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author | Maciek Konstantynowicz <mkonstan@cisco.com> | 2019-09-02 19:29:05 +0100 |
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committer | Tibor Frank <tifrank@cisco.com> | 2019-09-04 08:34:01 +0000 |
commit | 5df1c3270217408b1928bcc30e5283635112055c (patch) | |
tree | da18cd2785e1921fe4acd4e2a2a148b036633040 /docs/report/introduction | |
parent | 4a2ff6c727bb8b4180581d7687b5c3427aaff19e (diff) |
docs: report updates in physical_testbeds section.
Change-Id: Id31e6ed294dc80619a108296be580925509bb7d7
Signed-off-by: Maciek Konstantynowicz <mkonstan@cisco.com>
(cherry picked from commit a10342c5b6d989f64bd1fe49f0edd0c7585e54ea)
Diffstat (limited to 'docs/report/introduction')
-rw-r--r-- | docs/report/introduction/physical_testbeds.rst | 249 |
1 files changed, 163 insertions, 86 deletions
diff --git a/docs/report/introduction/physical_testbeds.rst b/docs/report/introduction/physical_testbeds.rst index 74d3c58183..9babb5fb1f 100644 --- a/docs/report/introduction/physical_testbeds.rst +++ b/docs/report/introduction/physical_testbeds.rst @@ -4,42 +4,49 @@ Physical Testbeds ================= All :abbr:`FD.io (Fast Data Input/Ouput)` :abbr:`CSIT (Continuous System -Integration and Testing)` performance testing listed in this report are -executed on physical testbeds built with bare-metal servers hosted by -:abbr:`LF (Linux Foundation)` FD.io project. Two testbed topologies are -used: - -- **3-Node Topology**: Consisting of two servers acting as SUTs - (Systems Under Test) and one server as TG (Traffic Generator), all - connected in ring topology. Used for executing all of the data plane - tests including overlay tunnels and IPSec tests. -- **2-Node Topology**: Consisting of one server acting as SUTs (Systems - Under Test) and one server as TG (Traffic Generator), both connected - in ring topology. Used for execution of tests without any overlay - tunnel encapsulations. Added in CSIT rls18.07. - -Current FD.io production testbeds are built with servers based on two -processor generations of Intel Xeons: Haswell-SP (E5-2699v3) and Skylake -(Platinum 8180). Testbeds built with servers based on Arm processors are -in the process of being added to FD.io production. - -Server SUT and DUT performance depends on server and processor type, -hence results for testbeds based on different servers must be reported +Integration and Testing)` performance test results included in this +report are executed on the physical testbeds hosted by :abbr:`LF (Linux +Foundation)` FD.io project, unless otherwise noted. + +Two physical server topology types are used: + +- **2-Node Topology**: Consists of one server acting as a System Under + Test (SUT) and one server acting as a Traffic Generator (TG), with + both servers connected into a ring topology. Used for executing tests + that require frame encapsulations supported by TG. + +- **3-Node Topology**: Consists of two servers acting as a Systems Under + Test (SUTs) and one server acting as a Traffic Generator (TG), with + all servers connected into a ring topology. Used for executing tests + that require frame encapsulations not supported by TG e.g. certain + overlay tunnel encapsulations and IPsec. Number of native Ethernet, + IPv4 and IPv6 encapsulation tests are also executed on these testbeds, + for comparison with 2-Node Topology. + +Current FD.io production testbeds are built with SUT servers based on +the following processor architectures: + +- Intel Xeon: Skylake Platinum 8180 and Haswell-SP E5-2699v3. +- Intel Atom: Denverton C3858. +- ARM: TaiShan 2280, hip07-d05. + +Server SUT performance depends on server and processor type, hence +results for testbeds based on different servers must be reported separately, and compared if appropriate. Complete technical specifications of compute servers used in CSIT physical testbeds are maintained in FD.io CSIT repository: -`FD.io CSIT testbeds - Xeon Skylake, Arm, Atom`_ and -`FD.io CSIT Testbeds - Xeon Haswell`_. +https://git.fd.io/csit/tree/docs/lab/testbed_specifications.md. -Following sections describe existing production testbed types. +Following is the description of existing production testbeds. -3-Node Xeon Haswell (3n-hsw) +2-Node Xeon Skylake (2n-skx) ---------------------------- -3n-hsw testbed is based on three Cisco UCS-c240m3 servers each equipped -with two Intel Xeon Haswell-SP E5-2699v3 2.3 GHz 18 core processors. -Physical testbed topology is depicted in a figure below. +Four 2n-skx testbeds are in operation in FD.io labs. Each 2n-skx testbed +is built with two SuperMicro SYS-7049GP-TRT servers, each in turn +equipped with two Intel Xeon Skylake Platinum 8180 processors (38.5 MB +Cache, 2.50 GHz, 28 cores). 2n-skx physical topology is shown below. .. only:: latex @@ -48,47 +55,46 @@ Physical testbed topology is depicted in a figure below. \begin{figure}[H] \centering \graphicspath{{../_tmp/src/introduction/}} - \includegraphics[width=0.90\textwidth]{testbed-3n-hsw} - \label{fig:testbed-3n-hsw} + \includegraphics[width=0.90\textwidth]{testbed-2n-skx} + \label{fig:testbed-2n-skx} \end{figure} .. only:: html - .. figure:: testbed-3n-hsw.svg - :alt: testbed-3n-hsw + .. figure:: testbed-2n-skx.svg + :alt: testbed-2n-skx :align: center -SUT1 and SUT2 servers are populated with the following NIC models: +SUT servers are populated with the following NIC models: -#. NIC-1: VIC 1385 2p40GE Cisco. -#. NIC-2: NIC x520 2p10GE Intel. -#. NIC-3: empty. -#. NIC-4: NIC xl710-QDA2 2p40GE Intel. -#. NIC-5: NIC x710-DA2 2p10GE Intel. -#. NIC-6: QAT 8950 50G (Walnut Hill) Intel. +#. NIC-1: x710-DA4 4p10GE Intel. +#. NIC-2: xxv710-DA2 2p25GE Intel. +#. NIC-3: mcx556a-edat ConnectX5 2p100GE Mellanox. (Not used yet.) +#. NIC-4: empty, future expansion. +#. NIC-5: empty, future expansion. +#. NIC-6: empty, future expansion. TG servers run T-Rex application and are populated with the following NIC models: -#. NIC-1: NIC xl710-QDA2 2p40GE Intel. -#. NIC-2: NIC x710-DA2 2p10GE Intel. -#. NIC-3: empty. -#. NIC-4: NIC xl710-QDA2 2p40GE Intel. -#. NIC-5: NIC x710-DA2 2p10GE Intel. -#. NIC-6: NIC x710-DA2 2p10GE Intel. (For self-tests.) - -All Intel Xeon Haswell servers run with Intel Hyper-Threading disabled, -making the number of logical cores exposed to Linux match the number of -18 physical cores per processor socket. +#. NIC-1: x710-DA4 4p10GE Intel. +#. NIC-2: xxv710-DA2 2p25GE Intel. +#. NIC-3: mcx556a-edat ConnectX5 2p100GE Mellanox. (Not used yet.) +#. NIC-4: empty, future expansion. +#. NIC-5: empty, future expansion. +#. NIC-6: x710-DA4 4p10GE Intel. (For self-tests.) -Total of three 3n-hsw testbeds are in operation in FD.io labs. +All Intel Xeon Skylake servers run with Intel Hyper-Threading enabled, +doubling the number of logical cores exposed to Linux, with 56 logical +cores and 28 physical cores per processor socket. 3-Node Xeon Skylake (3n-skx) ---------------------------- -3n-skx testbed is based on three SuperMicro SYS-7049GP-TRT servers each -equipped with two Intel Xeon Skylake Platinum 8180 2.5 GHz 28 core -processors. Physical testbed topology is depicted in a figure below. +Two 3n-skx testbeds are in operation in FD.io labs. Each 3n-skx testbed +is built with three SuperMicro SYS-7049GP-TRT servers, each in turn +equipped with two Intel Xeon Skylake Platinum 8180 processors (38.5 MB +Cache, 2.50 GHz, 28 cores). 3n-skx physical topology is shown below. .. only:: latex @@ -130,14 +136,13 @@ All Intel Xeon Skylake servers run with Intel Hyper-Threading enabled, doubling the number of logical cores exposed to Linux, with 56 logical cores and 28 physical cores per processor socket. -Total of two 3n-skx testbeds are in operation in FD.io labs. - -2-Node Xeon Skylake (2n-skx) +3-Node Xeon Haswell (3n-hsw) ---------------------------- -2n-skx testbed is based on two SuperMicro SYS-7049GP-TRT servers each -equipped with two Intel Xeon Skylake Platinum 8180 2.5 GHz 28 core -processors. Physical testbed topology is depicted in a figure below. +Three 3n-hsw testbeds are in operation in FD.io labs. Each 3n-hsw +testbed is built with three Cisco UCS-c240m3 servers, each in turn +equipped with two Intel Xeon Haswell-SP E5-2699v3 processors (45 MB +Cache, 2.3 GHz, 18 cores). 3n-hsw physical topology is shown below. .. only:: latex @@ -146,49 +151,47 @@ processors. Physical testbed topology is depicted in a figure below. \begin{figure}[H] \centering \graphicspath{{../_tmp/src/introduction/}} - \includegraphics[width=0.90\textwidth]{testbed-2n-skx} - \label{fig:testbed-2n-skx} + \includegraphics[width=0.90\textwidth]{testbed-3n-hsw} + \label{fig:testbed-3n-hsw} \end{figure} .. only:: html - .. figure:: testbed-2n-skx.svg - :alt: testbed-2n-skx + .. figure:: testbed-3n-hsw.svg + :alt: testbed-3n-hsw :align: center -SUT servers are populated with the following NIC models: +SUT1 and SUT2 servers are populated with the following NIC models: -#. NIC-1: x710-DA4 4p10GE Intel. -#. NIC-2: xxv710-DA2 2p25GE Intel. -#. NIC-3: mcx556a-edat ConnectX5 2p100GE Mellanox. (Not used yet.) -#. NIC-4: empty, future expansion. -#. NIC-5: empty, future expansion. -#. NIC-6: empty, future expansion. +#. NIC-1: VIC 1385 2p40GE Cisco. +#. NIC-2: NIC x520 2p10GE Intel. +#. NIC-3: empty. +#. NIC-4: NIC xl710-QDA2 2p40GE Intel. +#. NIC-5: NIC x710-DA2 2p10GE Intel. +#. NIC-6: QAT 8950 50G (Walnut Hill) Intel. TG servers run T-Rex application and are populated with the following NIC models: -#. NIC-1: x710-DA4 4p10GE Intel. -#. NIC-2: xxv710-DA2 2p25GE Intel. -#. NIC-3: mcx556a-edat ConnectX5 2p100GE Mellanox. (Not used yet.) -#. NIC-4: empty, future expansion. -#. NIC-5: empty, future expansion. -#. NIC-6: x710-DA4 4p10GE Intel. (For self-tests.) - -All Intel Xeon Skylake servers run with Intel Hyper-Threading enabled, -doubling the number of logical cores exposed to Linux, with 56 logical -cores and 28 physical cores per processor socket. +#. NIC-1: NIC xl710-QDA2 2p40GE Intel. +#. NIC-2: NIC x710-DA2 2p10GE Intel. +#. NIC-3: empty. +#. NIC-4: NIC xl710-QDA2 2p40GE Intel. +#. NIC-5: NIC x710-DA2 2p10GE Intel. +#. NIC-6: NIC x710-DA2 2p10GE Intel. (For self-tests.) -Total of four 2n-skx testbeds are in operation in FD.io labs. +All Intel Xeon Haswell servers run with Intel Hyper-Threading disabled, +making the number of logical cores exposed to Linux match the number of +18 physical cores per processor socket. 2-Node Atom Denverton (2n-dnv) ------------------------------ -2n-dnv testbed is based on one Intel S2600WFT Server that is equipped with -two Intel Xeon Skylake Platinum 8180 2.5GHz 28 core processors and one -SuperMicro SYS-E300-9A server that is equipped with one Intel Atom CPU -C3858 2.00GHz 12 core processors. Physical testbed topology is depicted in -a figure below. +2n-dnv testbed is built with: i) one Intel S2600WFT server acting as TG +and equipped with two Intel Xeon Skylake Platinum 8180 processors (38.5 +MB Cache, 2.50 GHz, 28 cores), and ii) one SuperMicro SYS-E300-9A server +acting as SUT and equipped with one Intel Atom C3858 processor (12 MB +Cache, 2.00 GHz, 12 cores). 2n-dnv physical topology is shown below. .. only:: latex @@ -223,3 +226,77 @@ following NIC models: #. NIC-4: x520-DA2 2p10GE Intel. The 2n-dnv testbed is in operation in Intel SH labs. + +3-Node Atom Denverton (3n-dnv) +------------------------------ + +One 3n-dnv testbed is built with: i) one SuperMicro SYS-7049GP-TRT +server acting as TG and equipped with two Intel Xeon Skylake Platinum +8180 processors (38.5 MB Cache, 2.50 GHz, 28 cores), and ii) one +SuperMicro SYS-E300-9A server acting as SUT and equipped with one Intel +Atom C3858 processor (12 MB Cache, 2.00 GHz, 12 cores). 3n-dnv physical +topology is shown below. + +.. only:: latex + + .. raw:: latex + + \begin{figure}[H] + \centering + \graphicspath{{../_tmp/src/introduction/}} + \includegraphics[width=0.90\textwidth]{testbed-3n-dnv} + \label{fig:testbed-3n-dnv} + \end{figure} + +.. only:: html + + .. figure:: testbed-3n-dnv.svg + :alt: testbed-3n-dnv + :align: center + +SUT1 and SUT2 servers are populated with the following NIC models: + +#. NIC-1: x553 2p10GE fiber Intel. +#. NIC-2: x553 2p10GE copper Intel. + +TG servers run T-Rex application and are populated with the following +NIC models: + +#. NIC-1: x710-DA4 4p10GE Intel. + +3-Node ARM TaiShan (3n-tsh) +--------------------------- + +One 3n-tsh testbed is built with: i) one SuperMicro SYS-7049GP-TRT +server acting as TG and equipped with two Intel Xeon Skylake Platinum +8180 processors (38.5 MB Cache, 2.50 GHz, 28 cores), and ii) one Huawei +TaiShan 2280 server acting as SUT and equipped with one hip07-d05 +processor (64* ARM Cortex-A72). 3n-tsh physical topology is shown below. + +.. only:: latex + + .. raw:: latex + + \begin{figure}[H] + \centering + \graphicspath{{../_tmp/src/introduction/}} + \includegraphics[width=0.90\textwidth]{testbed-3n-tsh} + \label{fig:testbed-3n-tsh} + \end{figure} + +.. only:: html + + .. figure:: testbed-3n-tsh.svg + :alt: testbed-3n-tsh + :align: center + +SUT1 and SUT2 servers are populated with the following NIC models: + +#. NIC-1: connectx4 2p25GE Mellanox. +#. NIC-2: x520 2p10GE Intel. + +TG servers run T-Rex application and are populated with the following +NIC models: + +#. NIC-1: x710-DA4 4p10GE Intel. +#. NIC-2: xxv710-DA2 2p25GE Intel. |