.1q, IEEE 802.1ad.
Name Documentation Status
TC01: DUT1 and DUT2 with L2XC and VLAN translate-1-1 (DUT1) switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1 and DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-1 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q PASS
TC03: DUT1 and DUT2 with L2XC and VLAN translate-1-2 (DUT1) switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-ICMPv4 on TG-DUT1, Eth-dot1ad-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-2 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv4 Echo Req tagged with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC07: DUT1 and DUT2 with L2XC and VLAN translate-2-1 (DUT1) switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1, Eth-dot1q-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-1 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv4 Echo Req tagged with Dot1ad tags from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC09: DUT1 and DUT2 with L2XC and VLAN translate-2-2 switch ICMPv4 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv4-ICMPv4 on TG-DUT1 and on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-2 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 tagged with Dot1ad tags from one of its interfaces to another one method. [Ver] Make TG send ICMPv4 Echo Req via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1ad PASS
Vlan Tag Translate L2 Xconnect Ipv6
  • L2 cross-connect with VLAN tag rewrite test cases - IPv6
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-dot1q-IPv6-ICMPv6 or Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2 for L2 switching of IPv6.
  • [Cfg] DUT configuration: DUT1 is configured with L2 cross-connect (L2XC) switching between VLAN sub-interface with VLAN tag rewrite translate-1-1 method of interface towards TG and interface towards DUT2. DUT2 is configured configured with L2 cross-connect (L2XC) switching between VLAN sub-interface with VLAN tag rewrite pop-1 method of interface towards DUT1 and interface towards TG.
  • [Ver] TG verification: Test ICMPv6 Echo Request packets are sent from TG on link to DUT1 and received in TG on link form DUT2; on receive TG verifies packets for correctness and their IPv6 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: IEEE 802.1q, IEEE 802.1ad.
Name Documentation Status
TC01: DUT1 and DUT2 with L2XC and VLAN translate-1-1 (DUT1) switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1 and DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-1 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req tagegd with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q PASS
TC03: DUT1 and DUT2 with L2XC and VLAN translate-1-2 (DUT1) switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv6-ICMPv6 on TG-DUT1, Eth-dot1ad-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one VLAN sub-interface towards TG with VLAN tag rewrite translate-1-2 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-2 method. [Ver] Make TG send ICMPv6 Echo Req tagegd with one Dot1q tag from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC07: DUT1 and DUT2 with L2XC and VLAN translate-2-1 (DUT1) switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1, Eth-dot1q-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-1 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one VLAN sub-interface towards DUT1 with VLAN tag rewrite pop-1 method. [Ver] Make TG send ICMPv6 Echo Req tagegd with Dot1ad tags from one of its interfaces to another one via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1q, IEEE 802.1ad PASS
TC09: DUT1 and DUT2 with L2XC and VLAN translate-2-2 switch ICMPv6 between two TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1ad-IPv6-ICMPv6 on TG-DUT1 and on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUT2. [Cfg] On DUT1 configure L2 cross-connect (L2XC) with one interface to DUT2 and one Dot1ad sub-interface towards TG with VLAN tag rewrite translate-2-2 method; on DUT2 configure L2 cross-connect (L2XC) with one interface to TG and one Dot1ad sub-interface towards DUT1 with VLAN tag rewrite pop-1 tagegd with Dot1ad tags from one of its interfaces to another one method. [Ver] Make TG send ICMPv6 Echo Req via DUT1 and DUT2; verify that packet is received. [Ref] IEEE 802.1ad PASS
Vrf
Vrf Tests
  • Vpn routed forwarding - baseline IPv4
  • [Top] Network Topologies: TG=DUT1=DUT2=TG 3-node topology with two links in between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-ICMPv4 for L2 switching of IPv4.
  • [Cfg] DUT configuration:Each DUT is configured with two VRF tables; Separation of traffic is tested by IP packets; Basic ARP and ROUTES are set on DUT nodes; IP addresses are set on DUT interfaces.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent by TG on link to DUT1, DUT2 or back to TG; On receipt TG verifies packets for correctness and their IPv4 src-addr, dst-addr, and MAC addresses.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: TG packets routed to DUT ingress interface, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv4-ICMPv4. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. On every ingress and egress port on DUT is configured ARP and each DUT is configured with one route. [Ver] Packet is send from TG->DUT1-if1 to DUT1->TG-if1 and from TG->DUT1-if2 to DUT1->TG-if2 and checked if arrived. PASS
TC02: TG packets routed to DUT egress interface, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv4-ICMPv4. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. On every ingress and egress port on DUT is configured ARP and each DUT is configured with one route. [Ver] Packet is send from TG->DUT1-if1 to DUT1->DUT2-if1 and from TG->DUT1-if2 to DUT1->DUT2-if2 and checked if arrived. PASS
TC03: TG packets routed to DUT2 ingress interface through DUT1, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv4-ICMPv4. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. On every ingress and egress port on DUT is configured ARP and each DUT is configured with one route. [Ver] Packet is send from TG->DUT1-if1 to DUT2->DUT1-if1 and from TG->DUT1-if2 to DUT2->DUT1-if2 and checked if arrived. PASS
TC04: TG packets routed to DUT2 egress interface through DUT1, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv4-ICMPv4. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. On every ingress and egress port on DUT is configured ARP and each DUT is configured with one route. [Ver] Packet is send from TG->DUT1-if1 to DUT2->TG-if1 and from TG->DUT1-if2 to DUT2->TG-if2 and checked if arrived. PASS
TC05: TG packets routed to TG through DUT1 and DUT2, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv4-ICMPv4. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. On every ingress and egress port on DUT is configured ARP and each DUT is configured with one route. [Ver] Packet is send from TG->DUT1-if1 to TG->DUT2-if1 and from TG->DUT1-if2 to TG->DUT2-if2 and checked if arrived. PASS
Vrf Tests V6
  • Vpn routed forwarding - baseline IPv6
  • [Top] Network Topologies: TG=DUT1=DUT2=TG 3-node topology with two links in between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6-ICMPv6
  • [Cfg] DUT configuration: Each DUT is configured with two VRF tables; Separation of traffic is tested by IP packets; Neighbors and Routes are set on DUT nodes; IP addresses are set on DUT interfaces.
  • [Ver] TG verification: Test ICMPv6 Echo Request packets are sent by TG on link to DUT1, DUT2 or back to TG; On receipt TG verifies packets for correctness and their IPv6 src-addr, dst-addr, and MAC addresses.
  • [Ref] Applicable standard specifications:
Name Documentation Status
TC01: TG packets routed to DUT ingress interface, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv6-ICMPv6. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. Neighbors are configured for each DUTs ingress/egress ports, and each VRF is configured with just one route. [Ver] Packet is sent from TG->DUT1-if1 to DUT1->TG-if1 and from TG->DUT1-if2 to DUT1->TG-if2 and checked if arrived. PASS
TC02: TG packets routed to DUT egress interface, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv6-ICMPv6. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. Neighbors are configured for each DUTs ingress/egress ports, and each VRF is configured with just one route. [Ver] Packet is sent from TG->DUT1-if1 to DUT1->DUT2-if1 and from TG->DUT1-if2 to DUT1->DUT2-if2 and checked if arrived. PASS
TC03: TG packets routed to DUT2 ingress interface through DUT1, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv6-ICMPv6. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. Neighbors are configured for each DUTs ingress/egress ports, and each VRF is configured with just one route. [Ver] Packet is sent from TG->DUT1-if1 to DUT2->DUT1-if1 and from TG->DUT1-if2 to DUT2->DUT1-if2 and checked if arrived. PASS
TC04: TG packets routed to DUT2 egress interface through DUT1, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv6-ICMPv6. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. Neighbors are configured for each DUTs ingress/egress ports, and each VRF is configured with just one route. [Ver] Packet is sent from TG->DUT1-if1 to DUT2->TG-if1 and from TG->DUT1-if2 to DUT2->TG-if2 and checked if arrived. PASS
TC05: TG packets routed to TG through DUT1 and DUT2, VPP configured with two VRFs [Top] TG=DUT1=DUT2=TG [Enc] Eth-IPv6-ICMPv6. [Cfg] DUT1 and DUT2 are both configured with two fib tables. Each table is assigned to 2 interfaces to separate the traffic. Interfaces are configured with IP addresses from *Variables*. Neighbors are configured for each DUTs ingress/egress ports, and each VRF is configured with just one route. [Ver] Packet is sent from TG->DUT1-if1 to TG->DUT2-if1 and from TG->DUT1-if2 to TG->DUT2-if2 and checked if arrived. PASS
Vxlan
Vxlan Bd Dot1Q
  • RFC7348 VXLAN: Bridge-domain with VXLAN over VLAN test cases
  • [Top] Network topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-dot1q-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2, Eth-dot1q-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 bridge-domain (L2BD) switching combined with static MACs, MAC learning enabled and Split Horizon Groups (SHG) depending on test case; VXLAN tunnels are configured between L2BDs on DUT1 and DUT2.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC7348.
Name Documentation Status
TC01: DUT1 and DUT2 with L2BD and VXLANoIPv4oVLAN tunnels switch ICMPv4 between TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-dot1q-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure L2 bridge-domain (MAC learning enabled), each with one interface to TG and one VXLAN tunnel interface towards the other DUT over VLAN sub-interface. [Ver] Make TG send ICMPv4 Echo Req between two of its interfaces, verify all packets are received. [Ref] RFC7348. PASS
Vxlan Bd Untagged
  • RFC7348 VXLAN: Bridge-domain with VXLAN test cases
  • [Top] Network topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes; TG=DUT1=DUT2=TG 3-node circular topology with double parallel links.
  • [Enc] Packet encapsulations: Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4; Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn for L2 switching of IPv6.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 bridge-domain (L2BD) switching combined with static MACs, MAC learning enabled and Split Horizon Groups (SHG) depending on test case; VXLAN tunnels are configured between L2BDs on DUT1 and DUT2.
  • [Ver] TG verification: Test ICMPv4 (or ICMPv6) Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 (IPv6) src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC7348.
Name Documentation Status
TC01: DUT1 and DUT2 with L2BD and VXLANoIPv4 tunnels switch ICMPv4 between TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure two i/fs into L2BD with MAC learning. [Ver] Make TG verify ICMPv4 Echo Req pkts are switched thru DUT1 and DUT2 in both directions and are correct on receive. [Ref] RFC7348. PASS
TC02: DUT1 and DUT2 with L2BD and VXLANoIPv4 tunnels in SHG switch ICMPv4 between TG links [Top] TG=DUT1=DUT2=TG. [Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 configure L2 bridge-domain (MAC learning enabled) with two untagged interfaces to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN interfaces into the same Split-Horizon-Group (SHG). On DUT2 configure two L2 bridge-domain (MAC learning enabled), each with one untagged interface to TG and one VXLAN interface towards the DUT1. [Ver] Make TG send ICMPv4 Echo Reqs between all four of its interfaces to be switched by DUT1 and DUT2; verify packets are not switched between TG interfaces connected to DUT2 that are isolated by SHG on DUT1. [Ref] RFC7348. PASS
TC03: DUT1 and DUT2 with L2BD and VXLANoIPv4 tunnels in different SHGs switch ICMPv4 between TG links [Top] TG=DUT1=DUT2=TG.[Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2; Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 configure L2 bridge-domain (MAC learning enabled) with two untagged interfaces to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN interfaces into the different Split-Horizon-Group (SHGs). On DUT2 configure two L2 bridge-domain (MAC learning enabled), each with one untagged interface to TG and one VXLAN interface towards the DUT1. [Ver] Make TG send ICMPv4 Echo Req between all four of its interfaces to be switched by DUT1 and DUT2; verify packets are switched between all TG interfaces. [Ref] RFC7348. PASS
TC04: DUT1 and DUT2 with L2BD and VXLANoIPv6 tunnels switch ICMPv6 between TG links [Top] TG=DUT1=DUT2=TG.[Enc] Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure L2 bridge-domain (MAC learning enabled), each with one interface to TG and one VXLAN tunnel interface towards the other DUT. [Ver] Make TG send ICMPv6 Echo Req between two of its interfaces to be switched by DUT1 and DUT2; verify all packets are received. [Ref] RFC7348. PASS
TC05: DUT1 and DUT2 with L2BD and VXLANoIPv6 tunnels in SHG switch ICMPv6 between TG links [Top] TG=DUT1=DUT2=TG. [Enc] Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on DUT1-DUT2; Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 configure L2 bridge-domain (MAC learning enabled) with two untagged interfaces to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN interfaces into the same Split-Horizon-Group (SHG). On DUT2 configure two L2 bridge-domain (MAC learning enabled), each with one untagged interface to TG and one VXLAN interface towards the DUT1. [Ver] Make TG send ICMPv6 Echo Reqs between all four of its interfaces to be switched by DUT1 and DUT2; verify packets are not switched between TG interfaces connected to DUT2 that are isolated by SHG on DUT1. [Ref] RFC7348. PASS
TC06: DUT1 and DUT2 with L2BD and VXLANoIPv6 tunnels in different SHGs switch ICMPv6 between TG links [Top] TG=DUT1=DUT2=TG.[Enc] Eth-IPv6-VXLAN-Eth-IPv6-ICMPv6 on DUT1-DUT2; Eth-IPv6-ICMPv6 on TG-DUTn. [Cfg] On DUT1 configure L2 bridge-domain (MAC learning enabled) with two untagged interfaces to TG and two VXLAN interfaces towards the DUT2 and put both VXLAN interfaces into the different Split-Horizon-Group (SHGs). On DUT2 configure two L2 bridge-domain (MAC learning enabled), each with one untagged interface to TG and one VXLAN interface towards the DUT1. [Ver] Make TG send ICMPv6 Echo Req between all four of its interfaces to be switched by DUT1 and DUT2; verify packets are switched between all TG interfaces. [Ref] RFC7348. PASS
Vxlan Xconnect Untagged
  • RFC7348 VXLAN: L2 cross-connect with VXLAN test cases
  • [Top] Network topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet encapsulations: Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross-connect (L2XC) switching; VXLAN tunnels are configured between L2XCs on DUT1 and DUT2.
  • [Ver] TG verification: Test ICMPv4 Echo Request packets are sent in both directions by TG on links to DUT1 and DUT2; on receive TG verifies packets for correctness and their IPv4 src-addr, dst-addr and MAC addresses.
  • [Ref] Applicable standard specifications: RFC7348.
Name Documentation Status
TC01: DUT1 and DUT2 with L2XC and VXLANoIPv4 tunnels switch ICMPv4 between TG links [Top] TG-DUT1-DUT2-TG. [Enc] Eth-IPv4-VXLAN-Eth-IPv4-ICMPv4 on [Ref] RFC7348.DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn. [Cfg] On DUT1 and DUT2 configure L2 cross-connect (L2XC), each with one interface to TG and one VXLAN tunnel interface towards the other DUT. [Ver] Make TG send ICMPv4 Echo Req between two of its interfaces; verify all packets are received. [Ref] RFC7348. PASS

Performance tests results

CSIT VPP DUT performance test results in this report have been generated from Robot Framework output log of LF Jenkins Job csit-vpp-perf-1609-all and post processed into wiki format. Original RF report source files are available at Jenkins Job csit-vpp-perf-1609-all: log.html, output.xml, report.html. In addition VPP DUT performance trending graphs have been posted from LF Jenkins Job csit-vpp-perf-1609-all.

VPP Trend Graphs RFC2544:NDR

VPP performance trend graphs from LF Jenkins Job csit-vpp-perf-1609-all.

[TBD]

VPP Trend Graphs RFC2544:PDR

VPP performance trend graphs from LF Jenkins Job csit-vpp-perf-1609-all.

[TBD]

Long Performance Tests - NDR and PDR Search

Long Bridge Domain Intel-X520-DA2
  • RFC2544: Pkt throughput L2BD test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 bridge- domain and MAC learning enabled. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7821428.375 pps (2x 3910714.1875 pps)

FINAL_BANDWIDTH: 5.255999868 Gbps (untagged) LATENCY_STREAM_0: 20/204.598453522/496 usec (min/avg/max) LATENCY_STREAM_1: 30/200.732703209/470 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7821428.375 pps (2x 3910714.1875 pps)

FINAL_BANDWIDTH: 5.255999868 Gbps (untagged) LATENCY_STREAM_0: 10/204.203818798/451 usec (min/avg/max) LATENCY_STREAM_1: 10/183.037800789/429 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/204.089512825/585 usec (min/avg/max) LATENCY_STREAM_1: 20/176.243381977/567 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/199.179124832/217 usec (min/avg/max) LATENCY_STREAM_1: 20/170.981608391/176 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/189.440063953/225 usec (min/avg/max) LATENCY_STREAM_1: 60/179.033522606/192 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/184.952463627/225 usec (min/avg/max) LATENCY_STREAM_1: 60/175.630103111/189 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2BD - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 16135713.875 pps (2x 8067856.9375 pps)

FINAL_BANDWIDTH: 10.843199724 Gbps (untagged) LATENCY_STREAM_0: 10/42.9436626434/352 usec (min/avg/max) LATENCY_STREAM_1: 10/56.9043660164/334 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2BD - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 16366666.25 pps (2x 8183333.125 pps)

FINAL_BANDWIDTH: 10.99839972 Gbps (untagged) LATENCY_STREAM_0: 20/56.0293397903/844 usec (min/avg/max) LATENCY_STREAM_1: 20/839.056229591/1052 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT L2BD - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/165.755265236/512 usec (min/avg/max) LATENCY_STREAM_1: 20/417.258217335/422 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT L2BD - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/135.272212029/314 usec (min/avg/max) LATENCY_STREAM_1: 20/210.753345013/428 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT L2BD - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/175.765051365/271 usec (min/avg/max) LATENCY_STREAM_1: 60/438.391997814/456 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT L2BD - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/118.514892101/185 usec (min/avg/max) LATENCY_STREAM_1: 60/454.69980526/469 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2BD - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 20/28.6020278931/322 usec (min/avg/max) LATENCY_STREAM_1: 20/30.9923334122/133 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2BD - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 20/930.592894077/1099 usec (min/avg/max) LATENCY_STREAM_1: 20/486.68348217/629 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT L2BD - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/230.184494495/257 usec (min/avg/max) LATENCY_STREAM_1: 20/108.694200993/180 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT L2BD - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/226.776733398/373 usec (min/avg/max) LATENCY_STREAM_1: 20/302.622140408/339 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT L2BD - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/221.46662426/271 usec (min/avg/max) LATENCY_STREAM_1: 60/206.291048527/221 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT L2BD - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/228.984723091/251 usec (min/avg/max) LATENCY_STREAM_1: 60/333.562053204/462 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC19: IMIX_v4_1 NDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 6687472.0 pps (2x 3343736.0 pps)

FINAL_BANDWIDTH: 19.9999994163 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC20: IMIX_v4_1 PDR binary search - DUT L2BD - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 6687472.0 pps (2x 3343736.0 pps)

FINAL_BANDWIDTH: 19.9999994163 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Bridge Domain Vhost Intel-X520-DA2
  • RFC2544: Pkt throughput L2BD test cases with vhost
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 switching of IPv4.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 bridge- domain and MAC learning enabled. Qemu Guest is connected to VPP via vhost-user interfaces. Guest is running DPDK testpmd interconnecting vhost-user interfaces using 3 cores pinned to cpus 5,6,7 and 2048M memory. Testpmd is using socket-mem=1024M (512x2M hugepages), 3 cores (1 main core and 2 cores dedicated for io), forwarding mode is set to io, rxq/txq=2048, burst=64. DUT1, DUT2 are tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2BD-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 368537.9375 pps (2x 184268.96875 pps)

FINAL_BANDWIDTH: 0.247657494 Gbps (untagged) LATENCY_STREAM_0: 20/87.2986021042/374 usec (min/avg/max) LATENCY_STREAM_1: 20/108.865879536/240 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2BD-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 920389.671876 pps (2x 460194.835938 pps)

FINAL_BANDWIDTH: 0.618501859501 Gbps (untagged) LATENCY_STREAM_0: 20/120.080487728/180 usec (min/avg/max) LATENCY_STREAM_1: 20/54.8457789421/108 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT L2BD-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 270857.1875 pps (2x 135428.59375 pps)

FINAL_BANDWIDTH: 3.332626835 Gbps (untagged) LATENCY_STREAM_0: 30/49.5758929253/298 usec (min/avg/max) LATENCY_STREAM_1: 30/89.5141439438/549 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT L2BD-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1274285.9375 pps (2x 637142.96875 pps)

FINAL_BANDWIDTH: 15.678814175 Gbps (untagged) LATENCY_STREAM_0: 30/653.82558918/846 usec (min/avg/max) LATENCY_STREAM_1: 30/657.30842495/831 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: IMIX_v4_1 NDR binary search - DUT L2BD-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 257796.8125 pps (2x 128898.40625 pps)

FINAL_BANDWIDTH: 0.770984327042 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC06: IMIX_v4_1 PDR binary search - DUT L2BD-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 1679368.0 pps (2x 839684.0 pps)

FINAL_BANDWIDTH: 5.02242985388 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2BD-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 310448.28125 pps (2x 155224.140625 pps)

FINAL_BANDWIDTH: 0.208621245 Gbps (untagged) LATENCY_STREAM_0: 20/31.6900339127/140 usec (min/avg/max) LATENCY_STREAM_1: 20/31.0009469986/542 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2BD-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 4725262.15624 pps (2x 2362631.07812 pps)

FINAL_BANDWIDTH: 3.17537616899 Gbps (untagged) LATENCY_STREAM_0: 20/123.50404501/355 usec (min/avg/max) LATENCY_STREAM_1: 30/117.044851303/340 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT L2BD-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 195600.03125 pps (2x 97800.015625 pps)

FINAL_BANDWIDTH: 2.4066627845 Gbps (untagged) LATENCY_STREAM_0: 20/40.9999995232/286 usec (min/avg/max) LATENCY_STREAM_1: 30/51.9999470711/245 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT L2BD-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 60/513.351748943/690 usec (min/avg/max) LATENCY_STREAM_1: 60/485.990208626/508 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: IMIX_v4_1 NDR binary search - DUT L2BD-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 270838.75 pps (2x 135419.375 pps)

FINAL_BANDWIDTH: 0.809988414444 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC12: IMIX_v4_1 PDR binary search - DUT L2BD-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2BD switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 4039958.6875 pps (2x 2019979.34375 pps)

FINAL_BANDWIDTH: 12.0821696737 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2BD-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 542806.90625 pps (2x 271403.453125 pps)

FINAL_BANDWIDTH: 0.364766241 Gbps (untagged) LATENCY_STREAM_0: 10/22.9999890327/53 usec (min/avg/max) LATENCY_STREAM_1: 20/33.9843130112/62 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2BD-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 5538517.34376 pps (2x 2769258.67188 pps)

FINAL_BANDWIDTH: 3.72188365501 Gbps (untagged) LATENCY_STREAM_0: 20/80.6127018929/478 usec (min/avg/max) LATENCY_STREAM_1: 10/115.319778919/149 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT L2BD-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 245771.46875 pps (2x 122885.734375 pps)

FINAL_BANDWIDTH: 3.0239721515 Gbps (untagged) LATENCY_STREAM_0: 20/41.999979496/82 usec (min/avg/max) LATENCY_STREAM_1: 30/51.9960684776/309 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT L2BD-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/252.188719273/476 usec (min/avg/max) LATENCY_STREAM_1: 30/292.422626019/463 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: IMIX_v4_1 NDR binary search - DUT L2BD-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 244754.875 pps (2x 122377.4375 pps)

FINAL_BANDWIDTH: 0.73198023964 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC18: IMIX_v4_1 PDR binary search - DUT L2BD-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2BD switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 4196461.9375 pps (2x 2098230.96875 pps)

FINAL_BANDWIDTH: 12.5502187225 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC19: 64B NDR binary search - DUT L2BD-DPDK-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 281403.453124 pps (2x 140701.726562 pps)

FINAL_BANDWIDTH: 0.189103120499 Gbps (untagged) LATENCY_STREAM_0: 10/45.9975352287/107 usec (min/avg/max) LATENCY_STREAM_1: 20/87.9684157372/296 usec (min/avg/max)

PASS
TC20: 64B PDR binary search - DUT L2BD-DPDK-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2BD switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 426627.59375 pps (2x 213313.796875 pps)

FINAL_BANDWIDTH: 0.286693743 Gbps (untagged) LATENCY_STREAM_0: 30/153.98820734/487 usec (min/avg/max) LATENCY_STREAM_1: 30/71.5825195312/904 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Cop Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 whitelist test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing, two static IPv4 /24 routes and IPv4 COP security whitelist ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7590476.0 pps (2x 3795238.0 pps)

FINAL_BANDWIDTH: 5.100799872 Gbps (untagged) LATENCY_STREAM_0: 10/1802.41883564/2146 usec (min/avg/max) LATENCY_STREAM_1: 10/3390.17428112/3470 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7590476.0 pps (2x 3795238.0 pps)

FINAL_BANDWIDTH: 5.100799872 Gbps (untagged) LATENCY_STREAM_0: 20/3379.44735193/3882 usec (min/avg/max) LATENCY_STREAM_1: 20/1798.64798498/1860 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/157.548206329/218 usec (min/avg/max) LATENCY_STREAM_1: 20/153.611039639/205 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/201.815037251/212 usec (min/avg/max) LATENCY_STREAM_1: 20/200.13877058/204 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/130.383962154/291 usec (min/avg/max) LATENCY_STREAM_1: 60/112.908379078/239 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/198.227056026/229 usec (min/avg/max) LATENCY_STREAM_1: 60/205.948191166/220 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 14057142.5 pps (2x 7028571.25 pps)

FINAL_BANDWIDTH: 9.44639976 Gbps (untagged) LATENCY_STREAM_0: 20/47.7575483322/238 usec (min/avg/max) LATENCY_STREAM_1: 10/952.616034985/1118 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 14057142.5 pps (2x 7028571.25 pps)

FINAL_BANDWIDTH: 9.44639976 Gbps (untagged) LATENCY_STREAM_0: 20/45.0605845451/228 usec (min/avg/max) LATENCY_STREAM_1: 30/958.49945879/1157 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/293.987242699/417 usec (min/avg/max) LATENCY_STREAM_1: 20/432.814415455/437 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/266.306470871/275 usec (min/avg/max) LATENCY_STREAM_1: 20/520.660104752/621 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/126.073363781/148 usec (min/avg/max) LATENCY_STREAM_1: 60/472.014921665/486 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 50/271.56282568/291 usec (min/avg/max) LATENCY_STREAM_1: 60/457.12590456/483 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 10/941.998734951/1025 usec (min/avg/max) LATENCY_STREAM_1: 10/936.998760223/952 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 20/934.499446392/951 usec (min/avg/max) LATENCY_STREAM_1: 20/937.999277592/1005 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. Search FAILED FAIL
TC16: 1518B PDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/227.552530289/238 usec (min/avg/max) LATENCY_STREAM_1: 20/219.387811661/224 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/319.530475616/385 usec (min/avg/max) LATENCY_STREAM_1: 60/125.505288124/139 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/228.156224251/280 usec (min/avg/max) LATENCY_STREAM_1: 60/293.122337818/311 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Fib 200k Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and 2x100k static IPv4 /32 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 100k flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces. Incrementing of IP.dst (IPv4 destination address) field is applied to both streams.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 10/2914.02246952/3094 usec (min/avg/max) LATENCY_STREAM_1: 20/1748.90561056/1864 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 20/1621.107934/1673 usec (min/avg/max) LATENCY_STREAM_1: 20/3046.59477901/3132 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/208.243653297/216 usec (min/avg/max) LATENCY_STREAM_1: 20/227.233174324/232 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/276.480386257/381 usec (min/avg/max) LATENCY_STREAM_1: 20/285.78200388/347 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/247.133993626/280 usec (min/avg/max) LATENCY_STREAM_1: 50/267.389314651/279 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/265.457928658/291 usec (min/avg/max) LATENCY_STREAM_1: 60/269.180364609/279 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 17983332.875 pps (2x 8991666.4375 pps)

FINAL_BANDWIDTH: 12.084799692 Gbps (untagged) LATENCY_STREAM_0: 20/49.4793357849/214 usec (min/avg/max) LATENCY_STREAM_1: 20/66.6687479019/248 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 17983332.875 pps (2x 8991666.4375 pps)

FINAL_BANDWIDTH: 12.084799692 Gbps (untagged) LATENCY_STREAM_0: 20/48.4314923286/178 usec (min/avg/max) LATENCY_STREAM_1: 30/767.434244633/1092 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/320.759924412/539 usec (min/avg/max) LATENCY_STREAM_1: 20/538.420266628/543 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/305.569635391/309 usec (min/avg/max) LATENCY_STREAM_1: 20/366.338147163/372 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/114.73930645/131 usec (min/avg/max) LATENCY_STREAM_1: 50/520.856809616/537 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/454.92754221/515 usec (min/avg/max) LATENCY_STREAM_1: 60/495.701117039/511 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 10/29.7581596375/223 usec (min/avg/max) LATENCY_STREAM_1: 10/32.9361457825/124 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 20/732.124258995/899 usec (min/avg/max) LATENCY_STREAM_1: 10/486.371968269/888 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/155.754975319/170 usec (min/avg/max) LATENCY_STREAM_1: 20/485.625572681/900 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/444.461828232/479 usec (min/avg/max) LATENCY_STREAM_1: 20/262.889943123/280 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/221.91570425/262 usec (min/avg/max) LATENCY_STREAM_1: 60/368.060241699/416 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/324.369804382/590 usec (min/avg/max) LATENCY_STREAM_1: 60/292.980055809/337 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Fib 20k Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and 2x10k static IPv4 /32 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 10k flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces. Incrementing of IP.dst (IPv4 destination address) field is applied to both streams.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 20/1541.18578625/1608 usec (min/avg/max) LATENCY_STREAM_1: 20/1555.80251312/1606 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 20/3023.04538918/3121 usec (min/avg/max) LATENCY_STREAM_1: 30/1604.51465511/1703 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/250.163529396/489 usec (min/avg/max) LATENCY_STREAM_1: 20/203.739435196/466 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/255.360051632/626 usec (min/avg/max) LATENCY_STREAM_1: 20/322.774913311/592 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/144.782709122/232 usec (min/avg/max) LATENCY_STREAM_1: 70/207.857453823/238 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/144.952319145/630 usec (min/avg/max) LATENCY_STREAM_1: 60/210.431574821/612 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 17983332.875 pps (2x 8991666.4375 pps)

FINAL_BANDWIDTH: 12.084799692 Gbps (untagged) LATENCY_STREAM_0: 20/49.0170507431/252 usec (min/avg/max) LATENCY_STREAM_1: 20/156.830503464/574 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 17983332.875 pps (2x 8991666.4375 pps)

FINAL_BANDWIDTH: 12.084799692 Gbps (untagged) LATENCY_STREAM_0: 20/49.0470352173/444 usec (min/avg/max) LATENCY_STREAM_1: 10/763.752433777/863 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/299.717748642/628 usec (min/avg/max) LATENCY_STREAM_1: 20/458.877533913/521 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/101.895991325/319 usec (min/avg/max) LATENCY_STREAM_1: 20/494.904624462/498 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/281.313190937/320 usec (min/avg/max) LATENCY_STREAM_1: 60/288.298317432/304 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/145.976452827/167 usec (min/avg/max) LATENCY_STREAM_1: 60/466.355313301/494 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 10/31.8627719879/314 usec (min/avg/max) LATENCY_STREAM_1: 10/29.6789197922/113 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 20/486.773275852/589 usec (min/avg/max) LATENCY_STREAM_1: 20/541.910240173/722 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/387.394203663/428 usec (min/avg/max) LATENCY_STREAM_1: 20/226.439760208/236 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/210.549095631/332 usec (min/avg/max) LATENCY_STREAM_1: 20/421.869596481/445 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/312.288402557/367 usec (min/avg/max) LATENCY_STREAM_1: 60/255.760425568/327 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/163.959226608/384 usec (min/avg/max) LATENCY_STREAM_1: 60/103.417180538/320 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Fib 2M Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and 2x1M static IPv4 /32 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 1M flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces. Incrementing of IP.dst (IPv4 destination address) field is applied to both streams.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 10/3045.92193747/3175 usec (min/avg/max) LATENCY_STREAM_1: 10/1614.98244572/2005 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 10/3046.00127649/3199 usec (min/avg/max) LATENCY_STREAM_1: 10/1621.10547733/1709 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/245.607083321/302 usec (min/avg/max) LATENCY_STREAM_1: 20/287.74876976/310 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/192.810440063/250 usec (min/avg/max) LATENCY_STREAM_1: 20/301.765014648/333 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/252.206279755/281 usec (min/avg/max) LATENCY_STREAM_1: 60/256.871613503/267 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/127.478337765/374 usec (min/avg/max) LATENCY_STREAM_1: 60/158.037921906/345 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 17752380.5 pps (2x 8876190.25 pps)

FINAL_BANDWIDTH: 11.929599696 Gbps (untagged) LATENCY_STREAM_0: 10/50.0115699768/213 usec (min/avg/max) LATENCY_STREAM_1: 20/776.361936569/1200 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 17983332.875 pps (2x 8991666.4375 pps)

FINAL_BANDWIDTH: 12.084799692 Gbps (untagged) LATENCY_STREAM_0: 20/49.0009531975/171 usec (min/avg/max) LATENCY_STREAM_1: 10/770.507333755/989 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/354.070255756/564 usec (min/avg/max) LATENCY_STREAM_1: 20/296.003646374/458 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/141.240469456/160 usec (min/avg/max) LATENCY_STREAM_1: 20/516.51155901/760 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/311.592701912/434 usec (min/avg/max) LATENCY_STREAM_1: 60/334.999504566/356 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/309.123225689/325 usec (min/avg/max) LATENCY_STREAM_1: 60/433.99355793/454 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 10/29.3983802795/307 usec (min/avg/max) LATENCY_STREAM_1: 20/25.8739910126/230 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 10/481.518490314/891 usec (min/avg/max) LATENCY_STREAM_1: 20/933.999090672/1098 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/281.752055168/306 usec (min/avg/max) LATENCY_STREAM_1: 20/113.526244164/117 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/371.671003342/459 usec (min/avg/max) LATENCY_STREAM_1: 20/217.234297752/224 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/160.164412022/235 usec (min/avg/max) LATENCY_STREAM_1: 60/330.898489475/381 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/223.60590601/292 usec (min/avg/max) LATENCY_STREAM_1: 60/336.974718094/453 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 iAcl Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 iAcl whitelist test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing, two static IPv4 /24 routes and IPv4 iAcl security whitelist ingress /24 filter entries applied on links TG - DUT1 and DUT2 - TG. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7128571.25 pps (2x 3564285.625 pps)

FINAL_BANDWIDTH: 4.79039988 Gbps (untagged) LATENCY_STREAM_0: 20/3585.45923424/3676 usec (min/avg/max) LATENCY_STREAM_1: 40/1910.55854607/2252 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7128571.25 pps (2x 3564285.625 pps)

FINAL_BANDWIDTH: 4.79039988 Gbps (untagged) LATENCY_STREAM_0: 10/3622.72614813/3695 usec (min/avg/max) LATENCY_STREAM_1: 30/1932.91341162/2008 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/192.101470947/203 usec (min/avg/max) LATENCY_STREAM_1: 20/187.905379295/192 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/232.369810581/263 usec (min/avg/max) LATENCY_STREAM_1: 20/232.272727013/257 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/188.718058586/221 usec (min/avg/max) LATENCY_STREAM_1: 60/177.413634777/198 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/208.944787025/245 usec (min/avg/max) LATENCY_STREAM_1: 60/213.354029655/234 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 12902380.625 pps (2x 6451190.3125 pps)

FINAL_BANDWIDTH: 8.67039978 Gbps (untagged) LATENCY_STREAM_0: 10/45.7499980927/170 usec (min/avg/max) LATENCY_STREAM_1: 20/48.8975071907/258 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 13133333.0 pps (2x 6566666.5 pps)

FINAL_BANDWIDTH: 8.825599776 Gbps (untagged) LATENCY_STREAM_0: 20/1012.96079206/1089 usec (min/avg/max) LATENCY_STREAM_1: 20/1033.12578583/1224 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/99.9041643143/128 usec (min/avg/max) LATENCY_STREAM_1: 20/485.641052723/504 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/430.819857597/469 usec (min/avg/max) LATENCY_STREAM_1: 20/467.047378063/473 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/117.92110157/140 usec (min/avg/max) LATENCY_STREAM_1: 60/448.707194805/461 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/264.922898293/326 usec (min/avg/max) LATENCY_STREAM_1: 60/303.999214649/322 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 20985713.75 pps (2x 10492856.875 pps)

FINAL_BANDWIDTH: 14.10239964 Gbps (untagged) LATENCY_STREAM_0: 20/141.788443565/864 usec (min/avg/max) LATENCY_STREAM_1: 10/33.7809734344/167 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 20/174.188095093/855 usec (min/avg/max) LATENCY_STREAM_1: 10/70.7943668365/294 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/249.939730167/254 usec (min/avg/max) LATENCY_STREAM_1: 20/226.47619772/235 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/230.816020489/324 usec (min/avg/max) LATENCY_STREAM_1: 20/190.187553883/205 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/292.420721531/377 usec (min/avg/max) LATENCY_STREAM_1: 50/191.425345421/219 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/230.653811455/254 usec (min/avg/max) LATENCY_STREAM_1: 50/240.108632088/258 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and two static IPv4 /24 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 20/1562.52578068/1678 usec (min/avg/max) LATENCY_STREAM_1: 20/1575.44149446/1639 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8514285.5 pps (2x 4257142.75 pps)

FINAL_BANDWIDTH: 5.721599856 Gbps (untagged) LATENCY_STREAM_0: 20/1542.88680983/1759 usec (min/avg/max) LATENCY_STREAM_1: 10/1563.79671526/1741 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/194.071928024/204 usec (min/avg/max) LATENCY_STREAM_1: 20/185.236478329/193 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/162.34344101/191 usec (min/avg/max) LATENCY_STREAM_1: 30/165.77316761/208 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/201.672224522/228 usec (min/avg/max) LATENCY_STREAM_1: 50/199.125434399/218 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/218.916907787/242 usec (min/avg/max) LATENCY_STREAM_1: 60/210.755120277/229 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 18214285.25 pps (2x 9107142.625 pps)

FINAL_BANDWIDTH: 12.239999688 Gbps (untagged) LATENCY_STREAM_0: 10/53.382373333/229 usec (min/avg/max) LATENCY_STREAM_1: 10/771.530800343/953 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 18214285.25 pps (2x 9107142.625 pps)

FINAL_BANDWIDTH: 12.239999688 Gbps (untagged) LATENCY_STREAM_0: 20/68.9650654793/341 usec (min/avg/max) LATENCY_STREAM_1: 10/1439.66296577/1553 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/264.813824177/272 usec (min/avg/max) LATENCY_STREAM_1: 20/330.427732468/544 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/286.818648815/383 usec (min/avg/max) LATENCY_STREAM_1: 20/496.89522934/503 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/255.767271519/276 usec (min/avg/max) LATENCY_STREAM_1: 60/265.964468002/279 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/159.060964584/181 usec (min/avg/max) LATENCY_STREAM_1: 60/458.503066063/480 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 20/27.0291628838/210 usec (min/avg/max) LATENCY_STREAM_1: 10/25.0198383331/191 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 20/490.592782974/682 usec (min/avg/max) LATENCY_STREAM_1: 10/914.305945396/938 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/335.497125149/343 usec (min/avg/max) LATENCY_STREAM_1: 20/217.627100468/226 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4 - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/276.619810104/297 usec (min/avg/max) LATENCY_STREAM_1: 20/377.086385727/462 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/319.404325008/363 usec (min/avg/max) LATENCY_STREAM_1: 60/200.011572838/224 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. Search FAILED FAIL
TC19: IMIX_v4_1 NDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 6687472.0 pps (2x 3343736.0 pps)

FINAL_BANDWIDTH: 19.9999994163 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC20: IMIX_v4_1 PDR binary search - DUT IPv4 - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 6687472.0 pps (2x 3343736.0 pps)

FINAL_BANDWIDTH: 19.9999994163 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Policer Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 policer test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and two static IPv4 /24 route entries and policer with 2R3C color-aware configuration. Policer is applied on links TG - DUT1 and DUT2 - TG. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and generated payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544, RFC2698.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 2r3c-ca policer - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and policer config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 6897618.875 pps (2x 3448809.4375 pps)

FINAL_BANDWIDTH: 4.635199884 Gbps (untagged) LATENCY_STREAM_0: 20/77.8837795258/345 usec (min/avg/max) LATENCY_STREAM_1: 10/69.9864139557/317 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 2r3c-ca policer - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and policer config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7128571.25 pps (2x 3564285.625 pps)

FINAL_BANDWIDTH: 4.79039988 Gbps (untagged) LATENCY_STREAM_0: 20/3646.90692234/3734 usec (min/avg/max) LATENCY_STREAM_1: 40/1941.21079731/2161 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4 2r3c-ca policer - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and policer config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/144.827290058/158 usec (min/avg/max) LATENCY_STREAM_1: 20/160.272994518/165 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4 2r3c-ca policer - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and policer config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/146.440331459/521 usec (min/avg/max) LATENCY_STREAM_1: 20/160.983894348/487 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 2r3c-ca policer - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and policer config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/275.625713348/304 usec (min/avg/max) LATENCY_STREAM_1: 60/229.77660656/243 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 2r3c-ca policer - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing and policer config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/236.106877804/267 usec (min/avg/max) LATENCY_STREAM_1: 50/213.822319984/225 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 2r3c-ca policer - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and policer config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 12440475.875 pps (2x 6220237.9375 pps)

FINAL_BANDWIDTH: 8.359999788 Gbps (untagged) LATENCY_STREAM_0: 20/37.1229038239/153 usec (min/avg/max) LATENCY_STREAM_1: 10/47.8533306122/260 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 2r3c-ca policer - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and policer config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 12671428.25 pps (2x 6335714.125 pps)

FINAL_BANDWIDTH: 8.515199784 Gbps (untagged) LATENCY_STREAM_0: 20/1054.12667942/1365 usec (min/avg/max) LATENCY_STREAM_1: 10/1069.93290281/1352 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4 2r3c-ca policer - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and policer config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/131.762997627/264 usec (min/avg/max) LATENCY_STREAM_1: 20/471.848392963/479 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4 2r3c-ca policer - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and policer config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/166.473747253/424 usec (min/avg/max) LATENCY_STREAM_1: 20/574.959806442/582 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 2r3c-ca policer - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and policer config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/423.464832783/481 usec (min/avg/max) LATENCY_STREAM_1: 60/184.709022045/197 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 2r3c-ca policer - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing and policer config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/259.00056982/323 usec (min/avg/max) LATENCY_STREAM_1: 60/269.916359425/291 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 2r3c-ca policer - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and policer config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 21447618.5 pps (2x 10723809.25 pps)

FINAL_BANDWIDTH: 14.412799632 Gbps (untagged) LATENCY_STREAM_0: 20/152.332607746/768 usec (min/avg/max) LATENCY_STREAM_1: 10/48.9955415726/339 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 2r3c-ca policer - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and policer config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 22371428.0 pps (2x 11185714.0 pps)

FINAL_BANDWIDTH: 15.033599616 Gbps (untagged) LATENCY_STREAM_0: 10/61.6295719147/385 usec (min/avg/max) LATENCY_STREAM_1: 10/711.297127724/827 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4 2r3c-ca policer - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and policer config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/331.019755363/380 usec (min/avg/max) LATENCY_STREAM_1: 20/100.951382637/105 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4 2r3c-ca policer - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and policer config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/132.817593098/301 usec (min/avg/max) LATENCY_STREAM_1: 20/357.674724102/369 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 2r3c-ca policer - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and policer config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/204.288940907/233 usec (min/avg/max) LATENCY_STREAM_1: 50/263.593984604/337 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 2r3c-ca policer - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing and policer config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/283.548681736/412 usec (min/avg/max) LATENCY_STREAM_1: 60/313.434754372/397 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv4 Vhost Intel-X520-DA2
  • RFC2544: Pkt throughput IPv4 test cases with vhost
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for IPv4 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 routing and two static IPv4 /24 route entries. Qemu Guest is connected to VPP via vhost-user interfaces. Guest is running DPDK testpmd interconnecting vhost-user interfaces using 3 cores pinned to cpus 5,6,7 and 2048M memory. Testpmd is using socket-mem=1024M (512x2M hugepages), 3 cores (1 main core and 2 cores dedicated for io), forwarding mode is set to mac, rxq/txq=2048, burst=64. DUT1, DUT2 are tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4-VHOST - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 310448.28125 pps (2x 155224.140625 pps)

FINAL_BANDWIDTH: 0.208621245 Gbps (untagged) LATENCY_STREAM_0: 20/105.542488098/215 usec (min/avg/max) LATENCY_STREAM_1: 20/114.628964424/351 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4-VHOST - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1036568.98438 pps (2x 518284.492188 pps)

FINAL_BANDWIDTH: 0.696574357503 Gbps (untagged) LATENCY_STREAM_0: 20/92.9999585152/328 usec (min/avg/max) LATENCY_STREAM_1: 20/82.5458283424/309 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv4-VHOST - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 421371.5 pps (2x 210685.75 pps)

FINAL_BANDWIDTH: 5.184554936 Gbps (untagged) LATENCY_STREAM_0: 30/166.351662159/788 usec (min/avg/max) LATENCY_STREAM_1: 30/184.430420876/757 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv4-VHOST - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1224114.5 pps (2x 612057.25 pps)

FINAL_BANDWIDTH: 15.061504808 Gbps (untagged) LATENCY_STREAM_0: 30/681.023069859/1021 usec (min/avg/max) LATENCY_STREAM_1: 30/692.697502136/1006 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: IMIX_v4_1 NDR binary search - DUT IPv4-VHOST - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 244754.875 pps (2x 122377.4375 pps)

FINAL_BANDWIDTH: 0.73198023964 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC06: IMIX_v4_1 PDR binary search - DUT IPv4-VHOST - 1thread 1core 1rxq [Cfg] DUT runs IPv4 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 401258.125 pps (2x 200629.0625 pps)

FINAL_BANDWIDTH: 1.20002928847 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 339493.109376 pps (2x 169746.554688 pps)

FINAL_BANDWIDTH: 0.228139369501 Gbps (untagged) LATENCY_STREAM_0: 20/69.5019226074/294 usec (min/avg/max) LATENCY_STREAM_1: 20/59.5655241013/277 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 4318634.5625 pps (2x 2159317.28125 pps)

FINAL_BANDWIDTH: 2.902122426 Gbps (untagged) LATENCY_STREAM_0: 40/132.437235355/282 usec (min/avg/max) LATENCY_STREAM_1: 40/148.183730125/198 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv4-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 270857.1875 pps (2x 135428.59375 pps)

FINAL_BANDWIDTH: 3.332626835 Gbps (untagged) LATENCY_STREAM_0: 30/53.9999494553/649 usec (min/avg/max) LATENCY_STREAM_1: 30/58.0077571869/1171 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv4-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/457.397156239/524 usec (min/avg/max) LATENCY_STREAM_1: 30/414.311942577/692 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: IMIX_v4_1 NDR binary search - DUT IPv4-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 427342.0 pps (2x 213671.0 pps)

FINAL_BANDWIDTH: 1.27803746327 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC12: IMIX_v4_1 PDR binary search - DUT IPv4-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs IPv4 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 3687826.375 pps (2x 1843913.1875 pps)

FINAL_BANDWIDTH: 11.0290593138 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 484717.25 pps (2x 242358.625 pps)

FINAL_BANDWIDTH: 0.325729992 Gbps (untagged) LATENCY_STREAM_0: 10/11.5603079796/365 usec (min/avg/max) LATENCY_STREAM_1: 10/14.48483181/338 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 5131889.75 pps (2x 2565944.875 pps)

FINAL_BANDWIDTH: 3.448629912 Gbps (untagged) LATENCY_STREAM_0: 20/97.4203834534/144 usec (min/avg/max) LATENCY_STREAM_1: 20/129.126600742/168 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv4-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 195600.03125 pps (2x 97800.015625 pps)

FINAL_BANDWIDTH: 2.4066627845 Gbps (untagged) LATENCY_STREAM_0: 20/33.7499685287/215 usec (min/avg/max) LATENCY_STREAM_1: 30/42.9984941483/160 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv4-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. Search FAILED FAIL
TC17: IMIX_v4_1 NDR binary search - DUT IPv4-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 296922.625 pps (2x 148461.3125 pps)

FINAL_BANDWIDTH: 0.887996589249 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC18: IMIX_v4_1 PDR binary search - DUT IPv4-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs IPv4 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 4483384.5625 pps (2x 2241692.28125 pps)

FINAL_BANDWIDTH: 13.4083086454 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv6 Cop Intel-X520-DA2
  • RFC2544: Pkt throughput IPv6 whitelist test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6 for IPv6 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv6 routing, two static IPv6 /64 routes and IPv6 COP security whitelist ingress /64 filter entries applied on links TG - DUT1 and DUT2 - TG. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv6 header and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 78B NDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 6132079.0625 pps (2x 3066039.53125 pps)

FINAL_BANDWIDTH: 4.807549985 Gbps (untagged) LATENCY_STREAM_0: 10/60.3555059433/121 usec (min/avg/max) LATENCY_STREAM_1: 10/59.3609948158/138 usec (min/avg/max)

PASS
TC02: 78B PDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 6527551.0 pps (2x 3263775.5 pps)

FINAL_BANDWIDTH: 5.117599984 Gbps (untagged) LATENCY_STREAM_0: 10/2081.67285728/2426 usec (min/avg/max) LATENCY_STREAM_1: 20/2312.69846869/2910 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/162.620728016/184 usec (min/avg/max) LATENCY_STREAM_1: 20/269.99447298/283 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/184.402572632/219 usec (min/avg/max) LATENCY_STREAM_1: 20/207.790380478/238 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/155.407989979/197 usec (min/avg/max) LATENCY_STREAM_1: 60/182.666182041/211 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv6 whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/174.195419788/202 usec (min/avg/max) LATENCY_STREAM_1: 60/190.149583817/217 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 78B NDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 10877742.3125 pps (2x 5438871.15625 pps)

FINAL_BANDWIDTH: 8.528149973 Gbps (untagged) LATENCY_STREAM_0: 20/47.2598829269/194 usec (min/avg/max) LATENCY_STREAM_1: 30/53.352388382/175 usec (min/avg/max)

PASS
TC08: 78B PDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 10877742.3125 pps (2x 5438871.15625 pps)

FINAL_BANDWIDTH: 8.528149973 Gbps (untagged) LATENCY_STREAM_0: 10/46.3332829475/247 usec (min/avg/max) LATENCY_STREAM_1: 10/55.8116416931/195 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/324.307463169/330 usec (min/avg/max) LATENCY_STREAM_1: 20/528.355867863/533 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/503.1258955/526 usec (min/avg/max) LATENCY_STREAM_1: 20/293.417696476/365 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/339.883734703/361 usec (min/avg/max) LATENCY_STREAM_1: 60/322.165207386/347 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv6 whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/481.847900391/512 usec (min/avg/max) LATENCY_STREAM_1: 60/304.28875351/328 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 78B NDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/43.2537508011/225 usec (min/avg/max) LATENCY_STREAM_1: 20/44.5010566711/360 usec (min/avg/max)

PASS
TC14: 78B PDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/42.460319519/339 usec (min/avg/max) LATENCY_STREAM_1: 10/45.4616727829/261 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/284.160294056/292 usec (min/avg/max) LATENCY_STREAM_1: 20/430.517664433/440 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/229.703353882/262 usec (min/avg/max) LATENCY_STREAM_1: 20/210.87983799/250 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/318.729202271/417 usec (min/avg/max) LATENCY_STREAM_1: 60/185.29008913/215 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv6 whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/333.913084507/470 usec (min/avg/max) LATENCY_STREAM_1: 50/200.69350481/219 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv6 Fib 200k Intel-X520-DA2
  • RFC2544: Pkt throughput IPv6 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6 for IPv6 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv6 routing and 2x100k static IPv6 /64 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 100k flows per flow-group) with all packets containing Ethernet header, IPv6 header withq IP and static payload. MAC addresses are matching MAC addresses of the TG node interfaces. Incrementing of IP.dst (IPv6 destination address) field is applied to both streams.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 78B NDR binary search - DUT IPv6 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 6527551.0 pps (2x 3263775.5 pps)

FINAL_BANDWIDTH: 5.117599984 Gbps (untagged) LATENCY_STREAM_0: 20/818.470136166/1590 usec (min/avg/max) LATENCY_STREAM_1: 20/813.340645313/1573 usec (min/avg/max)

PASS
TC02: 78B PDR binary search - DUT IPv6 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 6923022.9375 pps (2x 3461511.46875 pps)

FINAL_BANDWIDTH: 5.427649983 Gbps (untagged) LATENCY_STREAM_0: 20/95.917113781/654 usec (min/avg/max) LATENCY_STREAM_1: 20/95.7277641296/636 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv6 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/280.062672615/398 usec (min/avg/max) LATENCY_STREAM_1: 20/281.370223045/293 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv6 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/300.436463356/317 usec (min/avg/max) LATENCY_STREAM_1: 20/288.991137505/294 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv6 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/256.039573669/270 usec (min/avg/max) LATENCY_STREAM_1: 50/248.460100174/260 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv6 Fib 2x100k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/261.785653114/283 usec (min/avg/max) LATENCY_STREAM_1: 60/257.827210903/274 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 78B NDR binary search - DUT IPv6 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 14041517.8125 pps (2x 7020758.90625 pps)

FINAL_BANDWIDTH: 11.008549965 Gbps (untagged) LATENCY_STREAM_0: 20/46.1291279793/543 usec (min/avg/max) LATENCY_STREAM_1: 20/57.9984650612/437 usec (min/avg/max)

PASS
TC08: 78B PDR binary search - DUT IPv6 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 14436989.75 pps (2x 7218494.875 pps)

FINAL_BANDWIDTH: 11.318599964 Gbps (untagged) LATENCY_STREAM_0: 10/53.9159293175/307 usec (min/avg/max) LATENCY_STREAM_1: 10/769.84495306/937 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv6 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/240.874701023/339 usec (min/avg/max) LATENCY_STREAM_1: 20/603.476817131/769 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv6 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/125.467163086/137 usec (min/avg/max) LATENCY_STREAM_1: 20/550.810537338/940 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv6 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/308.222109795/335 usec (min/avg/max) LATENCY_STREAM_1: 60/513.200776577/526 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv6 Fib 2x100k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 50/316.829699993/462 usec (min/avg/max) LATENCY_STREAM_1: 60/518.962949276/539 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 78B NDR binary search - DUT IPv6 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/35.1367020607/282 usec (min/avg/max) LATENCY_STREAM_1: 20/37.376935482/280 usec (min/avg/max)

PASS
TC14: 78B PDR binary search - DUT IPv6 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 21555484.625 pps (2x 10777742.3125 pps)

FINAL_BANDWIDTH: 16.899499946 Gbps (untagged) LATENCY_STREAM_0: 20/412.529828548/611 usec (min/avg/max) LATENCY_STREAM_1: 20/779.985318184/868 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv6 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/443.031149387/481 usec (min/avg/max) LATENCY_STREAM_1: 20/311.558801174/340 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv6 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/478.204776287/553 usec (min/avg/max) LATENCY_STREAM_1: 20/309.421203136/533 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv6 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/239.620880127/315 usec (min/avg/max) LATENCY_STREAM_1: 60/397.834699631/426 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv6 Fib 2x100k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/381.482634068/508 usec (min/avg/max) LATENCY_STREAM_1: 60/232.6223526/244 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv6 Fib 20k Intel-X520-DA2
  • RFC2544: Pkt throughput IPv6 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6 for IPv6 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv6 routing and 2x10k static IPv6 /64 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 10k flows per flow-group) with all packets containing Ethernet header, IPv6 header withq IP and static payload. MAC addresses are matching MAC addresses of the TG node interfaces. Incrementing of IP.dst (IPv6 destination address) field is applied to both streams.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 78B NDR binary search - DUT IPv6 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 6923022.9375 pps (2x 3461511.46875 pps)

FINAL_BANDWIDTH: 5.427649983 Gbps (untagged) LATENCY_STREAM_0: 10/71.1066002846/340 usec (min/avg/max) LATENCY_STREAM_1: 10/61.6023626328/336 usec (min/avg/max)

PASS
TC02: 78B PDR binary search - DUT IPv6 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 6923022.9375 pps (2x 3461511.46875 pps)

FINAL_BANDWIDTH: 5.427649983 Gbps (untagged) LATENCY_STREAM_0: 20/32.0616731644/161 usec (min/avg/max) LATENCY_STREAM_1: 30/32.0802621841/212 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv6 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/247.27040863/302 usec (min/avg/max) LATENCY_STREAM_1: 20/379.903708935/389 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv6 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/204.523436069/477 usec (min/avg/max) LATENCY_STREAM_1: 20/274.341441154/718 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv6 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/193.452867508/229 usec (min/avg/max) LATENCY_STREAM_1: 60/218.839038372/235 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv6 Fib 2x10k - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/155.986337662/184 usec (min/avg/max) LATENCY_STREAM_1: 60/195.420419216/212 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 78B NDR binary search - DUT IPv6 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 14436989.75 pps (2x 7218494.875 pps)

FINAL_BANDWIDTH: 11.318599964 Gbps (untagged) LATENCY_STREAM_0: 20/45.5583195686/224 usec (min/avg/max) LATENCY_STREAM_1: 20/755.644859314/955 usec (min/avg/max)

PASS
TC08: 78B PDR binary search - DUT IPv6 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 14436989.75 pps (2x 7218494.875 pps)

FINAL_BANDWIDTH: 11.318599964 Gbps (untagged) LATENCY_STREAM_0: 20/46.7309465408/180 usec (min/avg/max) LATENCY_STREAM_1: 10/774.5078578/996 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv6 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/313.444831371/772 usec (min/avg/max) LATENCY_STREAM_1: 20/329.936176777/756 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv6 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/277.676718235/425 usec (min/avg/max) LATENCY_STREAM_1: 20/318.733121395/408 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv6 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/59.0023570061/235 usec (min/avg/max) LATENCY_STREAM_1: 60/253.176667213/520 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv6 Fib 2x10k - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/121.356865883/133 usec (min/avg/max) LATENCY_STREAM_1: 60/485.412762642/502 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 78B NDR binary search - DUT IPv6 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/30.0009775162/210 usec (min/avg/max) LATENCY_STREAM_1: 10/32.074203968/527 usec (min/avg/max)

PASS
TC14: 78B PDR binary search - DUT IPv6 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/28.6709456444/266 usec (min/avg/max) LATENCY_STREAM_1: 20/33.4948577881/111 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv6 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/251.267886639/287 usec (min/avg/max) LATENCY_STREAM_1: 20/426.195366383/438 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv6 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/372.310396194/415 usec (min/avg/max) LATENCY_STREAM_1: 20/206.439740181/235 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv6 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/369.708791733/403 usec (min/avg/max) LATENCY_STREAM_1: 50/108.288350105/126 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv6 Fib 2x10k - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/340.548506737/374 usec (min/avg/max) LATENCY_STREAM_1: 60/328.111541748/348 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv6 Fib 2M Intel-X520-DA2
  • RFC2544: Pkt throughput IPv6 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6 for IPv6 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv6 routing and 2x1M static IPv6 /64 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 1M flows per flow-group) with all packets containing Ethernet header, IPv6 header withq IP and static payload. MAC addresses are matching MAC addresses of the TG node interfaces. Incrementing of IP.dst (IPv6 destination address) field is applied to both streams.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 78B NDR binary search - DUT IPv6 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 5341135.1875 pps (2x 2670567.59375 pps)

FINAL_BANDWIDTH: 4.187449987 Gbps (untagged) LATENCY_STREAM_0: 20/329.81826067/994 usec (min/avg/max) LATENCY_STREAM_1: 20/353.240789413/933 usec (min/avg/max)

PASS
TC02: 78B PDR binary search - DUT IPv6 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 5341135.1875 pps (2x 2670567.59375 pps)

FINAL_BANDWIDTH: 4.187449987 Gbps (untagged) LATENCY_STREAM_0: 20/135.510614872/560 usec (min/avg/max) LATENCY_STREAM_1: 10/151.984631538/683 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv6 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/316.707258224/585 usec (min/avg/max) LATENCY_STREAM_1: 20/364.658061981/482 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv6 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/332.802060604/352 usec (min/avg/max) LATENCY_STREAM_1: 20/307.002931118/312 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv6 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/239.1212883/288 usec (min/avg/max) LATENCY_STREAM_1: 60/266.0881567/287 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv6 Fib 2x1M - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/236.070603371/283 usec (min/avg/max) LATENCY_STREAM_1: 50/266.849456787/290 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 78B NDR binary search - DUT IPv6 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 10877742.3125 pps (2x 5438871.15625 pps)

FINAL_BANDWIDTH: 8.528149973 Gbps (untagged) LATENCY_STREAM_0: 10/53.9929199219/288 usec (min/avg/max) LATENCY_STREAM_1: 10/108.73287487/482 usec (min/avg/max)

PASS
TC08: 78B PDR binary search - DUT IPv6 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 10877742.3125 pps (2x 5438871.15625 pps)

FINAL_BANDWIDTH: 8.528149973 Gbps (untagged) LATENCY_STREAM_0: 20/60.1405315399/345 usec (min/avg/max) LATENCY_STREAM_1: 20/141.594386101/540 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv6 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/339.834454536/394 usec (min/avg/max) LATENCY_STREAM_1: 20/607.9581604/903 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv6 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/378.049426556/408 usec (min/avg/max) LATENCY_STREAM_1: 20/414.931424141/420 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv6 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/211.186932087/340 usec (min/avg/max) LATENCY_STREAM_1: 60/520.212011337/533 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv6 Fib 2x1M - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/357.685355186/393 usec (min/avg/max) LATENCY_STREAM_1: 50/362.48090601/389 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 78B NDR binary search - DUT IPv6 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 20369068.8124 pps (2x 10184534.4062 pps)

FINAL_BANDWIDTH: 15.9693499489 Gbps (untagged) LATENCY_STREAM_0: 20/67.7930121422/380 usec (min/avg/max) LATENCY_STREAM_1: 10/85.0972628593/365 usec (min/avg/max)

PASS
TC14: 78B PDR binary search - DUT IPv6 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 20764540.75 pps (2x 10382270.375 pps)

FINAL_BANDWIDTH: 16.279399948 Gbps (untagged) LATENCY_STREAM_0: 10/228.383453369/740 usec (min/avg/max) LATENCY_STREAM_1: 30/493.29380846/840 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv6 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/268.241073608/327 usec (min/avg/max) LATENCY_STREAM_1: 20/456.955786705/491 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv6 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/471.752223492/497 usec (min/avg/max) LATENCY_STREAM_1: 20/107.214482307/112 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv6 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/281.658127785/421 usec (min/avg/max) LATENCY_STREAM_1: 50/372.881569386/529 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv6 Fib 2x1M - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/232.135918617/269 usec (min/avg/max) LATENCY_STREAM_1: 60/297.930807114/374 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv6 iAcl Intel-X520-DA2
  • RFC2544: Pkt throughput IPv6 iAcl whitelist test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6 for IPv6 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv6 routing, two static IPv6 /64 routes and IPv6 iAcl security whitelist ingress /64 filter entries applied on links TG - DUT1 and DUT2 - TG. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv6 header and generated payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 78B NDR binary search - DUT IPv6 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 6527551.0 pps (2x 3263775.5 pps)

FINAL_BANDWIDTH: 5.117599984 Gbps (untagged) LATENCY_STREAM_0: 10/3086.95375967/3185 usec (min/avg/max) LATENCY_STREAM_1: 20/1706.36107254/1989 usec (min/avg/max)

PASS
TC02: 78B PDR binary search - DUT IPv6 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 6527551.0 pps (2x 3263775.5 pps)

FINAL_BANDWIDTH: 5.117599984 Gbps (untagged) LATENCY_STREAM_0: 20/3103.34595251/3544 usec (min/avg/max) LATENCY_STREAM_1: 20/1726.55781031/1800 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv6 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/204.909307003/219 usec (min/avg/max) LATENCY_STREAM_1: 20/224.003434658/228 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv6 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/187.787633896/197 usec (min/avg/max) LATENCY_STREAM_1: 20/217.266508579/220 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv6 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/165.442601681/197 usec (min/avg/max) LATENCY_STREAM_1: 60/178.765603065/198 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv6 iAcl whitelist - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/189.218952656/236 usec (min/avg/max) LATENCY_STREAM_1: 60/255.015593052/280 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 78B NDR binary search - DUT IPv6 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 11273214.25 pps (2x 5636607.125 pps)

FINAL_BANDWIDTH: 8.838199972 Gbps (untagged) LATENCY_STREAM_0: 10/44.5582790375/250 usec (min/avg/max) LATENCY_STREAM_1: 10/922.55286932/1032 usec (min/avg/max)

PASS
TC08: 78B PDR binary search - DUT IPv6 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 11273214.25 pps (2x 5636607.125 pps)

FINAL_BANDWIDTH: 8.838199972 Gbps (untagged) LATENCY_STREAM_0: 10/921.96693182/1075 usec (min/avg/max) LATENCY_STREAM_1: 10/924.186118126/1059 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv6 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/288.659951687/599 usec (min/avg/max) LATENCY_STREAM_1: 20/336.999439716/496 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv6 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/369.118362427/379 usec (min/avg/max) LATENCY_STREAM_1: 20/551.995962143/564 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv6 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/274.508713722/296 usec (min/avg/max) LATENCY_STREAM_1: 60/300.983378887/310 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv6 iAcl whitelist - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/336.293133259/369 usec (min/avg/max) LATENCY_STREAM_1: 60/339.498541832/357 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 78B NDR binary search - DUT IPv6 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 20/48.6412796974/302 usec (min/avg/max) LATENCY_STREAM_1: 20/52.2577929497/270 usec (min/avg/max)

PASS
TC14: 78B PDR binary search - DUT IPv6 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 18391709.125 pps (2x 9195854.5625 pps)

FINAL_BANDWIDTH: 14.419099954 Gbps (untagged) LATENCY_STREAM_0: 10/150.335324287/780 usec (min/avg/max) LATENCY_STREAM_1: 20/34.249060154/255 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv6 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/466.035535336/527 usec (min/avg/max) LATENCY_STREAM_1: 20/245.967752457/257 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv6 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/431.353563309/561 usec (min/avg/max) LATENCY_STREAM_1: 20/232.775429249/247 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv6 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 26697.5 pps (2x 13348.75 pps)

FINAL_BANDWIDTH: 1.9264916 Gbps (untagged) LATENCY_STREAM_0: 60/67.9998450279/80 usec (min/avg/max) LATENCY_STREAM_1: 60/70.9999651909/82 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv6 iAcl whitelist - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing and whitelist filters config with 4 threads, 4 phy cores, 2 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/288.853136063/331 usec (min/avg/max) LATENCY_STREAM_1: 50/213.493057728/234 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long IPv6 Intel-X520-DA2
  • RFC2544: Pkt throughput IPv6 routing test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv6 for IPv6 routing.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv6 routing and two static IPv6 /64 route entries. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv6 header and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 78B NDR binary search - DUT IPv6 - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7713966.8125 pps (2x 3856983.40625 pps)

FINAL_BANDWIDTH: 6.047749981 Gbps (untagged) LATENCY_STREAM_0: 20/58.3133630753/215 usec (min/avg/max) LATENCY_STREAM_1: 20/57.2652072906/200 usec (min/avg/max)

PASS
TC02: 78B PDR binary search - DUT IPv6 - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7713966.8125 pps (2x 3856983.40625 pps)

FINAL_BANDWIDTH: 6.047749981 Gbps (untagged) LATENCY_STREAM_0: 20/53.7422337532/279 usec (min/avg/max) LATENCY_STREAM_1: 30/50.6708889008/268 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT IPv6 - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/159.452226639/189 usec (min/avg/max) LATENCY_STREAM_1: 20/208.531871796/216 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT IPv6 - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/166.238530159/181 usec (min/avg/max) LATENCY_STREAM_1: 20/216.990668297/225 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv6 - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/73.4515733719/250 usec (min/avg/max) LATENCY_STREAM_1: 60/90.5006737709/224 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv6 - 1thread 1core 1rxq [Cfg] DUT runs IPv6 routing config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/153.570366859/217 usec (min/avg/max) LATENCY_STREAM_1: 60/188.999619484/210 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 78B NDR binary search - DUT IPv6 - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 15623405.5625 pps (2x 7811702.78125 pps)

FINAL_BANDWIDTH: 12.248749961 Gbps (untagged) LATENCY_STREAM_0: 20/38.0004692078/501 usec (min/avg/max) LATENCY_STREAM_1: 20/61.5632176399/399 usec (min/avg/max)

PASS
TC08: 78B PDR binary search - DUT IPv6 - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 16018877.5 pps (2x 8009438.75 pps)

FINAL_BANDWIDTH: 12.55879996 Gbps (untagged) LATENCY_STREAM_0: 10/69.1504807472/254 usec (min/avg/max) LATENCY_STREAM_1: 20/683.012199879/861 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT IPv6 - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/297.168970108/313 usec (min/avg/max) LATENCY_STREAM_1: 20/424.147065163/820 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT IPv6 - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/296.273958206/319 usec (min/avg/max) LATENCY_STREAM_1: 20/513.56380558/523 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv6 - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/204.168768883/233 usec (min/avg/max) LATENCY_STREAM_1: 60/461.991275787/479 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv6 - 2threads 2cores 1rxq [Cfg] DUT runs IPv6 routing config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/327.761045456/413 usec (min/avg/max) LATENCY_STREAM_1: 60/517.00129509/542 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 78B NDR binary search - DUT IPv6 - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/29.6768426895/508 usec (min/avg/max) LATENCY_STREAM_1: 10/31.4893169403/493 usec (min/avg/max)

PASS
TC14: 78B PDR binary search - DUT IPv6 - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 21160012.6876 pps (2x 10580006.3438 pps)

FINAL_BANDWIDTH: 16.5894499471 Gbps (untagged) LATENCY_STREAM_0: 10/29.0624952316/508 usec (min/avg/max) LATENCY_STREAM_1: 20/28.999101162/410 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT IPv6 - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/406.926775455/487 usec (min/avg/max) LATENCY_STREAM_1: 20/109.348095894/113 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT IPv6 - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/197.250317574/526 usec (min/avg/max) LATENCY_STREAM_1: 20/179.30948925/376 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv6 - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/341.718871117/394 usec (min/avg/max) LATENCY_STREAM_1: 60/213.54598999/237 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv6 - 4threads 4cores 2rxq [Cfg] DUT runs IPv6 routing config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/358.972915649/634 usec (min/avg/max) LATENCY_STREAM_1: 60/478.289925575/621 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Lisp Intel-X520-DA2
  • RFC6830: Pkt throughput Lisp test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv4 tunnel; Eth-IPv6-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn for IPv6 routing over LISPoIPv6 tunnel; Eth-IPv6-LISP-IPv4-ICMPv4 on DUT1-DUT2, Eth-IPv4-ICMPv4 on TG-DUTn for IPv4 routing over LISPoIPv6 tunnel; Eth-IPv4-LISP-IPv6-ICMPv6 on DUT1-DUT2, Eth-IPv6-ICMPv6 on TG-DUTn for IPv6 routing over LISPoIPv4 tunnel.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with IPv4 (IPv6) routing and static routes. LISPoIPv4 (oIPv6) tunnel is configured between DUT1 and DUT2. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search
  • [Ref] Applicable standard specifications: RFC6830.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 4625407.4375 pps (2x 2312703.71875 pps)

FINAL_BANDWIDTH: 3.108273798 Gbps (untagged) LATENCY_STREAM_0: 20/104.753350258/245 usec (min/avg/max) LATENCY_STREAM_1: 70/106.054576397/229 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 4625407.4375 pps (2x 2312703.71875 pps)

FINAL_BANDWIDTH: 3.108273798 Gbps (untagged) LATENCY_STREAM_0: 20/120.880719185/274 usec (min/avg/max) LATENCY_STREAM_1: 20/114.810152054/227 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1480B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1480 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1606642.0 pps (2x 803321.0 pps)

FINAL_BANDWIDTH: 19.279704 Gbps (untagged) LATENCY_STREAM_0: 30/1371.48853254/1408 usec (min/avg/max) LATENCY_STREAM_1: 30/1371.51449919/1408 usec (min/avg/max)

PASS
TC04: 1480B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1480 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1632233.0 pps (2x 816116.5 pps)

FINAL_BANDWIDTH: 19.586796 Gbps (untagged) LATENCY_STREAM_0: 20/1372.9989562/1496 usec (min/avg/max) LATENCY_STREAM_1: 30/1372.47356606/1462 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/69.4999661446/291 usec (min/avg/max) LATENCY_STREAM_1: 60/79.1290020943/183 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/1619.129498/1723 usec (min/avg/max) LATENCY_STREAM_1: 60/1624.14197826/1739 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8418613.8125 pps (2x 4209306.90625 pps)

FINAL_BANDWIDTH: 5.657308482 Gbps (untagged) LATENCY_STREAM_0: 30/59.7704834938/185 usec (min/avg/max) LATENCY_STREAM_1: 40/57.3116230965/524 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8629347.5 pps (2x 4314673.75 pps)

FINAL_BANDWIDTH: 5.79892152 Gbps (untagged) LATENCY_STREAM_0: 10/1025.07542372/1165 usec (min/avg/max) LATENCY_STREAM_1: 10/1033.60152483/1143 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1480B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1480 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1606642.0 pps (2x 803321.0 pps)

FINAL_BANDWIDTH: 19.279704 Gbps (untagged) LATENCY_STREAM_0: 20/675.999444485/1566 usec (min/avg/max) LATENCY_STREAM_1: 30/676.046159744/1597 usec (min/avg/max)

PASS
TC10: 1480B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1480 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1632233.0 pps (2x 816116.5 pps)

FINAL_BANDWIDTH: 19.586796 Gbps (untagged) LATENCY_STREAM_0: 30/1366.31924772/1602 usec (min/avg/max) LATENCY_STREAM_1: 20/1367.250947/1605 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/70.9696578979/77 usec (min/avg/max) LATENCY_STREAM_1: 60/79.0371384621/273 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/1617.26609421/1824 usec (min/avg/max) LATENCY_STREAM_1: 60/1616.9955101/1703 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8629347.5 pps (2x 4314673.75 pps)

FINAL_BANDWIDTH: 5.79892152 Gbps (untagged) LATENCY_STREAM_0: 30/1009.09481049/1308 usec (min/avg/max) LATENCY_STREAM_1: 30/1035.76541805/1526 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8629347.5 pps (2x 4314673.75 pps)

FINAL_BANDWIDTH: 5.79892152 Gbps (untagged) LATENCY_STREAM_0: 20/1003.52098656/1141 usec (min/avg/max) LATENCY_STREAM_1: 20/1043.6445117/1175 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1480B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1480 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1606642.0 pps (2x 803321.0 pps)

FINAL_BANDWIDTH: 19.279704 Gbps (untagged) LATENCY_STREAM_0: 30/2579.99540329/2595 usec (min/avg/max) LATENCY_STREAM_1: 30/2573.49672699/2588 usec (min/avg/max)

PASS
TC16: 1480B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1480 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1632233.0 pps (2x 816116.5 pps)

FINAL_BANDWIDTH: 19.586796 Gbps (untagged) LATENCY_STREAM_0: 20/2576.99742031/2595 usec (min/avg/max) LATENCY_STREAM_1: 20/2575.99741173/2594 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/70.3129873276/457 usec (min/avg/max) LATENCY_STREAM_1: 60/69.0625319481/441 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT IPv4 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv4 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/3008.72694063/3309 usec (min/avg/max) LATENCY_STREAM_1: 50/3019.41345215/3100 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC19: 78B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 3488502.125 pps (2x 1744251.0625 pps)

FINAL_BANDWIDTH: 2.734985666 Gbps (untagged) LATENCY_STREAM_0: 20/74.4999656677/179 usec (min/avg/max) LATENCY_STREAM_1: 20/67.9633464813/157 usec (min/avg/max)

PASS
TC20: 78B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 3853891.25 pps (2x 1926945.625 pps)

FINAL_BANDWIDTH: 3.02145074 Gbps (untagged) LATENCY_STREAM_0: 40/3250.50830078/3722 usec (min/avg/max) LATENCY_STREAM_1: 30/4350.80823421/4796 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC21: 1460B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1606642.0 pps (2x 803321.0 pps)

FINAL_BANDWIDTH: 19.02264128 Gbps (untagged) LATENCY_STREAM_0: 30/1377.99635887/1500 usec (min/avg/max) LATENCY_STREAM_1: 30/1381.99710274/1436 usec (min/avg/max)

PASS
TC22: 1460B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1632233.0 pps (2x 816116.5 pps)

FINAL_BANDWIDTH: 19.32563872 Gbps (untagged) LATENCY_STREAM_0: 20/1377.99901438/1515 usec (min/avg/max) LATENCY_STREAM_1: 30/1378.15501404/1456 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC23: 9000B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 70/74.9999284744/93 usec (min/avg/max) LATENCY_STREAM_1: 60/79.9999227524/103 usec (min/avg/max)

PASS
TC24: 9000B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/75.1308026314/131 usec (min/avg/max) LATENCY_STREAM_1: 60/79.9999608994/140 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC25: 78B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7507782.5 pps (2x 3753891.25 pps)

FINAL_BANDWIDTH: 5.88610148 Gbps (untagged) LATENCY_STREAM_0: 10/94.4628334045/334 usec (min/avg/max) LATENCY_STREAM_1: 20/2276.14265108/2454 usec (min/avg/max)

PASS
TC26: 78B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7873171.625 pps (2x 3936585.8125 pps)

FINAL_BANDWIDTH: 6.172566554 Gbps (untagged) LATENCY_STREAM_0: 40/37.4765133858/192 usec (min/avg/max) LATENCY_STREAM_1: 40/87.5026330948/317 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC27: 1460B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1606642.0 pps (2x 803321.0 pps)

FINAL_BANDWIDTH: 19.02264128 Gbps (untagged) LATENCY_STREAM_0: 20/1363.99888754/1402 usec (min/avg/max) LATENCY_STREAM_1: 30/1364.12437582/1608 usec (min/avg/max)

PASS
TC28: 1460B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1632233.0 pps (2x 816116.5 pps)

FINAL_BANDWIDTH: 19.32563872 Gbps (untagged) LATENCY_STREAM_0: 30/1364.43629074/1389 usec (min/avg/max) LATENCY_STREAM_1: 30/1370.25659466/1597 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC29: 9000B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/74.4999294281/216 usec (min/avg/max) LATENCY_STREAM_1: 60/76.9993162155/226 usec (min/avg/max)

PASS
TC30: 9000B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/72.9999651909/209 usec (min/avg/max) LATENCY_STREAM_1: 60/74.9972710609/230 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC31: 78B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7873171.625 pps (2x 3936585.8125 pps)

FINAL_BANDWIDTH: 6.172566554 Gbps (untagged) LATENCY_STREAM_0: 10/68.610830307/209 usec (min/avg/max) LATENCY_STREAM_1: 20/57.4675030708/221 usec (min/avg/max)

PASS
TC32: 78B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8238560.75 pps (2x 4119280.375 pps)

FINAL_BANDWIDTH: 6.459031628 Gbps (untagged) LATENCY_STREAM_0: 20/940.259338856/980 usec (min/avg/max) LATENCY_STREAM_1: 20/957.148412704/1108 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC33: 1460B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 1606642.0 pps (2x 803321.0 pps)

FINAL_BANDWIDTH: 19.02264128 Gbps (untagged) LATENCY_STREAM_0: 30/2575.23993349/2601 usec (min/avg/max) LATENCY_STREAM_1: 30/2575.49578047/2599 usec (min/avg/max)

PASS
TC34: 1460B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1632233.0 pps (2x 816116.5 pps)

FINAL_BANDWIDTH: 19.32563872 Gbps (untagged) LATENCY_STREAM_0: 20/2575.60356474/2648 usec (min/avg/max) LATENCY_STREAM_1: 30/2575.59135962/2642 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC35: 9000B NDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/73.2577776909/296 usec (min/avg/max) LATENCY_STREAM_1: 60/73.9999647141/82 usec (min/avg/max)

PASS
TC36: 9000B PDR binary search - DUT IPv6 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 260233.75 pps (2x 130116.875 pps)

FINAL_BANDWIDTH: 18.7784674 Gbps (untagged) LATENCY_STREAM_0: 60/72.2499656677/280 usec (min/avg/max) LATENCY_STREAM_1: 60/73.9999647141/156 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC37: 64B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 4006439.0 pps (2x 2003219.5 pps)

FINAL_BANDWIDTH: 2.692327008 Gbps (untagged) LATENCY_STREAM_0: 20/213.564463139/389 usec (min/avg/max) LATENCY_STREAM_1: 20/243.751498699/424 usec (min/avg/max)

PASS
TC38: 64B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 4006439.0 pps (2x 2003219.5 pps)

FINAL_BANDWIDTH: 2.692327008 Gbps (untagged) LATENCY_STREAM_0: 20/3365.65398884/3573 usec (min/avg/max) LATENCY_STREAM_1: 30/2271.1105423/2361 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC39: 1460B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 1610872.0625 pps (2x 805436.03125 pps)

FINAL_BANDWIDTH: 19.07272522 Gbps (untagged) LATENCY_STREAM_0: 20/54.1757464409/146 usec (min/avg/max) LATENCY_STREAM_1: 30/57.0000948906/187 usec (min/avg/max)

PASS
TC40: 1460B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1610872.0625 pps (2x 805436.03125 pps)

FINAL_BANDWIDTH: 19.07272522 Gbps (untagged) LATENCY_STREAM_0: 30/56.4449524879/192 usec (min/avg/max) LATENCY_STREAM_1: 20/58.5078458786/184 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC41: 9000B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 259088.125 pps (2x 129544.0625 pps)

FINAL_BANDWIDTH: 18.6957991 Gbps (untagged) LATENCY_STREAM_0: 70/37.2528986931/184 usec (min/avg/max) LATENCY_STREAM_1: 60/39.4991083145/190 usec (min/avg/max)

PASS
TC42: 9000B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/1616.62031937/1675 usec (min/avg/max) LATENCY_STREAM_1: 60/1618.25673389/1740 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC43: 64B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7812878.0 pps (2x 3906439.0 pps)

FINAL_BANDWIDTH: 5.250254016 Gbps (untagged) LATENCY_STREAM_0: 20/70.7282066345/211 usec (min/avg/max) LATENCY_STREAM_1: 10/1150.92948818/1241 usec (min/avg/max)

PASS
TC44: 64B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7812878.0 pps (2x 3906439.0 pps)

FINAL_BANDWIDTH: 5.250254016 Gbps (untagged) LATENCY_STREAM_0: 20/77.602437973/216 usec (min/avg/max) LATENCY_STREAM_1: 20/1153.50285769/1226 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC45: 1460B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1610872.0625 pps (2x 805436.03125 pps)

FINAL_BANDWIDTH: 19.07272522 Gbps (untagged) LATENCY_STREAM_0: 30/37.046857357/290 usec (min/avg/max) LATENCY_STREAM_1: 30/38.0002264977/120 usec (min/avg/max)

PASS
TC46: 1460B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1610872.0625 pps (2x 805436.03125 pps)

FINAL_BANDWIDTH: 19.07272522 Gbps (untagged) LATENCY_STREAM_0: 30/16.5078678131/103 usec (min/avg/max) LATENCY_STREAM_1: 20/17.0079565048/268 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC47: 9000B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 259088.125 pps (2x 129544.0625 pps)

FINAL_BANDWIDTH: 18.6957991 Gbps (untagged) LATENCY_STREAM_0: 60/70.5342111588/228 usec (min/avg/max) LATENCY_STREAM_1: 60/73.0624651909/227 usec (min/avg/max)

PASS
TC48: 9000B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/1614.99371672/1633 usec (min/avg/max) LATENCY_STREAM_1: 50/1620.18793774/1694 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC49: 64B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7812878.0 pps (2x 3906439.0 pps)

FINAL_BANDWIDTH: 5.250254016 Gbps (untagged) LATENCY_STREAM_0: 20/1107.16973686/1236 usec (min/avg/max) LATENCY_STREAM_1: 10/1111.8817358/1238 usec (min/avg/max)

PASS
TC50: 64B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7812878.0 pps (2x 3906439.0 pps)

FINAL_BANDWIDTH: 5.250254016 Gbps (untagged) LATENCY_STREAM_0: 20/55.7431426048/354 usec (min/avg/max) LATENCY_STREAM_1: 10/1117.6987772/1270 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC51: 1460B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1610872.0625 pps (2x 805436.03125 pps)

FINAL_BANDWIDTH: 19.07272522 Gbps (untagged) LATENCY_STREAM_0: 30/37.9995555878/97 usec (min/avg/max) LATENCY_STREAM_1: 20/44.0000400543/159 usec (min/avg/max)

PASS
TC52: 1460B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1610872.0625 pps (2x 805436.03125 pps)

FINAL_BANDWIDTH: 19.07272522 Gbps (untagged) LATENCY_STREAM_0: 30/37.031232357/215 usec (min/avg/max) LATENCY_STREAM_1: 20/39.000225544/117 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC53: 9000B NDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 259088.125 pps (2x 129544.0625 pps)

FINAL_BANDWIDTH: 18.6957991 Gbps (untagged) LATENCY_STREAM_0: 60/72.9960589409/81 usec (min/avg/max) LATENCY_STREAM_1: 60/75.2509713173/168 usec (min/avg/max)

PASS
TC54: 9000B PDR binary search - DUT IPv4 over LISPoIPv6 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/1503.25895929/3118 usec (min/avg/max) LATENCY_STREAM_1: 60/1502.71319914/3088 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC55: 78B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 4166395.15624 pps (2x 2083197.57812 pps)

FINAL_BANDWIDTH: 3.26645380249 Gbps (untagged) LATENCY_STREAM_0: 20/151.99307251/300 usec (min/avg/max) LATENCY_STREAM_1: 10/151.3465271/305 usec (min/avg/max)

PASS
TC56: 78B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 4166395.15624 pps (2x 2083197.57812 pps)

FINAL_BANDWIDTH: 3.26645380249 Gbps (untagged) LATENCY_STREAM_0: 30/255.402464867/407 usec (min/avg/max) LATENCY_STREAM_1: 40/263.77739954/434 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC57: 1460B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1636124.0 pps (2x 818062.0 pps)

FINAL_BANDWIDTH: 19.37170816 Gbps (untagged) LATENCY_STREAM_0: 20/44.1731858253/174 usec (min/avg/max) LATENCY_STREAM_1: 20/46.0019316673/175 usec (min/avg/max)

PASS
TC58: 1460B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1636124.0 pps (2x 818062.0 pps)

FINAL_BANDWIDTH: 19.37170816 Gbps (untagged) LATENCY_STREAM_0: 30/47.5032811165/172 usec (min/avg/max) LATENCY_STREAM_1: 20/47.9998621941/168 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC59: 9000B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/77.3456315994/202 usec (min/avg/max) LATENCY_STREAM_1: 50/83.085226059/217 usec (min/avg/max)

PASS
TC60: 9000B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 1thread 1core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/78.0507879257/166 usec (min/avg/max) LATENCY_STREAM_1: 60/75.333533287/177 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC61: 78B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8397216.65624 pps (2x 4198608.32812 pps)

FINAL_BANDWIDTH: 6.58341785849 Gbps (untagged) LATENCY_STREAM_0: 10/60.4207606316/184 usec (min/avg/max) LATENCY_STREAM_1: 10/108.26352787/323 usec (min/avg/max)

PASS
TC62: 78B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8397216.65624 pps (2x 4198608.32812 pps)

FINAL_BANDWIDTH: 6.58341785849 Gbps (untagged) LATENCY_STREAM_0: 20/79.1218118668/451 usec (min/avg/max) LATENCY_STREAM_1: 20/103.468978882/334 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC63: 1460B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1636124.0 pps (2x 818062.0 pps)

FINAL_BANDWIDTH: 19.37170816 Gbps (untagged) LATENCY_STREAM_0: 20/34.1298656464/265 usec (min/avg/max) LATENCY_STREAM_1: 20/35.8461694717/258 usec (min/avg/max)

PASS
TC64: 1460B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1636124.0 pps (2x 818062.0 pps)

FINAL_BANDWIDTH: 19.37170816 Gbps (untagged) LATENCY_STREAM_0: 20/34.0624761581/124 usec (min/avg/max) LATENCY_STREAM_1: 20/37.0961933136/306 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC65: 9000B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/73.824195385/278 usec (min/avg/max) LATENCY_STREAM_1: 60/82.2715468407/314 usec (min/avg/max)

PASS
TC66: 9000B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 2thread 2core 1rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/76.7527751923/295 usec (min/avg/max) LATENCY_STREAM_1: 60/80.1268982887/271 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC67: 78B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 8397216.65624 pps (2x 4198608.32812 pps)

FINAL_BANDWIDTH: 6.58341785849 Gbps (untagged) LATENCY_STREAM_0: 30/59.3113422394/203 usec (min/avg/max) LATENCY_STREAM_1: 30/91.9524550438/417 usec (min/avg/max)

PASS
TC68: 78B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 78 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 8397216.65624 pps (2x 4198608.32812 pps)

FINAL_BANDWIDTH: 6.58341785849 Gbps (untagged) LATENCY_STREAM_0: 20/60.062848568/221 usec (min/avg/max) LATENCY_STREAM_1: 20/95.0174779892/237 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC69: 1460B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1636124.0 pps (2x 818062.0 pps)

FINAL_BANDWIDTH: 19.37170816 Gbps (untagged) LATENCY_STREAM_0: 20/16.4999842644/105 usec (min/avg/max) LATENCY_STREAM_1: 30/16.6194787025/182 usec (min/avg/max)

PASS
TC70: 1460B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1460 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1636124.0 pps (2x 818062.0 pps)

FINAL_BANDWIDTH: 19.37170816 Gbps (untagged) LATENCY_STREAM_0: 20/34.0017461777/351 usec (min/avg/max) LATENCY_STREAM_1: 20/36.7170186043/192 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC71: 9000B NDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/74.7549700737/260 usec (min/avg/max) LATENCY_STREAM_1: 60/82.9968881607/154 usec (min/avg/max)

PASS
TC72: 9000B PDR binary search - DUT IPv6 over LISPoIPv4 tunnel - 4thread 4core 2rxq [Cfg] DUT runs IPv6 LISP remote static mappings and whitelist filters config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275694.0 pps (2x 137847.0 pps)

FINAL_BANDWIDTH: 19.89407904 Gbps (untagged) LATENCY_STREAM_0: 60/74.7176980972/385 usec (min/avg/max) LATENCY_STREAM_1: 60/76.1414680481/224 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Xconnect Dot1ad Intel-X520-DA2
  • RFC2544: Pkt throughput L2XC with 802.1ad test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 xconnect. 802.1ad tagging is applied on link between DUT1 and DUT2 with inner 4B vlan tag (id=100) and outer 4B vlan tag (id=200).
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross- connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7364945.375 pps (2x 3682472.6875 pps)

FINAL_BANDWIDTH: 4.949243292 Gbps (untagged) LATENCY_STREAM_0: 10/1821.76400757/1951 usec (min/avg/max) LATENCY_STREAM_1: 20/1532.31541872/1740 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7364945.375 pps (2x 3682472.6875 pps)

FINAL_BANDWIDTH: 4.949243292 Gbps (untagged) LATENCY_STREAM_0: 20/1828.03451157/1904 usec (min/avg/max) LATENCY_STREAM_1: 10/3135.0659256/3468 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1514B NDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1514 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.89622544 Gbps (untagged) LATENCY_STREAM_0: 30/143.922994614/261 usec (min/avg/max) LATENCY_STREAM_1: 20/135.68350935/169 usec (min/avg/max)

PASS
TC04: 1514B PDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1514 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.89622544 Gbps (untagged) LATENCY_STREAM_0: 20/174.66384697/321 usec (min/avg/max) LATENCY_STREAM_1: 20/120.235261917/302 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 50/202.488310337/302 usec (min/avg/max) LATENCY_STREAM_1: 60/154.557743073/215 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT L2XC with 802.1ad - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/199.93989706/301 usec (min/avg/max) LATENCY_STREAM_1: 50/149.36088419/220 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 14740624.4375 pps (2x 7370312.21875 pps)

FINAL_BANDWIDTH: 9.905699622 Gbps (untagged) LATENCY_STREAM_0: 10/39.4123945236/414 usec (min/avg/max) LATENCY_STREAM_1: 20/46.0615262985/400 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 14951358.125 pps (2x 7475679.0625 pps)

FINAL_BANDWIDTH: 10.04731266 Gbps (untagged) LATENCY_STREAM_0: 10/40.9987564087/205 usec (min/avg/max) LATENCY_STREAM_1: 20/919.4995718/1104 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1514B NDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1514 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.89622544 Gbps (untagged) LATENCY_STREAM_0: 20/278.768084526/407 usec (min/avg/max) LATENCY_STREAM_1: 20/239.514745712/463 usec (min/avg/max)

PASS
TC10: 1514B PDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1514 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.89622544 Gbps (untagged) LATENCY_STREAM_0: 20/116.359953403/239 usec (min/avg/max) LATENCY_STREAM_1: 20/231.768593311/485 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 50/257.629840851/279 usec (min/avg/max) LATENCY_STREAM_1: 60/234.493954659/476 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT L2XC with 802.1ad - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/149.889828205/192 usec (min/avg/max) LATENCY_STREAM_1: 60/237.906430721/447 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 16426493.9375 pps (2x 8213246.96875 pps)

FINAL_BANDWIDTH: 11.038603926 Gbps (untagged) LATENCY_STREAM_0: 10/40.2014274597/319 usec (min/avg/max) LATENCY_STREAM_1: 10/44.574461937/99 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 16005026.5625 pps (2x 8002513.28125 pps)

FINAL_BANDWIDTH: 10.75537785 Gbps (untagged) LATENCY_STREAM_0: 20/36.0175619125/325 usec (min/avg/max) LATENCY_STREAM_1: 20/76.167028904/307 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1514B NDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1514 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.89622544 Gbps (untagged) LATENCY_STREAM_0: 20/268.431053162/375 usec (min/avg/max) LATENCY_STREAM_1: 20/149.118483543/356 usec (min/avg/max)

PASS
TC16: 1514B PDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1514 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.89622544 Gbps (untagged) LATENCY_STREAM_0: 20/119.57213974/403 usec (min/avg/max) LATENCY_STREAM_1: 20/49.4077100754/91 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/133.942275047/191 usec (min/avg/max) LATENCY_STREAM_1: 60/84.8752679825/126 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT L2XC with 802.1ad - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 276916.0 pps (2x 138458.0 pps)

FINAL_BANDWIDTH: 19.98225856 Gbps (untagged) LATENCY_STREAM_0: 60/277.133090019/533 usec (min/avg/max) LATENCY_STREAM_1: 60/176.806446075/285 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Xconnect Dot1q Intel-X520-DA2
  • RFC2544: Pkt throughput L2XC with 802.1q test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 cross connect. 802.1q tagging is applied on link between DUT1 and DUT2.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross- connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 7472656.01562 pps (2x 3736328.00781 pps)

FINAL_BANDWIDTH: 5.0216248425 Gbps (untagged) LATENCY_STREAM_0: 20/68.4999680519/127 usec (min/avg/max) LATENCY_STREAM_1: 20/64.6249685287/158 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 7472656.01562 pps (2x 3736328.00781 pps)

FINAL_BANDWIDTH: 5.0216248425 Gbps (untagged) LATENCY_STREAM_0: 20/66.4999351501/131 usec (min/avg/max) LATENCY_STREAM_1: 20/65.5759429932/129 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.94810608 Gbps (untagged) LATENCY_STREAM_0: 20/208.815993309/669 usec (min/avg/max) LATENCY_STREAM_1: 30/66.5763292313/232 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.94810608 Gbps (untagged) LATENCY_STREAM_0: 20/192.872380257/297 usec (min/avg/max) LATENCY_STREAM_1: 20/119.660711288/209 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277038.0 pps (2x 138519.0 pps)

FINAL_BANDWIDTH: 19.99106208 Gbps (untagged) LATENCY_STREAM_0: 60/186.311224937/295 usec (min/avg/max) LATENCY_STREAM_1: 60/157.813445568/234 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT L2XC with 802.1q - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277038.0 pps (2x 138519.0 pps)

FINAL_BANDWIDTH: 19.99106208 Gbps (untagged) LATENCY_STREAM_0: 60/194.797708988/288 usec (min/avg/max) LATENCY_STREAM_1: 60/97.1971697807/222 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 14745312.0312 pps (2x 7372656.01562 pps)

FINAL_BANDWIDTH: 9.90884968497 Gbps (untagged) LATENCY_STREAM_0: 20/37.9980139732/230 usec (min/avg/max) LATENCY_STREAM_1: 20/902.99950695/1102 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 14965695.5469 pps (2x 7482847.77344 pps)

FINAL_BANDWIDTH: 10.0569474075 Gbps (untagged) LATENCY_STREAM_0: 20/39.9999222755/179 usec (min/avg/max) LATENCY_STREAM_1: 20/910.686890602/1108 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.94810608 Gbps (untagged) LATENCY_STREAM_0: 20/155.966391563/356 usec (min/avg/max) LATENCY_STREAM_1: 20/68.5565648079/275 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.94810608 Gbps (untagged) LATENCY_STREAM_0: 20/288.384670258/484 usec (min/avg/max) LATENCY_STREAM_1: 20/79.5612387657/299 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277038.0 pps (2x 138519.0 pps)

FINAL_BANDWIDTH: 19.99106208 Gbps (untagged) LATENCY_STREAM_0: 60/137.411546707/333 usec (min/avg/max) LATENCY_STREAM_1: 60/117.261606216/309 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT L2XC with 802.1q - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277038.0 pps (2x 138519.0 pps)

FINAL_BANDWIDTH: 19.99106208 Gbps (untagged) LATENCY_STREAM_0: 60/302.857573509/357 usec (min/avg/max) LATENCY_STREAM_1: 60/269.789175987/430 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23340269.1406 pps (2x 11670134.5703 pps)

FINAL_BANDWIDTH: 15.6846608625 Gbps (untagged) LATENCY_STREAM_0: 10/28.1476941109/179 usec (min/avg/max) LATENCY_STREAM_1: 20/29.0596647263/178 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23340269.1406 pps (2x 11670134.5703 pps)

FINAL_BANDWIDTH: 15.6846608625 Gbps (untagged) LATENCY_STREAM_0: 10/29.8291568756/173 usec (min/avg/max) LATENCY_STREAM_1: 10/31.0208945274/146 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.94810608 Gbps (untagged) LATENCY_STREAM_0: 20/179.735608101/336 usec (min/avg/max) LATENCY_STREAM_1: 20/64.2031254768/227 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1621270.0 pps (2x 810635.0 pps)

FINAL_BANDWIDTH: 19.94810608 Gbps (untagged) LATENCY_STREAM_0: 20/254.202097893/304 usec (min/avg/max) LATENCY_STREAM_1: 20/153.131993771/318 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277038.0 pps (2x 138519.0 pps)

FINAL_BANDWIDTH: 19.99106208 Gbps (untagged) LATENCY_STREAM_0: 60/223.595353127/284 usec (min/avg/max) LATENCY_STREAM_1: 60/179.984645844/285 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT L2XC with 802.1q - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277038.0 pps (2x 138519.0 pps)

FINAL_BANDWIDTH: 19.99106208 Gbps (untagged) LATENCY_STREAM_0: 60/236.289542198/493 usec (min/avg/max) LATENCY_STREAM_1: 60/182.992729664/235 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Xconnect Intel-X520-DA2
  • RFC2544: Pkt throughput L2XC test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 cross connect.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross- connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 9207142.625 pps (2x 4603571.3125 pps)

FINAL_BANDWIDTH: 6.187199844 Gbps (untagged) LATENCY_STREAM_0: 10/45.4933004379/131 usec (min/avg/max) LATENCY_STREAM_1: 10/50.5709309578/124 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 9438095.0 pps (2x 4719047.5 pps)

FINAL_BANDWIDTH: 6.34239984 Gbps (untagged) LATENCY_STREAM_0: 10/1456.0488162/1608 usec (min/avg/max) LATENCY_STREAM_1: 20/2751.12936068/3025 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/123.949645996/193 usec (min/avg/max) LATENCY_STREAM_1: 20/131.110846519/190 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/195.52985096/287 usec (min/avg/max) LATENCY_STREAM_1: 20/185.821584702/269 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/237.572852135/276 usec (min/avg/max) LATENCY_STREAM_1: 60/226.147990704/238 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/296.291196823/359 usec (min/avg/max) LATENCY_STREAM_1: 60/376.528952599/388 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 19599999.5 pps (2x 9799999.75 pps)

FINAL_BANDWIDTH: 13.171199664 Gbps (untagged) LATENCY_STREAM_0: 10/43.5376253128/489 usec (min/avg/max) LATENCY_STREAM_1: 20/699.017022133/904 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 19830951.875 pps (2x 9915475.9375 pps)

FINAL_BANDWIDTH: 13.32639966 Gbps (untagged) LATENCY_STREAM_0: 20/42.0873184204/235 usec (min/avg/max) LATENCY_STREAM_1: 20/695.075139046/1066 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/154.73629427/174 usec (min/avg/max) LATENCY_STREAM_1: 20/481.814705849/489 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/51.8032665253/112 usec (min/avg/max) LATENCY_STREAM_1: 20/475.577671051/494 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/263.923620701/284 usec (min/avg/max) LATENCY_STREAM_1: 50/470.024703026/488 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/262.56079483/286 usec (min/avg/max) LATENCY_STREAM_1: 60/490.95610857/502 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 23526189.875 pps (2x 11763094.9375 pps)

FINAL_BANDWIDTH: 15.809599596 Gbps (untagged) LATENCY_STREAM_0: 10/27.5033450127/233 usec (min/avg/max) LATENCY_STREAM_1: 10/30.499894619/168 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 23757142.25 pps (2x 11878571.125 pps)

FINAL_BANDWIDTH: 15.964799592 Gbps (untagged) LATENCY_STREAM_0: 20/929.499323845/951 usec (min/avg/max) LATENCY_STREAM_1: 10/479.265774727/615 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/233.074090004/410 usec (min/avg/max) LATENCY_STREAM_1: 20/232.546286583/313 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 20/371.976175308/501 usec (min/avg/max) LATENCY_STREAM_1: 20/94.5643405914/386 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/235.781114101/302 usec (min/avg/max) LATENCY_STREAM_1: 60/196.001007557/209 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 277160.0 pps (2x 138580.0 pps)

FINAL_BANDWIDTH: 19.9998656 Gbps (untagged) LATENCY_STREAM_0: 60/204.366987228/618 usec (min/avg/max) LATENCY_STREAM_1: 60/300.999683857/576 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC19: IMIX_v4_1 NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 6687472.0 pps (2x 3343736.0 pps)

FINAL_BANDWIDTH: 19.9999994163 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC20: IMIX_v4_1 PDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 6687472.0 pps (2x 3343736.0 pps)

FINAL_BANDWIDTH: 19.9999994163 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Xconnect Intel-XL710
  • RFC2544: Pkt throughput L2XC test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 cross connect.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross- connect. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 9233593.75 pps (2x 4616796.875 pps)

FINAL_BANDWIDTH: 6.204975 Gbps (untagged) LATENCY_STREAM_0: 10/48.1584024429/123 usec (min/avg/max) LATENCY_STREAM_1: 30/49.8514909744/121 usec (min/avg/max)

PASS
TC03: 1518B NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 3982444.0 pps (2x 1991222.0 pps)

FINAL_BANDWIDTH: 48.999990976 Gbps (untagged) LATENCY_STREAM_0: 10/31.4992733598/389 usec (min/avg/max) LATENCY_STREAM_1: 10/32.5019587278/534 usec (min/avg/max)

PASS
TC07: 64B NDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 9816406.25 pps (2x 4908203.125 pps)

FINAL_BANDWIDTH: 6.596625 Gbps (untagged) LATENCY_STREAM_0: 10/17.6926846504/40 usec (min/avg/max) LATENCY_STREAM_1: 10/24.9311199188/60 usec (min/avg/max)

PASS
TC09: 1518B NDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 3951487.40624 pps (2x 1975743.70312 pps)

FINAL_BANDWIDTH: 48.6191010464 Gbps (untagged) LATENCY_STREAM_0: 10/30.0002402067/150 usec (min/avg/max) LATENCY_STREAM_1: 10/29.5673789978/235 usec (min/avg/max)

PASS
TC13: 64B NDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 13313281.25 pps (2x 6656640.625 pps)

FINAL_BANDWIDTH: 8.946525 Gbps (untagged) LATENCY_STREAM_0: 10/18.1450023651/66 usec (min/avg/max) LATENCY_STREAM_1: 10/15.5109395981/180 usec (min/avg/max)

PASS
TC15: 1518B NDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 3982444.0 pps (2x 1991222.0 pps)

FINAL_BANDWIDTH: 48.999990976 Gbps (untagged) LATENCY_STREAM_0: 20/34.0332148075/444 usec (min/avg/max) LATENCY_STREAM_1: 20/33.9885801077/368 usec (min/avg/max)

PASS
TC19: IMIX_v4_1 NDR binary search - DUT L2XC - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 10062311.4688 pps (2x 5031155.73438 pps)

FINAL_BANDWIDTH: 30.093019231 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC20: IMIX_v4_1 NDR binary search - DUT L2XC - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 thread, 2 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 10820950.8125 pps (2x 5410475.40625 pps)

FINAL_BANDWIDTH: 32.361856608 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC21: IMIX_v4_1 NDR binary search - DUT L2XC - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 thread, 4 phy core, 2 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 100kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 16384306.0 pps (2x 8192153.0 pps)

FINAL_BANDWIDTH: 48.9999973738 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
Long Xconnect Vhost Intel-X520-DA2
  • RFC2544: Pkt throughput L2XC test cases with vhost
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 cross connect.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross- connect. Qemu Guest is connected to VPP via vhost-user interfaces. Guest is running DPDK testpmd interconnecting vhost-user interfaces using 3 cores pinned to cpus 5,6,7 and 2048M memory. Testpmd is using socket-mem=1024M (512x2M hugepages), 3 cores (1 main core and 2 cores 2 cores dedicated for io), forwarding mode is set to io, rxq/txq=2048, burst=64. DUT1, DUT2 are tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and static payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2XC-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 252358.625 pps (2x 126179.3125 pps)

FINAL_BANDWIDTH: 0.169584996 Gbps (untagged) LATENCY_STREAM_0: 10/52.4939360619/367 usec (min/avg/max) LATENCY_STREAM_1: 20/70.3027963638/888 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2XC-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 804210.359376 pps (2x 402105.179688 pps)

FINAL_BANDWIDTH: 0.540429361501 Gbps (untagged) LATENCY_STREAM_0: 20/83.1102862358/124 usec (min/avg/max) LATENCY_STREAM_1: 20/74.9989852905/117 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT L2XC-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 195600.03125 pps (2x 97800.015625 pps)

FINAL_BANDWIDTH: 2.4066627845 Gbps (untagged) LATENCY_STREAM_0: 20/47.3888363838/661 usec (min/avg/max) LATENCY_STREAM_1: 30/79.2817034721/687 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT L2XC-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1349543.09375 pps (2x 674771.546875 pps)

FINAL_BANDWIDTH: 16.6047782255 Gbps (untagged) LATENCY_STREAM_0: 30/391.034483433/687 usec (min/avg/max) LATENCY_STREAM_1: 30/387.156019688/605 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: IMIX_v4_1 NDR binary search - DUT L2XC-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 244754.875 pps (2x 122377.4375 pps)

FINAL_BANDWIDTH: 0.73198023964 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC06: IMIX_v4_1 PDR binary search - DUT L2XC-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 427342.0 pps (2x 213671.0 pps)

FINAL_BANDWIDTH: 1.27803746327 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2XC-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 310448.28125 pps (2x 155224.140625 pps)

FINAL_BANDWIDTH: 0.208621245 Gbps (untagged) LATENCY_STREAM_0: 20/54.0372052193/1300 usec (min/avg/max) LATENCY_STREAM_1: 20/59.9997234344/96 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2XC-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 5364248.375 pps (2x 2682124.1875 pps)

FINAL_BANDWIDTH: 3.604774908 Gbps (untagged) LATENCY_STREAM_0: 20/68.5095357895/98 usec (min/avg/max) LATENCY_STREAM_1: 30/90.5686717033/139 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT L2XC-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 220685.75 pps (2x 110342.875 pps)

FINAL_BANDWIDTH: 2.715317468 Gbps (untagged) LATENCY_STREAM_0: 20/48.0314087868/450 usec (min/avg/max) LATENCY_STREAM_1: 30/53.8769292831/1161 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT L2XC-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/284.942182541/492 usec (min/avg/max) LATENCY_STREAM_1: 30/307.011620522/1028 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: IMIX_v4_1 NDR binary search - DUT L2XC-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 257796.8125 pps (2x 128898.40625 pps)

FINAL_BANDWIDTH: 0.770984327042 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC12: IMIX_v4_1 PDR binary search - DUT L2XC-VHOST - 2threads 2cores 1rxq [Cfg] DUT runs L2XC switching config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 4548594.25 pps (2x 2274297.125 pps)

FINAL_BANDWIDTH: 13.6033290824 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2XC-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 368537.9375 pps (2x 184268.96875 pps)

FINAL_BANDWIDTH: 0.247657494 Gbps (untagged) LATENCY_STREAM_0: 20/36.2667102814/382 usec (min/avg/max) LATENCY_STREAM_1: 20/49.999976635/81 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2XC-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 6351772.53124 pps (2x 3175886.26562 pps)

FINAL_BANDWIDTH: 4.26839114099 Gbps (untagged) LATENCY_STREAM_0: 10/65.0338468552/349 usec (min/avg/max) LATENCY_STREAM_1: 20/94.4028320312/333 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT L2XC-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 220685.75 pps (2x 110342.875 pps)

FINAL_BANDWIDTH: 2.715317468 Gbps (untagged) LATENCY_STREAM_0: 30/20.9999799728/66 usec (min/avg/max) LATENCY_STREAM_1: 20/15.5041356087/982 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT L2XC-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1625486.0 pps (2x 812743.0 pps)

FINAL_BANDWIDTH: 19.999979744 Gbps (untagged) LATENCY_STREAM_0: 30/271.433769703/425 usec (min/avg/max) LATENCY_STREAM_1: 30/508.424587727/596 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: IMIX_v4_1 NDR binary search - DUT L2XC-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 388216.1875 pps (2x 194108.09375 pps)

FINAL_BANDWIDTH: 1.16102520106 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max)

PASS
TC18: IMIX_v4_1 PDR binary search - DUT L2XC-VHOST - 4threads 4cores 2rxq [Cfg] DUT runs L2XC switching config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for IMIX_v4_1 frame size using binary search start at 10GE linerate, step 5kpps, LT=0.5%. IMIX_v4_1 = (28x64B;16x570B;4x1518B) FINAL_RATE: 5161565.3125 pps (2x 2580782.65625 pps)

FINAL_BANDWIDTH: 15.4365211903 Gbps (untagged) LATENCY_STREAM_0: NA usec (min/avg/max) LATENCY_STREAM_1: NA usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC19: 64B NDR binary search - DUT L2XC-DPDK-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 281403.453124 pps (2x 140701.726562 pps)

FINAL_BANDWIDTH: 0.189103120499 Gbps (untagged) LATENCY_STREAM_0: 20/68.5009441376/94 usec (min/avg/max) LATENCY_STREAM_1: 20/56.9999728203/80 usec (min/avg/max)

PASS
TC20: 64B PDR binary search - DUT L2XC-DPDK-VHOST - 1thread 1core 1rxq [Cfg] DUT runs L2XC switching config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 2053137.96876 pps (2x 1026568.98438 pps)

FINAL_BANDWIDTH: 1.37970871501 Gbps (untagged) LATENCY_STREAM_0: 20/103.562403679/258 usec (min/avg/max) LATENCY_STREAM_1: 20/97.9999055862/137 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
Long Xconnect Vxlan Ipv4 Intel-X520-DA2
  • RFC2544: Pkt throughput L2XC with VXLANoIPv4 test cases
  • [Top] Network Topologies: TG-DUT1-DUT2-TG 3-node circular topology with single links between nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4 for L2 cross-connect on TG-DUTn. Eth-IPv4-VXLAN-Eth-IPv4 is applied on link between DUT1 and DUT2.
  • [Cfg] DUT configuration: DUT1 and DUT2 are configured with L2 cross- connect. VXLAN tunnels are configured between L2XCs on DUT1 and DUT2. DUT1 and DUT2 tested with 2p10GE NIC X520 Niantic by Intel.
  • [Ver] TG verification: TG finds and reports throughput NDR (Non Drop Rate) with zero packet loss tolerance or throughput PDR (Partial Drop Rate) with non-zero packet loss tolerance (LT) expressed in percentage of packets transmitted. NDR and PDR are discovered for different Ethernet L2 frame sizes using either binary search or linear search algorithms with configured starting rate and final step that determines throughput measurement resolution. Test packets are generated by TG on links to DUTs. TG traffic profile contains two L3 flow-groups (flow-group per direction, 253 flows per flow-group) with all packets containing Ethernet header, IPv4 header with IP protocol=61 and generated payload. MAC addresses are matching MAC addresses of the TG node interfaces.
  • [Ref] Applicable standard specifications: RFC2544, RFC7348.
Name Documentation Message Status
TC01: 64B NDR binary search - DUT L2XC with VXLANoIPv4 - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 5102565.1875 pps (2x 2551282.59375 pps)

FINAL_BANDWIDTH: 3.428923806 Gbps (untagged) LATENCY_STREAM_0: 30/59.3514451981/192 usec (min/avg/max) LATENCY_STREAM_1: 20/58.8025598526/193 usec (min/avg/max)

PASS
TC02: 64B PDR binary search - DUT L2XC with VXLANoIPv4 - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 5390951.375 pps (2x 2695475.6875 pps)

FINAL_BANDWIDTH: 3.622719324 Gbps (untagged) LATENCY_STREAM_0: 80/2565.65996599/2825 usec (min/avg/max) LATENCY_STREAM_1: 90/4024.45122242/4161 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC03: 1518B NDR binary search - DUT L2XC with VXLANoIPv4 - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1574306.0 pps (2x 787153.0 pps)

FINAL_BANDWIDTH: 19.370261024 Gbps (untagged) LATENCY_STREAM_0: 30/218.975257874/420 usec (min/avg/max) LATENCY_STREAM_1: 20/175.152113914/314 usec (min/avg/max)

PASS
TC04: 1518B PDR binary search - DUT L2XC with VXLANoIPv4 - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1574306.0 pps (2x 787153.0 pps)

FINAL_BANDWIDTH: 19.370261024 Gbps (untagged) LATENCY_STREAM_0: 20/195.998448849/489 usec (min/avg/max) LATENCY_STREAM_1: 20/167.127293587/456 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC05: 9000B NDR binary search - DUT L2XC with VXLANoIPv4 - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 275632.0 pps (2x 137816.0 pps)

FINAL_BANDWIDTH: 19.88960512 Gbps (untagged) LATENCY_STREAM_0: 60/211.782643318/514 usec (min/avg/max) LATENCY_STREAM_1: 60/132.99914217/487 usec (min/avg/max)

PASS
TC06: 9000B PDR binary search - DUT L2XC with VXLANoIPv4 - 1thread 1core 1rxq [Cfg] DUT runs L2XC forwarding config with 1 thread, 1 phy core, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275632.0 pps (2x 137816.0 pps)

FINAL_BANDWIDTH: 19.88960512 Gbps (untagged) LATENCY_STREAM_0: 60/218.760999203/339 usec (min/avg/max) LATENCY_STREAM_1: 60/149.961330414/263 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC07: 64B NDR binary search - DUT L2XC with VXLANoIPv4 - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 10581902.75 pps (2x 5290951.375 pps)

FINAL_BANDWIDTH: 7.111038648 Gbps (untagged) LATENCY_STREAM_0: 20/25.9629349709/201 usec (min/avg/max) LATENCY_STREAM_1: 30/616.127546787/1456 usec (min/avg/max)

PASS
TC08: 64B PDR binary search - DUT L2XC with VXLANoIPv4 - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 10870288.9375 pps (2x 5435144.46875 pps)

FINAL_BANDWIDTH: 7.304834166 Gbps (untagged) LATENCY_STREAM_0: 10/54.1914215088/202 usec (min/avg/max) LATENCY_STREAM_1: 30/1244.21008158/1442 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC09: 1518B NDR binary search - DUT L2XC with VXLANoIPv4 - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1574306.0 pps (2x 787153.0 pps)

FINAL_BANDWIDTH: 19.370261024 Gbps (untagged) LATENCY_STREAM_0: 20/150.936820984/300 usec (min/avg/max) LATENCY_STREAM_1: 20/257.581027985/508 usec (min/avg/max)

PASS
TC10: 1518B PDR binary search - DUT L2XC with VXLANoIPv4 - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1574306.0 pps (2x 787153.0 pps)

FINAL_BANDWIDTH: 19.370261024 Gbps (untagged) LATENCY_STREAM_0: 20/151.89127636/347 usec (min/avg/max) LATENCY_STREAM_1: 20/73.3056116104/292 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC11: 9000B NDR binary search - DUT L2XC with VXLANoIPv4 - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 275632.0 pps (2x 137816.0 pps)

FINAL_BANDWIDTH: 19.88960512 Gbps (untagged) LATENCY_STREAM_0: 60/129.715567112/326 usec (min/avg/max) LATENCY_STREAM_1: 60/78.3307781219/291 usec (min/avg/max)

PASS
TC12: 9000B PDR binary search - DUT L2XC with VXLANoIPv4 - 2threads 2cores 1rxq [Cfg] DUT runs L2XC forwarding config with 2 threads, 2 phy cores, 1 receive queue per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275632.0 pps (2x 137816.0 pps)

FINAL_BANDWIDTH: 19.88960512 Gbps (untagged) LATENCY_STREAM_0: 60/278.724488735/483 usec (min/avg/max) LATENCY_STREAM_1: 60/82.7602596283/291 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC13: 64B NDR binary search - DUT L2XC with VXLANoIPv4 - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps. FINAL_RATE: 18368329.8125 pps (2x 9184164.90625 pps)

FINAL_BANDWIDTH: 12.343517634 Gbps (untagged) LATENCY_STREAM_0: 20/40.1417207718/170 usec (min/avg/max) LATENCY_STREAM_1: 20/40.479136467/266 usec (min/avg/max)

PASS
TC14: 64B PDR binary search - DUT L2XC with VXLANoIPv4 - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 64 Byte frames using binary search start at 10GE linerate, step 100kpps, LT=0.5%. FINAL_RATE: 18656716.0 pps (2x 9328358.0 pps)

FINAL_BANDWIDTH: 12.537313152 Gbps (untagged) LATENCY_STREAM_0: 20/210.960040092/563 usec (min/avg/max) LATENCY_STREAM_1: 20/153.038836479/541 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC15: 1518B NDR binary search - DUT L2XC with VXLANoIPv4 - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps. FINAL_RATE: 1574306.0 pps (2x 787153.0 pps)

FINAL_BANDWIDTH: 19.370261024 Gbps (untagged) LATENCY_STREAM_0: 30/125.244304657/288 usec (min/avg/max) LATENCY_STREAM_1: 20/76.5221943855/334 usec (min/avg/max)

PASS
TC16: 1518B PDR binary search - DUT L2XC with VXLANoIPv4 - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 1518 Byte frames using binary search start at 10GE linerate, step 10kpps, LT=0.5%. FINAL_RATE: 1574306.0 pps (2x 787153.0 pps)

FINAL_BANDWIDTH: 19.370261024 Gbps (untagged) LATENCY_STREAM_0: 20/268.032963753/289 usec (min/avg/max) LATENCY_STREAM_1: 20/164.114859104/213 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS
TC17: 9000B NDR binary search - DUT L2XC with VXLANoIPv4 - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find NDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps. FINAL_RATE: 275632.0 pps (2x 137816.0 pps)

FINAL_BANDWIDTH: 19.88960512 Gbps (untagged) LATENCY_STREAM_0: 60/211.881351471/350 usec (min/avg/max) LATENCY_STREAM_1: 60/103.548230648/149 usec (min/avg/max)

PASS
TC18: 9000B PDR binary search - DUT L2XC with VXLANoIPv4 - 4threads 4cores 2rxq [Cfg] DUT runs L2XC forwarding config with 4 threads, 4 phy cores, 2 receive queues per NIC port. [Ver] Find PDR for 9000 Byte frames using binary search start at 10GE linerate, step 5kpps, LT=0.5%. FINAL_RATE: 275632.0 pps (2x 137816.0 pps)

FINAL_BANDWIDTH: 19.88960512 Gbps (untagged) LATENCY_STREAM_0: 60/58.6617226601/241 usec (min/avg/max) LATENCY_STREAM_1: 60/84.0714235306/339 usec (min/avg/max) LOSS_ACCEPTANCE: 0.5 percentage

PASS

Failed Functional Tests

Dhcp Client

One test for DHCP Client fails due to a known issue in the VPP code. Latest status tracked in FD.io CSIT and VPP Jira:

  • Error while calling JIRA...
Name Documentation Status
VPP doesn't send DHCP REQUEST after OFFER with wrong XID Configure DHCP client on interface to TG. If server sends DHCP OFFER with different XID as in DHCP DISCOVER, DHCP REQUEST message shouldn't be sent. FAIL
Name Documentation Status
VPP doesn't send DHCP REQUEST after OFFER with wrong XID Configure DHCP client on interface to TG. If server sends DHCP OFFER with different XID as in DHCP DISCOVER, DHCP REQUEST message shouldn't be sent. FAIL
Lisp Api Untagged

One Lisp Api Untagged test fails due to bug in the VPP code. Latest status tracked in FD.io CSIT and VPP Jira:

Note: This patch was not merged to stable/1609 vpp branch.

Name Documentation Status
TC03: DUT can add, reset and delete locator_set [Top] DUT1. [Enc] None. [Cfg1] Test LISP locator_set API; on DUT1 configure locator_set and locator. [Ver1] Check DUT1 locator_set and locator are correct. [Cfg2] Then reset locator_set and set it again. [Ver2] Check DUT1 locator_set and locator are correct. [Cfg3] Then remove locator_set and locator. [Ver3] Check DUT1 all locator_set and locators are removed. [Ref] RFC6830. FAIL
Ipv6 Ra
Ipfix

CSIT IPFIX tests fail due to a known issue in IPFIX code that is still being completed. Latest status tracked in FD.io CSIT and VPP Jira:

Ipfix Ipv4
  • IPFIX ipv4 test cases IPFIX tests use 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 is configured with IPv4 routing and static routes. IPFIX is configured on DUT1 with DUT1->TG interface as collector. Test packets are sent from TG to DUT1. TG listens for flow report packets and verifies that they contains flow record of test packets sent.
Name Documentation Status
TC01: DUT sends IPFIX template and data packets [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and a basic classify session. [Ver] Make TG listen for IPFIX template and data packets, verify that packet is received and correct. No packets are sent from TG. [Ref] RFC 7011 FAIL
TC02: DUT reports packet flow for traffic by source address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with TG source address. [Ver] Make TG send a packet to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC03: DUT reports packet flow for traffic with local destination address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with destination address of DUT1. [Ver] Make TG send a packet to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC04: DUT reports packet flow for traffic with remote destination address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with destination address of DUT2. [Ver] Make TG send a packet to DUT2 through DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC05: DUT reports packet flow for traffic by source and destination port [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with TG source address and source and destination ports. [Ver] Make TG send a packet to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC06: DUT reports packet flow with a large number of packets [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with TG source address. [Ver] Make TG send packets to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packets. [Ref] RFC 7011 FAIL
TC07: DUT reports packet flow when multiple sessions are configured [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add several classify sessions with different ports. [Ver] Make TG send packets to DUT1 using a range of ports matching configured sessions, then listen for IPFIX template and data packets, verify that IPFIX reported the received packets for each session. [Ref] RFC 7011 FAIL
Ipfix Ipv6
  • IPFIX ipv6 test cases IPFIX tests use 3-node topology TG - DUT1 - DUT2 - TG with one link between the nodes. DUT1 is configured with IPv4 and IPV6 routing and static routes. IPFIX is configured on DUT1 with DUT1->TG interface as collector.Test packets are sent from TG to or through DUT1. TG listens for flow report packets and verifies that they contains flow records of test packets sent.
Name Documentation Status
TC01: DUT reports packet flow for traffic by source address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with TG source address. [Ver] Make TG send a packet to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC02: DUT reports packet flow for traffic with local destination address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with destination address of DUT1. [Ver] Make TG send a packet to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC03: DUT reports packet flow for traffic with remote destination address [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with destination address of DUT2. [Ver] Make TG send a packet to DUT2 through DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC04: DUT reports packet flow for traffic by source and destination port [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with TG source address and source and destination ports. [Ver] Make TG send a packet to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packet. [Ref] RFC 7011 FAIL
TC05: DUT reports packet flow with a large number of packets [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add classify session with TG source address. [Ver] Make TG send packets to DUT1, then listen for IPFIX template and data packets, verify that IPFIX reported the received packets. [Ref] RFC 7011 FAIL
TC06: DUT reports packet flow when multiple sessions are configured [Top] TG-DUT1-DUT2-TG. [Cfg] On DUT1 configure IPFIX with TG interface address as collector and add several classify sessions with different ports. [Ver] Make TG send packets to DUT1 using a range of ports matching configured sessions, then listen for IPFIX template and data packets, verify that IPFIX reported the received packets for each session. [Ref] RFC 7011 FAIL
Softwire

Listed CSIT Softwire negative tests fail due to known issues in MAP-E/T code. Latest status tracked in FD.io CSIT and VPP Jira:

  • Error while calling JIRA...
  • Error while calling JIRA...
Map E
  • Test for Basic mapping rule for MAP-E
  • [Top] Network Topologies: TG - DUT1 - TG with two links between the nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-UDP on TG-to-DUT-if1. Eth-IPv6-IPv4-UDP on TG-to-DUT-if2.
  • [Cfg] DUT configuration: DUT is configured with IPv4 on one DUT-to-TG interface and IPv6 address on second DUT-to-TG interface. MAP-E domain is configured in test template based on test parameters.
  • [Ver] TG verification: UDP packets in IPv4 are sent by TG to destination in MAP domain. IPv6 packets with encapsulated IPv4 are received on TG interface.
  • [Ref] Applicable standard specifications: RFC7597.
Name Documentation Status
TC01: BMR, then an IPv4 prefix is assigned Basic Mapping Rule https://tools.ietf.org/html/rfc7597#section-5.2 IPv4 prefix length + ea bits length < 32 (o + r < 32) psid_length = 0, ip6_prefix < 64, ip4_prefix <= 32 FAIL
TC02: BMR, full IPv4 address is to be assigned Basic Mapping Rule https://tools.ietf.org/html/rfc7597#section-5.2 IPv4 prefix length + ea bits length == 32 (o + r == 32) psid_length = 0, ip6_prefix < 64, ip4_prefix <= 32 PASS
TC03: BMR, shared IPv4 address is to be assigned Basic Mapping Rule https://tools.ietf.org/html/rfc7597#section-5.2 IPv4 prefix length + ea bits length > 32 (o + r > 32) ip6_prefix < 64, ip4_prefix <= 32 PASS
TC04: End user IPv6 prefix is 64 Supported End-User IPv6 prefix length is 64 bit. FAIL
TC05: IPv4 prefix is 0 FAIL
Bug: VPP-318 qlen < psid length FAIL
Bug: VPP-312 add route; add map; traffic pass; add route; add map; traffic fail FAIL
Map T
  • Test for Basic mapping rule for MAP-T
  • [Top] Network Topologies: TG - DUT1 - TG with two links between the nodes.
  • [Enc] Packet Encapsulations: Eth-IPv4-UDP on TG-to-DUT-if1. Eth-IPv6-UDP on TG-to-DUT-if2.
  • [Cfg] DUT configuration: DUT is configured with IPv4 on one DUT-to-TG interface and IPv6 address on second DUT-to-TG interface. MAP-T domain is configured in test template based on test parameters.
  • [Ver] TG verification: UDP packets in IPv4 are sent by TG to destination in MAP domain. IPv6 packets with translated IPv4 addresses are received on TG interface.
  • [Ref] Applicable standard specifications: RFC7599
Name Documentation Status
TC01: MAP-T test Test to check map-t address translation. FAIL

Failed Performance Test Results