Congestion Control Algorithms - PowerPoint PPT Presentation

1 / 10
About This Presentation
Title:

Congestion Control Algorithms

Description:

Congestion Control Algorithms General Principles of Congestion Control Congestion Prevention Policies Congestion Control in Virtual-Circuit Subnets – PowerPoint PPT presentation

Number of Views:134
Avg rating:3.0/5.0
Slides: 11
Provided by: Robo188
Category:

less

Transcript and Presenter's Notes

Title: Congestion Control Algorithms


1
Congestion Control Algorithms
  • General Principles of Congestion Control
  • Congestion Prevention Policies
  • Congestion Control in Virtual-Circuit Subnets
  • Congestion Control in Datagram Subnets
  • Load Shedding
  • Jitter Control

2
Congestion
  • When too much traffic is offered, congestion sets
    in and performance degrades sharply.
  • Factors
  • Insufficient memory
  • Slow processors
  • Low bandwidth.
  • Congestion Control vs Flow Control
  • Congestion control has to do with making sure the
    subnet is able to carry the offered traffic.
  • Flow control relates to the point-to-point
    traffic between a given sender and a given
    receiver.

3
General Principles of Congestion Control
  • Open loop solution
  • Attempt to solve the problem by good design. It
    makes decisions without regard to the current
    state of network.
  • Closed loop solution based on the concept of a
    feedback loop.
  • Monitor the system .
  • detect when and where congestion occurs.
  • Pass information to where action can be taken.
  • Adjust system operation to correct the problem.

4
Congestion Control in Virtual-Circuit Subnets
  • Admission control technique once congestion has
    been signalled, no more virtual circuits are
    setup until the problem has gone away.
  • Allow new virtual circuits but carefully route
    all new virtual circuits around problem areas.
  • Negotiating an agreement between the host and
    subnet when a virtual circuit is set up. The
    agreement specifies the volume the shape of the
    traffic, Qos etc. To keep part of the agreement,
    the subnet, the subnet will typically reserve
    resources along the path when the circuit is set
    up.

5
Congestion Prevention Policies
  • Policies that affect congestion.

6
Congestion Control in Virtual-Circuit Subnets
  • (a) A congested subnet. (b) A redrawn subnet,
    eliminates congestion and a virtual circuit from
    A to B.

7
Congestion control in Datagram Subnets
  • Theory
  • Each line has a real variable, u, whose value
    between 0.0 and 1.0 reflects the recent
    utilization of that time.
  • To maintain a good estimate of u, a sample of the
    instantaneous line utilization, f (0, or 1), can
    be made periodically and u updated according to
  • u2au1(1-a)f
  • When u moves above the threshold the output line
    enters a warning state

8
Congestion control in Datagram Subnets
  • The Warning Bit
  • The warning state is set as a special bit in the
    packets header.
  • As long as the router was in the warning state,
    it continued to set the warning bit, which meant
    that the source continued to get acknowledgements
    with it set.
  • As long as the warning bits continued to flow in,
    the source continued to decrease its transmission
    rate.
  • Choke Packets
  • In the warning state, the router sends a choke
    packet back to the source host.
  • When the source host gets the choke packet. It
    reduce the traffic by x. It ignore choke packets
    referring to the destination for a fixed time
    interval, and check again if there is still the
    choke packets sent back.

9
Hop-by-Hop Choke Packets
  • A choke packet that affects only the source.
  • A choke packet that affects each hop it passes
    through. More buffer request for router F at this
    moment.
  • The net effect of this hop-by hop scheme is to
    provide quick relief at the point of congestion
    at the price of using up more buffers upstream.

10
Jitter Control
  • High jitter. (b) Low jitter.
  • The variation (i.e., standard deviation) in the
    packet arrival times is called jitter.
  • What a packet arrives at a router, the router
    checks to see how much the packet is behind or
    ahead of its schedule. If it is behind schedule,
    the router tries to get it out the door quickly
    and if it is ahead of schedule, it is held just
    long enough to get it back on schedule.
Write a Comment
User Comments (0)
About PowerShow.com