{section: New ClassAd Conversion TimeLine}
-1: A benchmark that instantiates N classads, adds A attributes into it, and then deletes them. Compare execution time and size b/w new and old classads. _Nick_ *DONE*
+{subsection: Benchmarks}
+1: A benchmark that instantiates N classads, adds A attributes into it, and then deletes them. Compare execution time and size b/w new and old classads.
+*:: _Nick_ *DONE*
-2: A benchmark that instantiates N classads, then does a constraint evaluation on all of them. Compare execution time and size b/w new and old classads. _Nick_ *DONE*
+2: A benchmark that instantiates N classads, then does a constraint evaluation on all of them. Compare execution time and size b/w new and old classads.
+*:: _Nick_ *DONE*
-3: Grab the output of condor_status -l off one of the collectors (?) on a pool to get all the machine classads in the pool into a text file. Suck this up into a program which instantiates a classad for each of these machines. (Maybe make 10 instances of classads for each machine to magnify results). Check memory footprint; compare b/w new and old classads. _Nick_ *Done*
+3: Grab the output of condor_status -l off one of the collectors (?) on a pool to get all the machine classads in the pool into a text file. Suck this up into a program which instantiates a classad for each of these machines. (Maybe make 10 instances of classads for each machine to magnify results). Check memory footprint; compare b/w new and old classads.
+*:: _Nick_ *Done*
-4: Similarly with a job queue, grab the job classads, and suck them into a program which instantiates classads for each job in the text file. (Magnify as needed). Check memory footprint; compare b/w new and old classads. _Nick_ *Done*
+4: Similarly with a job queue, grab the job classads, and suck them into a program which instantiates classads for each job in the text file. (Magnify as needed). Check memory footprint; compare b/w new and old classads.
+*:: _Nick_ *Done*
