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  • in reply to: Parallel mode and Ubuntu 16.04 #2520

    Hi,

    I did it, and I got the exactly same result as before.

    For parallel using 6 cores:

    [prepareLattice] Prepare Lattice … OK
    [main] starting simulation…
    [SuperGeometryStatistics2D] updated
    [Timer] step=0; percent=0; passedTime=2.492; remTime=inf; MLUPs=0
    [LatticeStatistics] step=0; t=0; uMax=1.49167e-154; avEnergy=0; avRho=1
    [getResults] pressure1=0; pressure2=0; pressureDrop=0
    [Timer] step=2490; percent=0.999984; passedTime=376.826; remTime=37306.4; MLUPs=3.91765
    [LatticeStatistics] step=2490; t=9.99984e-07; uMax=1.83835e-08; avEnergy=1.49736e-17; avRho=1
    [getResults] pressure1=0.00250375; pressure2=-3.46939e-09; pressureDrop=0.00250376
    [Timer] step=4980; percent=1.99997; passedTime=621.798; remTime=30468.6; MLUPs=5.98643
    [LatticeStatistics] step=4980; t=1.99997e-06; uMax=2.13556e-07; avEnergy=1.71931e-15; avRho=1
    [getResults] pressure1=0.0259461; pressure2=7.78311e-05; pressureDrop=0.0258682
    [Timer] step=7470; percent=2.99995; passedTime=867; remTime=28033.5; MLUPs=5.98079
    [LatticeStatistics] step=7470; t=2.99995e-06; uMax=8.54192e-07; avEnergy=2.66965e-14; avRho=1
    [getResults] pressure1=0.0990565; pressure2=0.000869947; pressureDrop=0.0981866
    [Timer] step=9960; percent=3.99994; passedTime=1119.08; remTime=26858.3; MLUPs=5.81772
    [LatticeStatistics] step=9960; t=3.99994e-06; uMax=2.20359e-06; avEnergy=1.88381e-13; avRho=1
    [getResults] pressure1=0.25256; pressure2=0.00256692; pressureDrop=0.249993
    [Timer] step=12450; percent=4.99992; passedTime=1372.47; remTime=26077.4; MLUPs=5.78744
    [LatticeStatistics] step=12450; t=4.99992e-06; uMax=4.51051e-06; avEnergy=8.58289e-13; avRho=1
    [getResults] pressure1=0.512447; pressure2=0.00508384; pressureDrop=0.507363
    [Timer] step=14940; percent=5.9999; passedTime=1623.13; remTime=25429.5; MLUPs=5.85049
    [LatticeStatistics] step=14940; t=5.9999e-06; uMax=7.98394e-06; avEnergy=2.90958e-12; avRho=1
    [getResults] pressure1=0.896736; pressure2=0.00822985; pressureDrop=0.888506
    [Timer] step=17430; percent=6.99989; passedTime=1877.84; remTime=24948.9; MLUPs=5.7576
    [LatticeStatistics] step=17430; t=6.99989e-06; uMax=1.28418e-05; avEnergy=7.96468e-12; avRho=1.00001
    [getResults] pressure1=1.41638; pressure2=0.0117892; pressureDrop=1.40459
    [Timer] step=19920; percent=7.99987; passedTime=2132.92; remTime=24529; MLUPs=5.74925
    [LatticeStatistics] step=19920; t=7.99987e-06; uMax=2.01619e-05; avEnergy=1.85785e-11; avRho=1.00001
    [getResults] pressure1=2.07734; pressure2=0.0156005; pressureDrop=2.06174
    [Timer] step=22410; percent=8.99986; passedTime=2381.91; remTime=24084.2; MLUPs=5.88976
    [LatticeStatistics] step=22410; t=8.99986e-06; uMax=2.95348e-05; avEnergy=3.83296e-11; avRho=1.00002
    [getResults] pressure1=2.88289; pressure2=0.0195351; pressureDrop=2.86335
    [Timer] step=24900; percent=9.99984; passedTime=2634.51; remTime=23711; MLUPs=5.80572
    [LatticeStatistics] step=24900; t=9.99984e-06; uMax=4.10235e-05; avEnergy=7.18176e-11; avRho=1.00002
    [getResults] pressure1=3.83369; pressure2=0.0234941; pressureDrop=3.81019
    [Timer] step=27390; percent=10.9998; passedTime=2905.68; remTime=23510; MLUPs=5.4081
    [LatticeStatistics] step=27390; t=1.09998e-05; uMax=5.46398e-05; avEnergy=1.24571e-10; avRho=1.00003
    [getResults] pressure1=4.92626; pressure2=0.0273942; pressureDrop=4.89886
    [Timer] step=29880; percent=11.9998; passedTime=3161.5; remTime=23184.8; MLUPs=5.73249
    [LatticeStatistics] step=29880; t=1.19998e-05; uMax=7.03505e-05; avEnergy=2.02857e-10; avRho=1.00004
    [getResults] pressure1=6.15333; pressure2=0.0311625; pressureDrop=6.12217
    [Timer] step=32370; percent=12.9998; passedTime=3435.25; remTime=22990.2; MLUPs=5.35724
    [LatticeStatistics] step=32370; t=1.29998e-05; uMax=8.8081e-05; avEnergy=3.1342e-10; avRho=1.00004
    [getResults] pressure1=7.50595; pressure2=0.0347291; pressureDrop=7.47122
    [Timer] step=34860; percent=13.9998; passedTime=3732.72; remTime=22930; MLUPs=4.92992
    [LatticeStatistics] step=34860; t=1.39998e-05; uMax=0.000107719; avEnergy=4.6315e-10; avRho=1.00005
    [getResults] pressure1=8.97489; pressure2=0.0380231; pressureDrop=8.93686
    [Timer] step=37350; percent=14.9998; passedTime=4006.1; remTime=22701.7; MLUPs=5.36428
    [LatticeStatistics] step=37350; t=1.49998e-05; uMax=0.000129117; avEnergy=6.58706e-10; avRho=1.00006
    [getResults] pressure1=10.5492; pressure2=0.0409805; pressureDrop=10.5082
    [Timer] step=39840; percent=15.9997; passedTime=4310.88; remTime=22632.5; MLUPs=4.81177
    [LatticeStatistics] step=39840; t=1.59997e-05; uMax=0.000152097; avEnergy=9.06128e-10; avRho=1.00007
    [getResults] pressure1=12.2139; pressure2=0.0435527; pressureDrop=12.1704
    [Timer] step=42330; percent=16.9997; passedTime=4579.84; remTime=22360.8; MLUPs=5.45247
    [LatticeStatistics] step=42330; t=1.69997e-05; uMax=0.000176455; avEnergy=1.21042e-09; avRho=1.00008
    [getResults] pressure1=13.9512; pressure2=0.0457036; pressureDrop=13.9055
    [Timer] step=44820; percent=17.9997; passedTime=4857.99; remTime=22131.3; MLUPs=5.27223
    [LatticeStatistics] step=44820; t=1.79997e-05; uMax=0.000201966; avEnergy=1.5752e-09; avRho=1.00009
    [getResults] pressure1=15.7435; pressure2=0.0474008; pressureDrop=15.6961
    [Timer] step=47310; percent=18.9997; passedTime=5122.45; remTime=21838.3; MLUPs=5.54535
    [LatticeStatistics] step=47310; t=1.89997e-05; uMax=0.000228384; avEnergy=2.00237e-09; avRho=1.0001
    [getResults] pressure1=17.5753; pressure2=0.0486111; pressureDrop=17.5267
    [Timer] step=49800; percent=19.9997; passedTime=5388.14; remTime=21553; MLUPs=5.51968
    [LatticeStatistics] step=49800; t=1.99997e-05; uMax=0.00025545; avEnergy=2.49188e-09; avRho=1.00011
    [getResults] pressure1=19.4301; pressure2=0.0493097; pressureDrop=19.3808
    [Timer] step=52290; percent=20.9997; passedTime=5661.09; remTime=21296.9; MLUPs=5.37271
    [LatticeStatistics] step=52290; t=2.09997e-05; uMax=0.000282898; avEnergy=3.04157e-09; avRho=1.00012
    [getResults] pressure1=21.2882; pressure2=0.0494893; pressureDrop=21.2387
    [Timer] step=54780; percent=21.9996; passedTime=5936.58; remTime=21048.3; MLUPs=5.32331
    [LatticeStatistics] step=54780; t=2.19996e-05; uMax=0.000310452; avEnergy=3.64701e-09; avRho=1.00014
    [getResults] pressure1=23.1286; pressure2=0.0491541; pressureDrop=23.0794

    And in serial mode:

    [Timer] step=0; percent=0; passedTime=1.727; remTime=inf; MLUPs=0
    [LatticeStatistics] step=0; t=0; uMax=1.49167e-154; avEnergy=0; avRho=1
    [getResults] pressure1=0; pressure2=0; pressureDrop=0
    [Timer] step=2490; percent=0.999984; passedTime=250.796; remTime=24829.2; MLUPs=5.88798
    [LatticeStatistics] step=2490; t=9.99984e-07; uMax=1.83835e-08; avEnergy=1.49736e-17; avRho=1
    [getResults] pressure1=0.00250375; pressure2=-3.46939e-09; pressureDrop=0.00250376
    [Timer] step=4980; percent=1.99997; passedTime=419.045; remTime=20533.5; MLUPs=8.71624
    [LatticeStatistics] step=4980; t=1.99997e-06; uMax=2.13556e-07; avEnergy=1.71931e-15; avRho=1
    [getResults] pressure1=0.0259461; pressure2=7.78311e-05; pressureDrop=0.0258682
    [Timer] step=7470; percent=2.99995; passedTime=587.218; remTime=18987; MLUPs=8.72029
    [LatticeStatistics] step=7470; t=2.99995e-06; uMax=8.54192e-07; avEnergy=2.66965e-14; avRho=1
    [getResults] pressure1=0.0990565; pressure2=0.000869947; pressureDrop=0.0981866
    [Timer] step=9960; percent=3.99994; passedTime=757.696; remTime=18185; MLUPs=8.60238
    [LatticeStatistics] step=9960; t=3.99994e-06; uMax=2.20359e-06; avEnergy=1.88381e-13; avRho=1
    [getResults] pressure1=0.25256; pressure2=0.00256692; pressureDrop=0.249993
    [Timer] step=12450; percent=4.99992; passedTime=928.393; remTime=17639.8; MLUPs=8.59124
    [LatticeStatistics] step=12450; t=4.99992e-06; uMax=4.51051e-06; avEnergy=8.58289e-13; avRho=1
    [getResults] pressure1=0.512447; pressure2=0.00508384; pressureDrop=0.507363
    [Timer] step=14940; percent=5.9999; passedTime=1101.18; remTime=17252.2; MLUPs=8.48718
    [LatticeStatistics] step=14940; t=5.9999e-06; uMax=7.98394e-06; avEnergy=2.90958e-12; avRho=1
    [getResults] pressure1=0.896736; pressure2=0.00822985; pressureDrop=0.888506
    [Timer] step=17430; percent=6.99989; passedTime=1276.87; remTime=16964.4; MLUPs=8.34737
    [LatticeStatistics] step=17430; t=6.99989e-06; uMax=1.28418e-05; avEnergy=7.96468e-12; avRho=1.00001
    [getResults] pressure1=1.41638; pressure2=0.0117892; pressureDrop=1.40459
    [Timer] step=19920; percent=7.99987; passedTime=1444.53; remTime=16612.4; MLUPs=8.74676
    [LatticeStatistics] step=19920; t=7.99987e-06; uMax=2.01619e-05; avEnergy=1.85785e-11; avRho=1.00001
    [getResults] pressure1=2.07734; pressure2=0.0156005; pressureDrop=2.06174
    [Timer] step=22410; percent=8.99986; passedTime=1612.24; remTime=16301.9; MLUPs=8.74426
    [LatticeStatistics] step=22410; t=8.99986e-06; uMax=2.95348e-05; avEnergy=3.83296e-11; avRho=1.00002
    [getResults] pressure1=2.88289; pressure2=0.0195351; pressureDrop=2.86335
    [Timer] step=24900; percent=9.99984; passedTime=1783.34; remTime=16050.3; MLUPs=8.57151
    [LatticeStatistics] step=24900; t=9.99984e-06; uMax=4.10235e-05; avEnergy=7.18176e-11; avRho=1.00002
    [getResults] pressure1=3.83369; pressure2=0.0234941; pressureDrop=3.81019
    [Timer] step=27390; percent=10.9998; passedTime=1952.88; remTime=15800.8; MLUPs=8.64992
    [LatticeStatistics] step=27390; t=1.09998e-05; uMax=5.46398e-05; avEnergy=1.24571e-10; avRho=1.00003
    [getResults] pressure1=4.92626; pressure2=0.0273942; pressureDrop=4.89886
    [Timer] step=29880; percent=11.9998; passedTime=2126.04; remTime=15591.2; MLUPs=8.4689
    [LatticeStatistics] step=29880; t=1.19998e-05; uMax=7.03505e-05; avEnergy=2.02857e-10; avRho=1.00004
    [getResults] pressure1=6.15333; pressure2=0.0311625; pressureDrop=6.12217
    [Timer] step=32370; percent=12.9998; passedTime=2294.04; remTime=15352.7; MLUPs=8.72932
    [LatticeStatistics] step=32370; t=1.29998e-05; uMax=8.8081e-05; avEnergy=3.1342e-10; avRho=1.00004
    [getResults] pressure1=7.50595; pressure2=0.0347291; pressureDrop=7.47122
    [Timer] step=34860; percent=13.9998; passedTime=2465.39; remTime=15144.8; MLUPs=8.5586
    [LatticeStatistics] step=34860; t=1.39998e-05; uMax=0.000107719; avEnergy=4.6315e-10; avRho=1.00005
    [getResults] pressure1=8.97489; pressure2=0.0380231; pressureDrop=8.93686
    [Timer] step=37350; percent=14.9998; passedTime=2635.34; remTime=14933.9; MLUPs=8.62885
    [LatticeStatistics] step=37350; t=1.49998e-05; uMax=0.000129117; avEnergy=6.58706e-10; avRho=1.00006
    [getResults] pressure1=10.5492; pressure2=0.0409805; pressureDrop=10.5082
    [Timer] step=39840; percent=15.9997; passedTime=2804.72; remTime=14725.1; MLUPs=8.65794
    [LatticeStatistics] step=39840; t=1.59997e-05; uMax=0.000152097; avEnergy=9.06128e-10; avRho=1.00007
    [getResults] pressure1=12.2139; pressure2=0.0435527; pressureDrop=12.1704
    [Timer] step=42330; percent=16.9997; passedTime=2972.9; remTime=14515; MLUPs=8.71992
    [LatticeStatistics] step=42330; t=1.69997e-05; uMax=0.000176455; avEnergy=1.21042e-09; avRho=1.00008
    [getResults] pressure1=13.9512; pressure2=0.0457036; pressureDrop=13.9055
    [Timer] step=44820; percent=17.9997; passedTime=3143.27; remTime=14319.6; MLUPs=8.60793
    [LatticeStatistics] step=44820; t=1.79997e-05; uMax=0.000201966; avEnergy=1.5752e-09; avRho=1.00009
    [getResults] pressure1=15.7435; pressure2=0.0474008; pressureDrop=15.6961
    [Timer] step=47310; percent=18.9997; passedTime=3313.3; remTime=14125.4; MLUPs=8.62469
    [LatticeStatistics] step=47310; t=1.89997e-05; uMax=0.000228384; avEnergy=2.00237e-09; avRho=1.0001
    [getResults] pressure1=17.5753; pressure2=0.0486111; pressureDrop=17.5267
    [Timer] step=49800; percent=19.9997; passedTime=3483.24; remTime=13933.2; MLUPs=8.62997
    [LatticeStatistics] step=49800; t=1.99997e-05; uMax=0.00025545; avEnergy=2.49188e-09; avRho=1.00011
    [getResults] pressure1=19.4301; pressure2=0.0493097; pressureDrop=19.3808
    [Timer] step=52290; percent=20.9997; passedTime=3655.07; remTime=13750.3; MLUPs=8.53425
    [LatticeStatistics] step=52290; t=2.09997e-05; uMax=0.000282898; avEnergy=3.04157e-09; avRho=1.00012
    [getResults] pressure1=21.2882; pressure2=0.0494893; pressureDrop=21.2387

    Best,
    Liliana.

    in reply to: Parallel mode and Ubuntu 16.04 #2512

    Hi Mathias!

    Here are the versions of g++ and openmpi:

    $ mpiexec –version
    mpiexec (OpenRTE) 1.10.2

    Report bugs to http://www.open-mpi.org/community/help/

    $ mpicc -v
    Using built-in specs.
    COLLECT_GCC=/usr/bin/gcc
    COLLECT_LTO_WRAPPER=/usr/lib/gcc/x86_64-linux-gnu/5/lto-wrapper
    Target: x86_64-linux-gnu
    Configured with: ../src/configure -v –with-pkgversion=’Ubuntu 5.4.0-6ubuntu1~16.04.4′ –with-bugurl=file:///usr/share/doc/gcc-5/README.Bugs –enable-languages=c,ada,c++,java,go,d,fortran,objc,obj-c++ –prefix=/usr –program-suffix=-5 –enable-shared –enable-linker-build-id –libexecdir=/usr/lib –without-included-gettext –enable-threads=posix –libdir=/usr/lib –enable-nls –with-sysroot=/ –enable-clocale=gnu –enable-libstdcxx-debug –enable-libstdcxx-time=yes –with-default-libstdcxx-abi=new –enable-gnu-unique-object –disable-vtable-verify –enable-libmpx –enable-plugin –with-system-zlib –disable-browser-plugin –enable-java-awt=gtk –enable-gtk-cairo –with-java-home=/usr/lib/jvm/java-1.5.0-gcj-5-amd64/jre –enable-java-home –with-jvm-root-dir=/usr/lib/jvm/java-1.5.0-gcj-5-amd64 –with-jvm-jar-dir=/usr/lib/jvm-exports/java-1.5.0-gcj-5-amd64 –with-arch-directory=amd64 –with-ecj-jar=/usr/share/java/eclipse-ecj.jar –enable-objc-gc –enable-multiarch –disable-werror –with-arch-32=i686 –with-abi=m64 –with-multilib-list=m32,m64,mx32 –enable-multilib –with-tune=generic –enable-checking=release –build=x86_64-linux-gnu –host=x86_64-linux-gnu –target=x86_64-linux-gnu
    Thread model: posix
    gcc version 5.4.0 20160609 (Ubuntu 5.4.0-6ubuntu1~16.04.4)

    The output for parallel running, using 6 cores:

    [SuperGeometryStatistics2D] updated
    [Timer] step=0; percent=0; passedTime=3.723; remTime=inf; MLUPs=0
    [LatticeStatistics] step=0; t=0; uMax=1.49167e-154; avEnergy=0; avRho=1
    [getResults] pressure1=0; pressure2=0; pressureDrop=0
    [Timer] step=2490; percent=0.999984; passedTime=390.959; remTime=38705.6; MLUPs=3.78713
    [LatticeStatistics] step=2490; t=9.99984e-07; uMax=1.83835e-08; avEnergy=1.49736e-17; avRho=1
    [getResults] pressure1=0.00250375; pressure2=-3.46939e-09; pressureDrop=0.00250376
    [Timer] step=4980; percent=1.99997; passedTime=669.134; remTime=32788.1; MLUPs=5.27189
    [LatticeStatistics] step=4980; t=1.99997e-06; uMax=2.13556e-07; avEnergy=1.71931e-15; avRho=1
    [getResults] pressure1=0.0259461; pressure2=7.78311e-05; pressureDrop=0.0258682
    [Timer] step=7470; percent=2.99995; passedTime=924.831; remTime=29903.4; MLUPs=5.73533
    [LatticeStatistics] step=7470; t=2.99995e-06; uMax=8.54192e-07; avEnergy=2.66965e-14; avRho=1
    [getResults] pressure1=0.0990565; pressure2=0.000869947; pressureDrop=0.0981866
    [Timer] step=9960; percent=3.99994; passedTime=1191.64; remTime=28600; MLUPs=5.49637
    [LatticeStatistics] step=9960; t=3.99994e-06; uMax=2.20359e-06; avEnergy=1.88381e-13; avRho=1
    [getResults] pressure1=0.25256; pressure2=0.00256692; pressureDrop=0.249993
    [Timer] step=12450; percent=4.99992; passedTime=1441.45; remTime=27388.1; MLUPs=5.87049
    [LatticeStatistics] step=12450; t=4.99992e-06; uMax=4.51051e-06; avEnergy=8.58289e-13; avRho=1
    [getResults] pressure1=0.512447; pressure2=0.00508384; pressureDrop=0.507363
    [Timer] step=14940; percent=5.9999; passedTime=1693.75; remTime=26535.9; MLUPs=5.81258
    [LatticeStatistics] step=14940; t=5.9999e-06; uMax=7.98394e-06; avEnergy=2.90958e-12; avRho=1
    [getResults] pressure1=0.896736; pressure2=0.00822985; pressureDrop=0.888506
    [Timer] step=17430; percent=6.99989; passedTime=1949.66; remTime=25903.1; MLUPs=5.73063
    [LatticeStatistics] step=17430; t=6.99989e-06; uMax=1.28418e-05; avEnergy=7.96468e-12; avRho=1.00001
    [getResults] pressure1=1.41638; pressure2=0.0117892; pressureDrop=1.40459
    [Timer] step=19920; percent=7.99987; passedTime=2199.27; remTime=25292; MLUPs=5.8752
    [LatticeStatistics] step=19920; t=7.99987e-06; uMax=2.01619e-05; avEnergy=1.85785e-11; avRho=1.00001
    [getResults] pressure1=2.07734; pressure2=0.0156005; pressureDrop=2.06174
    [Timer] step=22410; percent=8.99986; passedTime=2450.32; remTime=24775.9; MLUPs=5.84157
    [LatticeStatistics] step=22410; t=8.99986e-06; uMax=2.95348e-05; avEnergy=3.83296e-11; avRho=1.00002
    [getResults] pressure1=2.88289; pressure2=0.0195351; pressureDrop=2.86335
    [Timer] step=24900; percent=9.99984; passedTime=2701.65; remTime=24315.3; MLUPs=5.83499
    [LatticeStatistics] step=24900; t=9.99984e-06; uMax=4.10235e-05; avEnergy=7.18176e-11; avRho=1.00002
    [getResults] pressure1=3.83369; pressure2=0.0234941; pressureDrop=3.81019
    [Timer] step=27390; percent=10.9998; passedTime=2958; remTime=23933.3; MLUPs=5.72066
    [LatticeStatistics] step=27390; t=1.09998e-05; uMax=5.46398e-05; avEnergy=1.24571e-10; avRho=1.00003
    [getResults] pressure1=4.92626; pressure2=0.0273942; pressureDrop=4.89886
    [Timer] step=29880; percent=11.9998; passedTime=3237.38; remTime=23741.2; MLUPs=5.24923
    [LatticeStatistics] step=29880; t=1.19998e-05; uMax=7.03505e-05; avEnergy=2.02857e-10; avRho=1.00004
    [getResults] pressure1=6.15333; pressure2=0.0311625; pressureDrop=6.12217
    [Timer] step=32370; percent=12.9998; passedTime=3552.57; remTime=23775.3; MLUPs=4.65279
    [LatticeStatistics] step=32370; t=1.29998e-05; uMax=8.8081e-05; avEnergy=3.1342e-10; avRho=1.00004
    [getResults] pressure1=7.50595; pressure2=0.0347291; pressureDrop=7.47122
    [Timer] step=34860; percent=13.9998; passedTime=3856.24; remTime=23688.8; MLUPs=4.8292
    [LatticeStatistics] step=34860; t=1.39998e-05; uMax=0.000107719; avEnergy=4.6315e-10; avRho=1.00005
    [getResults] pressure1=8.97489; pressure2=0.0380231; pressureDrop=8.93686
    [Timer] step=37350; percent=14.9998; passedTime=4120.92; remTime=23352.3; MLUPs=5.54077
    [LatticeStatistics] step=37350; t=1.49998e-05; uMax=0.000129117; avEnergy=6.58706e-10; avRho=1.00006
    [getResults] pressure1=10.5492; pressure2=0.0409805; pressureDrop=10.5082
    [Timer] step=39840; percent=15.9997; passedTime=4391.89; remTime=23057.9; MLUPs=5.41197
    [LatticeStatistics] step=39840; t=1.59997e-05; uMax=0.000152097; avEnergy=9.06128e-10; avRho=1.00007
    [getResults] pressure1=12.2139; pressure2=0.0435527; pressureDrop=12.1704
    [Timer] step=42330; percent=16.9997; passedTime=4665.54; remTime=22779.3; MLUPs=5.35899
    [LatticeStatistics] step=42330; t=1.69997e-05; uMax=0.000176455; avEnergy=1.21042e-09; avRho=1.00008
    [getResults] pressure1=13.9512; pressure2=0.0457036; pressureDrop=13.9055
    [Timer] step=44820; percent=17.9997; passedTime=4931.47; remTime=22466; MLUPs=5.5148
    [LatticeStatistics] step=44820; t=1.79997e-05; uMax=0.000201966; avEnergy=1.5752e-09; avRho=1.00009
    [getResults] pressure1=15.7435; pressure2=0.0474008; pressureDrop=15.6961
    [Timer] step=47310; percent=18.9997; passedTime=5200.95; remTime=22172.9; MLUPs=5.44195
    [LatticeStatistics] step=47310; t=1.89997e-05; uMax=0.000228384; avEnergy=2.00237e-09; avRho=1.0001
    [getResults] pressure1=17.5753; pressure2=0.0486111; pressureDrop=17.5267
    [Timer] step=49800; percent=19.9997; passedTime=5473.59; remTime=21894.8; MLUPs=5.3789
    [LatticeStatistics] step=49800; t=1.99997e-05; uMax=0.00025545; avEnergy=2.49188e-09; avRho=1.00011
    [getResults] pressure1=19.4301; pressure2=0.0493097; pressureDrop=19.3808
    [Timer] step=52290; percent=20.9997; passedTime=5777.4; remTime=21734.5; MLUPs=4.82709
    [LatticeStatistics] step=52290; t=2.09997e-05; uMax=0.000282898; avEnergy=3.04157e-09; avRho=1.00012
    [getResults] pressure1=21.2882; pressure2=0.0494893; pressureDrop=21.2387

    And the output running on serial mode:

    [SuperGeometryStatistics2D] updated
    [Timer] step=0; percent=0; passedTime=1.691; remTime=inf; MLUPs=0
    [LatticeStatistics] step=0; t=0; uMax=1.49167e-154; avEnergy=0; avRho=1
    [getResults] pressure1=0; pressure2=0; pressureDrop=0
    [Timer] step=2490; percent=0.999984; passedTime=251.177; remTime=24866.9; MLUPs=5.87812
    [LatticeStatistics] step=2490; t=9.99984e-07; uMax=1.83835e-08; avEnergy=1.49736e-17; avRho=1
    [getResults] pressure1=0.00250375; pressure2=-3.46939e-09; pressureDrop=0.00250376
    [Timer] step=4980; percent=1.99997; passedTime=417.816; remTime=20473.3; MLUPs=8.80051
    [LatticeStatistics] step=4980; t=1.99997e-06; uMax=2.13556e-07; avEnergy=1.71931e-15; avRho=1
    [getResults] pressure1=0.0259461; pressure2=7.78311e-05; pressureDrop=0.0258682
    [Timer] step=7470; percent=2.99995; passedTime=584.094; remTime=18886; MLUPs=8.81961
    [LatticeStatistics] step=7470; t=2.99995e-06; uMax=8.54192e-07; avEnergy=2.66965e-14; avRho=1
    [getResults] pressure1=0.0990565; pressure2=0.000869947; pressureDrop=0.0981866
    [Timer] step=9960; percent=3.99994; passedTime=750.312; remTime=18007.8; MLUPs=8.82285
    [LatticeStatistics] step=9960; t=3.99994e-06; uMax=2.20359e-06; avEnergy=1.88381e-13; avRho=1
    [getResults] pressure1=0.25256; pressure2=0.00256692; pressureDrop=0.249993
    [Timer] step=12450; percent=4.99992; passedTime=916.53; remTime=17414.4; MLUPs=8.82285
    [LatticeStatistics] step=12450; t=4.99992e-06; uMax=4.51051e-06; avEnergy=8.58289e-13; avRho=1
    [getResults] pressure1=0.512447; pressure2=0.00508384; pressureDrop=0.507363
    [Timer] step=14940; percent=5.9999; passedTime=1082.73; remTime=16963.1; MLUPs=8.8237
    [LatticeStatistics] step=14940; t=5.9999e-06; uMax=7.98394e-06; avEnergy=2.90958e-12; avRho=1
    [getResults] pressure1=0.896736; pressure2=0.00822985; pressureDrop=0.888506
    [Timer] step=17430; percent=6.99989; passedTime=1248.95; remTime=16593.5; MLUPs=8.82275
    [LatticeStatistics] step=17430; t=6.99989e-06; uMax=1.28418e-05; avEnergy=7.96468e-12; avRho=1.00001
    [getResults] pressure1=1.41638; pressure2=0.0117892; pressureDrop=1.40459
    [Timer] step=19920; percent=7.99987; passedTime=1415.14; remTime=16274.4; MLUPs=8.82423
    [LatticeStatistics] step=19920; t=7.99987e-06; uMax=2.01619e-05; avEnergy=1.85785e-11; avRho=1.00001
    [getResults] pressure1=2.07734; pressure2=0.0156005; pressureDrop=2.06174
    [Timer] step=22410; percent=8.99986; passedTime=1581.37; remTime=15989.7; MLUPs=8.822
    [LatticeStatistics] step=22410; t=8.99986e-06; uMax=2.95348e-05; avEnergy=3.83296e-11; avRho=1.00002
    [getResults] pressure1=2.88289; pressure2=0.0195351; pressureDrop=2.86335
    [Timer] step=24900; percent=9.99984; passedTime=1748.36; remTime=15735.5; MLUPs=8.78222
    [LatticeStatistics] step=24900; t=9.99984e-06; uMax=4.10235e-05; avEnergy=7.18176e-11; avRho=1.00002
    [getResults] pressure1=3.83369; pressure2=0.0234941; pressureDrop=3.81019
    [Timer] step=27390; percent=10.9998; passedTime=1914.56; remTime=15490.8; MLUPs=8.82359
    [LatticeStatistics] step=27390; t=1.09998e-05; uMax=5.46398e-05; avEnergy=1.24571e-10; avRho=1.00003
    [getResults] pressure1=4.92626; pressure2=0.0273942; pressureDrop=4.89886
    [Timer] step=29880; percent=11.9998; passedTime=2080.76; remTime=15259.2; MLUPs=8.82413
    [LatticeStatistics] step=29880; t=1.19998e-05; uMax=7.03505e-05; avEnergy=2.02857e-10; avRho=1.00004
    [getResults] pressure1=6.15333; pressure2=0.0311625; pressureDrop=6.12217
    [Timer] step=32370; percent=12.9998; passedTime=2246.99; remTime=15037.8; MLUPs=8.82206
    [LatticeStatistics] step=32370; t=1.29998e-05; uMax=8.8081e-05; avEnergy=3.1342e-10; avRho=1.00004
    [getResults] pressure1=7.50595; pressure2=0.0347291; pressureDrop=7.47122
    [Timer] step=34860; percent=13.9998; passedTime=2413.27; remTime=14824.6; MLUPs=8.81961
    [LatticeStatistics] step=34860; t=1.39998e-05; uMax=0.000107719; avEnergy=4.6315e-10; avRho=1.00005
    [getResults] pressure1=8.97489; pressure2=0.0380231; pressureDrop=8.93686
    [Timer] step=37350; percent=14.9998; passedTime=2579.48; remTime=14617.3; MLUPs=8.8229
    [LatticeStatistics] step=37350; t=1.49998e-05; uMax=0.000129117; avEnergy=6.58706e-10; avRho=1.00006
    [getResults] pressure1=10.5492; pressure2=0.0409805; pressureDrop=10.5082
    [Timer] step=39840; percent=15.9997; passedTime=2745.69; remTime=14415.2; MLUPs=8.82322
    [LatticeStatistics] step=39840; t=1.59997e-05; uMax=0.000152097; avEnergy=9.06128e-10; avRho=1.00007
    [getResults] pressure1=12.2139; pressure2=0.0435527; pressureDrop=12.1704
    [Timer] step=42330; percent=16.9997; passedTime=2911.95; remTime=14217.5; MLUPs=8.82052
    [LatticeStatistics] step=42330; t=1.69997e-05; uMax=0.000176455; avEnergy=1.21042e-09; avRho=1.00008
    [getResults] pressure1=13.9512; pressure2=0.0457036; pressureDrop=13.9055
    [Timer] step=44820; percent=17.9997; passedTime=3078.2; remTime=14023.2; MLUPs=8.82152
    [LatticeStatistics] step=44820; t=1.79997e-05; uMax=0.000201966; avEnergy=1.5752e-09; avRho=1.00009
    [getResults] pressure1=15.7435; pressure2=0.0474008; pressureDrop=15.6961
    [Timer] step=47310; percent=18.9997; passedTime=3244.4; remTime=13831.7; MLUPs=8.82338
    [LatticeStatistics] step=47310; t=1.89997e-05; uMax=0.000228384; avEnergy=2.00237e-09; avRho=1.0001
    [getResults] pressure1=17.5753; pressure2=0.0486111; pressureDrop=17.5267
    [Timer] step=49800; percent=19.9997; passedTime=3411.39; remTime=13645.8; MLUPs=8.78206
    [LatticeStatistics] step=49800; t=1.99997e-05; uMax=0.00025545; avEnergy=2.49188e-09; avRho=1.00011
    [getResults] pressure1=19.4301; pressure2=0.0493097; pressureDrop=19.3808
    [Timer] step=52290; percent=20.9997; passedTime=3577.62; remTime=13458.9; MLUPs=8.82243
    [LatticeStatistics] step=52290; t=2.09997e-05; uMax=0.000282898; avEnergy=3.04157e-09; avRho=1.00012
    [getResults] pressure1=21.2882; pressure2=0.0494893; pressureDrop=21.2387
    [Timer] step=54780; percent=21.9996; passedTime=3743.82; remTime=13273.8; MLUPs=8.82349
    [LatticeStatistics] step=54780; t=2.19996e-05; uMax=0.000310452; avEnergy=3.64701e-09; avRho=1.00014
    [getResults] pressure1=23.1286; pressure2=0.0491541; pressureDrop=23.0794
    [Timer] step=57270; percent=22.9996; passedTime=3910.02; remTime=13090.4; MLUPs=8.8237
    [LatticeStatistics] step=57270; t=2.29996e-05; uMax=0.000337838; avEnergy=4.3016e-09; avRho=1.00015
    [getResults] pressure1=24.9326; pressure2=0.0483099; pressureDrop=24.8843

    Best,
    Liliana.

    in reply to: Drag Coefficient (Cylinder 2D) #2402

    Dear Pedro Paulo,rnrnActually, the drag given by the code is already the drag coefficient (CD).rnrnBest,rnLiliana.

    in reply to: Drag Coefficient (Cylinder 2D) #2398

    Hi Pedro Paulo,rnrnas you can see, the drag coefficient is calculated by the force “”Fx””. Can you tell me which value you used to the force?rnrnBest,rnLiliana.

    in reply to: How to set a slip boundary. #2345

    Hi,rnrnyou can use the slip boundary condition in a similar way as you use a velocity or pressure boundary conditions.rnYou can set as “”addSlipBoundary”” on the material number you desire to have this type of BC.rnrnBest regards.

    in reply to: Change material number #2238

    Hi Mathias,rnrnwe fix it, now!rnrnThe problem was: I ran the case using 12 processors and the disturbing on the flow showed up near the outlets, but when I ran using 8 processors, the flow was not disturbed and the result was the exactly what we was expecting for.rnrnThanks a lot for the attention!rnrnBest regards,rnLiliana.

    in reply to: Change material number #2236

    Hello,rnrnI tried to change the material of the voxels located at the corners, but I was not able to do… I tried to change to inflow, outflow, bulk, but all the changes I did had no effects.rnrnBest wishes.

    in reply to: Bogus Distance #2189

    Hello Mathias,rnrnIt works now! Thanks a lot!rnrnBest wishes,rnLiliana.

    in reply to: Bogus Distance #2186

    Hi Mathias,rnrnThanks for the reply.rnrnCan I send the file to your email?rnrnBest wishes,rnLiliana.

    in reply to: Choosing a value for latticeU and charU #2181

    Hi Thomas,rnrnthank you so much for your answer!rnCertainly, it will help a lot in our simulations!rnrnWe are trying to understand the units and the inputs of the code in order to simulate an model that was used in experimental tests. So, we have all the physical parameters, such as the velocity and the size of the model.rnrnBest wishes,rnLiliana.

    in reply to: STL file #2173

    Hi Mathias,rnrnthanks for the reply.rnActually, I have a STL file and I used FreeCAD to open it. But I am not sure how can I set the boundary. I mean, how can I identify which one is wall, outlet, inlet, etc. I am really lost…rnrnThanks again for the attention!rnrnBest wishes,rnLiliana.

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