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author | Glenn Elliott <gelliott@cs.unc.edu> | 2012-08-20 17:28:55 -0400 |
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committer | Glenn Elliott <gelliott@cs.unc.edu> | 2012-08-27 15:07:17 -0400 |
commit | 077aaecac31331b65442275843932314049a2ceb (patch) | |
tree | 6b24a59521a0f5e3853b7667669b54211b03b272 /fs/autofs4 | |
parent | 9a19f35c9c287cb8abd5bcf276ae8d1a3e876907 (diff) |
EDF priority tie-breaks.wip-robust-tie-break
Instead of tie-breaking by PID (which is a static
priority tie-break), we can tie-break by other
job-level-unique parameters. This is desirable
because tasks are equaly affected by tardiness
since static priority tie-breaks cause tasks
with greater PID values to experience the most
tardiness.
There are four tie-break methods:
1) Lateness. If two jobs, J_{1,i} and J_{2,j} of
tasks T_1 and T_2, respectively, have equal
deadlines, we favor the job of the task that
had the worst lateness for jobs J_{1,i-1} and
J_{2,j-1}.
Note: Unlike tardiness, lateness may be less than
zero. This occurs when a job finishes before its
deadline.
2) Normalized Lateness. The same as #1, except
lateness is first normalized by each task's
relative deadline. This prevents tasks with short
relative deadlines and small execution requirements
from always losing tie-breaks.
3) Hash. The job tuple (PID, Job#) is used to
generate a hash. Hash values are then compared.
A job has ~50% chance of winning a tie-break
with respect to another job.
Note: Emperical testing shows that some jobs
can have +/- ~1.5% advantage in tie-breaks.
Linux's built-in hash function is not totally
a uniform hash.
4) PIDs. PID-based tie-break used in prior
versions of Litmus.
Conflicts:
litmus/edf_common.c
Diffstat (limited to 'fs/autofs4')
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