Predictive%20End-to-End%20Reservations%20via%20A%20Hierarchical%20Clearing%20House - PowerPoint PPT Presentation

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Predictive%20End-to-End%20Reservations%20via%20A%20Hierarchical%20Clearing%20House

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Predictive End-to-End Reservations via A Hierarchical Clearing House. Endeavour Retreat ... How to deliver end-to-end QoS for real-time applications over IP ... – PowerPoint PPT presentation

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Title: Predictive%20End-to-End%20Reservations%20via%20A%20Hierarchical%20Clearing%20House


1
Predictive End-to-End Reservations via A
Hierarchical Clearing House
  • Endeavour Retreat
  • June 19-21, 2000
  • Chen-Nee Chuah (Advisor Professor Randy H.
    Katz)
  • EECS Department, U. C. Berkeley

2
Problem Statement
H.323 Gateway
PSTN
Web surfing, emails,TCP connections
Internet
GSM
VoIP (e.g. Netmeeting)
Wireless Phones
Video conferencing,Distance learning
  • How to deliver end-to-end QoS for real-time
    applications over IP-networks?

3
Why Is It Hard?
SLA
H1
H3
ISP2
SLA
ISP 3
  • Lack of QoS assurance in current IP-networks
  • SLAs are not precise
  • Scalability issues
  • Limited understanding on control/policy framework
  • How to regulate resource provisioning across
    multiple domains?

4
Example Workload Real-Time Packet Audio
  • Application Specific Traffic Patterns
  • Wide range of audio intensive applications
  • Multicast lecture, video conferencing, etc.
  • Significantly different from 2-way conversations
  • Traffic characteristics too diverse, cannot be
    described by one model
  • Resource pre-partitioning doesnt work!

5
Proposed Solution Predictive Reservations
  • Online measurement of aggregate traffic
    statistics
  • Advance reservations based on local Gaussian
    predictor
  • RA m Q-1(ploss).s
  • Allow local admission control

H1
H2
Edge Router
LCH
Edge Router
6
Predictor Characteristics
  • 1-min predictor - 0.4 Loss - 7
    Over-Prov.
  • 10-min predictor - 0.7 Loss - 33
    Over-Prov.
  • More BW for BE traffic than
    pre-partitioning - avg. 286 Kbps - max 857.2
    Kbps

7
Reservations Across Multiple Domains via A
Clearing House Architecture
destination
source
Edge Router
ISP n
ISP2
ISP1
  • Introduce logical hierarchy
  • Distributed database
  • CH-nodes maintain reservation status, link
    utilization, network performance

8
Clearing House Approach
  • Delivers statistical QoS
  • Aggregate reservation requests
  • Coordinates aggregate reservations across
    multiple domains
  • Performs coarse-grained admission control in a
    hierarchical manner
  • Assumptions
  • Networks can support differentiated service
    levels
  • Traffic and network statistics are easily
    available
  • Independent monitoring system or ISPs
  • Control and data paths are separate

9
Advantages
  • Maintain scalability by aggregating requests
  • Core routers only maintain coarse-grained network
    state information
  • Provide statistical end-to end QoS
  • Advance reservations admission control
  • Reduce setup time
  • Advance reservations allow fast admission control
    decisions
  • Optimize resource utilization
  • Predictive reservations achieve loss rate lt 1
    without extensive over-provisioning

10
Future Work Simulation Study
  • vBNS backbone network topology (1999)
  • Traffic matrix weighted by population
  • Three-level Clearing House architecture- one top
    CH-node- one CH-node per city- local hierarchy
    of LCHs
  • Workload models two QoS classes
  • High priority packet audio
  • 25 traces (conference telephone calls), 0.5 -
    113 minutes
  • Best-effort data traffic
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