Previous results were for preco03.02 with a series of fixes.
Here we present results for preco03.05. The most important change is that CFT ovelap tracking has been disabled.
Here are results for Pythia Z -> mu mu and Z -> e e with zero to six background events. These are our MC certification events.
run bg chk CPU CLK mem swp tm pe pTt # mc eff misr fake fcsq mcsq nclu ---- -- ---- ---- ---- --- --- -- --- --- ----- ---- ---- ---- ---- ---- ---- pzmm 0 1000 6 6 101 123 0 5 0.5 7714 .639 .084 .024 19.4 12.2 14.5 pzmm 1 1000 30 30 248 271 0 11 0.5 20151 .579 .138 .032 19.0 15.4 12.4 pzmm 2 919 77 77 423 447 0 20 0.5 30141 .578 .161 .038 18.6 16.1 11.7 pzmm 3 1000 178 179 703 727 1 35 0.5 45679 .570 .174 .041 19.9 16.5 11.5 pzmm 4 807 352 353 576 600 4 70 0.5 47563 .571 .188 .048 19.1 17.1 11.3 pzmm 5 1000 622 642 836 858 16 112 0.5 71383 .575 .211 .057 19.5 17.4 11.1 pzmm 6 750 753 1149 1059 1088 42 169 pzee 0 1000 6 6 105 127 0 8 0.5 7939 .633 .110 .021 20.4 13.3 14.6 pzee 1 1000 29 29 242 264 0 10 0.5 20241 .580 .151 .032 19.0 16.1 12.3 pzee 2 1000 81 82 438 261 0 15 0.5 33110 .572 .162 .036 18.8 16.4 11.7 pzee 3 187 188 711 734 0.5 pzee 4 1000 340 342 523 545 9 81 0.5 58974 .567 .195 .046 19.2 17.1 11.3 pzee 5 623 642 865 888 pzee 6 811 1185 1115 1158 pzmm 0 1000 10.0 1704 .870 .013 .007 19.6 5.6 18.2 pzmm 1 1000 10.0 1733 .835 .030 .007 20.9 5.6 18.2 pzmm 2 919 10.0 1667 .796 .042 .007 21.3 5.6 17.9 pzmm 3 1000 10.0 1897 .775 .054 .017 21.3 5.8 17.6 pzmm 4 807 10.0 1523 .760 .061 .022 21.6 6.1 17.6 pzmm 5 1000 10.0 2015 .723 .093 .040 23.0 5.9 17.3 pzee 0 1000 10.0 1695 .878 .090 .005 21.4 8.8 18.4 pzee 1 1000 10.0 1723 .831 .124 .009 22.5 9.1 17.9 pzee 2 1000 10.0 1764 .801 .131 .014 23.5 9.3 17.9 pzee 3 10.0 pzee 4 1000 10.0 1971 .735 .137 .028 24.1 9.0 17.5
The columns in these tables are defined here.
Here are plots showing the found (top) and lost (bottom) tracks in the z0-tan(lambda) plane.
The figures include curves showing the subdetector boundaries. The central horizontal band is the CFT acceptance. The thin bands above and below are the overlap region. The regions above the top V and below the bottom V are the SMT forward acceptance. There are also regions in the upper left and lower right between the CFT overlap and the SMT forward which are not covered. These are the "gaps".
pzmm + 0 bg low pT high pT pzmm + 1 bg low pT high pT pzmm + 2 bg low pT high pT pzmm + 3 bg low pT high pT pzmm + 4 bg low pT high pT pzmm + 5 bg low pT high pT pzmm + 6 bg low pT high pT pzmm + 0 bg low pT high pT pzmm + 1 bg low pT high pT pzmm + 2 bg low pT high pT pzmm + 3 bg low pT high pT pzmm + 4 bg low pT high pT pzmm + 5 bg low pT high pT pzmm + 6 bg low pT high pT
Here is the CPU time (sec/event) broken down by track-finding step as reported by the framework.
run bg cc co c cs f csf tup --- -- --- --- --- --- --- --- --- pzmm 0 1 0 1 1 2 1 0 pzmm 1 6 2 2 2 15 2 0 pzmm 2 14 3 4 4 46 4 0 pzmm 3 31 5 6 7 119 6 1 pzmm 4 63 8 9 10 251 9 1 pzmm 5 112 10 11 13 479 11 1 pzmm 6 206 13 15 19 738 15 2 pzee 0 1 0 1 1 2 1 0 pzee 1 6 2 2 2 14 2 0 pzee 2 14 3 4 4 49 4 0 pzee 3 31 5 6 7 127 6 1 pzee 4 60 7 8 9 243 8 1 pzee 5 116 10 12 14 457 11 1 pzee 6 218 13 15 19 714 15 2
Here is the clock time (sec/event) broken down by track-finding step as reported by the framework.
run bg cc co c cs f csf tup --- -- --- --- --- --- --- --- --- pzmm 0 1 0 1 1 2 1 0 pzmm 1 6 2 2 2 15 2 0 pzmm 2 14 3 4 4 46 4 0 pzmm 3 32 5 6 7 119 6 1 pzmm 4 63 8 9 10 252 9 1 pzmm 5 113 10 11 13 480 11 1 pzmm 6 224 13 15 19 861 15 2 pzee 0 1 0 1 1 2 1 0 pzee 1 6 2 2 2 14 2 0 pzee 2 14 3 4 4 50 4 0 pzee 3 32 5 6 7 128 6 1 pzee 4 60 7 8 9 245 8 1 pzee 5 117 10 12 14 475 12 1 pzee 6 238 13 16 20 881 16 2
The most serious remaining problems: