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-<?xml version="1.0" encoding="US-ASCII"?>
-<!DOCTYPE rfc SYSTEM "rfc2629.dtd">
-<?rfc toc="yes"?>
-<?rfc tocompact="yes"?>
-<?rfc tocdepth="3"?>
-<?rfc tocindent="yes"?>
-<?rfc symrefs="yes"?>
-<?rfc sortrefs="yes"?>
-<?rfc comments="yes"?>
-<?rfc inline="yes"?>
-<?rfc compact="yes"?>
-<?rfc subcompact="no"?>
-<rfc category="info" docName="draft-vsperf-bmwg-vswitch-opnfv-02"
- ipr="trust200902">
- <front>
- <title abbrev="Benchmarking vSwitches">Benchmarking Virtual Switches in
- OPNFV</title>
-
- <author fullname="Maryam Tahhan" initials="M." surname="Tahhan">
- <organization>Intel</organization>
-
- <address>
- <postal>
- <street/>
-
- <city/>
-
- <region/>
-
- <code/>
-
- <country/>
- </postal>
-
- <phone/>
-
- <facsimile/>
-
- <email>maryam.tahhan@intel.com</email>
-
- <uri/>
- </address>
- </author>
-
- <author fullname="Billy O'Mahony" initials="B." surname="O'Mahony">
- <organization>Intel</organization>
-
- <address>
- <postal>
- <street/>
-
- <city/>
-
- <region/>
-
- <code/>
-
- <country/>
- </postal>
-
- <phone/>
-
- <facsimile/>
-
- <email>billy.o.mahony@intel.com</email>
-
- <uri/>
- </address>
- </author>
-
- <author fullname="Al Morton" initials="A." surname="Morton">
- <organization>AT&amp;T Labs</organization>
-
- <address>
- <postal>
- <street>200 Laurel Avenue South</street>
-
- <city>Middletown,</city>
-
- <region>NJ</region>
-
- <code>07748</code>
-
- <country>USA</country>
- </postal>
-
- <phone>+1 732 420 1571</phone>
-
- <facsimile>+1 732 368 1192</facsimile>
-
- <email>acmorton@att.com</email>
-
- <uri>http://home.comcast.net/~acmacm/</uri>
- </address>
- </author>
-
- <date day="20" month="March" year="2016"/>
-
- <abstract>
- <t>This memo describes the progress of the Open Platform for NFV (OPNFV)
- project on virtual switch performance "VSWITCHPERF". This project
- intends to build on the current and completed work of the Benchmarking
- Methodology Working Group in IETF, by referencing existing literature.
- The Benchmarking Methodology Working Group has traditionally conducted
- laboratory characterization of dedicated physical implementations of
- internetworking functions. Therefore, this memo begins to describe the
- additional considerations when virtual switches are implemented in
- general-purpose hardware. The expanded tests and benchmarks are also
- influenced by the OPNFV mission to support virtualization of the "telco"
- infrastructure.</t>
- </abstract>
-
- <note title="Requirements Language">
- <t>The key words "MUST", "MUST NOT", "REQUIRED", "SHALL", "SHALL NOT",
- "SHOULD", "SHOULD NOT", "RECOMMENDED", "MAY", and "OPTIONAL" in this
- document are to be interpreted as described in <xref
- target="RFC2119">RFC 2119</xref>.</t>
-
- <t/>
- </note>
- </front>
-
- <middle>
- <section title="Introduction">
- <t>Benchmarking Methodology Working Group (BMWG) has traditionally
- conducted laboratory characterization of dedicated physical
- implementations of internetworking functions. The Black-box Benchmarks
- of Throughput, Latency, Forwarding Rates and others have served our
- industry for many years. Now, Network Function Virtualization (NFV) has
- the goal to transform how internetwork functions are implemented, and
- therefore has garnered much attention.</t>
-
- <t>This memo summarizes the progress of the Open Platform for NFV
- (OPNFV) project on virtual switch performance characterization,
- "VSWITCHPERF", through the Brahmaputra (second) release <xref
- target="BrahRel"/>. This project intends to build on the current and
- completed work of the Benchmarking Methodology Working Group in IETF, by
- referencing existing literature. For example, currently the most often
- referenced RFC is <xref target="RFC2544"/> (which depends on <xref
- target="RFC1242"/>) and foundation of the benchmarking work in OPNFV is
- common and strong.</t>
-
- <t>See
- https://wiki.opnfv.org/characterize_vswitch_performance_for_telco_nfv_use_cases
- for more background, and the OPNFV website for general information:
- https://www.opnfv.org/</t>
-
- <t>The authors note that OPNFV distinguishes itself from other open
- source compute and networking projects through its emphasis on existing
- "telco" services as opposed to cloud-computing. There are many ways in
- which telco requirements have different emphasis on performance
- dimensions when compared to cloud computing: support for and transfer of
- isochronous media streams is one example.</t>
-
- <t>Note also that the move to NFV Infrastructure has resulted in many
- new benchmarking initiatives across the industry. The authors are
- currently doing their best to maintain alignment with many other
- projects, and this Internet Draft is one part of the efforts. We
- acknowledge the early work in <xref
- target="I-D.huang-bmwg-virtual-network-performance"/>, and useful
- discussion with the authors.</t>
- </section>
-
- <section title="Scope">
- <t>The primary purpose and scope of the memo is to inform the industry
- of work-in-progress that builds on the body of extensive BMWG literature
- and experience, and describe the extensions needed for benchmarking
- virtual switches. Inital feedback indicates that many of these
- extensions may be applicable beyond the current scope (to hardware
- switches in the NFV Infrastructure and to virtual routers, for example).
- Additionally, this memo serves as a vehicle to include more detail and
- commentary from BMWG and other Open Source communities, under BMWG's
- chartered work to characterize the NFV Infrastructure (a virtual switch
- is an important aspect of that infrastructure).</t>
- </section>
-
- <section title="Benchmarking Considerations">
- <t>This section highlights some specific considerations (from <xref
- target="I-D.ietf-bmwg-virtual-net"/>)related to Benchmarks for virtual
- switches. The OPNFV project is sharing its present view on these areas,
- as they develop their specifications in the Level Test Design (LTD)
- document.</t>
-
- <section title="Comparison with Physical Network Functions">
- <t>To compare the performance of virtual designs and implementations
- with their physical counterparts, identical benchmarks are needed.
- BMWG has developed specifications for many network functions this memo
- re-uses existing benchmarks through references, and expands them
- during development of new methods. A key configuration aspect is the
- number of parallel cores required to achieve comparable performance
- with a given physical device, or whether some limit of scale was
- reached before the cores could achieve the comparable level.</t>
-
- <t>It's unlikely that the virtual switch will be the only application
- running on the SUT, so CPU utilization, Cache utilization, and Memory
- footprint should also be recorded for the virtual implementations of
- internetworking functions.</t>
- </section>
-
- <section title="Continued Emphasis on Black-Box Benchmarks">
- <t>External observations remain essential as the basis for Benchmarks.
- Internal observations with fixed specification and interpretation will
- be provided in parallel to assist the development of operations
- procedures when the technology is deployed.</t>
- </section>
-
- <section title="New Configuration Parameters">
- <t>A key consideration when conducting any sort of benchmark is trying
- to ensure the consistency and repeatability of test results. When
- benchmarking the performance of a vSwitch there are many factors that
- can affect the consistency of results, one key factor is matching the
- various hardware and software details of the SUT. This section lists
- some of the many new parameters which this project believes are
- critical to report in order to achieve repeatability.</t>
-
- <t>Hardware details including:</t>
-
- <t><list style="symbols">
- <t>Platform details</t>
-
- <t>Processor details</t>
-
- <t>Memory information (type and size)</t>
-
- <t>Number of enabled cores</t>
-
- <t>Number of cores used for the test</t>
-
- <t>Number of physical NICs, as well as their details
- (manufacturer, versions, type and the PCI slot they are plugged
- into)</t>
-
- <t>NIC interrupt configuration</t>
-
- <t>BIOS version, release date and any configurations that were
- modified</t>
-
- <t>CPU microcode level</t>
-
- <t>Memory DIMM configurations (quad rank performance may not be
- the same as dual rank) in size, freq and slot locations</t>
-
- <t>PCI configuration parameters (payload size, early ack
- option...)</t>
-
- <t>Power management at all levels (ACPI sleep states, processor
- package, OS...)</t>
- </list>Software details including:</t>
-
- <t><list style="symbols">
- <t>OS parameters and behavior (text vs graphical no one typing at
- the console on one system)</t>
-
- <t>OS version (for host and VNF)</t>
-
- <t>Kernel version (for host and VNF)</t>
-
- <t>GRUB boot parameters (for host and VNF)</t>
-
- <t>Hypervisor details (Type and version)</t>
-
- <t>Selected vSwitch, version number or commit id used</t>
-
- <t>vSwitch launch command line if it has been parameterised</t>
-
- <t>Memory allocation to the vSwitch</t>
-
- <t>which NUMA node it is using, and how many memory channels</t>
-
- <t>DPDK or any other SW dependency version number or commit id
- used</t>
-
- <t>Memory allocation to a VM - if it's from Hugpages/elsewhere</t>
-
- <t>VM storage type: snapshot/independent persistent/independent
- non-persistent</t>
-
- <t>Number of VMs</t>
-
- <t>Number of Virtual NICs (vNICs), versions, type and driver</t>
-
- <t>Number of virtual CPUs and their core affinity on the host</t>
-
- <t>Number vNIC interrupt configuration</t>
-
- <t>Thread affinitization for the applications (including the
- vSwitch itself) on the host</t>
-
- <t>Details of Resource isolation, such as CPUs designated for
- Host/Kernel (isolcpu) and CPUs designated for specific processes
- (taskset). - Test duration. - Number of flows.</t>
- </list></t>
-
- <t>Test Traffic Information:<list style="symbols">
- <t>Traffic type - UDP, TCP, IMIX / Other</t>
-
- <t>Packet Sizes</t>
-
- <t>Deployment Scenario</t>
- </list></t>
-
- <t/>
- </section>
-
- <section title="Flow classification">
- <t>Virtual switches group packets into flows by processing and
- matching particular packet or frame header information, or by matching
- packets based on the input ports. Thus a flow can be thought of a
- sequence of packets that have the same set of header field values or
- have arrived on the same port. Performance results can vary based on
- the parameters the vSwitch uses to match for a flow. The recommended
- flow classification parameters for any vSwitch performance tests are:
- the input port, the source IP address, the destination IP address and
- the Ethernet protocol type field. It is essential to increase the flow
- timeout time on a vSwitch before conducting any performance tests that
- do not measure the flow setup time. Normally the first packet of a
- particular stream will install the flow in the virtual switch which
- adds an additional latency, subsequent packets of the same flow are
- not subject to this latency if the flow is already installed on the
- vSwitch.</t>
- </section>
-
- <section title="Benchmarks using Baselines with Resource Isolation">
- <t>This outline describes measurement of baseline with isolated
- resources at a high level, which is the intended approach at this
- time.</t>
-
- <t><list style="numbers">
- <t>Baselines: <list style="symbols">
- <t>Optional: Benchmark platform forwarding capability without
- a vswitch or VNF for at least 72 hours (serves as a means of
- platform validation and a means to obtain the base performance
- for the platform in terms of its maximum forwarding rate and
- latency). <figure>
- <preamble>Benchmark platform forwarding
- capability</preamble>
-
- <artwork align="right"><![CDATA[ __
- +--------------------------------------------------+ |
- | +------------------------------------------+ | |
- | | | | |
- | | Simple Forwarding App | | Host
- | | | | |
- | +------------------------------------------+ | |
- | | NIC | | |
- +---+------------------------------------------+---+ __|
- ^ :
- | |
- : v
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
-
- <postamble/>
- </figure></t>
-
- <t>Benchmark VNF forwarding capability with direct
- connectivity (vSwitch bypass, e.g., SR/IOV) for at least 72
- hours (serves as a means of VNF validation and a means to
- obtain the base performance for the VNF in terms of its
- maximum forwarding rate and latency). The metrics gathered
- from this test will serve as a key comparison point for
- vSwitch bypass technologies performance and vSwitch
- performance. <figure align="right">
- <preamble>Benchmark VNF forwarding capability</preamble>
-
- <artwork><![CDATA[ __
- +--------------------------------------------------+ |
- | +------------------------------------------+ | |
- | | | | |
- | | VNF | | |
- | | | | |
- | +------------------------------------------+ | |
- | | Passthrough/SR-IOV | | Host
- | +------------------------------------------+ | |
- | | NIC | | |
- +---+------------------------------------------+---+ __|
- ^ :
- | |
- : v
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
-
- <postamble/>
- </figure></t>
-
- <t>Benchmarking with isolated resources alone, with other
- resources (both HW&amp;SW) disabled Example, vSw and VM are
- SUT</t>
-
- <t>Benchmarking with isolated resources alone, leaving some
- resources unused</t>
-
- <t>Benchmark with isolated resources and all resources
- occupied</t>
- </list></t>
-
- <t>Next Steps<list style="symbols">
- <t>Limited sharing</t>
-
- <t>Production scenarios</t>
-
- <t>Stressful scenarios</t>
- </list></t>
- </list></t>
- </section>
- </section>
-
- <section title="VSWITCHPERF Specification Summary">
- <t>The overall specification in preparation is referred to as a Level
- Test Design (LTD) document, which will contain a suite of performance
- tests. The base performance tests in the LTD are based on the
- pre-existing specifications developed by BMWG to test the performance of
- physical switches. These specifications include:</t>
-
- <t><list style="symbols">
- <t><xref target="RFC2544"/> Benchmarking Methodology for Network
- Interconnect Devices</t>
-
- <t><xref target="RFC2889"/> Benchmarking Methodology for LAN
- Switching</t>
-
- <t><xref target="RFC6201"/> Device Reset Characterization</t>
-
- <t><xref target="RFC5481"/> Packet Delay Variation Applicability
- Statement</t>
- </list></t>
-
- <t>Some of the above/newer RFCs are being applied in benchmarking for
- the first time, and represent a development challenge for test equipment
- developers. Fortunately, many members of the testing system community
- have engaged on the VSPERF project, including an open source test
- system.</t>
-
- <t>In addition to this, the LTD also re-uses the terminology defined
- by:</t>
-
- <t><list style="symbols">
- <t><xref target="RFC2285"/> Benchmarking Terminology for LAN
- Switching Devices</t>
-
- <t><xref target="RFC5481"/> Packet Delay Variation Applicability
- Statement</t>
- </list></t>
-
- <t/>
-
- <t>Specifications to be included in future updates of the LTD
- include:<list style="symbols">
- <t><xref target="RFC3918"/> Methodology for IP Multicast
- Benchmarking</t>
-
- <t><xref target="RFC4737"/> Packet Reordering Metrics</t>
- </list></t>
-
- <t>As one might expect, the most fundamental internetworking
- characteristics of Throughput and Latency remain important when the
- switch is virtualized, and these benchmarks figure prominently in the
- specification.</t>
-
- <t>When considering characteristics important to "telco" network
- functions, we must begin to consider additional performance metrics. In
- this case, the project specifications have referenced metrics from the
- IETF IP Performance Metrics (IPPM) literature. This means that the <xref
- target="RFC2544"/> test of Latency is replaced by measurement of a
- metric derived from IPPM's <xref target="RFC2679"/>, where a set of
- statistical summaries will be provided (mean, max, min, etc.). Further
- metrics planned to be benchmarked include packet delay variation as
- defined by <xref target="RFC5481"/> , reordering, burst behaviour, DUT
- availability, DUT capacity and packet loss in long term testing at
- Throughput level, where some low-level of background loss may be present
- and characterized.</t>
-
- <t>Tests have been (or will be) designed to collect the metrics
- below:</t>
-
- <t><list style="symbols">
- <t>Throughput Tests to measure the maximum forwarding rate (in
- frames per second or fps) and bit rate (in Mbps) for a constant load
- (as defined by <xref target="RFC1242"/>) without traffic loss.</t>
-
- <t>Packet and Frame Delay Distribution Tests to measure average, min
- and max packet and frame delay for constant loads.</t>
-
- <t>Packet Delay Tests to understand latency distribution for
- different packet sizes and over an extended test run to uncover
- outliers.</t>
-
- <t>Scalability Tests to understand how the virtual switch performs
- as the number of flows, active ports, complexity of the forwarding
- logic&rsquo;s configuration&hellip; it has to deal with
- increases.</t>
-
- <t>Stream Performance Tests (TCP, UDP) to measure bulk data transfer
- performance, i.e. how fast systems can send and receive data through
- the switch.</t>
-
- <t>Control Path and Datapath Coupling Tests, to understand how
- closely coupled the datapath and the control path are as well as the
- effect of this coupling on the performance of the DUT (example:
- delay of the initial packet of a flow).</t>
-
- <t>CPU and Memory Consumption Tests to understand the virtual
- switch&rsquo;s footprint on the system, usually conducted as
- auxiliary measurements with benchmarks above. They include: CPU
- utilization, Cache utilization and Memory footprint.</t>
-
- <t>The so-called "Soak" tests, where the selected test is conducted
- over a long period of time (with an ideal duration of 24 hours, and
- at least 6 hours). The purpose of soak tests is to capture transient
- changes in performance which may occur due to infrequent processes
- or the low probability coincidence of two or more processes. The
- performance must be evaluated periodically during continuous
- testing, and this results in use of <xref target="RFC2889"/> Frame
- Rate metrics instead of <xref target="RFC2544"/> Throughput (which
- requires stopping traffic to allow time for all traffic to exit
- internal queues).</t>
- </list></t>
-
- <t>Future/planned test specs include:<list style="symbols">
- <t>Request/Response Performance Tests (TCP, UDP) which measure the
- transaction rate through the switch.</t>
-
- <t>Noisy Neighbour Tests, to understand the effects of resource
- sharing on the performance of a virtual switch.</t>
-
- <t>Tests derived from examination of ETSI NFV Draft GS IFA003
- requirements <xref target="IFA003"/> on characterization of
- acceleration technologies applied to vswitches.</t>
- </list>The flexibility of deployment of a virtual switch within a
- network means that the BMWG IETF existing literature needs to be used to
- characterize the performance of a switch in various deployment
- scenarios. The deployment scenarios under consideration include:</t>
-
- <t><figure>
- <preamble>Physical port to virtual switch to physical
- port</preamble>
-
- <artwork><![CDATA[ __
- +--------------------------------------------------+ |
- | +--------------------+ | |
- | | | | |
- | | v | | Host
- | +--------------+ +--------------+ | |
- | | phy port | vSwitch | phy port | | |
- +---+--------------+------------+--------------+---+ __|
- ^ :
- | |
- : v
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
- </figure></t>
-
- <t><figure>
- <preamble>Physical port to virtual switch to VNF to virtual switch
- to physical port</preamble>
-
- <artwork><![CDATA[ __
- +---------------------------------------------------+ |
- | | |
- | +-------------------------------------------+ | |
- | | Application | | |
- | +-------------------------------------------+ | |
- | ^ : | |
- | | | | | Guest
- | : v | |
- | +---------------+ +---------------+ | |
- | | logical port 0| | logical port 1| | |
- +---+---------------+-----------+---------------+---+ __|
- ^ :
- | |
- : v __
- +---+---------------+----------+---------------+---+ |
- | | logical port 0| | logical port 1| | |
- | +---------------+ +---------------+ | |
- | ^ : | |
- | | | | | Host
- | : v | |
- | +--------------+ +--------------+ | |
- | | phy port | vSwitch | phy port | | |
- +---+--------------+------------+--------------+---+ __|
- ^ :
- | |
- : v
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
- </figure><figure>
- <preamble>Physical port to virtual switch to VNF to virtual switch
- to VNF to virtual switch to physical port</preamble>
-
- <artwork><![CDATA[ __
- +----------------------+ +----------------------+ |
- | Guest 1 | | Guest 2 | |
- | +---------------+ | | +---------------+ | |
- | | Application | | | | Application | | |
- | +---------------+ | | +---------------+ | |
- | ^ | | | ^ | | |
- | | v | | | v | | Guests
- | +---------------+ | | +---------------+ | |
- | | logical ports | | | | logical ports | | |
- | | 0 1 | | | | 0 1 | | |
- +---+---------------+--+ +---+---------------+--+__|
- ^ : ^ :
- | | | |
- : v : v _
- +---+---------------+---------+---------------+--+ |
- | | 0 1 | | 3 4 | | |
- | | logical ports | | logical ports | | |
- | +---------------+ +---------------+ | |
- | ^ | ^ | | | Host
- | | |-----------------| v | |
- | +--------------+ +--------------+ | |
- | | phy ports | vSwitch | phy ports | | |
- +---+--------------+----------+--------------+---+_|
- ^ :
- | |
- : v
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
- </figure><figure>
- <preamble>Physical port to virtual switch to VNF</preamble>
-
- <artwork><![CDATA[ __
- +---------------------------------------------------+ |
- | | |
- | +-------------------------------------------+ | |
- | | Application | | |
- | +-------------------------------------------+ | |
- | ^ | |
- | | | | Guest
- | : | |
- | +---------------+ | |
- | | logical port 0| | |
- +---+---------------+-------------------------------+ __|
- ^
- |
- : __
- +---+---------------+------------------------------+ |
- | | logical port 0| | |
- | +---------------+ | |
- | ^ | |
- | | | | Host
- | : | |
- | +--------------+ | |
- | | phy port | vSwitch | |
- +---+--------------+------------ -------------- ---+ __|
- ^
- |
- :
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
- </figure><figure>
- <preamble>VNF to virtual switch to physical port</preamble>
-
- <artwork><![CDATA[ __
- +---------------------------------------------------+ |
- | | |
- | +-------------------------------------------+ | |
- | | Application | | |
- | +-------------------------------------------+ | |
- | : | |
- | | | | Guest
- | v | |
- | +---------------+ | |
- | | logical port | | |
- +-------------------------------+---------------+---+ __|
- :
- |
- v __
- +------------------------------+---------------+---+ |
- | | logical port | | |
- | +---------------+ | |
- | : | |
- | | | | Host
- | v | |
- | +--------------+ | |
- | vSwitch | phy port | | |
- +-------------------------------+--------------+---+ __|
- :
- |
- v
- +--------------------------------------------------+
- | |
- | traffic generator |
- | |
- +--------------------------------------------------+]]></artwork>
- </figure><figure>
- <preamble>VNF to virtual switch to VNF</preamble>
-
- <artwork><![CDATA[ __
- +----------------------+ +----------------------+ |
- | Guest 1 | | Guest 2 | |
- | +---------------+ | | +---------------+ | |
- | | Application | | | | Application | | |
- | +---------------+ | | +---------------+ | |
- | | | | ^ | |
- | v | | | | | Guests
- | +---------------+ | | +---------------+ | |
- | | logical ports | | | | logical ports | | |
- | | 0 | | | | 0 | | |
- +---+---------------+--+ +---+---------------+--+__|
- : ^
- | |
- v : _
- +---+---------------+---------+---------------+--+ |
- | | 1 | | 1 | | |
- | | logical ports | | logical ports | | |
- | +---------------+ +---------------+ | |
- | | ^ | | Host
- | L-----------------+ | |
- | | |
- | vSwitch | |
- +------------------------------------------------+_|]]></artwork>
- </figure></t>
-
- <t>A set of Deployment Scenario figures is available on the VSPERF Test
- Methodology Wiki page <xref target="TestTopo"/>.</t>
- </section>
-
- <section title="3x3 Matrix Coverage">
- <t>This section organizes the many existing test specifications into the
- "3x3" matrix (introduced in <xref target="I-D.ietf-bmwg-virtual-net"/>).
- Because the LTD specification ID names are quite long, this section is
- organized into lists for each occupied cell of the matrix (not all are
- occupied, also the matrix has grown to 3x4 to accommodate scale metrics
- when displaying the coverage of many metrics/benchmarks). The current
- version of the LTD specification is available <xref target="LTD"/>.</t>
-
- <t>The tests listed below assess the activation of paths in the data
- plane, rather than the control plane.</t>
-
- <t>A complete list of tests with short summaries is available on the
- VSPERF "LTD Test Spec Overview" Wiki page <xref target="LTDoverV"/>.</t>
-
- <section title="Speed of Activation">
- <t><list style="symbols">
- <t>Activation.RFC2889.AddressLearningRate</t>
-
- <t>PacketLatency.InitialPacketProcessingLatency</t>
- </list></t>
- </section>
-
- <section title="Accuracy of Activation section">
- <t><list style="symbols">
- <t>CPDP.Coupling.Flow.Addition</t>
- </list></t>
- </section>
-
- <section title="Reliability of Activation">
- <t><list style="symbols">
- <t>Throughput.RFC2544.SystemRecoveryTime</t>
-
- <t>Throughput.RFC2544.ResetTime</t>
- </list></t>
- </section>
-
- <section title="Scale of Activation">
- <t><list style="symbols">
- <t>Activation.RFC2889.AddressCachingCapacity</t>
- </list></t>
- </section>
-
- <section title="Speed of Operation">
- <t><list style="symbols">
- <t>Throughput.RFC2544.PacketLossRate</t>
-
- <t>CPU.RFC2544.0PacketLoss</t>
-
- <t>Throughput.RFC2544.PacketLossRateFrameModification</t>
-
- <t>Throughput.RFC2544.BackToBackFrames</t>
-
- <t>Throughput.RFC2889.MaxForwardingRate</t>
-
- <t>Throughput.RFC2889.ForwardPressure</t>
-
- <t>Throughput.RFC2889.BroadcastFrameForwarding</t>
- </list></t>
- </section>
-
- <section title="Accuracy of Operation">
- <t><list style="symbols">
- <t>Throughput.RFC2889.ErrorFramesFiltering</t>
-
- <t>Throughput.RFC2544.Profile</t>
- </list></t>
- </section>
-
- <section title="Reliability of Operation">
- <t><list style="symbols">
- <t>Throughput.RFC2889.Soak</t>
-
- <t>Throughput.RFC2889.SoakFrameModification</t>
-
- <t>PacketDelayVariation.RFC3393.Soak</t>
- </list></t>
- </section>
-
- <section title="Scalability of Operation">
- <t><list style="symbols">
- <t>Scalability.RFC2544.0PacketLoss</t>
-
- <t>MemoryBandwidth.RFC2544.0PacketLoss.Scalability</t>
- </list></t>
- </section>
-
- <section title="Summary">
- <t><figure>
- <artwork><![CDATA[|------------------------------------------------------------------------|
-| | | | | |
-| | SPEED | ACCURACY | RELIABILITY | SCALE |
-| | | | | |
-|------------------------------------------------------------------------|
-| | | | | |
-| Activation | X | X | X | X |
-| | | | | |
-|------------------------------------------------------------------------|
-| | | | | |
-| Operation | X | X | X | X |
-| | | | | |
-|------------------------------------------------------------------------|
-| | | | | |
-| De-activation | | | | |
-| | | | | |
-|------------------------------------------------------------------------|]]></artwork>
- </figure></t>
- </section>
- </section>
-
- <section title="Security Considerations">
- <t>Benchmarking activities as described in this memo are limited to
- technology characterization of a Device Under Test/System Under Test
- (DUT/SUT) using controlled stimuli in a laboratory environment, with
- dedicated address space and the constraints specified in the sections
- above.</t>
-
- <t>The benchmarking network topology will be an independent test setup
- and MUST NOT be connected to devices that may forward the test traffic
- into a production network, or misroute traffic to the test management
- network.</t>
-
- <t>Further, benchmarking is performed on a "black-box" basis, relying
- solely on measurements observable external to the DUT/SUT.</t>
-
- <t>Special capabilities SHOULD NOT exist in the DUT/SUT specifically for
- benchmarking purposes. Any implications for network security arising
- from the DUT/SUT SHOULD be identical in the lab and in production
- networks.</t>
- </section>
-
- <section anchor="IANA" title="IANA Considerations">
- <t>No IANA Action is requested at this time.</t>
- </section>
-
- <section title="Acknowledgements">
- <t>The authors appreciate and acknowledge comments from Scott Bradner,
- Marius Georgescu, Ramki Krishnan, and Doug Montgomery, and others for
- their reviews.</t>
- </section>
- </middle>
-
- <back>
- <references title="Normative References">
- <?rfc ?>
-
- <?rfc include="reference.RFC.2119"?>
-
- <?rfc ?>
-
- <?rfc include="reference.RFC.2330"?>
-
- <?rfc include='reference.RFC.2544'?>
-
- <?rfc include="reference.RFC.2679"?>
-
- <?rfc include='reference.RFC.2680'?>
-
- <?rfc include='reference.RFC.3393'?>
-
- <?rfc include='reference.RFC.3432'?>
-
- <?rfc include='reference.RFC.2681'?>
-
- <?rfc include='reference.RFC.5905'?>
-
- <?rfc include='reference.RFC.4689'?>
-
- <?rfc include='reference.RFC.4737'?>
-
- <?rfc include='reference.RFC.5357'?>
-
- <?rfc include='reference.RFC.2889'?>
-
- <?rfc include='reference.RFC.3918'?>
-
- <?rfc include='reference.RFC.6201'?>
-
- <?rfc include='reference.RFC.2285'?>
-
- <reference anchor="NFV.PER001">
- <front>
- <title>Network Function Virtualization: Performance and Portability
- Best Practices</title>
-
- <author fullname="ETSI NFV" initials="" surname="">
- <organization/>
- </author>
-
- <date month="June" year="2014"/>
- </front>
-
- <seriesInfo name="Group Specification"
- value="ETSI GS NFV-PER 001 V1.1.1 (2014-06)"/>
-
- <format type="PDF"/>
- </reference>
- </references>
-
- <references title="Informative References">
- <?rfc include='reference.RFC.1242'?>
-
- <?rfc include='reference.RFC.5481'?>
-
- <?rfc include='reference.RFC.6049'?>
-
- <?rfc include='reference.RFC.6248'?>
-
- <?rfc include='reference.RFC.6390'?>
-
- <?rfc include='reference.I-D.ietf-bmwg-virtual-net'?>
-
- <?rfc include='reference.I-D.huang-bmwg-virtual-network-performance'?>
-
- <reference anchor="TestTopo">
- <front>
- <title>Test Topologies
- https://wiki.opnfv.org/vsperf/test_methodology</title>
-
- <author>
- <organization/>
- </author>
-
- <date/>
- </front>
- </reference>
-
- <reference anchor="LTDoverV">
- <front>
- <title>LTD Test Spec Overview
- https://wiki.opnfv.org/wiki/vswitchperf_test_spec_review</title>
-
- <author>
- <organization/>
- </author>
-
- <date/>
- </front>
- </reference>
-
- <reference anchor="LTD">
- <front>
- <title>LTD Test Specification
- http://artifacts.opnfv.org/vswitchperf/docs/requirements/index.html</title>
-
- <author>
- <organization/>
- </author>
-
- <date/>
- </front>
- </reference>
-
- <reference anchor="BrahRel">
- <front>
- <title>Brahmaputra, Second OPNFV Release
- https://www.opnfv.org/brahmaputra</title>
-
- <author>
- <organization/>
- </author>
-
- <date/>
- </front>
- </reference>
-
- <reference anchor="IFA003">
- <front>
- <title>https://docbox.etsi.org/ISG/NFV/Open/Drafts/IFA003_Acceleration_-_vSwitch_Spec/</title>
-
- <author>
- <organization/>
- </author>
-
- <date/>
- </front>
- </reference>
- </references>
- </back>
-</rfc>