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Bandwidth management

From Wikipedia, the free encyclopedia

Bandwidth management is the process of measuring and controlling the communications (traffic, packets) on a network link, to avoid filling the link to capacity or overfilling the link,[1] which would result in network congestion and poor performance of the network. Bandwidth is described by bit rate and measured in units of bits per second (bit/s) or bytes per second (B/s).[2]

Bandwidth management mechanisms and techniques

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Bandwidth management mechanisms may be used to further engineer performance and includes:

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Issues which may limit the performance of a given link include:

  • TCP determines the capacity of a connection by flooding it until packets start being dropped (slow start)
  • Queueing in routers results in higher latency and jitter as the network approaches (and occasionally exceeds) capacity
  • TCP global synchronization when the network reaches capacity results in waste of bandwidth
  • Burstiness of web traffic requires spare bandwidth to rapidly accommodate the bursty traffic
  • Lack of widespread support for explicit congestion notification and quality of service management on the Internet
  • Internet Service Providers typically retain control over queue management and quality of service at their end of the link
  • Window Shaping allows higher end products to reduce traffic flows, which reduce queue depth and allow more users to share more bandwidth fairly

Tools and techniques

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See also

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References

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  1. ^ a b https://www.internetsociety.org/wp-content/uploads/2017/08/BWroundtable_report-1.0.pdf Internet Society on Bandwidth Management
  2. ^ "Bits Per Second". www.edrm.net. Retrieved 2020-07-23.
  3. ^ IETF RFC 2475 "An Architecture for Differentiated Services" section 2.3.3.3 - Internet standard definition of "Shaper"
  4. ^ AppNeta. "Rate Limiting Detection: Bandwidth and Latency". Appneta. Retrieved 2020-07-23.
  5. ^ "TCP Rate Control" (PDF).
  6. ^ Handley, Mark; Padhye, Jitendra; Floyd, Sally; Widmer, Joerg (2008). "TCP Friendly Rate Control (TFRC): Protocol Specification". tools.ietf.org. doi:10.17487/RFC5348. Retrieved 2020-07-23.
  7. ^ Stiliadis, D.; Varma, A. (1998). "Latency-rate servers: A general model for analysis of traffic scheduling algorithms" (PDF). IEEE/ACM Transactions on Networking. 6 (5): 611. doi:10.1109/90.731196. S2CID 206475858. Archived from the original (PDF) on 2016-03-04. Retrieved 2020-07-23.
  8. ^ "Traffic Shaping and Policing (Congestion Avoidance, Policing, Shaping, and Link Efficiency Mechanisms)". what-when-how.com. Retrieved 2023-12-27.
  9. ^ "Buffer Tuning" (PDF).
  10. ^ Sonia Fahmy; Raj Jain (2000). "Resource ReSerVation Protocol (RSVP)" (PDF). In Rafael Osso (ed.). Handbook of Emerging Communications Technologies: The Next Decade. CRC Press. S2CID 18245741 – via Washington University in St. Louis.
  11. ^ "Sniffers Basics and Detection" (PDF).
  • "Deploying IP and MPLS QoS for Multiservice Networks: Theory and Practice" by John Evans, Clarence Filsfils (Morgan Kaufmann, 2007, ISBN 0-12-370549-5)
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