Hi, I talked to Jeff. I told him that recoil production was usually on ISL resources and that it would be nice to have a "recoil" new disk space for the new production (run1-3 sp5). At the moment there are many requests to Jeff and Howard. He said that we can have something now but not the full request. He suggested to send him a timescale (now 200Gb, 200Gb in three weeks, remaing later in one month) and they will manage to satisfy our requests. I would propose to ask 200Gb now and ask for more in two weeks and the remaining later (~1 month). What is the new total disk space we need (removing useless stuff)? 1 Tb? Let me know Daniele > > Hoi, > > modulo any errors in my computations, the production 2004 for 150/fb > data and 500/fb BB MC will need > > 1.3TB disk space (+/- 150GB) > O(60000) CPU hours (assuming that the tagbits are functional in SP5) > O(150000) CPU hours (worst case) > > Deleting the moments-analysis (and other) hbook files will free up > O(750GB) of AWG diskspace, i.e., we'd need to find about 600GB. > > Neither scenario is a serious problem to achieve in two months > (barring catastrophic SCS/batch breakdowns). See below for details. > > Seems like a good deal to get two theses out by fall and produce > publication-ready results before BELLE publishes their combination of > b->sg and b->ulnu as another "first" ... > > > Cheers, > --U. > > > ---------------------------------------------------------------------- > 1. Current ISL disks > ==================== > > We have the following AWG disks: > > shire01>df -k /nfs/farm/babar/AWG37/. /nfs/farm/babar/AWG23/. /nfs/farm/babar/AWG18/. > Filesystem kbytes used avail capacity Mounted on > sulky25:/AWG18 619788288 616803143 2800045 100% /a/sulky25/AWG18 > sulky26:/AWG23 619788288 613374726 6013098 100% /a/sulky26/AWG23 > sulky13:/AWG37 619788288 607730751 11310159 99% /a/sulky13/AWG37 > > They contain a mixture of files: > ----------------------------------------------------------------------------- > Disk User Size What > ----------------------------------------------------------------------------- > AWG18 vub-recoil 515948923 ISL/sx-080702: gen BB MC > data > skimmed data rfiles > moments - > miscellaneous > > AWG23 vub-recoil 107038654 ISL/sx-080702: signal MC > cocktail MC > skimmed MC rfiles > hbook_gen_mar ??? > ISL/VubAna-out: DELETE ??? > moments 498613341 > > AWG37 vub-recoil 262869337 ISL/sx-080702: skimmed MC rfiles > ISL/sx-080702/newgenbb: gen BB MC > vub-combo 152832512 > moments 191845657 > ----------------------------------------------------------------------------- > > In vub-recoil space the following HBOOK files are around (why??): > ---------------------------------------------------------------------- > AWG23: ca 50GB in ISL/sx-080702/hbook_gen_mar/ and > ISL/sx-080702/newsig/output/outputdir/ > > AWG18: ca 12GB in ISL/sx-080702/newsignal/output/outputdir/ and > ISL/sx-080702/signalMC/FIXED/ > ---------------------------------------------------------------------- > > > There is a minor problem in that many of the files and directories > belong to Alessio, and his account is gone. Will have to send a mail > to SCS. > > > We also occupy diskspace of group EC: > > shire01>du -ks /nfs/farm/g/ec/u05/users/* > 2126409 /nfs/farm/g/ec/u05/users/asarti > 509917864 /nfs/farm/g/ec/u05/users/henning > > vub-recoil does not use this diskspace, I think (I found no symlinks > to this disk and nothing in our chains). The story is different for > the moments-analysis, I guess. > > > -> There are hbook files to be deleted, and some logfiles are not > gzip'ed. We can free up >50 GB on relatively short notice, I guess. > > > > 2. CPU and Disk Usage for old production > ======================================== > > I assume that we dump identical ntuples (root format) as before. > > o ca. 25% of the generic BB allevents make it into the ntuples. > o Without tagbits, the jobs are CPU limited: > > barb: 1.4sec CPU/allEvent > noma: 0.7sec CPU/allEvent > > The wall clock time is only marginally (<5% .. 10%) higher. We'll > have to see how this is with a CM2 executable on OBJY. > > o Running with tagbits was mostly relevant in the old (K0S bug > affected) MC. I cannot find tcl, log and rootfiles for this case. > Since the jobs are CPU limited I assume that the time gain is > proportional to the events skipped. > > The skim fractions are 20% (somewhat less than what I see above, > but this may be due to updated(?) purity tables), see the full list > in http://www.slac.stanford.edu/BFROOT/www/Physics/Analysis/AWG/EHBDOC/skims/allskims.html > > o Diskspace: 7.5 kB/tupleEvent > > > The above was generic BB MC. Now for data: > > o CPU: 3.6sec CPU/filterEvent, 0.16sec CPU/allEvent, > o Disk: 4.5 kB/tupleEvent > > > > 3. Projection for new production > ================================ > > Data: assume 150/fb skimmed CM2 > ------------------------------- > > There are 1.5e7allEvents/fb-1 (see http://www.slac.stanford.edu/BFROOT/www/Computing/DataQuality/SkimmedData.html) > > This implies for the semiExcl skim (with a rate of 4% on data) > > -> 150 * 1.5e7 * 0.04 = 9.0e7 events > -> 9e7*4.5kB = 4.1e8kB = 410 GB > > Assuming 1sec CPU/event, this is 25000 CPU hours. (This assumption may > be somewhat optimistic with CM2 ...) This is what a user can get from > the compute farm in about ONE month (if "run" is running 24/7). > > > generic BB MC: first assume 400/fb unskimmed SP5 OBJY > ----------------------------------------------------- > > This is ca. 420e6 allEvents. Assume 20% with semiExcl BRECO skim. > > -> 0.2 * 420e6 = 8.4e7 events > -> 8.4e7*7.5kB = 630GB > > Assuming again 1sec CPU/event and the availability of the tag bits, > this is 23000 CPU hours. If the "skim rate" is higher (because the tag > bits are based on older purity tables(?), the disk space could > increase by up to 25%, to 780GB). > > If the tagbits are not available, the total time would be 125khours, > doable for a team in one month. > > > Now add 120/fb of skimmed CM2 SP6 > --------------------------------- > This is ca 24e6 events for the ntuple > > -> 24e6 * 7.5kB = 180GB > > The time to run on this is small, O(6000h). > > >