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IETF RFC 1242

Benchmarking terminology for network interconnection devices

Last modified on Tuesday, July 2nd, 1991

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Network Working Group                                 S. Bradner, Editor
Request for Comments: 1242                            Harvard University
                                                               July 1991


      Benchmarking Terminology for Network Interconnection Devices

 Status of this Memo

   This memo provides information for the Internet community.  It does
   not specify an Internet standard.  Distribution of this memo is
   unlimited.

 Abstract

   This memo discusses and defines a number of terms that are used in
   describing performance benchmarking tests and the results of such
   tests.  The terms defined in this memo will be used in additional
   memos to define specific benchmarking tests and the suggested format
   to be used in reporting the results of each of the tests.  This memo
   is a product of the Benchmarking Methodology Working Group (BMWG) of
   the Internet Engineering Task Force (IETF).

1.  Introduction

   Vendors often engage in "specsmanship" in an attempt to give their
   products a better position in the marketplace.  This usually involves
   much "smoke & mirrors" used to confuse the user.  This memo and
   follow-up memos attempt to define a specific set of terminology and
   tests that vendors can use to measure and report the performance
   characteristics of network devices.  This will provide the user
   comparable data from different vendors with which to evaluate these
   devices.

2.  Definition format

        Term to be defined. (e.g., Latency)

        Definition:
                The specific definition for the term.

        Discussion:
                A brief discussion about the term, it's application
                and any restrictions on measurement procedures.

        Measurement units:
                The units used to report measurements of this
                term, if applicable.



Benchmarking Methodology Working Group                       PAGE 1 top


RFC 1242 Benchmarking Terminology July 1991 Issues: List of issues or conditions that effect this term. See Also: List of other terms that are relevant to the discussion of this term. 3. Term definitions 3.1 Back-to-back Definition: Fixed length frames presented at a rate such that there is the minimum legal separation for a given medium between frames over a short to medium period of time, starting from an idle state. Discussion: A growing number of devices on a network can produce bursts of back-to-back frames. Remote disk servers using protocols like NFS, remote disk backup systems like rdump, and remote tape access systems can be configured such that a single request can result in a block of data being returned of as much as 64K octets. Over networks like ethernet with a relatively small MTU this results in many fragments to be transmitted. Since fragment reassembly will only be attempted if all fragments have been received, the loss of even one fragment because of the failure of some intermediate network device to process enough continuous frames can cause an endless loop as the sender repetitively attempts to send its large data block. With the increasing size of the Internet, routing updates can span many frames, with modern routers able to transmit very quickly. Missing frames of routing information can produce false indications of unreachability. Tests of this parameter are intended to determine the extent of data buffering in the device. Measurement units: Number of N-octet frames in burst. Issues: See Also: Benchmarking Methodology Working Group PAGE 2 top

RFC 1242 Benchmarking Terminology July 1991 3.2 Bridge Definition: A system which forwards data frames based on information in the data link layer. Discussion: Measurement units: n/a Issues: See Also: bridge/router (3.3) router (3.15) 3.3 bridge/router Definition: A bridge/router is a network device that can selectively function as a router and/or a bridge based on the protocol of a specific frame. Discussion: Measurement units: n/a Issues: See Also: bridge (3.2) router (3.15) 3.4 Constant Load Definition: Fixed length frames at a fixed interval time. Discussion: Although it is rare, to say the least, to encounter a steady state load on a network device in the real world, measurement of steady state performance may be useful in evaluating competing devices. The frame size is specified and constant. All device parameters are constant. When there is a checksum in the frame, it must be verified. Benchmarking Methodology Working Group PAGE 3 top

RFC 1242 Benchmarking Terminology July 1991 Measurement units: n/a Issues: unidirectional vs. bidirectional See Also: 3.5 Data link frame size Definition: The number of octets in the frame from the first octet following the preamble to the end of the FCS, if present, or to the last octet of the data if there is no FCS. Discussion: There is much confusion in reporting the frame sizes used in testing network devices or network measurement. Some authors include the checksum, some do not. This is a specific definition for use in this and subsequent memos. Measurement units: octets Issues: See Also: 3.6 Frame Loss Rate Definition: Percentage of frames that should have been forwarded by a network device under steady state (constant) load that were not forwarded due to lack of resources. Discussion: This measurement can be used in reporting the performance of a network device in an overloaded state. This can be a useful indication of how a device would perform under pathological network conditions such as broadcast storms. Measurement units: Percentage of N-octet offered frames that are dropped. To be reported as a graph of offered load vs frame loss. Benchmarking Methodology Working Group PAGE 4 top

RFC 1242 Benchmarking Terminology July 1991 Issues: See Also: overhead behavior (3.11) policy based filtering (3.13) MTU mismatch behavior (3.10) 3.7 Inter Frame Gap Definition: The delay from the end of a data link frame as defined in section 3.5, to the start of the preamble of the next data link frame. Discussion: There is much confusion in reporting the between frame time used in testing network devices. This is a specific definition for use in this and subsequent memos. Measurement units: Time with fine enough units to distinguish between 2 events. Issues: Link data rate. See Also: 3.8 Latency Definition: For store and forward devices: The time interval starting when the last bit of the input frame reaches the input port and ending when the first bit of the output frame is seen on the output port. For bit forwarding devices: The time interval starting when the end of the first bit of the input frame reaches the input port and ending when the start of the first bit of the output frame is seen on the output port. Discussion: Variability of latency can be a problem. Some protocols are timing dependent (e.g., LAT and IPX). Future applications are likely to be sensitive to Benchmarking Methodology Working Group PAGE 5 top

RFC 1242 Benchmarking Terminology July 1991 network latency. Increased device delay can reduce the useful diameter of net. It is desired to eliminate the effect of the data rate on the latency measurement. This measurement should only reflect the actual within device latency. Measurements should be taken for a spectrum of frame sizes without changing the device setup. Ideally, the measurements for all devices would be from the first actual bit of the frame after the preamble. Theoretically a vendor could design a device that normally would be considered a store and forward device, a bridge for example, that begins transmitting a frame before it is fully received. This type of device is known as a "cut through" device. The assumption is that the device would somehow invalidate the partially transmitted frame if in receiving the remainder of the input frame, something came up that the frame or this specific forwarding of it was in error. For example, a bad checksum. In this case, the device would still be considered a store and forward device and the latency would still be from last bit in to first bit out, even though the value would be negative. The intent is to treat the device as a unit without regard to the internal structure. Measurement units: Time with fine enough units to distinguish between 2 events. Issues: See Also: link speed mismatch (3.9) constant load (3.4) back-to-back (3.1) policy based filtering (3.13) single frame behavior (3.16) 3.9 Link Speed Mismatch Definition: Speed mismatch between input and output data rates. Discussion: This does not refer to frame rate per se, it refers to the actual data rate of the data path. For example, Benchmarking Methodology Working Group PAGE 6 top

RFC 1242 Benchmarking Terminology July 1991 an Ethernet on one side and a 56KB serial link on the other. This is has also been referred to as the "fire hose effect". Networks that make use of serial links between local high speed networks will usually have link speed mismatch at each end of the serial links. Measurement units: Ratio of input and output data rates. Issues: See Also: constant load (3.4) back-to-back (3.1) 3.10 MTU-mismatch behavior Definition: The network MTU (Maximum Transmission Unit) of the output network is smaller than the MTU of the input network, this results in fragmentation. Discussion: The performance of network devices can be significantly affected by having to fragment frames. Measurement units: Description of behavior. Issues: See Also: 3.11 Overhead behavior Definition: Processing done other than that for normal data frames. Discussion: Network devices perform many functions in addition to forwarding frames. These tasks range from internal hardware testing to the processing of routing information and responding to network management requests. It is useful to know what the effect of these sorts of tasks is on the device performance. An example would be if a router were to suspend forwarding or accepting frames during the processing of large routing update for a complex protocol like Benchmarking Methodology Working Group PAGE 7 top

RFC 1242 Benchmarking Terminology July 1991 OSPF. It would be good to know of this sort of behavior. Measurement units: Any quantitative understanding of this behavior is by the determination of its effect on other measurements. Issues: bridging and routing protocols control processing icmp ip options processing fragmentation error processing event logging/statistics collection arp See Also: policy based filtering (3.13) 3.12 Overloaded behavior Definition: When demand exceeds available system resources. Discussion: Devices in an overloaded state will lose frames. The device might lose frames that contain routing or configuration information. An overloaded state is assumed when there is any frame loss. Measurement units: Description of behavior of device in any overloaded states for both input and output overload conditions. Issues: How well does the device recover from overloaded state? How does source quench production effect device? What does device do when its resources are exhausted? What is response to system management in overloaded state? See Also: 3.13 Policy based filtering Definition: Filtering is the process of discarding received Benchmarking Methodology Working Group PAGE 8 top

RFC 1242 Benchmarking Terminology July 1991 frames by administrative decision where normal operation would be to forward them. Discussion: Many network devices have the ability to be configured to discard frames based on a number of criteria. These criteria can range from simple source or destination addresses to examining specific fields in the data frame itself. Configuring many network devices to perform filtering operations impacts the throughput of the device. Measurement units: n/a Issues: flexibility of filter options number of filter conditions See Also: 3.14 Restart behavior Definition: Reinitialization of system causing data loss. Discussion: During a period of time after a power up or reset, network devices do not accept and forward frames. The duration of this period of unavailability can be useful in evaluating devices. In addition, some network devices require some form of reset when specific setup variables are modified. If the reset period were long it might discourage network managers from modifying these variables on production networks. Measurement units: Description of device behavior under various restart conditions. Issues: Types: power on reload software image flush port, reset buffers restart current code image, without reconfuration Benchmarking Methodology Working Group PAGE 9 top

RFC 1242 Benchmarking Terminology July 1991 Under what conditions is a restart required? Does the device know when restart needed (i.e., hung state timeout)? Does the device recognize condition of too frequent auto-restart? Does the device run diagnostics on all or some resets? How may restart be initiated? physical intervention remote via terminal line or login over network See Also: 3.15 Router Definition: A system which forwards data frames based on information in the network layer. Discussion: This implies "running" the network level protocol routing algorithm and performing whatever actions that the protocol requires. For example, decrementing the TTL field in the TCP/IP header. Measurement units: n/a Issues: See Also: bridge (3.2) bridge/router (3.3) 3.16 Single frame behavior Definition: One frame received on the input to a device. Discussion: A data "stream" consisting of a single frame can require a network device to do a lot of processing. Figuring routes, performing ARPs, checking permissions etc., in general, setting up cache entries. Devices will often take much more time to process a single frame presented in isolation than it would if the same frame were part of a steady stream. There is a worry that some devices would even discard a single frame as part of the cache setup procedure under the Benchmarking Methodology Working Group PAGE 10 top

RFC 1242 Benchmarking Terminology July 1991 assumption that the frame is only the first of many. Measurement units: Description of the behavior of the device. Issues: See Also: policy based filtering (3.13) 3.17 Throughput Definition: The maximum rate at which none of the offered frames are dropped by the device. Discussion: The throughput figure allows vendors to report a single value which has proven to have use in the marketplace. Since even the loss of one frame in a data stream can cause significant delays while waiting for the higher level protocols to time out, it is useful to know the actual maximum data rate that the device can support. Measurements should be taken over a assortment of frame sizes. Separate measurements for routed and bridged data in those devices that can support both. If there is a checksum in the received frame, full checksum processing must be done. Measurement units: N-octet input frames per second input bits per second Issues: single path vs. aggregate load unidirectional vs bidirectional checksum processing required on some protocols See Also: frame loss rate (3.6) constant load (3.4) back-to-back (3.1) Benchmarking Methodology Working Group PAGE 11 top

RFC 1242 Benchmarking Terminology July 1991 4. Acknowledgements This memo is a product of the IETF BMWG working group: Chet Birger, Coral Networks Scott Bradner, Harvard University (chair) Steve Butterfield, independant consultant Frank Chui, TRW Phill Gross, CNRI Stev Knowles, FTP Software, Inc. Mat Lew, TRW Gary Malkin, FTP Software, Inc. K.K. Ramakrishnan, Digital Equipment Corp. Mick Scully, Ungerman Bass William M. Seifert, Wellfleet Communications Corp. John Shriver, Proteon, Inc. Dick Sterry, Microcom Geof Stone, Network Systems Corp. Geoff Thompson, SynOptics Mary Youssef, IBM Security Considerations Security issues are not discussed in this memo. Author's Address Scott Bradner Harvard University William James Hall 1232 33 Kirkland Street Cambridge, MA 02138 Phone: (617) 495-3864 EMail: SOB@HARVARD.HARVARD.EDU Or, send comments to: bmwg@harvisr.harvard.edu. Benchmarking Methodology Working Group PAGE 12 top

Benchmarking terminology for network interconnection devices RFC TOTAL SIZE: 22143 bytes PUBLICATION DATE: Tuesday, July 2nd, 1991 LEGAL RIGHTS: The IETF Trust (see BCP 78)


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