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Quantifying Fairness in Queueing Systems: Principles

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Title: Quantifying Fairness in Queueing Systems: Principles


1
Quantifying Fairness in Queueing Systems
Principles Applications Approaches
Hanoch Levy School of Computer Science, Tel Aviv
University
Jointly with Benjamin Avi-Itzhak, RUTGERS
University David Raz, Tel-Aviv University
HETNETs July, 2004
2
Why Fairness in Queues?
Why Queues?
Not Fair!!!
To provide FAIRNESS in waiting/service
Queue A Fairness Management Facility
3
Why Fairness in Queues? (2)
  • Fairness inherent/crucial part of queues
  • Recent studies, Rafaeli et. al. 2003
    (experimental psychology)
  • Experiments on humans in queue scenarios
  • Fairness in queue is very important to people
  • Perhaps even more than delay itself!

The issue
4
Outline
  • Queue Model
  • Job-Based systems, Flow-Based systems
    applications
  • The performance issue Delay vs. Service
  • The granularity level How fine
  • The physical entities seniority, service
    requirement, resources
  • The Fairness Measures Overview properties
  • Application perspective

5
Queue Model (single server)
6
Job-Based vs. Flow-BasedApplications
  • JOB BASED
  • Customer Job
  • Applications
  • Networking Application level equipment Web
    server, file server
  • Supermarket, Bank, public office alike
  • Call center
  • Computer system
  • FLOW BASED
  • Customer Flow
  • Applications
  • Networkingnetwork level equipment
  • Routers, gateways, load-balancers

7
History Queueing Theory and Fairness
  • Queueing theory Decades of research
  • Delay of individual
  • Practical Applications many diverse
  • Fairness in queues
  • Many importance statements
  • Importance of fairness Larson (1988), Palm
    (1953), Mann (1969), Whitt (1984), Rothkopf
    Rech (1987)
  • Very little analysis (job fairness)
  • Morris Wang (85).
  • Avi-Itzhak Levy (96)
  • Bender, Chakrabarti . Muthukrishnan (1998),
    Wierman Harchol-Balter (2003), Harchol-Balter
    et. al. (2003)
  • Raz, Levy, Avi-Itzhak (2004)

Exception Flow Fairness
  • ? We know only little about queue (job) fairness!
  • ? More complex than measuring individual delay!

8
Designing a Metrics - Keep in mind
  • To be used by
  • Researchers
  • Designers / operators
  • Customers (appeal to)
  • Applications

9
The performance issues Delay vs. Service
  • Delay
  • Job delay (waiting time, sojourn time)
  • Traditional queueing-theory measure
  • The major factor when service is guaranteed
  • Job (service) Completion
  • Have the job done
  • Less popular in queueing theory
  • Applies when service is not guaranteed
  • Ticket line for scarce tickets

10
Granularity of Fairness Evaluation
  • At what granularity level, should fairness be
    evaluated
  • Individual
  • Scenario
  • System (steady state)
  • All are important
  • Individual, scenario build confidence (scale of
    reference) in metrics
  • System to evaluate systems/policies
  • Note All exist for individual waiting times

11
Dealing with StochasticsActual measures vs.
Expected values
  • Actual measure
  • Fairness evaluated for every scenario
  • Expectation used to summarize scenarios
  • Expected values
  • Expected performance per customer class evaluated
  • Classes compared to each other gt fairness

12
The Physical Factors
13
Size and Seniority preference principles
(requirements)
  • Seniority
  • Size

14
Size and Seniority preference principles
(requirements)
  • Seniority principle
  • Weak All jobs same service times ? if ailt aj
    then more fair to complete service of Ji before
    Jj
  • Strong Ji and Jj same service times
  • Service-requirement principle
  • Weak All jobs same arrival times ? if silt sj
    then more fair to complete service of Ji before
    Jj
  • Strong Ji and Jj same arrival times

15
How Scheduling policies meet the principles (are
fair by principle)
16
The Size vs. Seniority Dilemma
  • Mr. Short vs. Mrs. Long
  • Is it more fair to serve Short ahead of Long? By
    how much?

17
Review of Measures (jobs based)
  • Seniority based

18
Measure 1 Order (seniority) Fairness
  • Avi-Itzhak Levy (96)
  • Axioms (for G/D/1) what happens to unfairness
    measure when interchanging customers
  • P1 Monotonicity in seniority difference of
    interchanged neighbors
  • P2 Reversibility of neighbor interchange
  • P3 Independence on position and time
  • P4 Fairness change is not affected by customers
    not interchanged
  • P4G interchange of non-neighbors

19
Order Fairness results
  • ai - Arrival time of customer i
  • Di - Waiting displacement of customer i
  • C gt 0, arbitrary constant
  • Expected fairness per customer
  • FCFS most fair (LCFS least)
  • Thm Let (W, W) be the steady state waiting
    time under (policy, FIFO), then

20
Order Fairness Properties Applicability
  • Good for
  • S. times identical
  • S. times dont matter
  • Issue is Job completion
  • Applications
  • Scarce-ticket lines
  • Some call-centers
  • FCFS is most fair (LCFS least)
  • Intuition concepts
  • Peoples strong belief in order fairness

21
Measure 2 service-time Fairness
  • Bender, Chakrabarti . Muthukrishnan (1998),
    Harchol-Balter et. al. (2003)
  • Wierman Harchol-Balter (2003)
  • Propose a Fairness Criterion
  • Emphasis on service requirement
  • Slowdown for job of size x compute ET(x)/x
  • If the slowdown is lower then 1/(1-?) for all x
    and ? - FAIR
  • Classification of a large variety of policies

22
Service-time Fairness Results
  • Classification (not measure) of a large variety
    of policies
  • Conclusion
  • FCFS is Always UNFAIR
  • LCFS (preemptive) is FAIR

23
S. time Fairness Properties Applicability
  • Good for
  • A. times identical
  • A. times not known / dont see the queue
  • Your size is always the same
  • Issue is wash seniority by averaging.
  • Advantage relatively simple analysis
  • Applications Computer systems (?)

24
Measure 3 Resource Allocation Fairness
  • Raz, Levy, Avi-Itzhak (04)
  • Aim at the dilemma between size and seniority
  • Focus on fair share of resources
  • Ideal At t, each customer deserves 1/N(t) of
    system resources (N(t) customers(t))
  • Compare warranted service with granted service

25
Resource allocation Fairness Results
  • PS most fair
  • Reacts to both s.time and seniority
  • S.times identical Fairness monotone in seniority
  • A. times identical Fairness monotone in s.times
  • FCFS gt LCFS (seniority dominant)
  • FCFS lt LCFS (s. time dominant)

26
Resource Allocation Fairness Applicability
  • Good for
  • S. times and A. times arbitrary
  • Issue is Waiting times
  • Applications
  • Waiting lines where resources guaranteed
  • Call centers (non-scarce resources)
  • Web services
  • Supermarkets
  • Airport services

27
Job-Based vs. Flow-BasedApplications
  • JOB BASED
  • Customer Job
  • Applications
  • Networking Application level equipment Web
    server, file server
  • Supermarket, Bank, public office alike
  • Call center
  • Computer system
  • FLOW BASED
  • Customer Flow
  • Applications
  • Networkingnetwork level equipment
  • Routers, gateways, load-balancers

28
A word on flow-based measures
  • Deal with flows (of packets)
  • Interested mainly in throughput
  • Literature
  • Fair bandwidth allocation (network)
  • MinMax fairness (Jaffe (81))
  • Proportional Fairness (Kelly (97))
  • Fair Scheduling
  • Weighted Fair Queueing (WFQ)
  • Demers, Keshav and Shenker (1990), Greenberg and
    Madras (1992), Parekh (1992), Parekh and Gallager
    (1993), (1994), Golestani (1994), Rexford,
    Greenberg and Bonomi (1996), Bennet and Zhang
    (1996), others.

29
Measure 4 PS proximity WFQ/RFB literature
  • Scheduling fairness measures
  • Worst Case deviation from PS (extreme values)
  • Relative Fairness Bound (Golestani (94))

30
Measure 4 PS proximity WFQ/RFB literature
  • Absolute Fairness Bound (AFB) (Greenberg and
    Madras (1992) and Keshav (1997))
  • Maximum (time) discrepancy between schedule and
    PS
  • Applying to jobs
  • Try PS completion discrepancy of job
  • LCFS FCFS infinity!
  • Most non-PS based (non-WFQ) infinity! (SJF, LJF,
    SRPT..)
  • Good for very precise PS imitations

31
What fits? Go by the application
32
Concluding remarks
  • Fairness in Queues is important
  • Measures must
  • Fit applications
  • Agree with ones intuition / be consistent
  • Researcher, designer, customer
  • Yield to analysis
  • Research of subject in its infancy
  • Much more to study
  • Scheduling policies
  • Weights
  • Multiple queues /servers
  • Complex structures
  • Relations between measures
  • Other measures

33
Closing Words Why Study Fairness in Queues (5
reasons)
  • The Fundamental (Q fairness)
  • Isnt fairness why we have queues (for human
    services) in the first place?
  • The Scientific evidence (Rafaeli et. al. 2003)
  • Fairness in queues important to people / perhaps
    gt delay
  • The Inductive reasoning
  • WFQ 10s of papers fairness on O(1)
    microsecond jobs!!
  • The Challenge
  • We know very little on Queue fairness
  • The problem is harder than Q delay!
  • The Practical Relax your nerves
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