Bandwidth Estimation Workshop 2003 Evaluating pathrate and pathload with realistic cross-traffic Ravi Prasad Manish Jain Constantinos Dovrolis (ravi, jain,

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Presentation transcript:

Bandwidth Estimation Workshop 2003 Evaluating pathrate and pathload with realistic cross-traffic Ravi Prasad Manish Jain Constantinos Dovrolis (ravi, jain, College of Computing Georgia Institute of Technology

Bandwidth Estimation Workshop 2003 Background  Pathrate  Estimates path capacity  Based on packet pair/train dispersion  Packet pair estimates: Set of possible capacity modes  Packet train estimates: ADR=Lower bound on capacity  Capacity = (Strongest and narrowest mode > ADR)  Pathload  Estimates path available bandwidth (avail-bw)  Based on one-way delay trend of periodic streams  Reports a range of avail-bw  Corresponds to variation, measured in stream duration 

Bandwidth Estimation Workshop 2003 Motivation  Recent studies pointed towards poor accuracy of these tools  3/bwest0308/doereview.pdf 3/bwest0308/doereview.pdf  A measurement study of available bandwidth estimation tools. Strauss et. al. IMC 2003  Our objective: re-evaluate accuracy of both tools  Wide range of cross-traffic load  Realistic cross-traffic  Completely monitored testbed (no guessing!)

Bandwidth Estimation Workshop 2003 Outline  Describe test methodology  Testbed  Cross-traffic type  Show accuracy results  100Mbps path  1Gbps path  With Iperf cross-traffic  Explaining inaccuracies with Iperf cross- traffic  Conclusions

Bandwidth Estimation Workshop 2003 Testing methodology  Used local testbed  Complete knowledge of path properties  Capacity  Available bandwidth  Complete control of cross-traffic  Rate  Type (TCP vs UDP vs trace-driven)

Bandwidth Estimation Workshop 2003 Testbed  Narrow link capacity C = 100Mbps or 1Gbps

Bandwidth Estimation Workshop 2003 Cross traffic  Trace-driven cross-traffic generation:  NLANR traces  OC-3, OC-12, OC-48  Trace information at the end of the talk  Packet size distribution  Unmodified  Packet interarrivals  Either, scaled to achieve desired cross-traffic throughput  Or, unmodified  Iperf-based cross-traffic  Single TCP stream  UDP stream

Bandwidth Estimation Workshop 2003 Results

Bandwidth Estimation Workshop 2003 FastEthernet: Traces with scaled interarrivals

Bandwidth Estimation Workshop 2003 FastEthernet: Traces with unmodified interarrivals

Bandwidth Estimation Workshop 2003 Gigabit path: Traces with scaled interarrivals

Bandwidth Estimation Workshop 2003 Unrealistic cross-traffic  Single stream TCP  Entire window appears as burst at beginning of RTT  Minimum averaging interval: RTT TRTR TWTW  UDP periodic stream  Packet size: L  Rate: R  Dispersion: L/R  Utilization  = R/C L/C L/R

Bandwidth Estimation Workshop 2003 Gigabit Path: Iperf Periodic UDP

Bandwidth Estimation Workshop 2003 L/C L/R TRTR TWTW TOTO  Seeks some “off” time periods of duration larger than L/C  L: Probe size Pathrate under unrealistic traffic  UDP periodic traffic  If   L/C  Else, underestimation  TCP traffic  Off period T O =T R - T W - L/C  Correct capacity estimate when T O > L/C

Bandwidth Estimation Workshop 2003 Gigabit path: Iperf single stream TCP

Bandwidth Estimation Workshop 2003 L/C L/R TRTR TWTW Pathload under unrealistic traffic  Samples avail-bw in stream duration (T S )  UDP periodic traffic  Avail-bw averaging period L/R  T S = 100 x L/C > L/R  Correct avail-bw range estimate TSTS TSTS TSTS TSTS  TCP traffic  Avail-bw averaging period T R  T S << T R results in wide Avail-bw range estimate

Bandwidth Estimation Workshop 2003 Conclusions  Type of cross-traffic is important for bandwidth estimation tools  Pathrate and pathload perform well with realistic cross-traffic  Simulated traffic does not capture:  Packet size distribution  Interarrival distribution  Correlation structure

Bandwidth Estimation Workshop 2003 Trace identifiers  OC3 : MEM , COS , BWY , COS  OC12: MRA  OC48: IPLS-CLEV  We greatly appreciate the availability of traces from NLANR PMA project. The NLANR PMA project is supported by National Science Foundation Cooperative agreement nos. ANI (2002) and ANI (1998).