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类型RFC2285局域网交换设备基准测试术语.doc

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    RFC2285局域网交换设备基准测试术语.doc
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    1、项目编号 ITTEL_R other devices may be passive such as a CSU/DSU. Regardless of constituent components, the system is treated as a singular entity to which stimulus is offered and response measured.Measurement units:n/aIssues:See Also:device under test (DUT) (3.1.1)3.2 Traffic orientationThis group of de

    2、finitions applies to the traffic presented to the interfaces of a DUT/SUT and indicates whether the interfaces are receiving only, transmitting only, or both receiving and transmitting. 3.2.1 Unidirectional trafficDefinition:When all frames presented to the input interfaces of a DUT/SUT are addresse

    3、d to output interfaces which do not themselves receive any frames.北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 4 页 共 20 页Discussion:This definition conforms to the discussion in section 16 of RFC 1944 w

    4、hich describes how unidirectional traffic can be offered to a DUT/SUT to measure throughput. Unidirectional traffic is also appropriate for: -the measurement of the minimum inter-frame gap -the creation of many-to-one or one-to-many interface overload -the detection of head of line blocking -the mea

    5、surement of forwarding rates and throughput when congestion control mechanisms are active.When a tester offers unidirectional traffic to a DUT/SUT reception and transmission are handled by different interfaces or sets of interfaces of the DUT/SUT. All frames received from the tester by the DUT/SUT a

    6、re transmitted back to the tester from interfaces which do not themselves receive any frames.It is useful to distinguish traffic orientation and traffic distribution when considering traffic patterns used in device testing. Unidirectional traffic, for example, is traffic orientated in a single direc

    7、tion between mutually exclusive sets of source and destination interfaces of a DUT/SUT. Such traffic, however, can be distributed between interfaces in different ways.When traffic is sent to two or more interfaces from an external source and then forwarded by the DUT/SUT to a single output interface

    8、 the traffic orientation is unidirectional and the traffic distribution between interfaces is many-to-one. Traffic can also be sent to a single input interface and forwarded by the DUT/SUT to two or more output interfaces to achieve a one-to-many distribution of traffic.Such traffic distributions ca

    9、n also be combined to test for head of line blocking or to measure forwarding rates and throughputwhen congestion control mechanisms are active. When a DUT/SUT is equipped with interfaces running at different media rates the number of input interfaces required to load or overload an output interface

    10、 or interfaces will vary. It should be noted that measurement of the minimum inter-frame gap serves to detect violations of the IEEE 802.3 standard.Issues:half duplex / full duplexMeasurement units:n/aSee Also:bidirectional traffic (3.2.2)non-meshed traffic (3.3.1)partially meshed traffic (3.3.2)ful

    11、ly meshed traffic (3.3.3)congestion control (3.7)北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 5 页 共 20 页head of line blocking (3.7.3)3.2.2 Bidirectional trafficDefinition:Frames presented to a DUT/SUT s

    12、uch that every receiving interface also transmits.Discussion:This definition conforms to the discussion in section 14 of RFC 1944.When a tester offers bidirectional traffic to a DUT/SUT all the interfaces which receive frames from the tester also transmit frames back to the tester.Bidirectional traf

    13、fic MUST be offered when measuring the throughput or forwarding rate of full duplex interfaces of a switching device.Issues:truncated binary exponential back-off algorithmMeasurement units:n/aSee Also:unidirectional traffic (3.2.1)non-meshed traffic (3.3.1)partially meshed traffic (3.3.2)fully meshe

    14、d traffic (3.3.3)3.3 Traffic distributionThis group of definitions applies to the distribution of frames forwarded by a DUT/SUT.3.3.1 Non-meshed trafficDefinition:Frames offered to a single input interface and addressed to a single output interface of a DUT/SUT where input and output interfaces are

    15、grouped in mutually exclusive pairs.Discussion:In the simplest instance of non-meshed traffic all frames are offered to a single input interface and addressed to a single output interface. The one-to-one mapping of input to output interfaces required by non-meshed traffic can be extended to multiple

    16、 mutually exclusive pairs of input and output interfaces.Measurement units:n/aIssues:half duplex / full duplex北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 6 页 共 20 页See Also:unidirectional traffic (3.2.

    17、1)bidirectional traffic (3.2.2)partially meshed traffic (3.3.2.)fully meshed traffic (3.3.3)burst (3.4.1)3.3.2 Partially meshed trafficDefinition:Frames offered to one or more input interfaces of a DUT/SUT and addressed to one or more output interfaces where input and output interfaces are mutually

    18、exclusive and mapped one-to-many, many- to-one or many-to-many.Discussion:This definition follows from the discussion in section 16 of RFC 1944 on multi-port testing. Partially meshed traffic allows for one-to-many, many-to-one or many-to-many mappings of input to output interfaces and readily exten

    19、ds to configurations with multiple switching devices linked together over backbone connections.It should be noted that partially meshed traffic can load backbone connections linking together two switching devices or systems more than fully meshed traffic. When offered partially meshed traffic device

    20、s or systems can be set up to forward all of the frames they receive to the opposite side of the backbone connection whereas fully meshed traffic requires at least some of the offered frames to be forwarded locally, that is to the interfaces of the DUT/SUT receiving them. Such frames will not traver

    21、se the backbone connection.Measurement units:n/aIssues:half duplex / full duplexSee Also:unidirectional traffic (3.2.1)bidirectional traffic (3.2.2)non-meshed traffic (3.3.1)fully meshed traffic (3.3.3)burst (3.4.1)3.3.3 Fully meshed trafficDefinition:Frames offered to a designated number of interfa

    22、ces of a DUT/SUT such that each one 北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 7 页 共 20 页of the interfaces under test receives frames addressed to all of the other interfaces under test.Discussion:As

    23、with bidirectional partially meshed traffic, fully meshed traffic requires each one the interfaces of a DUT/SUT to both receive and transmit frames. But since the interfaces are not divided into groups as with partially meshed traffic every interface forwards frames to and receives frames from every

    24、 other nterface. The total number of individual input/output interface pairs when traffic is fully meshed over n switched interfaces equals n x (n - 1). This compares with n x (n / 2) such interface pairs when traffic is partially meshed.Fully meshed traffic on half duplex interfaces is inherently b

    25、ursty since interfaces must interrupt transmission whenever they receive frames. This kind of bursty meshed traffic is characteristic of real network traffic and can be advantageously used to diagnose a DUT/SUT by exercising many of its component arts simultaneously. Additional inspection may be war

    26、ranted to correlate the frame forwarding capacity of a DUT/SUT when offered meshed traffic and the behavior of individual elements such as input or output buffers, buffer allocation mechanisms, aggregate switching capacity, processing speed or medium access control. The analysis of forwarding rate m

    27、easurements presents a challenge when offering bidirectional or fully meshed traffic since the rate at which the tester can be observed to transmit frames to the DUT/SUT may be smaller than the rate at which it intends to transmit due to collisions on half duplex media or the action of congestion co

    28、ntrol mechanisms. This makes it important to take account of both the intended and offered loads defined in sections 3.5.1.and 3.5.2 below when reporting the results of such forwarding rate measurements.When offering bursty meshed traffic to a DUT/SUT a number of variables have to be considered. The

    29、se include frame size, the number of frames within bursts, the interval between bursts as well as the distribution of load between incoming and outgoing traffic. Terms related to bursts are defined in section 3.4 below.Measurement units:n/aIssues:half duplex / full duplexSee Also:unidirectional traf

    30、fic (3.2.1)bidirectional traffic (3.2.2)non-meshed traffic (3.3.1)partially meshed traffic (3.3.2)burst (3.4.1)北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 8 页 共 20 页intended load (3.5.1)offered load (3

    31、.5.2)3.4 BurstsThis group of definitions applies to the intervals between frames or groups of frames offered to the DUT/SUT.3.4.1 BurstDefinition:A sequence of frames transmitted with the minimum legal inter-frame gap.Discussion:This definition follows from discussions in section 3.16 of RFC1242 and

    32、 section 21 of RFC 1944 which describes cases where it is useful to consider isolated frames as single frame bursts.Measurement units:n/aIssues:See Also:burst size (3.4.2)inter-burst gap (IBG) (3.4.3)3.4.2 Burst sizeDefinition:The number of frames in a burst.Discussion:Burst size can range from one

    33、to infinity. In unidirectional traffic as well as in bidirectional or meshed traffic on full duplex interfaces there is no theoretical limit to burst length. When traffic is bidirectional or meshed bursts on half duplex media are finite since interfaces interrupt transmission intermittently to recei

    34、ve frames.On real networks burst size will normally increase with window size.his makes it desirable to test devices with small as well as large burst sizes.Measurement units:number of N-octet framesIssues:See Also:burst (3.4.1)inter-burst gap (IBG) (3.4.3)北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Infor

    35、mation Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 9 页 共 20 页3.4.3 Inter-burst gap (IBG)Definition:The interval between two bursts.Discussion:This definition conforms to the discussion in section 20 of RFC1944 on bursty traffic.Bidirectional and meshe

    36、d traffic are inherently bursty since interfaces share their time between receiving and transmitting frames. External sources offering bursty traffic for a given frame size and burst size must adjust the inter-burst gap to achieve a specified average rate of frame transmission.Measurement units:nano

    37、secondsmicrosecondsmillisecondssecondsIssues:See Also:burst (3.4.1)burst size (3.4.2)3.5 LoadsThis group of definitions applies to the rates at which traffic is offered to any DUT/SUT.3.5.1 Intended load (Iload)Definition:The number of frames per second that an external source attempts to transmit t

    38、o a DUT/SUT for forwarding to a specified output interface or interfaces.Discussion:Collisions on CSMA/CD links or the action of congestion control mechanisms can effect the rate at which an external source of traffic transmits frames to a DUT/SUT. This makes it useful to distinguish the load that a

    39、n external source attempts to apply toa DUT/SUT and the load it is observed or measured to apply.In the case of Ethernet an external source of traffic MUST implement the truncated binary exponential back-off algorithm to ensure that it is accessing the medium legally.Measurement units:bits per secon

    40、dN-octets per second(N-octets per second / media_maximum-octets per second) x 100北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminology for LAN Switching Devices 第 10 页 共 20 页Issues:See Also:burst (3.4.1)inter-burst gap (3.4.3)offered load

    41、(3.5.2)3.5.2 Offered load (Oload)Definition:The number of frames per second that an external source can be observed or measured to transmit to a DUT/SUT for forwarding to a specified output interface or interfaces.Discussion:The load which an external device can be observed to apply to a DUT/SUT may

    42、 be less than the intended load due to collisions on half duplex media or the action of congestion control mechanisms.This makes it important to distinguish intended and offered load when analyzing the results of forwarding rate measurements using bidirectional or fully meshed traffic.Frames which a

    43、re not successfully transmitted by an external source of traffic to a DUT/SUT MUST NOT be counted as transmitted frames when measuring forwarding rates.The frame count on an interface of a DUT/SUT may exceed the rate at which an external device offers frames due to the presence of spanning tree BPDU

    44、s (Bridge Protocol Data Units) on 802.1D-compliant switches or SNMP frames. Such frames should be treated as modifiers as described in section 11 of RFC 1944.Offered load MUST be indicated when reporting the results of forwarding rate measurements.Measurement units:bits per secondN-octets per second

    45、(N-octets per second / media_maximum-octets per second) x 100Issues:token ringSee Also:bidirectional traffic (3.2.2)fully meshed traffic (3.3.3)intended load (3.5.1)forwarding rate (3.6.1)北京国信网安信息系统测评技术试验室Beijing GuoXinWangAn Information Technology Testing&Evaluation LaboratoryBenchmarking Terminolo

    46、gy for LAN Switching Devices 第 11 页 共 20 页3.5.3 Maximum offered load (MOL)Definition:The highest number of frames per second that an external source can transmit to a DUT/SUT for forwarding to a specified output interface or interfaces.Discussion:The maximum load that an external device can apply to

    47、 a DUT/SUT may not equal the maximum load allowed by the medium.This will be the case when an external source lacks the resources to transmit frames at the minimum legal inter-frame gap or whenit has sufficient resources to transmit frames below the minimum legal inter-frame gap. Moreover, maximum l

    48、oad may vary with respect to parameters other than a mediums maximum theoretical utilization. For example, on those media employing tokens, maximum load may vary as a function of Token Rotation Time, Token Holding Time, or the ability to chain multiple frames to a single token. The maximum load that

    49、 an external device applies to a DUT/SUT MUST be specified when measuring forwarding rates.Measurement units:bits per secondN-octets per second(N-octets per second / media_maximum-octets per second) x 100Issues:See Also:offered load (3.5.2)3.5.4 OverloadingDefinition:Attempting to load a DUT/SUT in excess of the maximum rate of transmission allowed by the medium.Discussion:Overloading can serve to exercise buffers and buffer allocation algorithms as well as congestion control mechanisms.

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