Name | de_nbody_orbit_fitting_10_29_2024_v186_OCS_no_vlos__data__6_1728366658_2484934_0 |
Workunit | 991073411 |
Created | 30 Oct 2024, 1:43:16 UTC |
Sent | 30 Oct 2024, 1:43:34 UTC |
Report deadline | 11 Nov 2024, 1:43:34 UTC |
Received | 30 Oct 2024, 12:17:42 UTC |
Server state | Over |
Outcome | Success |
Client state | Done |
Exit status | 0 (0x00000000) |
Computer ID | 1028650 |
Run time | 2 sec |
CPU time | |
Validate state | Valid |
Credit | 0.26 |
Device peak FLOPS | 87.81 GFLOPS |
Application version | Milkyway@home N-Body Simulation with Orbit Fitting v1.87 (mt) x86_64-pc-linux-gnu |
Peak disk usage | 0.02 MB |
<core_client_version>7.24.1</core_client_version> <![CDATA[ <stderr_txt> <search_application> milkyway_nbody 1.86 Linux x86_64 double OpenMP, Crlibm </search_application> Using OpenMP 12 max threads on a system with 12 processors Running MilkyWay@home Nbody v1.86 Optimal Softening Length = 0.000024862271577 kpc Dwarf Initial Position: [-1595.903841061136291,-330.887649295894391,-1827.914170673878061] Dwarf Initial Velocity: [271.941244367881495,56.708714831433198,310.216501360763402] Running MilkyWay@home Nbody v1.86 Running MilkyWay@home Nbody v1.86 Number of particles in bins is very small compared to total. (0 << 1). Skipping distance calculation Running MilkyWay@home Nbody v1.86 Number of particles in bins is very small compared to total. (0 << 1). Skipping distance calculation <search_likelihood>-9999999.900000000372529</search_likelihood> <search_likelihood_EMD>-9999999.900000000372529</search_likelihood_EMD> <search_likelihood_Mass>-0.000000000000000</search_likelihood_Mass> <search_likelihood_Beta>-0.000000000000000</search_likelihood_Beta> <search_likelihood_BetaAvg>-0.000000000000000</search_likelihood_BetaAvg> <search_likelihood_Dist>-0.000000000000000</search_likelihood_Dist> 2024-10-30 07:17:04 (706543): called boinc_finish(0) </stderr_txt> ]]>
©2024 Astroinformatics Group