0s autopkgtest [23:22:50]: starting date and time: 2024-11-03 23:22:50+0000 0s autopkgtest [23:22:50]: git checkout: 6f3be7a8 Fix armhf LXD image generation for plucky 0s autopkgtest [23:22:50]: host juju-7f2275-prod-proposed-migration-environment-15; command line: /home/ubuntu/autopkgtest/runner/autopkgtest --output-dir /tmp/autopkgtest-work.uobc3h6q/out --timeout-copy=6000 --setup-commands /home/ubuntu/autopkgtest-cloud/worker-config-production/setup-canonical.sh --apt-pocket=proposed=src:mumps,src:openmpi --apt-upgrade mumps --timeout-short=300 --timeout-copy=20000 --timeout-build=20000 '--env=ADT_TEST_TRIGGERS=mumps/5.7.3-3 openmpi/5.0.5-3' -- ssh -s /home/ubuntu/autopkgtest/ssh-setup/nova -- --flavor autopkgtest --security-groups autopkgtest-juju-7f2275-prod-proposed-migration-environment-15@lcy02-37.secgroup --name adt-plucky-amd64-mumps-20241103-232250-juju-7f2275-prod-proposed-migration-environment-15-e99f5409-5726-43be-ae87-f7b0ea9386be --image adt/ubuntu-plucky-amd64-server --keyname testbed-juju-7f2275-prod-proposed-migration-environment-15 --net-id=net_prod-proposed-migration -e TERM=linux -e ''"'"'http_proxy=http://squid.internal:3128'"'"'' -e ''"'"'https_proxy=http://squid.internal:3128'"'"'' -e ''"'"'no_proxy=127.0.0.1,127.0.1.1,login.ubuntu.com,localhost,localdomain,novalocal,internal,archive.ubuntu.com,ports.ubuntu.com,security.ubuntu.com,ddebs.ubuntu.com,changelogs.ubuntu.com,keyserver.ubuntu.com,launchpadlibrarian.net,launchpadcontent.net,launchpad.net,10.24.0.0/24,keystone.ps5.canonical.com,objectstorage.prodstack5.canonical.com'"'"'' --mirror=http://ftpmaster.internal/ubuntu/ 42s autopkgtest [23:23:32]: testbed dpkg architecture: amd64 42s autopkgtest [23:23:32]: testbed apt version: 2.9.8 42s autopkgtest [23:23:32]: @@@@@@@@@@@@@@@@@@@@ test bed setup 42s Get:1 http://ftpmaster.internal/ubuntu plucky-proposed InRelease [73.9 kB] 43s Get:2 http://ftpmaster.internal/ubuntu plucky-proposed/multiverse Sources [31.2 kB] 43s Get:3 http://ftpmaster.internal/ubuntu plucky-proposed/main Sources [177 kB] 43s Get:4 http://ftpmaster.internal/ubuntu plucky-proposed/universe Sources [2268 kB] 43s Get:5 http://ftpmaster.internal/ubuntu plucky-proposed/restricted Sources [7016 B] 43s Get:6 http://ftpmaster.internal/ubuntu plucky-proposed/main amd64 Packages [238 kB] 43s Get:7 http://ftpmaster.internal/ubuntu plucky-proposed/main i386 Packages [165 kB] 43s Get:8 http://ftpmaster.internal/ubuntu plucky-proposed/restricted amd64 Packages [32.6 kB] 43s Get:9 http://ftpmaster.internal/ubuntu plucky-proposed/universe i386 Packages [833 kB] 43s Get:10 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 Packages [1715 kB] 43s Get:11 http://ftpmaster.internal/ubuntu plucky-proposed/multiverse i386 Packages [18.1 kB] 43s Get:12 http://ftpmaster.internal/ubuntu plucky-proposed/multiverse amd64 Packages [58.6 kB] 43s Fetched 5618 kB in 1s (9681 kB/s) 43s Reading package lists... 45s Reading package lists... 45s Building dependency tree... 45s Reading state information... 45s Calculating upgrade... 45s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded. 45s Reading package lists... 45s Building dependency tree... 45s Reading state information... 46s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded. 46s Hit:1 http://ftpmaster.internal/ubuntu plucky-proposed InRelease 46s Hit:2 http://ftpmaster.internal/ubuntu plucky InRelease 46s Hit:3 http://ftpmaster.internal/ubuntu plucky-updates InRelease 46s Hit:4 http://ftpmaster.internal/ubuntu plucky-security InRelease 47s Reading package lists... 47s Reading package lists... 47s Building dependency tree... 47s Reading state information... 48s Calculating upgrade... 48s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded. 48s Reading package lists... 48s Building dependency tree... 48s Reading state information... 48s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded. 49s autopkgtest [23:23:39]: testbed running kernel: Linux 6.11.0-8-generic #8-Ubuntu SMP PREEMPT_DYNAMIC Mon Sep 16 13:41:20 UTC 2024 49s autopkgtest [23:23:39]: @@@@@@@@@@@@@@@@@@@@ apt-source mumps 51s Get:1 http://ftpmaster.internal/ubuntu plucky-proposed/universe mumps 5.7.3-3 (dsc) [3449 B] 51s Get:2 http://ftpmaster.internal/ubuntu plucky-proposed/universe mumps 5.7.3-3 (tar) [4543 kB] 51s Get:3 http://ftpmaster.internal/ubuntu plucky-proposed/universe mumps 5.7.3-3 (diff) [22.6 kB] 51s gpgv: Signature made Thu Oct 31 13:17:51 2024 UTC 51s gpgv: using RSA key 1B5D04B1E507BBF03669E2B801F35FC33E73AF8C 51s gpgv: Can't check signature: No public key 51s dpkg-source: warning: cannot verify inline signature for ./mumps_5.7.3-3.dsc: no acceptable signature found 52s autopkgtest [23:23:42]: testing package mumps version 5.7.3-3 52s autopkgtest [23:23:42]: build not needed 52s autopkgtest [23:23:42]: test mumps-examples-serial: preparing testbed 53s Reading package lists... 53s Building dependency tree... 53s Reading state information... 53s Starting pkgProblemResolver with broken count: 0 53s Starting 2 pkgProblemResolver with broken count: 0 53s Done 54s The following additional packages will be installed: 54s autoconf automake autopoint autotools-dev build-essential cpp cpp-13 54s cpp-13-x86-64-linux-gnu cpp-14 cpp-14-x86-64-linux-gnu cpp-x86-64-linux-gnu 54s debhelper debugedit dh-autoreconf dh-strip-nondeterminism dwz g++ g++-14 54s g++-14-x86-64-linux-gnu g++-x86-64-linux-gnu gcc gcc-13 gcc-13-base 54s gcc-13-x86-64-linux-gnu gcc-14 gcc-14-x86-64-linux-gnu gcc-x86-64-linux-gnu 54s gettext gfortran gfortran-13 gfortran-13-x86-64-linux-gnu gfortran-14 54s gfortran-14-x86-64-linux-gnu gfortran-x86-64-linux-gnu intltool-debian 54s libamd-comgr2 libamdhip64-5 libarchive-zip-perl libasan8 libblas-dev 54s libblas3 libcc1-0 libdebhelper-perl libdrm-amdgpu1 libevent-2.1-7t64 54s libevent-dev libevent-extra-2.1-7t64 libevent-openssl-2.1-7t64 54s libevent-pthreads-2.1-7t64 libfabric1 libfile-stripnondeterminism-perl 54s libgcc-13-dev libgcc-14-dev libgfortran-13-dev libgfortran-14-dev 54s libgfortran5 libgomp1 libhsa-runtime64-1 libhsakmt1 libhwasan0 libhwloc-dev 54s libhwloc-plugins libhwloc15 libibmad5 libibumad3 libibverbs-dev libisl23 54s libitm1 libjs-jquery libjs-jquery-ui liblapack-dev liblapack3 libllvm17t64 54s liblsan0 libltdl-dev libltdl7 libmpc3 libmumps-5.7 libmumps-64pord-5.7 54s libmumps-64pord-ptscotch-5.7 libmumps-64pord-scotch-5.7 54s libmumps-64pord-seq-5.7 libmumps-dev libmumps-headers-dev 54s libmumps-ptscotch-5.7 libmumps-ptscotch-dev libmumps-scotch-5.7 54s libmumps-scotch-dev libmumps-seq-5.7 libmumps-seq-dev libmumps64-dev 54s libmumps64-ptscotch-dev libmumps64-scotch-dev libmumps64-seq-dev libmunge2 54s libnl-3-dev libnl-route-3-dev libnuma-dev libopenmpi-dev libopenmpi3t64 54s libpciaccess0 libpmix-dev libpmix2t64 libpsm-infinipath1 libpsm2-2 54s libptscotch-7.0 libptscotch-dev libquadmath0 librdmacm1t64 54s libscalapack-mpi-dev libscalapack-openmpi-dev libscalapack-openmpi2.2 54s libscotch-7.0 libscotch-dev libstdc++-14-dev libtool libtsan2 libubsan1 54s libucx0 libxnvctrl0 m4 mpi-default-bin mpi-default-dev mumps-test 54s ocl-icd-libopencl1 openmpi-bin openmpi-common po-debconf zlib1g-dev 54s Suggested packages: 54s autoconf-archive gnu-standards autoconf-doc cpp-doc gcc-13-locales 54s cpp-13-doc gcc-14-locales cpp-14-doc dh-make g++-multilib g++-14-multilib 54s gcc-14-doc gcc-multilib manpages-dev flex bison gdb gcc-doc gcc-13-multilib 54s gcc-13-doc gcc-14-multilib gdb-x86-64-linux-gnu gettext-doc libasprintf-dev 54s libgettextpo-dev gfortran-multilib gfortran-doc gfortran-13-multilib 54s gfortran-13-doc libcoarrays-dev gfortran-14-multilib gfortran-14-doc 54s liblapack-doc libhwloc-contrib-plugins libjs-jquery-ui-docs libtool-doc 54s openmpi-doc scalapack-doc libstdc++-14-doc gcj-jdk m4-doc opencl-icd 54s libmail-box-perl 54s Recommended packages: 54s libarchive-cpio-perl javascript-common libcoarrays-openmpi-dev 54s libmail-sendmail-perl 54s The following NEW packages will be installed: 54s autoconf automake autopkgtest-satdep autopoint autotools-dev build-essential 54s cpp cpp-13 cpp-13-x86-64-linux-gnu cpp-14 cpp-14-x86-64-linux-gnu 54s cpp-x86-64-linux-gnu debhelper debugedit dh-autoreconf 54s dh-strip-nondeterminism dwz g++ g++-14 g++-14-x86-64-linux-gnu 54s g++-x86-64-linux-gnu gcc gcc-13 gcc-13-base gcc-13-x86-64-linux-gnu gcc-14 54s gcc-14-x86-64-linux-gnu gcc-x86-64-linux-gnu gettext gfortran gfortran-13 54s gfortran-13-x86-64-linux-gnu gfortran-14 gfortran-14-x86-64-linux-gnu 54s gfortran-x86-64-linux-gnu intltool-debian libamd-comgr2 libamdhip64-5 54s libarchive-zip-perl libasan8 libblas-dev libblas3 libcc1-0 libdebhelper-perl 54s libdrm-amdgpu1 libevent-2.1-7t64 libevent-dev libevent-extra-2.1-7t64 54s libevent-openssl-2.1-7t64 libevent-pthreads-2.1-7t64 libfabric1 54s libfile-stripnondeterminism-perl libgcc-13-dev libgcc-14-dev 54s libgfortran-13-dev libgfortran-14-dev libgfortran5 libgomp1 54s libhsa-runtime64-1 libhsakmt1 libhwasan0 libhwloc-dev libhwloc-plugins 54s libhwloc15 libibmad5 libibumad3 libibverbs-dev libisl23 libitm1 libjs-jquery 54s libjs-jquery-ui liblapack-dev liblapack3 libllvm17t64 liblsan0 libltdl-dev 54s libltdl7 libmpc3 libmumps-5.7 libmumps-64pord-5.7 54s libmumps-64pord-ptscotch-5.7 libmumps-64pord-scotch-5.7 54s libmumps-64pord-seq-5.7 libmumps-dev libmumps-headers-dev 54s libmumps-ptscotch-5.7 libmumps-ptscotch-dev libmumps-scotch-5.7 54s libmumps-scotch-dev libmumps-seq-5.7 libmumps-seq-dev libmumps64-dev 54s libmumps64-ptscotch-dev libmumps64-scotch-dev libmumps64-seq-dev libmunge2 54s libnl-3-dev libnl-route-3-dev libnuma-dev libopenmpi-dev libopenmpi3t64 54s libpciaccess0 libpmix-dev libpmix2t64 libpsm-infinipath1 libpsm2-2 54s libptscotch-7.0 libptscotch-dev libquadmath0 librdmacm1t64 54s libscalapack-mpi-dev libscalapack-openmpi-dev libscalapack-openmpi2.2 54s libscotch-7.0 libscotch-dev libstdc++-14-dev libtool libtsan2 libubsan1 54s libucx0 libxnvctrl0 m4 mpi-default-bin mpi-default-dev mumps-test 54s ocl-icd-libopencl1 openmpi-bin openmpi-common po-debconf zlib1g-dev 54s 0 upgraded, 130 newly installed, 0 to remove and 0 not upgraded. 54s Need to get 247 MB/247 MB of archives. 54s After this operation, 969 MB of additional disk space will be used. 54s Get:1 /tmp/autopkgtest.6QbVo5/1-autopkgtest-satdep.deb autopkgtest-satdep amd64 0 [912 B] 54s Get:2 http://ftpmaster.internal/ubuntu plucky/main amd64 m4 amd64 1.4.19-4build1 [244 kB] 54s Get:3 http://ftpmaster.internal/ubuntu plucky/main amd64 autoconf all 2.72-3 [382 kB] 54s Get:4 http://ftpmaster.internal/ubuntu plucky/main amd64 autotools-dev all 20220109.1 [44.9 kB] 54s Get:5 http://ftpmaster.internal/ubuntu plucky/main amd64 automake all 1:1.16.5-1.3ubuntu1 [558 kB] 54s Get:6 http://ftpmaster.internal/ubuntu plucky/main amd64 autopoint all 0.22.5-2 [616 kB] 54s Get:7 http://ftpmaster.internal/ubuntu plucky/main amd64 libisl23 amd64 0.27-1 [685 kB] 54s Get:8 http://ftpmaster.internal/ubuntu plucky/main amd64 libmpc3 amd64 1.3.1-1build2 [55.3 kB] 54s Get:9 http://ftpmaster.internal/ubuntu plucky/main amd64 cpp-14-x86-64-linux-gnu amd64 14.2.0-7ubuntu1 [11.9 MB] 54s Get:10 http://ftpmaster.internal/ubuntu plucky/main amd64 cpp-14 amd64 14.2.0-7ubuntu1 [1026 B] 54s Get:11 http://ftpmaster.internal/ubuntu plucky/main amd64 cpp-x86-64-linux-gnu amd64 4:14.1.0-2ubuntu1 [5452 B] 54s Get:12 http://ftpmaster.internal/ubuntu plucky/main amd64 cpp amd64 4:14.1.0-2ubuntu1 [22.4 kB] 54s Get:13 http://ftpmaster.internal/ubuntu plucky/main amd64 libcc1-0 amd64 14.2.0-7ubuntu1 [47.6 kB] 54s Get:14 http://ftpmaster.internal/ubuntu plucky/main amd64 libgomp1 amd64 14.2.0-7ubuntu1 [148 kB] 54s Get:15 http://ftpmaster.internal/ubuntu plucky/main amd64 libitm1 amd64 14.2.0-7ubuntu1 [29.1 kB] 54s Get:16 http://ftpmaster.internal/ubuntu plucky/main amd64 libasan8 amd64 14.2.0-7ubuntu1 [2998 kB] 54s Get:17 http://ftpmaster.internal/ubuntu plucky/main amd64 liblsan0 amd64 14.2.0-7ubuntu1 [1316 kB] 54s Get:18 http://ftpmaster.internal/ubuntu plucky/main amd64 libtsan2 amd64 14.2.0-7ubuntu1 [2733 kB] 54s Get:19 http://ftpmaster.internal/ubuntu plucky/main amd64 libubsan1 amd64 14.2.0-7ubuntu1 [1177 kB] 54s Get:20 http://ftpmaster.internal/ubuntu plucky/main amd64 libhwasan0 amd64 14.2.0-7ubuntu1 [1634 kB] 54s Get:21 http://ftpmaster.internal/ubuntu plucky/main amd64 libquadmath0 amd64 14.2.0-7ubuntu1 [153 kB] 54s Get:22 http://ftpmaster.internal/ubuntu plucky/main amd64 libgcc-14-dev amd64 14.2.0-7ubuntu1 [2814 kB] 54s Get:23 http://ftpmaster.internal/ubuntu plucky/main amd64 gcc-14-x86-64-linux-gnu amd64 14.2.0-7ubuntu1 [23.4 MB] 54s Get:24 http://ftpmaster.internal/ubuntu plucky/main amd64 gcc-14 amd64 14.2.0-7ubuntu1 [526 kB] 54s Get:25 http://ftpmaster.internal/ubuntu plucky/main amd64 gcc-x86-64-linux-gnu amd64 4:14.1.0-2ubuntu1 [1214 B] 54s Get:26 http://ftpmaster.internal/ubuntu plucky/main amd64 gcc amd64 4:14.1.0-2ubuntu1 [5000 B] 54s Get:27 http://ftpmaster.internal/ubuntu plucky/main amd64 libstdc++-14-dev amd64 14.2.0-7ubuntu1 [2503 kB] 54s Get:28 http://ftpmaster.internal/ubuntu plucky/main amd64 g++-14-x86-64-linux-gnu amd64 14.2.0-7ubuntu1 [13.4 MB] 55s Get:29 http://ftpmaster.internal/ubuntu plucky/main amd64 g++-14 amd64 14.2.0-7ubuntu1 [19.8 kB] 55s Get:30 http://ftpmaster.internal/ubuntu plucky/main amd64 g++-x86-64-linux-gnu amd64 4:14.1.0-2ubuntu1 [966 B] 55s Get:31 http://ftpmaster.internal/ubuntu plucky/main amd64 g++ amd64 4:14.1.0-2ubuntu1 [1100 B] 55s Get:32 http://ftpmaster.internal/ubuntu plucky/main amd64 build-essential amd64 12.10ubuntu1 [4928 B] 55s Get:33 http://ftpmaster.internal/ubuntu plucky/universe amd64 gcc-13-base amd64 13.3.0-6ubuntu2 [51.4 kB] 55s Get:34 http://ftpmaster.internal/ubuntu plucky/universe amd64 cpp-13-x86-64-linux-gnu amd64 13.3.0-6ubuntu2 [10.7 MB] 55s Get:35 http://ftpmaster.internal/ubuntu plucky/universe amd64 cpp-13 amd64 13.3.0-6ubuntu2 [1030 B] 55s Get:36 http://ftpmaster.internal/ubuntu plucky/main amd64 libdebhelper-perl all 13.20ubuntu1 [94.2 kB] 55s Get:37 http://ftpmaster.internal/ubuntu plucky/universe amd64 libgcc-13-dev amd64 13.3.0-6ubuntu2 [2673 kB] 55s Get:38 http://ftpmaster.internal/ubuntu plucky/universe amd64 gcc-13-x86-64-linux-gnu amd64 13.3.0-6ubuntu2 [21.0 MB] 55s Get:39 http://ftpmaster.internal/ubuntu plucky/universe amd64 gcc-13 amd64 13.3.0-6ubuntu2 [494 kB] 55s Get:40 http://ftpmaster.internal/ubuntu plucky/main amd64 libtool all 2.4.7-7build1 [166 kB] 55s Get:41 http://ftpmaster.internal/ubuntu plucky/main amd64 dh-autoreconf all 20 [16.1 kB] 55s Get:42 http://ftpmaster.internal/ubuntu plucky/main amd64 libarchive-zip-perl all 1.68-1 [90.2 kB] 55s Get:43 http://ftpmaster.internal/ubuntu plucky/main amd64 libfile-stripnondeterminism-perl all 1.14.0-1 [20.1 kB] 55s Get:44 http://ftpmaster.internal/ubuntu plucky/main amd64 dh-strip-nondeterminism all 1.14.0-1 [5058 B] 55s Get:45 http://ftpmaster.internal/ubuntu plucky/main amd64 debugedit amd64 1:5.1-1 [46.9 kB] 55s Get:46 http://ftpmaster.internal/ubuntu plucky/main amd64 dwz amd64 0.15-1build6 [115 kB] 55s Get:47 http://ftpmaster.internal/ubuntu plucky/main amd64 gettext amd64 0.22.5-2 [948 kB] 55s Get:48 http://ftpmaster.internal/ubuntu plucky/main amd64 intltool-debian all 0.35.0+20060710.6 [23.2 kB] 55s Get:49 http://ftpmaster.internal/ubuntu plucky/main amd64 po-debconf all 1.0.21+nmu1 [233 kB] 55s Get:50 http://ftpmaster.internal/ubuntu plucky/main amd64 debhelper all 13.20ubuntu1 [893 kB] 55s Get:51 http://ftpmaster.internal/ubuntu plucky/main amd64 libgfortran5 amd64 14.2.0-7ubuntu1 [909 kB] 55s Get:52 http://ftpmaster.internal/ubuntu plucky/main amd64 libgfortran-14-dev amd64 14.2.0-7ubuntu1 [965 kB] 55s Get:53 http://ftpmaster.internal/ubuntu plucky/main amd64 gfortran-14-x86-64-linux-gnu amd64 14.2.0-7ubuntu1 [12.6 MB] 55s Get:54 http://ftpmaster.internal/ubuntu plucky/main amd64 gfortran-14 amd64 14.2.0-7ubuntu1 [11.6 kB] 55s Get:55 http://ftpmaster.internal/ubuntu plucky/main amd64 gfortran-x86-64-linux-gnu amd64 4:14.1.0-2ubuntu1 [1022 B] 55s Get:56 http://ftpmaster.internal/ubuntu plucky/main amd64 gfortran amd64 4:14.1.0-2ubuntu1 [1172 B] 55s Get:57 http://ftpmaster.internal/ubuntu plucky/universe amd64 libgfortran-13-dev amd64 13.3.0-6ubuntu2 [927 kB] 55s Get:58 http://ftpmaster.internal/ubuntu plucky/universe amd64 gfortran-13-x86-64-linux-gnu amd64 13.3.0-6ubuntu2 [11.4 MB] 55s Get:59 http://ftpmaster.internal/ubuntu plucky/universe amd64 gfortran-13 amd64 13.3.0-6ubuntu2 [13.9 kB] 55s Get:60 http://ftpmaster.internal/ubuntu plucky/universe amd64 libllvm17t64 amd64 1:17.0.6-18 [26.0 MB] 55s Get:61 http://ftpmaster.internal/ubuntu plucky/universe amd64 libamd-comgr2 amd64 6.0+git20231212.4510c28+dfsg-3build2 [14.4 MB] 55s Get:62 http://ftpmaster.internal/ubuntu plucky/main amd64 libdrm-amdgpu1 amd64 2.4.122-1 [20.9 kB] 55s Get:63 http://ftpmaster.internal/ubuntu plucky/universe amd64 libhsakmt1 amd64 5.7.0-1build1 [62.9 kB] 55s Get:64 http://ftpmaster.internal/ubuntu plucky/universe amd64 libhsa-runtime64-1 amd64 5.7.1-2build1 [491 kB] 55s Get:65 http://ftpmaster.internal/ubuntu plucky/universe amd64 libamdhip64-5 amd64 5.7.1-4build1 [9627 kB] 55s Get:66 http://ftpmaster.internal/ubuntu plucky/main amd64 libblas3 amd64 3.12.0-3build2 [247 kB] 55s Get:67 http://ftpmaster.internal/ubuntu plucky/main amd64 libblas-dev amd64 3.12.0-3build2 [172 kB] 55s Get:68 http://ftpmaster.internal/ubuntu plucky/main amd64 libevent-2.1-7t64 amd64 2.1.12-stable-10 [144 kB] 55s Get:69 http://ftpmaster.internal/ubuntu plucky/main amd64 libevent-extra-2.1-7t64 amd64 2.1.12-stable-10 [64.2 kB] 55s Get:70 http://ftpmaster.internal/ubuntu plucky/main amd64 libevent-pthreads-2.1-7t64 amd64 2.1.12-stable-10 [7966 B] 55s Get:71 http://ftpmaster.internal/ubuntu plucky/main amd64 libevent-openssl-2.1-7t64 amd64 2.1.12-stable-10 [15.7 kB] 55s Get:72 http://ftpmaster.internal/ubuntu plucky/main amd64 libevent-dev amd64 2.1.12-stable-10 [274 kB] 55s Get:73 http://ftpmaster.internal/ubuntu plucky/universe amd64 libpsm-infinipath1 amd64 3.3+20.604758e7-6.3build1 [178 kB] 55s Get:74 http://ftpmaster.internal/ubuntu plucky/universe amd64 libpsm2-2 amd64 11.2.185-2.1 [193 kB] 55s Get:75 http://ftpmaster.internal/ubuntu plucky/main amd64 librdmacm1t64 amd64 52.0-2ubuntu1 [70.8 kB] 55s Get:76 http://ftpmaster.internal/ubuntu plucky/universe amd64 libfabric1 amd64 1.17.0-3ubuntu1 [658 kB] 55s Get:77 http://ftpmaster.internal/ubuntu plucky/universe amd64 libhwloc15 amd64 2.11.0-2 [173 kB] 55s Get:78 http://ftpmaster.internal/ubuntu plucky/main amd64 libjs-jquery all 3.6.1+dfsg+~3.5.14-1 [328 kB] 55s Get:79 http://ftpmaster.internal/ubuntu plucky/universe amd64 libjs-jquery-ui all 1.13.2+dfsg-1 [252 kB] 55s Get:80 http://ftpmaster.internal/ubuntu plucky/main amd64 liblapack3 amd64 3.12.0-3build2 [2668 kB] 55s Get:81 http://ftpmaster.internal/ubuntu plucky/main amd64 liblapack-dev amd64 3.12.0-3build2 [5249 kB] 55s Get:82 http://ftpmaster.internal/ubuntu plucky/main amd64 libltdl7 amd64 2.4.7-7build1 [40.3 kB] 55s Get:83 http://ftpmaster.internal/ubuntu plucky/main amd64 libltdl-dev amd64 2.4.7-7build1 [168 kB] 55s Get:84 http://ftpmaster.internal/ubuntu plucky/universe amd64 libmunge2 amd64 0.5.15-4build1 [14.7 kB] 55s Get:85 http://ftpmaster.internal/ubuntu plucky/main amd64 libpciaccess0 amd64 0.17-3build1 [18.6 kB] 55s Get:86 http://ftpmaster.internal/ubuntu plucky/main amd64 libxnvctrl0 amd64 510.47.03-0ubuntu4 [12.6 kB] 55s Get:87 http://ftpmaster.internal/ubuntu plucky/universe amd64 ocl-icd-libopencl1 amd64 2.3.2-1build1 [38.5 kB] 55s Get:88 http://ftpmaster.internal/ubuntu plucky/universe amd64 libhwloc-plugins amd64 2.11.0-2 [15.7 kB] 55s Get:89 http://ftpmaster.internal/ubuntu plucky/universe amd64 libpmix2t64 amd64 5.0.3-2 [697 kB] 55s Get:90 http://ftpmaster.internal/ubuntu plucky/main amd64 libibumad3 amd64 52.0-2ubuntu1 [29.0 kB] 55s Get:91 http://ftpmaster.internal/ubuntu plucky/main amd64 libibmad5 amd64 52.0-2ubuntu1 [42.6 kB] 55s Get:92 http://ftpmaster.internal/ubuntu plucky/universe amd64 libucx0 amd64 1.17.0+ds-3build1 [1162 kB] 55s Get:93 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libopenmpi3t64 amd64 5.0.5-3 [2091 kB] 55s Get:94 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 openmpi-common all 5.0.5-3 [95.6 kB] 55s Get:95 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 openmpi-bin amd64 5.0.5-3 [149 kB] 55s Get:96 http://ftpmaster.internal/ubuntu plucky/universe amd64 mpi-default-bin amd64 1.17 [2296 B] 55s Get:97 http://ftpmaster.internal/ubuntu plucky/universe amd64 libscalapack-openmpi2.2 amd64 2.2.1-3.1ubuntu2 [1758 kB] 55s Get:98 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-5.7 amd64 5.7.3-3 [2264 kB] 55s Get:99 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-64pord-5.7 amd64 5.7.3-3 [2262 kB] 55s Get:100 http://ftpmaster.internal/ubuntu plucky/universe amd64 libptscotch-7.0 amd64 7.0.5-1ubuntu1 [681 kB] 55s Get:101 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-64pord-ptscotch-5.7 amd64 5.7.3-3 [2284 kB] 55s Get:102 http://ftpmaster.internal/ubuntu plucky/universe amd64 libscotch-7.0 amd64 7.0.5-1ubuntu1 [449 kB] 55s Get:103 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-64pord-scotch-5.7 amd64 5.7.3-3 [2302 kB] 55s Get:104 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-64pord-seq-5.7 amd64 5.7.3-3 [2302 kB] 56s Get:105 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-headers-dev all 5.7.3-3 [21.8 kB] 56s Get:106 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-ptscotch-5.7 amd64 5.7.3-3 [2286 kB] 56s Get:107 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-scotch-5.7 amd64 5.7.3-3 [2304 kB] 56s Get:108 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-seq-5.7 amd64 5.7.3-3 [2304 kB] 56s Get:109 http://ftpmaster.internal/ubuntu plucky/universe amd64 libscalapack-openmpi-dev amd64 2.2.1-3.1ubuntu2 [7504 B] 56s Get:110 http://ftpmaster.internal/ubuntu plucky/main amd64 libnl-3-dev amd64 3.7.0-0.3build2 [99.9 kB] 56s Get:111 http://ftpmaster.internal/ubuntu plucky/main amd64 libnl-route-3-dev amd64 3.7.0-0.3build2 [216 kB] 56s Get:112 http://ftpmaster.internal/ubuntu plucky/main amd64 libibverbs-dev amd64 52.0-2ubuntu1 [682 kB] 56s Get:113 http://ftpmaster.internal/ubuntu plucky/main amd64 libnuma-dev amd64 2.0.18-1build1 [37.0 kB] 56s Get:114 http://ftpmaster.internal/ubuntu plucky/universe amd64 libhwloc-dev amd64 2.11.0-2 [269 kB] 56s Get:115 http://ftpmaster.internal/ubuntu plucky/main amd64 zlib1g-dev amd64 1:1.3.dfsg+really1.3.1-1ubuntu1 [895 kB] 56s Get:116 http://ftpmaster.internal/ubuntu plucky/universe amd64 libpmix-dev amd64 5.0.3-2 [4042 kB] 56s Get:117 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libopenmpi-dev amd64 5.0.5-3 [1085 kB] 56s Get:118 http://ftpmaster.internal/ubuntu plucky/universe amd64 mpi-default-dev amd64 1.17 [3106 B] 56s Get:119 http://ftpmaster.internal/ubuntu plucky/universe amd64 libscalapack-mpi-dev amd64 2.2.1-3.1ubuntu2 [2324 B] 56s Get:120 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps64-dev amd64 5.7.3-3 [2208 kB] 56s Get:121 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps64-ptscotch-dev amd64 5.7.3-3 [2243 kB] 56s Get:122 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps64-scotch-dev amd64 5.7.3-3 [2224 kB] 56s Get:123 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps64-seq-dev amd64 5.7.3-3 [2224 kB] 56s Get:124 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-dev amd64 5.7.3-3 [2210 kB] 56s Get:125 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-seq-dev amd64 5.7.3-3 [2226 kB] 56s Get:126 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-scotch-dev amd64 5.7.3-3 [2224 kB] 56s Get:127 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 libmumps-ptscotch-dev amd64 5.7.3-3 [2246 kB] 56s Get:128 http://ftpmaster.internal/ubuntu plucky-proposed/universe amd64 mumps-test amd64 5.7.3-3 [17.4 kB] 56s Get:129 http://ftpmaster.internal/ubuntu plucky/universe amd64 libscotch-dev amd64 7.0.5-1ubuntu1 [1607 kB] 56s Get:130 http://ftpmaster.internal/ubuntu plucky/universe amd64 libptscotch-dev amd64 7.0.5-1ubuntu1 [1382 kB] 56s Fetched 247 MB in 2s (128 MB/s) 56s Selecting previously unselected package m4. 57s (Reading database ... (Reading database ... 5% (Reading database ... 10% (Reading database ... 15% (Reading database ... 20% (Reading database ... 25% (Reading database ... 30% (Reading database ... 35% (Reading database ... 40% (Reading database ... 45% (Reading database ... 50% (Reading database ... 55% (Reading database ... 60% (Reading database ... 65% (Reading database ... 70% (Reading database ... 75% (Reading database ... 80% (Reading database ... 85% (Reading database ... 90% (Reading database ... 95% (Reading database ... 100% (Reading database ... 75323 files and directories currently installed.) 57s Preparing to unpack .../000-m4_1.4.19-4build1_amd64.deb ... 57s Unpacking m4 (1.4.19-4build1) ... 57s Selecting previously unselected package autoconf. 57s Preparing to unpack .../001-autoconf_2.72-3_all.deb ... 57s Unpacking autoconf (2.72-3) ... 57s Selecting previously unselected package autotools-dev. 57s Preparing to unpack .../002-autotools-dev_20220109.1_all.deb ... 57s Unpacking autotools-dev (20220109.1) ... 57s Selecting previously unselected package automake. 57s Preparing to unpack .../003-automake_1%3a1.16.5-1.3ubuntu1_all.deb ... 57s Unpacking automake (1:1.16.5-1.3ubuntu1) ... 57s Selecting previously unselected package autopoint. 57s Preparing to unpack .../004-autopoint_0.22.5-2_all.deb ... 57s Unpacking autopoint (0.22.5-2) ... 57s Selecting previously unselected package libisl23:amd64. 57s Preparing to unpack .../005-libisl23_0.27-1_amd64.deb ... 57s Unpacking libisl23:amd64 (0.27-1) ... 57s Selecting previously unselected package libmpc3:amd64. 57s Preparing to unpack .../006-libmpc3_1.3.1-1build2_amd64.deb ... 57s Unpacking libmpc3:amd64 (1.3.1-1build2) ... 57s Selecting previously unselected package cpp-14-x86-64-linux-gnu. 57s Preparing to unpack .../007-cpp-14-x86-64-linux-gnu_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking cpp-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package cpp-14. 57s Preparing to unpack .../008-cpp-14_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking cpp-14 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package cpp-x86-64-linux-gnu. 57s Preparing to unpack .../009-cpp-x86-64-linux-gnu_4%3a14.1.0-2ubuntu1_amd64.deb ... 57s Unpacking cpp-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 57s Selecting previously unselected package cpp. 57s Preparing to unpack .../010-cpp_4%3a14.1.0-2ubuntu1_amd64.deb ... 57s Unpacking cpp (4:14.1.0-2ubuntu1) ... 57s Selecting previously unselected package libcc1-0:amd64. 57s Preparing to unpack .../011-libcc1-0_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libcc1-0:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libgomp1:amd64. 57s Preparing to unpack .../012-libgomp1_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libgomp1:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libitm1:amd64. 57s Preparing to unpack .../013-libitm1_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libitm1:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libasan8:amd64. 57s Preparing to unpack .../014-libasan8_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libasan8:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package liblsan0:amd64. 57s Preparing to unpack .../015-liblsan0_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking liblsan0:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libtsan2:amd64. 57s Preparing to unpack .../016-libtsan2_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libtsan2:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libubsan1:amd64. 57s Preparing to unpack .../017-libubsan1_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libubsan1:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libhwasan0:amd64. 57s Preparing to unpack .../018-libhwasan0_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libhwasan0:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libquadmath0:amd64. 57s Preparing to unpack .../019-libquadmath0_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libquadmath0:amd64 (14.2.0-7ubuntu1) ... 57s Selecting previously unselected package libgcc-14-dev:amd64. 57s Preparing to unpack .../020-libgcc-14-dev_14.2.0-7ubuntu1_amd64.deb ... 57s Unpacking libgcc-14-dev:amd64 (14.2.0-7ubuntu1) ... 58s Selecting previously unselected package gcc-14-x86-64-linux-gnu. 58s Preparing to unpack .../021-gcc-14-x86-64-linux-gnu_14.2.0-7ubuntu1_amd64.deb ... 58s Unpacking gcc-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 58s Selecting previously unselected package gcc-14. 58s Preparing to unpack .../022-gcc-14_14.2.0-7ubuntu1_amd64.deb ... 58s Unpacking gcc-14 (14.2.0-7ubuntu1) ... 58s Selecting previously unselected package gcc-x86-64-linux-gnu. 58s Preparing to unpack .../023-gcc-x86-64-linux-gnu_4%3a14.1.0-2ubuntu1_amd64.deb ... 58s Unpacking gcc-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 58s Selecting previously unselected package gcc. 58s Preparing to unpack .../024-gcc_4%3a14.1.0-2ubuntu1_amd64.deb ... 58s Unpacking gcc (4:14.1.0-2ubuntu1) ... 58s Selecting previously unselected package libstdc++-14-dev:amd64. 58s Preparing to unpack .../025-libstdc++-14-dev_14.2.0-7ubuntu1_amd64.deb ... 58s Unpacking libstdc++-14-dev:amd64 (14.2.0-7ubuntu1) ... 58s Selecting previously unselected package g++-14-x86-64-linux-gnu. 58s Preparing to unpack .../026-g++-14-x86-64-linux-gnu_14.2.0-7ubuntu1_amd64.deb ... 58s Unpacking g++-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 58s Selecting previously unselected package g++-14. 58s Preparing to unpack .../027-g++-14_14.2.0-7ubuntu1_amd64.deb ... 58s Unpacking g++-14 (14.2.0-7ubuntu1) ... 58s Selecting previously unselected package g++-x86-64-linux-gnu. 58s Preparing to unpack .../028-g++-x86-64-linux-gnu_4%3a14.1.0-2ubuntu1_amd64.deb ... 58s Unpacking g++-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 58s Selecting previously unselected package g++. 58s Preparing to unpack .../029-g++_4%3a14.1.0-2ubuntu1_amd64.deb ... 58s Unpacking g++ (4:14.1.0-2ubuntu1) ... 58s Selecting previously unselected package build-essential. 58s Preparing to unpack .../030-build-essential_12.10ubuntu1_amd64.deb ... 58s Unpacking build-essential (12.10ubuntu1) ... 58s Selecting previously unselected package gcc-13-base:amd64. 58s Preparing to unpack .../031-gcc-13-base_13.3.0-6ubuntu2_amd64.deb ... 58s Unpacking gcc-13-base:amd64 (13.3.0-6ubuntu2) ... 58s Selecting previously unselected package cpp-13-x86-64-linux-gnu. 58s Preparing to unpack .../032-cpp-13-x86-64-linux-gnu_13.3.0-6ubuntu2_amd64.deb ... 58s Unpacking cpp-13-x86-64-linux-gnu (13.3.0-6ubuntu2) ... 59s Selecting previously unselected package cpp-13. 59s Preparing to unpack .../033-cpp-13_13.3.0-6ubuntu2_amd64.deb ... 59s Unpacking cpp-13 (13.3.0-6ubuntu2) ... 59s Selecting previously unselected package libdebhelper-perl. 59s Preparing to unpack .../034-libdebhelper-perl_13.20ubuntu1_all.deb ... 59s Unpacking libdebhelper-perl (13.20ubuntu1) ... 59s Selecting previously unselected package libgcc-13-dev:amd64. 59s Preparing to unpack .../035-libgcc-13-dev_13.3.0-6ubuntu2_amd64.deb ... 59s Unpacking libgcc-13-dev:amd64 (13.3.0-6ubuntu2) ... 59s Selecting previously unselected package gcc-13-x86-64-linux-gnu. 59s Preparing to unpack .../036-gcc-13-x86-64-linux-gnu_13.3.0-6ubuntu2_amd64.deb ... 59s Unpacking gcc-13-x86-64-linux-gnu (13.3.0-6ubuntu2) ... 59s Selecting previously unselected package gcc-13. 59s Preparing to unpack .../037-gcc-13_13.3.0-6ubuntu2_amd64.deb ... 59s Unpacking gcc-13 (13.3.0-6ubuntu2) ... 59s Selecting previously unselected package libtool. 59s Preparing to unpack .../038-libtool_2.4.7-7build1_all.deb ... 59s Unpacking libtool (2.4.7-7build1) ... 59s Selecting previously unselected package dh-autoreconf. 59s Preparing to unpack .../039-dh-autoreconf_20_all.deb ... 59s Unpacking dh-autoreconf (20) ... 59s Selecting previously unselected package libarchive-zip-perl. 59s Preparing to unpack .../040-libarchive-zip-perl_1.68-1_all.deb ... 59s Unpacking libarchive-zip-perl (1.68-1) ... 59s Selecting previously unselected package libfile-stripnondeterminism-perl. 59s Preparing to unpack .../041-libfile-stripnondeterminism-perl_1.14.0-1_all.deb ... 59s Unpacking libfile-stripnondeterminism-perl (1.14.0-1) ... 59s Selecting previously unselected package dh-strip-nondeterminism. 59s Preparing to unpack .../042-dh-strip-nondeterminism_1.14.0-1_all.deb ... 59s Unpacking dh-strip-nondeterminism (1.14.0-1) ... 59s Selecting previously unselected package debugedit. 59s Preparing to unpack .../043-debugedit_1%3a5.1-1_amd64.deb ... 59s Unpacking debugedit (1:5.1-1) ... 59s Selecting previously unselected package dwz. 59s Preparing to unpack .../044-dwz_0.15-1build6_amd64.deb ... 59s Unpacking dwz (0.15-1build6) ... 59s Selecting previously unselected package gettext. 59s Preparing to unpack .../045-gettext_0.22.5-2_amd64.deb ... 59s Unpacking gettext (0.22.5-2) ... 60s Selecting previously unselected package intltool-debian. 60s Preparing to unpack .../046-intltool-debian_0.35.0+20060710.6_all.deb ... 60s Unpacking intltool-debian (0.35.0+20060710.6) ... 60s Selecting previously unselected package po-debconf. 60s Preparing to unpack .../047-po-debconf_1.0.21+nmu1_all.deb ... 60s Unpacking po-debconf (1.0.21+nmu1) ... 60s Selecting previously unselected package debhelper. 60s Preparing to unpack .../048-debhelper_13.20ubuntu1_all.deb ... 60s Unpacking debhelper (13.20ubuntu1) ... 60s Selecting previously unselected package libgfortran5:amd64. 60s Preparing to unpack .../049-libgfortran5_14.2.0-7ubuntu1_amd64.deb ... 60s Unpacking libgfortran5:amd64 (14.2.0-7ubuntu1) ... 60s Selecting previously unselected package libgfortran-14-dev:amd64. 60s Preparing to unpack .../050-libgfortran-14-dev_14.2.0-7ubuntu1_amd64.deb ... 60s Unpacking libgfortran-14-dev:amd64 (14.2.0-7ubuntu1) ... 60s Selecting previously unselected package gfortran-14-x86-64-linux-gnu. 60s Preparing to unpack .../051-gfortran-14-x86-64-linux-gnu_14.2.0-7ubuntu1_amd64.deb ... 60s Unpacking gfortran-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 60s Selecting previously unselected package gfortran-14. 60s Preparing to unpack .../052-gfortran-14_14.2.0-7ubuntu1_amd64.deb ... 60s Unpacking gfortran-14 (14.2.0-7ubuntu1) ... 60s Selecting previously unselected package gfortran-x86-64-linux-gnu. 60s Preparing to unpack .../053-gfortran-x86-64-linux-gnu_4%3a14.1.0-2ubuntu1_amd64.deb ... 60s Unpacking gfortran-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 60s Selecting previously unselected package gfortran. 60s Preparing to unpack .../054-gfortran_4%3a14.1.0-2ubuntu1_amd64.deb ... 60s Unpacking gfortran (4:14.1.0-2ubuntu1) ... 60s Selecting previously unselected package libgfortran-13-dev:amd64. 60s Preparing to unpack .../055-libgfortran-13-dev_13.3.0-6ubuntu2_amd64.deb ... 60s Unpacking libgfortran-13-dev:amd64 (13.3.0-6ubuntu2) ... 60s Selecting previously unselected package gfortran-13-x86-64-linux-gnu. 60s Preparing to unpack .../056-gfortran-13-x86-64-linux-gnu_13.3.0-6ubuntu2_amd64.deb ... 60s Unpacking gfortran-13-x86-64-linux-gnu (13.3.0-6ubuntu2) ... 60s Selecting previously unselected package gfortran-13. 60s Preparing to unpack .../057-gfortran-13_13.3.0-6ubuntu2_amd64.deb ... 60s Unpacking gfortran-13 (13.3.0-6ubuntu2) ... 60s Selecting previously unselected package libllvm17t64:amd64. 60s Preparing to unpack .../058-libllvm17t64_1%3a17.0.6-18_amd64.deb ... 60s Unpacking libllvm17t64:amd64 (1:17.0.6-18) ... 61s Selecting previously unselected package libamd-comgr2:amd64. 61s Preparing to unpack .../059-libamd-comgr2_6.0+git20231212.4510c28+dfsg-3build2_amd64.deb ... 61s Unpacking libamd-comgr2:amd64 (6.0+git20231212.4510c28+dfsg-3build2) ... 61s Selecting previously unselected package libdrm-amdgpu1:amd64. 61s Preparing to unpack .../060-libdrm-amdgpu1_2.4.122-1_amd64.deb ... 61s Unpacking libdrm-amdgpu1:amd64 (2.4.122-1) ... 61s Selecting previously unselected package libhsakmt1:amd64. 61s Preparing to unpack .../061-libhsakmt1_5.7.0-1build1_amd64.deb ... 61s Unpacking libhsakmt1:amd64 (5.7.0-1build1) ... 61s Selecting previously unselected package libhsa-runtime64-1. 61s Preparing to unpack .../062-libhsa-runtime64-1_5.7.1-2build1_amd64.deb ... 61s Unpacking libhsa-runtime64-1 (5.7.1-2build1) ... 61s Selecting previously unselected package libamdhip64-5. 61s Preparing to unpack .../063-libamdhip64-5_5.7.1-4build1_amd64.deb ... 61s Unpacking libamdhip64-5 (5.7.1-4build1) ... 61s Selecting previously unselected package libblas3:amd64. 61s Preparing to unpack .../064-libblas3_3.12.0-3build2_amd64.deb ... 61s Unpacking libblas3:amd64 (3.12.0-3build2) ... 61s Selecting previously unselected package libblas-dev:amd64. 61s Preparing to unpack .../065-libblas-dev_3.12.0-3build2_amd64.deb ... 61s Unpacking libblas-dev:amd64 (3.12.0-3build2) ... 61s Selecting previously unselected package libevent-2.1-7t64:amd64. 61s Preparing to unpack .../066-libevent-2.1-7t64_2.1.12-stable-10_amd64.deb ... 61s Unpacking libevent-2.1-7t64:amd64 (2.1.12-stable-10) ... 61s Selecting previously unselected package libevent-extra-2.1-7t64:amd64. 61s Preparing to unpack .../067-libevent-extra-2.1-7t64_2.1.12-stable-10_amd64.deb ... 61s Unpacking libevent-extra-2.1-7t64:amd64 (2.1.12-stable-10) ... 61s Selecting previously unselected package libevent-pthreads-2.1-7t64:amd64. 61s Preparing to unpack .../068-libevent-pthreads-2.1-7t64_2.1.12-stable-10_amd64.deb ... 61s Unpacking libevent-pthreads-2.1-7t64:amd64 (2.1.12-stable-10) ... 62s Selecting previously unselected package libevent-openssl-2.1-7t64:amd64. 62s Preparing to unpack .../069-libevent-openssl-2.1-7t64_2.1.12-stable-10_amd64.deb ... 62s Unpacking libevent-openssl-2.1-7t64:amd64 (2.1.12-stable-10) ... 62s Selecting previously unselected package libevent-dev. 62s Preparing to unpack .../070-libevent-dev_2.1.12-stable-10_amd64.deb ... 62s Unpacking libevent-dev (2.1.12-stable-10) ... 62s Selecting previously unselected package libpsm-infinipath1. 62s Preparing to unpack .../071-libpsm-infinipath1_3.3+20.604758e7-6.3build1_amd64.deb ... 62s Unpacking libpsm-infinipath1 (3.3+20.604758e7-6.3build1) ... 62s Selecting previously unselected package libpsm2-2. 62s Preparing to unpack .../072-libpsm2-2_11.2.185-2.1_amd64.deb ... 62s Unpacking libpsm2-2 (11.2.185-2.1) ... 62s Selecting previously unselected package librdmacm1t64:amd64. 62s Preparing to unpack .../073-librdmacm1t64_52.0-2ubuntu1_amd64.deb ... 62s Unpacking librdmacm1t64:amd64 (52.0-2ubuntu1) ... 62s Selecting previously unselected package libfabric1:amd64. 62s Preparing to unpack .../074-libfabric1_1.17.0-3ubuntu1_amd64.deb ... 62s Unpacking libfabric1:amd64 (1.17.0-3ubuntu1) ... 62s Selecting previously unselected package libhwloc15:amd64. 62s Preparing to unpack .../075-libhwloc15_2.11.0-2_amd64.deb ... 62s Unpacking libhwloc15:amd64 (2.11.0-2) ... 62s Selecting previously unselected package libjs-jquery. 62s Preparing to unpack .../076-libjs-jquery_3.6.1+dfsg+~3.5.14-1_all.deb ... 62s Unpacking libjs-jquery (3.6.1+dfsg+~3.5.14-1) ... 62s Selecting previously unselected package libjs-jquery-ui. 62s Preparing to unpack .../077-libjs-jquery-ui_1.13.2+dfsg-1_all.deb ... 62s Unpacking libjs-jquery-ui (1.13.2+dfsg-1) ... 62s Selecting previously unselected package liblapack3:amd64. 62s Preparing to unpack .../078-liblapack3_3.12.0-3build2_amd64.deb ... 62s Unpacking liblapack3:amd64 (3.12.0-3build2) ... 62s Selecting previously unselected package liblapack-dev:amd64. 62s Preparing to unpack .../079-liblapack-dev_3.12.0-3build2_amd64.deb ... 62s Unpacking liblapack-dev:amd64 (3.12.0-3build2) ... 62s Selecting previously unselected package libltdl7:amd64. 62s Preparing to unpack .../080-libltdl7_2.4.7-7build1_amd64.deb ... 62s Unpacking libltdl7:amd64 (2.4.7-7build1) ... 62s Selecting previously unselected package libltdl-dev:amd64. 62s Preparing to unpack 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.../086-libhwloc-plugins_2.11.0-2_amd64.deb ... 62s Unpacking libhwloc-plugins:amd64 (2.11.0-2) ... 62s Selecting previously unselected package libpmix2t64:amd64. 62s Preparing to unpack .../087-libpmix2t64_5.0.3-2_amd64.deb ... 62s Unpacking libpmix2t64:amd64 (5.0.3-2) ... 62s Selecting previously unselected package libibumad3:amd64. 62s Preparing to unpack .../088-libibumad3_52.0-2ubuntu1_amd64.deb ... 62s Unpacking libibumad3:amd64 (52.0-2ubuntu1) ... 62s Selecting previously unselected package libibmad5:amd64. 62s Preparing to unpack .../089-libibmad5_52.0-2ubuntu1_amd64.deb ... 62s Unpacking libibmad5:amd64 (52.0-2ubuntu1) ... 62s Selecting previously unselected package libucx0:amd64. 62s Preparing to unpack .../090-libucx0_1.17.0+ds-3build1_amd64.deb ... 62s Unpacking libucx0:amd64 (1.17.0+ds-3build1) ... 62s Selecting previously unselected package libopenmpi3t64:amd64. 62s Preparing to unpack .../091-libopenmpi3t64_5.0.5-3_amd64.deb ... 62s Unpacking libopenmpi3t64:amd64 (5.0.5-3) ... 62s Selecting previously unselected package openmpi-common. 62s Preparing to unpack .../092-openmpi-common_5.0.5-3_all.deb ... 62s Unpacking openmpi-common (5.0.5-3) ... 63s Selecting previously unselected package openmpi-bin. 63s Preparing to unpack .../093-openmpi-bin_5.0.5-3_amd64.deb ... 63s Unpacking openmpi-bin (5.0.5-3) ... 63s Selecting previously unselected package mpi-default-bin. 63s Preparing to unpack .../094-mpi-default-bin_1.17_amd64.deb ... 63s Unpacking mpi-default-bin (1.17) ... 63s Selecting previously unselected package libscalapack-openmpi2.2:amd64. 63s Preparing to unpack .../095-libscalapack-openmpi2.2_2.2.1-3.1ubuntu2_amd64.deb ... 63s Unpacking libscalapack-openmpi2.2:amd64 (2.2.1-3.1ubuntu2) ... 63s Selecting previously unselected package libmumps-5.7:amd64. 63s Preparing to unpack .../096-libmumps-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libmumps-64pord-5.7:amd64. 63s Preparing to unpack .../097-libmumps-64pord-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-64pord-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libptscotch-7.0:amd64. 63s Preparing to unpack .../098-libptscotch-7.0_7.0.5-1ubuntu1_amd64.deb ... 63s Unpacking libptscotch-7.0:amd64 (7.0.5-1ubuntu1) ... 63s Selecting previously unselected package libmumps-64pord-ptscotch-5.7:amd64. 63s Preparing to unpack .../099-libmumps-64pord-ptscotch-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-64pord-ptscotch-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libscotch-7.0:amd64. 63s Preparing to unpack .../100-libscotch-7.0_7.0.5-1ubuntu1_amd64.deb ... 63s Unpacking libscotch-7.0:amd64 (7.0.5-1ubuntu1) ... 63s Selecting previously unselected package libmumps-64pord-scotch-5.7:amd64. 63s Preparing to unpack .../101-libmumps-64pord-scotch-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-64pord-scotch-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libmumps-64pord-seq-5.7:amd64. 63s Preparing to unpack .../102-libmumps-64pord-seq-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-64pord-seq-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libmumps-headers-dev. 63s Preparing to unpack .../103-libmumps-headers-dev_5.7.3-3_all.deb ... 63s Unpacking libmumps-headers-dev (5.7.3-3) ... 63s Selecting previously unselected package libmumps-ptscotch-5.7:amd64. 63s Preparing to unpack .../104-libmumps-ptscotch-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-ptscotch-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libmumps-scotch-5.7:amd64. 63s Preparing to unpack .../105-libmumps-scotch-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-scotch-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libmumps-seq-5.7:amd64. 63s Preparing to unpack .../106-libmumps-seq-5.7_5.7.3-3_amd64.deb ... 63s Unpacking libmumps-seq-5.7:amd64 (5.7.3-3) ... 63s Selecting previously unselected package libscalapack-openmpi-dev:amd64. 63s Preparing to unpack .../107-libscalapack-openmpi-dev_2.2.1-3.1ubuntu2_amd64.deb ... 63s Unpacking libscalapack-openmpi-dev:amd64 (2.2.1-3.1ubuntu2) ... 63s Selecting previously unselected package libnl-3-dev:amd64. 63s Preparing to unpack .../108-libnl-3-dev_3.7.0-0.3build2_amd64.deb ... 63s Unpacking libnl-3-dev:amd64 (3.7.0-0.3build2) ... 63s Selecting previously unselected package libnl-route-3-dev:amd64. 63s Preparing to unpack .../109-libnl-route-3-dev_3.7.0-0.3build2_amd64.deb ... 63s Unpacking libnl-route-3-dev:amd64 (3.7.0-0.3build2) ... 63s Selecting previously unselected package libibverbs-dev:amd64. 63s Preparing to unpack .../110-libibverbs-dev_52.0-2ubuntu1_amd64.deb ... 63s Unpacking libibverbs-dev:amd64 (52.0-2ubuntu1) ... 64s Selecting previously unselected package libnuma-dev:amd64. 64s Preparing to unpack .../111-libnuma-dev_2.0.18-1build1_amd64.deb ... 64s Unpacking libnuma-dev:amd64 (2.0.18-1build1) ... 64s Selecting previously unselected package libhwloc-dev:amd64. 64s Preparing to unpack .../112-libhwloc-dev_2.11.0-2_amd64.deb ... 64s Unpacking libhwloc-dev:amd64 (2.11.0-2) ... 64s Selecting previously unselected package zlib1g-dev:amd64. 64s Preparing to unpack .../113-zlib1g-dev_1%3a1.3.dfsg+really1.3.1-1ubuntu1_amd64.deb ... 64s Unpacking zlib1g-dev:amd64 (1:1.3.dfsg+really1.3.1-1ubuntu1) ... 64s Selecting previously unselected package libpmix-dev:amd64. 64s Preparing to unpack .../114-libpmix-dev_5.0.3-2_amd64.deb ... 64s Unpacking libpmix-dev:amd64 (5.0.3-2) ... 64s Selecting previously unselected package libopenmpi-dev:amd64. 64s Preparing to unpack .../115-libopenmpi-dev_5.0.5-3_amd64.deb ... 64s Unpacking libopenmpi-dev:amd64 (5.0.5-3) ... 64s Selecting previously unselected package mpi-default-dev. 64s Preparing to unpack .../116-mpi-default-dev_1.17_amd64.deb ... 64s Unpacking mpi-default-dev (1.17) ... 64s Selecting previously unselected package libscalapack-mpi-dev:amd64. 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libmumps-dev:amd64. 64s Preparing to unpack .../122-libmumps-dev_5.7.3-3_amd64.deb ... 64s Unpacking libmumps-dev:amd64 (5.7.3-3) ... 64s Selecting previously unselected package libmumps-seq-dev:amd64. 64s Preparing to unpack .../123-libmumps-seq-dev_5.7.3-3_amd64.deb ... 64s Unpacking libmumps-seq-dev:amd64 (5.7.3-3) ... 64s Selecting previously unselected package libmumps-scotch-dev:amd64. 64s Preparing to unpack .../124-libmumps-scotch-dev_5.7.3-3_amd64.deb ... 64s Unpacking libmumps-scotch-dev:amd64 (5.7.3-3) ... 65s Selecting previously unselected package libmumps-ptscotch-dev:amd64. 65s Preparing to unpack .../125-libmumps-ptscotch-dev_5.7.3-3_amd64.deb ... 65s Unpacking libmumps-ptscotch-dev:amd64 (5.7.3-3) ... 65s Selecting previously unselected package mumps-test. 65s Preparing to unpack .../126-mumps-test_5.7.3-3_amd64.deb ... 65s Unpacking mumps-test (5.7.3-3) ... 65s Selecting previously unselected package libscotch-dev. 65s Preparing to unpack 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(52.0-2ubuntu1) ... 65s Setting up libgomp1:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libnuma-dev:amd64 (2.0.18-1build1) ... 65s Setting up libxnvctrl0:amd64 (510.47.03-0ubuntu4) ... 65s Setting up autotools-dev (20220109.1) ... 65s Setting up libblas3:amd64 (3.12.0-3build2) ... 65s update-alternatives: using /usr/lib/x86_64-linux-gnu/blas/libblas.so.3 to provide /usr/lib/x86_64-linux-gnu/libblas.so.3 (libblas.so.3-x86_64-linux-gnu) in auto mode 65s Setting up gcc-13-base:amd64 (13.3.0-6ubuntu2) ... 65s Setting up libmunge2:amd64 (0.5.15-4build1) ... 65s Setting up libllvm17t64:amd64 (1:17.0.6-18) ... 65s Setting up libquadmath0:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libhwloc15:amd64 (2.11.0-2) ... 65s Setting up libmpc3:amd64 (1.3.1-1build2) ... 65s Setting up autopoint (0.22.5-2) ... 65s Setting up libltdl7:amd64 (2.4.7-7build1) ... 65s Setting up libgfortran5:amd64 (14.2.0-7ubuntu1) ... 65s Setting up autoconf (2.72-3) ... 65s Setting up libevent-extra-2.1-7t64:amd64 (2.1.12-stable-10) ... 65s Setting up libmumps-headers-dev (5.7.3-3) ... 65s Setting up libubsan1:amd64 (14.2.0-7ubuntu1) ... 65s Setting up zlib1g-dev:amd64 (1:1.3.dfsg+really1.3.1-1ubuntu1) ... 65s Setting up dwz (0.15-1build6) ... 65s Setting up libnl-3-dev:amd64 (3.7.0-0.3build2) ... 65s Setting up ocl-icd-libopencl1:amd64 (2.3.2-1build1) ... 65s Setting up libhwasan0:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libasan8:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libpsm2-2 (11.2.185-2.1) ... 65s Setting up openmpi-common (5.0.5-3) ... 65s Setting up debugedit (1:5.1-1) ... 65s Setting up librdmacm1t64:amd64 (52.0-2ubuntu1) ... 65s Setting up libamd-comgr2:amd64 (6.0+git20231212.4510c28+dfsg-3build2) ... 65s Setting up libpsm-infinipath1 (3.3+20.604758e7-6.3build1) ... 65s update-alternatives: using /usr/lib/libpsm1/libpsm_infinipath.so.1.16 to provide /usr/lib/x86_64-linux-gnu/libpsm_infinipath.so.1 (libpsm_infinipath.so.1) in auto mode 65s Setting up libtsan2:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libjs-jquery (3.6.1+dfsg+~3.5.14-1) ... 65s Setting up libisl23:amd64 (0.27-1) ... 65s Setting up libcc1-0:amd64 (14.2.0-7ubuntu1) ... 65s Setting up liblsan0:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libblas-dev:amd64 (3.12.0-3build2) ... 65s update-alternatives: using /usr/lib/x86_64-linux-gnu/blas/libblas.so to provide /usr/lib/x86_64-linux-gnu/libblas.so (libblas.so-x86_64-linux-gnu) in auto mode 65s Setting up libitm1:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libdrm-amdgpu1:amd64 (2.4.122-1) ... 65s Setting up automake (1:1.16.5-1.3ubuntu1) ... 65s update-alternatives: using /usr/bin/automake-1.16 to provide /usr/bin/automake (automake) in auto mode 65s Setting up libfile-stripnondeterminism-perl (1.14.0-1) ... 65s Setting up libfabric1:amd64 (1.17.0-3ubuntu1) ... 65s Setting up liblapack3:amd64 (3.12.0-3build2) ... 65s update-alternatives: using /usr/lib/x86_64-linux-gnu/lapack/liblapack.so.3 to provide /usr/lib/x86_64-linux-gnu/liblapack.so.3 (liblapack.so.3-x86_64-linux-gnu) in auto mode 65s Setting up gettext (0.22.5-2) ... 65s Setting up libmumps-64pord-seq-5.7:amd64 (5.7.3-3) ... 65s Setting up cpp-13-x86-64-linux-gnu (13.3.0-6ubuntu2) ... 65s Setting up libhwloc-plugins:amd64 (2.11.0-2) ... 65s Setting up intltool-debian (0.35.0+20060710.6) ... 65s Setting up libnl-route-3-dev:amd64 (3.7.0-0.3build2) ... 65s Setting up libltdl-dev:amd64 (2.4.7-7build1) ... 65s Setting up libjs-jquery-ui (1.13.2+dfsg-1) ... 65s Setting up libevent-dev (2.1.12-stable-10) ... 65s Setting up liblapack-dev:amd64 (3.12.0-3build2) ... 65s update-alternatives: using /usr/lib/x86_64-linux-gnu/lapack/liblapack.so to provide /usr/lib/x86_64-linux-gnu/liblapack.so (liblapack.so-x86_64-linux-gnu) in auto mode 65s Setting up cpp-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 65s Setting up libpmix2t64:amd64 (5.0.3-2) ... 65s Setting up libmumps-64pord-scotch-5.7:amd64 (5.7.3-3) ... 65s Setting up cpp-14 (14.2.0-7ubuntu1) ... 65s Setting up dh-strip-nondeterminism (1.14.0-1) ... 65s Setting up libmumps-seq-5.7:amd64 (5.7.3-3) ... 65s Setting up libgcc-13-dev:amd64 (13.3.0-6ubuntu2) ... 65s Setting up libhwloc-dev:amd64 (2.11.0-2) ... 65s Setting up libmumps-scotch-5.7:amd64 (5.7.3-3) ... 65s Setting up libgcc-14-dev:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libgfortran-13-dev:amd64 (13.3.0-6ubuntu2) ... 65s Setting up libstdc++-14-dev:amd64 (14.2.0-7ubuntu1) ... 65s Setting up libpmix-dev:amd64 (5.0.3-2) ... 65s Setting up libhsakmt1:amd64 (5.7.0-1build1) ... 65s Setting up cpp-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 65s Setting up libgfortran-14-dev:amd64 (14.2.0-7ubuntu1) ... 65s Setting up cpp-13 (13.3.0-6ubuntu2) ... 65s Setting up gcc-13-x86-64-linux-gnu (13.3.0-6ubuntu2) ... 65s Setting up po-debconf (1.0.21+nmu1) ... 65s Setting up libibverbs-dev:amd64 (52.0-2ubuntu1) ... 65s Setting up gfortran-13-x86-64-linux-gnu (13.3.0-6ubuntu2) ... 65s Setting up gcc-13 (13.3.0-6ubuntu2) ... 65s Setting up libhsa-runtime64-1 (5.7.1-2build1) ... 65s Setting up cpp (4:14.1.0-2ubuntu1) ... 65s Setting up gcc-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 65s Setting up gcc-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 65s Setting up libtool (2.4.7-7build1) ... 65s Setting up gcc-14 (14.2.0-7ubuntu1) ... 65s Setting up gfortran-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 65s Setting up dh-autoreconf (20) ... 65s Setting up libamdhip64-5 (5.7.1-4build1) ... 65s Setting up gfortran-13 (13.3.0-6ubuntu2) ... 65s Setting up g++-14-x86-64-linux-gnu (14.2.0-7ubuntu1) ... 65s Setting up g++-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 65s Setting up g++-14 (14.2.0-7ubuntu1) ... 65s Setting up gfortran-14 (14.2.0-7ubuntu1) ... 65s Setting up libucx0:amd64 (1.17.0+ds-3build1) ... 65s Setting up debhelper (13.20ubuntu1) ... 65s Setting up gfortran-x86-64-linux-gnu (4:14.1.0-2ubuntu1) ... 65s Setting up gcc (4:14.1.0-2ubuntu1) ... 65s Setting up libopenmpi3t64:amd64 (5.0.5-3) ... 65s Setting up g++ (4:14.1.0-2ubuntu1) ... 65s update-alternatives: using /usr/bin/g++ to provide /usr/bin/c++ (c++) in auto mode 65s Setting up build-essential (12.10ubuntu1) ... 65s Setting up openmpi-bin (5.0.5-3) ... 65s update-alternatives: using /usr/bin/mpirun.openmpi to provide /usr/bin/mpirun (mpirun) in auto mode 65s update-alternatives: warning: skip creation of /usr/share/man/man1/mpirun.1.gz because associated file /usr/share/man/man1/mpirun.openmpi.1.gz (of link group mpirun) doesn't exist 65s update-alternatives: warning: skip creation of /usr/share/man/man1/mpiexec.1.gz because associated file /usr/share/man/man1/mpiexec.openmpi.1.gz (of link group mpirun) doesn't exist 65s update-alternatives: using /usr/bin/mpicc.openmpi to provide /usr/bin/mpicc (mpi) in auto mode 65s Setting up libptscotch-7.0:amd64 (7.0.5-1ubuntu1) ... 65s Setting up mpi-default-bin (1.17) ... 65s Setting up gfortran (4:14.1.0-2ubuntu1) ... 65s update-alternatives: using /usr/bin/gfortran to provide /usr/bin/f95 (f95) in auto mode 65s update-alternatives: warning: skip creation of /usr/share/man/man1/f95.1.gz because associated file /usr/share/man/man1/gfortran.1.gz (of link group f95) doesn't exist 65s update-alternatives: using /usr/bin/gfortran to provide /usr/bin/f77 (f77) in auto mode 65s update-alternatives: warning: skip creation of /usr/share/man/man1/f77.1.gz because associated file /usr/share/man/man1/gfortran.1.gz (of link group f77) doesn't exist 65s Setting up libopenmpi-dev:amd64 (5.0.5-3) ... 65s update-alternatives: using /usr/lib/x86_64-linux-gnu/openmpi/include to provide /usr/include/x86_64-linux-gnu/mpi (mpi-x86_64-linux-gnu) in auto mode 65s Setting up libscalapack-openmpi2.2:amd64 (2.2.1-3.1ubuntu2) ... 65s Setting up libmumps-64pord-5.7:amd64 (5.7.3-3) ... 65s Setting up libmumps-5.7:amd64 (5.7.3-3) ... 65s Setting up libmumps-64pord-ptscotch-5.7:amd64 (5.7.3-3) ... 65s Setting up libmumps-ptscotch-5.7:amd64 (5.7.3-3) ... 65s Setting up libscalapack-openmpi-dev:amd64 (2.2.1-3.1ubuntu2) ... 65s Setting up mpi-default-dev (1.17) ... 65s Setting up libscalapack-mpi-dev:amd64 (2.2.1-3.1ubuntu2) ... 65s Setting up mumps-test (5.7.3-3) ... 65s Setting up libmumps64-dev:amd64 (5.7.3-3) ... 65s Setting up libmumps-dev:amd64 (5.7.3-3) ... 65s Setting up libscotch-dev (7.0.5-1ubuntu1) ... 65s Setting up libmumps-ptscotch-dev:amd64 (5.7.3-3) ... 65s Setting up libmumps-scotch-dev:amd64 (5.7.3-3) ... 65s Setting up libmumps64-scotch-dev:amd64 (5.7.3-3) ... 65s Setting up libptscotch-dev (7.0.5-1ubuntu1) ... 65s Setting up libmumps64-seq-dev:amd64 (5.7.3-3) ... 65s Setting up libmumps-seq-dev:amd64 (5.7.3-3) ... 65s Setting up libmumps64-ptscotch-dev:amd64 (5.7.3-3) ... 65s Setting up autopkgtest-satdep (0) ... 65s Processing triggers for man-db (2.12.1-3) ... 66s Processing triggers for install-info (7.1.1-1) ... 66s Processing triggers for libc-bin (2.40-1ubuntu3) ... 70s (Reading database ... 81335 files and directories currently installed.) 70s Removing autopkgtest-satdep (0) ... 70s autopkgtest [23:24:00]: test mumps-examples-serial: [----------------------- 71s /bin/rm -f *.o [sdcz]simpletest c_example multiple_arithmetics_example ssimpletest_save_restore dsimpletest_save_restore csimpletest_save_restore zsimpletest_save_restore c_example_save_restore 71s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o 71s mpifort -o csimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest.o -L/usr/lib/x86_64-linux-gnu -lcmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 71s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o 72s mpifort -o csimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lcmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 72s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o 72s mpifort -o zsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest.o -L/usr/lib/x86_64-linux-gnu -lzmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 72s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o 73s mpifort -o zsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lzmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 73s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o 73s mpifort -o ssimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest.o -L/usr/lib/x86_64-linux-gnu -lsmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 73s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o 73s mpifort -o ssimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lsmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 74s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o 74s mpifort -o dsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 74s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o 74s mpifort -o dsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 75s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o 75s mpifort -o c_example_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 75s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DAdd_ -I. -I../include -I../src -c c_example.c -o c_example.o 75s mpifort -o c_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread 75s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o 76s mpifort -o multiple_arithmetics_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/x86_64-linux-gnu -lsmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lcmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lzmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 76s 76s === running c_example (serial) === 76s Solution is : ( 1.00 2.00) 76s Saving MUMPS instance in /tmp with prefix csave_restore. 76s DONE 76s 76s Restoring MUMPS instance in /tmp with prefix csave_restore. 76s 76s Entering DMUMPS 5.7.3 from C interface with JOB = 8 76s executing #MPI = 1, without OMP 76s 76s Elapsed time in restore structure driver= 0.0001 76s DONE 76s 76s Calling MUMPS package (solve). 76s DONE 76s 76s Removing save files. 76s DONE 76s 76s Solution is : ( 1.00 2.00) 76s 76s 76s === running simple test: real, single precision, serial === 77s 77s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 77s executing #MPI = 1, without OMP 77s 77s ================================================= 77s MUMPS compiled with option -Dpord 77s ================================================= 77s L U Solver for unsymmetric matrices 77s Type of parallelism: Working host 77s 77s ****** ANALYSIS STEP ******** 77s 77s Processing a graph of size: 5 77s ... Structural symmetry (in percent)= 92 77s Average density of rows/columns = 2 77s ... No column permutation 77s Ordering based on AMF 77s 77s Leaving analysis phase with ... 77s INFOG(1) = 0 77s INFOG(2) = 0 77s -- (20) Number of entries in factors (estim.) = 25 77s -- (3) Real space for factors (estimated) = 25 77s -- (4) Integer space for factors (estimated) = 30 77s -- (5) Maximum frontal size (estimated) = 5 77s -- (6) Number of nodes in the tree = 1 77s -- (32) Type of analysis effectively used = 1 77s -- (7) Ordering option effectively used = 2 77s ICNTL (6) Maximum transversal option = 0 77s ICNTL (7) Pivot order option = 7 77s ICNTL(12) Ordering symmetric indef. matrices = 1 77s ICNTL(13) Parallelism/splitting of root node = 0 77s ICNTL(14) Percentage of memory relaxation = 20 77s ICNTL(15) Analysis by block effectively used = 0 77s ICNTL(18) Distributed input matrix (on if >0) = 0 77s ICNTL(32) Forward elimination during facto. = 0 77s ICNTL(35) BLR activation = 0 77s ICNTL(48) Tree based multithreading (effective)= 0 77s ICNTL(58) Symbolic factorization option = 2 77s Number of level 2 nodes = 0 77s Number of split nodes = 0 77s RINFOG(1) Operations during elimination (estim)= 7.000D+01 77s 77s MEMORY ESTIMATIONS ... 77s Estimations with standard Full-Rank (FR) factorization: 77s Total space in MBytes, IC factorization (INFOG(17)): 0 77s Total space in MBytes, OOC factorization (INFOG(27)): 0 77s 77s Elapsed time in analysis driver= 0.0004 77s 77s 77s ****** FACTORIZATION STEP ******** 77s 77s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 77s Number of working processes = 1 77s ICNTL(22) Out-of-core option = 0 77s ICNTL(35) BLR activation (eff. choice) = 0 77s ICNTL(37) BLR CB compression (eff. choice) = 0 77s ICNTL(49) Compact workarray S (end facto.) = 0 77s ICNTL(14) Memory relaxation = 20 77s INFOG(3) Real space for factors (estimated)= 25 77s INFOG(4) Integer space for factors (estim.)= 30 77s Maximum frontal size (estimated) = 5 77s Number of nodes in the tree = 1 77s ICNTL(23) Memory allowed (value on host) = 0 77s Sum over all procs = 0 77s Memory provided by user, sum of LWK_USER = 0 77s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 77s 77s Statistics on the scaling phase 77s Elapsed time for scaling = 0.0001 77s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 77s 77s Effective size of S (based on INFO(39))= 2445 77s Elapsed time to reformat/distribute matrix = 0.0000 77s 77s 77s Allocated buffers 77s ------------------ 77s Size of reception buffer in bytes ...... = 140000 77s Size of async. emission buffer (bytes).. = 140012 77s Small emission buffer (bytes) .......... = 20 77s 77s ** Memory allocated, total in Mbytes (INFOG(19)): 0 77s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 77s 77s Elapsed time for factorization = 0.0001 77s 77s Leaving factorization with ... 77s RINFOG (2) Operations in node assembly = 0.000D+00 77s ------ (3) Operations in node elimination = 7.000D+01 77s ICNTL (8) Scaling effectively used = 7 77s INFOG (9) Real space for factors = 25 77s INFOG (10) Integer space for factors = 30 77s INFOG (11) Maximum front size = 5 77s INFOG (29) Number of entries in factors = 25 77s INFOG (12) Number of off diagonal pivots = 1 77s INFOG (13) Number of delayed pivots = 0 77s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 77s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 77s RINFOG(21) Largest pivot in absolute value = 5.281D+00 77s INFOG (24) Effective value of ICNTL(12) = 1 77s INFOG (14) Number of memory compress = 0 77s 77s Elapsed time in factorization driver = 0.0005 77s 77s 77s ****** SOLVE & CHECK STEP ******** 77s 77s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 77s Number of right-hand-sides = 1 77s Blocking factor for multiple rhs = 1 77s ICNTL (9) = 1 77s --- (10) = 0 77s --- (11) = 0 77s --- (20) = 0 77s --- (21) = 0 77s --- (30) = 0 77s --- (35) = 0 77s --- (48) (effective) = 0 77s ** Space in MBYTES used for solve : 0 77s 77s Leaving solve with ... 77s Time to build/scatter RHS = 0.000039 77s Time in solution step (fwd/bwd) = 0.000025 77s .. Time in forward (fwd) step = 0.000017 77s .. Time in backward (bwd) step = 0.000005 77s Time to gather solution(cent.sol)= 0.000001 77s Time for distributed solution = 0.000000 77s 77s Elapsed time in solve driver= 0.0001 77s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 77s 77s Entering SMUMPS 5.7.3 with JOB = -2 77s executing #MPI = 1, without OMP 77s 77s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 77s executing #MPI = 1, without OMP 77s 77s ================================================= 77s MUMPS compiled with option -Dpord 77s ================================================= 77s L U Solver for unsymmetric matrices 77s Type of parallelism: Working host 77s 77s ****** ANALYSIS STEP ******** 77s 77s Processing a graph of size: 5 77s ... Structural symmetry (in percent)= 92 77s Average density of rows/columns = 2 77s ... No column permutation 77s Ordering based on AMF 77s 77s Leaving analysis phase with ... 77s INFOG(1) = 0 77s INFOG(2) = 0 77s -- (20) Number of entries in factors (estim.) = 25 77s -- (3) Real space for factors (estimated) = 25 77s -- (4) Integer space for factors (estimated) = 30 77s -- (5) Maximum frontal size (estimated) = 5 77s -- (6) Number of nodes in the tree = 1 77s -- (32) Type of analysis effectively used = 1 77s -- (7) Ordering option effectively used = 2 77s ICNTL (6) Maximum transversal option = 0 77s ICNTL (7) Pivot order option = 7 77s ICNTL(12) Ordering symmetric indef. matrices = 1 77s ICNTL(13) Parallelism/splitting of root node = 0 77s ICNTL(14) Percentage of memory relaxation = 20 77s ICNTL(15) Analysis by block effectively used = 0 77s ICNTL(18) Distributed input matrix (on if >0) = 0 77s ICNTL(32) Forward elimination during facto. = 0 77s ICNTL(35) BLR activation = 0 77s ICNTL(48) Tree based multithreading (effective)= 0 77s ICNTL(58) Symbolic factorization option = 2 77s Number of level 2 nodes = 0 77s Number of split nodes = 0 77s RINFOG(1) Operations during elimination (estim)= 7.000D+01 77s 77s MEMORY ESTIMATIONS ... 77s Estimations with standard Full-Rank (FR) factorization: 77s Total space in MBytes, IC factorization (INFOG(17)): 0 77s Total space in MBytes, OOC factorization (INFOG(27)): 0 77s 77s Elapsed time in analysis driver= 0.0008 77s 77s 77s ****** FACTORIZATION STEP ******** 77s 77s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 77s Number of working processes = 1 77s ICNTL(22) Out-of-core option = 1 77s ICNTL(35) BLR activation (eff. choice) = 0 77s ICNTL(37) BLR CB compression (eff. choice) = 0 77s ICNTL(49) Compact workarray S (end facto.) = 0 77s ICNTL(14) Memory relaxation = 20 77s INFOG(3) Real space for factors (estimated)= 25 77s INFOG(4) Integer space for factors (estim.)= 30 77s Maximum frontal size (estimated) = 5 77s Number of nodes in the tree = 1 77s ICNTL(23) Memory allowed (value on host) = 0 77s Sum over all procs = 0 77s Memory provided by user, sum of LWK_USER = 0 77s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 77s 77s Statistics on the scaling phase 77s Elapsed time for scaling = 0.0000 77s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 77s 77s Effective size of S (based on INFO(39))= 2445 77s Elapsed time to reformat/distribute matrix = 0.0000 77s 77s 77s Allocated buffers 77s ------------------ 77s Size of reception buffer in bytes ...... = 140000 77s Size of async. emission buffer (bytes).. = 140012 77s Small emission buffer (bytes) .......... = 20 77s 77s ** Memory allocated, total in Mbytes (INFOG(19)): 0 77s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 77s 77s Elapsed time for factorization = 0.0003 77s 77s Leaving factorization with ... 77s RINFOG (2) Operations in node assembly = 0.000D+00 77s ------ (3) Operations in node elimination = 7.000D+01 77s ICNTL (8) Scaling effectively used = 7 77s INFOG (9) Real space for factors = 50 77s INFOG (10) Integer space for factors = 31 77s INFOG (11) Maximum front size = 5 77s INFOG (29) Number of entries in factors = 25 77s INFOG (12) Number of off diagonal pivots = 1 77s INFOG (13) Number of delayed pivots = 0 77s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 77s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 77s RINFOG(21) Largest pivot in absolute value = 5.281D+00 77s INFOG (24) Effective value of ICNTL(12) = 1 77s INFOG (14) Number of memory compress = 0 77s 77s Elapsed time in factorization driver = 0.0014 77s 77s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 77s executing #MPI = 1, without OMP 77s Save done successfully 77s The corresponding OOC files are: 77s /tmp//mumps_0_4wLvN0 77s /tmp//mumps_0_cZZ42N 77s 77s Elapsed time in save structure driver= 0.0004 77s 77s Entering SMUMPS 5.7.3 with JOB = -2 77s executing #MPI = 1, without OMP 77s 77s Entering SMUMPS 5.7.3 with JOB = 8 77s executing #MPI = 1, without OMP 77s The corresponding OOC files are: 77s /tmp//mumps_0_4wLvN0 77s /tmp//mumps_0_cZZ42N 77s 77s Elapsed time in restore structure driver= 0.0001 77s 77s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 77s executing #MPI = 1, without OMP 77s 77s 77s 77s ****** SOLVE & CHECK STEP ******** 77s 77s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 77s Number of right-hand-sides = 1 77s Blocking factor for multiple rhs = 1 77s ICNTL (9) = 1 77s --- (10) = 0 77s --- (11) = 0 77s --- (20) = 0 77s --- (21) = 0 77s --- (30) = 0 77s --- (35) = 0 77s --- (48) (effective) = 0 77s ** Space in MBYTES used for solve : 0 77s 77s Leaving solve with ... 77s Time to build/scatter RHS = 0.000032 77s Time in solution step (fwd/bwd) = 0.000044 77s .. Time in forward (fwd) step = 0.000030 77s .. Time in backward (bwd) step = 0.000010 77s Time to gather solution(cent.sol)= 0.000001 77s Time for distributed solution = 0.000000 77s 77s Elapsed time in solve driver= 0.0002 77s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 77s 77s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 77s executing #MPI = 1, without OMP 77s 77s Entering SMUMPS 5.7.3 with JOB = -2 77s executing #MPI = 1, without OMP 77s 77s 77s === running simple test: real, double precision, serial === 77s 77s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 77s executing #MPI = 1, without OMP 77s 77s ================================================= 77s MUMPS compiled with option -Dpord 77s ================================================= 77s L U Solver for unsymmetric matrices 77s Type of parallelism: Working host 77s 77s ****** ANALYSIS STEP ******** 77s 77s Processing a graph of size: 5 77s ... Structural symmetry (in percent)= 92 77s Average density of rows/columns = 2 77s ... No column permutation 77s Ordering based on AMF 77s 77s Leaving analysis phase with ... 77s INFOG(1) = 0 77s INFOG(2) = 0 77s -- (20) Number of entries in factors (estim.) = 25 77s -- (3) Real space for factors (estimated) = 25 77s -- (4) Integer space for factors (estimated) = 30 77s -- (5) Maximum frontal size (estimated) = 5 77s -- (6) Number of nodes in the tree = 1 77s -- (32) Type of analysis effectively used = 1 77s -- (7) Ordering option effectively used = 2 77s ICNTL (6) Maximum transversal option = 0 77s ICNTL (7) Pivot order option = 7 77s ICNTL(12) Ordering symmetric indef. matrices = 1 77s ICNTL(13) Parallelism/splitting of root node = 0 77s ICNTL(14) Percentage of memory relaxation = 20 77s ICNTL(15) Analysis by block effectively used = 0 77s ICNTL(18) Distributed input matrix (on if >0) = 0 77s ICNTL(32) Forward elimination during facto. = 0 77s ICNTL(35) BLR activation = 0 77s ICNTL(48) Tree based multithreading (effective)= 0 77s ICNTL(58) Symbolic factorization option = 2 77s Number of level 2 nodes = 0 77s Number of split nodes = 0 77s RINFOG(1) Operations during elimination (estim)= 7.000D+01 77s 77s MEMORY ESTIMATIONS ... 77s Estimations with standard Full-Rank (FR) factorization: 77s Total space in MBytes, IC factorization (INFOG(17)): 0 77s Total space in MBytes, OOC factorization (INFOG(27)): 0 77s 77s Elapsed time in analysis driver= 0.0005 77s 77s 77s ****** FACTORIZATION STEP ******** 77s 77s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 77s Number of working processes = 1 77s ICNTL(22) Out-of-core option = 0 77s ICNTL(35) BLR activation (eff. choice) = 0 77s ICNTL(37) BLR CB compression (eff. choice) = 0 77s ICNTL(49) Compact workarray S (end facto.) = 0 77s ICNTL(14) Memory relaxation = 20 77s INFOG(3) Real space for factors (estimated)= 25 77s INFOG(4) Integer space for factors (estim.)= 30 77s Maximum frontal size (estimated) = 5 77s Number of nodes in the tree = 1 77s ICNTL(23) Memory allowed (value on host) = 0 77s Sum over all procs = 0 77s Memory provided by user, sum of LWK_USER = 0 77s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 77s 77s Statistics on the scaling phase 77s Elapsed time for scaling = 0.0000 77s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 77s 77s Effective size of S (based on INFO(39))= 2445 77s Elapsed time to reformat/distribute matrix = 0.0000 77s 77s 77s Allocated buffers 77s ------------------ 77s Size of reception buffer in bytes ...... = 140000 77s Size of async. emission buffer (bytes).. = 140012 77s Small emission buffer (bytes) .......... = 20 77s 77s ** Memory allocated, total in Mbytes (INFOG(19)): 0 77s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 77s 77s Elapsed time for factorization = 0.0002 77s 77s Leaving factorization with ... 77s RINFOG (2) Operations in node assembly = 0.000D+00 77s ------ (3) Operations in node elimination = 7.000D+01 77s ICNTL (8) Scaling effectively used = 7 77s INFOG (9) Real space for factors = 25 77s INFOG (10) Integer space for factors = 30 77s INFOG (11) Maximum front size = 5 77s INFOG (29) Number of entries in factors = 25 77s INFOG (12) Number of off diagonal pivots = 1 77s INFOG (13) Number of delayed pivots = 0 77s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 77s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 77s RINFOG(21) Largest pivot in absolute value = 5.281D+00 77s INFOG (24) Effective value of ICNTL(12) = 1 77s INFOG (14) Number of memory compress = 0 77s 77s Elapsed time in factorization driver = 0.0007 77s 77s 77s ****** SOLVE & CHECK STEP ******** 77s 77s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 77s Number of right-hand-sides = 1 77s Blocking factor for multiple rhs = 1 77s ICNTL (9) = 1 77s --- (10) = 0 77s --- (11) = 0 77s --- (20) = 0 77s --- (21) = 0 77s --- (30) = 0 77s --- (35) = 0 77s --- (48) (effective) = 0 77s ** Space in MBYTES used for solve : 0 77s 77s Leaving solve with ... 77s Time to build/scatter RHS = 0.000038 77s Time in solution step (fwd/bwd) = 0.000044 77s .. Time in forward (fwd) step = 0.000031 77s .. Time in backward (bwd) step = 0.000006 77s Time to gather solution(cent.sol)= 0.000001 77s Time for distributed solution = 0.000000 77s 77s Elapsed time in solve driver= 0.0003 77s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 77s 77s Entering DMUMPS 5.7.3 with JOB = -2 77s executing #MPI = 1, without OMP 77s 77s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 77s executing #MPI = 1, without OMP 77s 77s ================================================= 77s MUMPS compiled with option -Dpord 77s ================================================= 77s L U Solver for unsymmetric matrices 77s Type of parallelism: Working host 77s 77s ****** ANALYSIS STEP ******** 77s 77s Processing a graph of size: 5 77s ... Structural symmetry (in percent)= 92 77s Average density of rows/columns = 2 77s ... No column permutation 77s Ordering based on AMF 77s 77s Leaving analysis phase with ... 77s INFOG(1) = 0 77s INFOG(2) = 0 77s -- (20) Number of entries in factors (estim.) = 25 77s -- (3) Real space for factors (estimated) = 25 77s -- (4) Integer space for factors (estimated) = 30 77s -- (5) Maximum frontal size (estimated) = 5 77s -- (6) Number of nodes in the tree = 1 77s -- (32) Type of analysis effectively used = 1 77s -- (7) Ordering option effectively used = 2 77s ICNTL (6) Maximum transversal option = 0 77s ICNTL (7) Pivot order option = 7 77s ICNTL(12) Ordering symmetric indef. matrices = 1 77s ICNTL(13) Parallelism/splitting of root node = 0 77s ICNTL(14) Percentage of memory relaxation = 20 77s ICNTL(15) Analysis by block effectively used = 0 77s ICNTL(18) Distributed input matrix (on if >0) = 0 77s ICNTL(32) Forward elimination during facto. = 0 77s ICNTL(35) BLR activation = 0 77s ICNTL(48) Tree based multithreading (effective)= 0 77s ICNTL(58) Symbolic factorization option = 2 77s Number of level 2 nodes = 0 77s Number of split nodes = 0 77s RINFOG(1) Operations during elimination (estim)= 7.000D+01 77s 77s MEMORY ESTIMATIONS ... 77s Estimations with standard Full-Rank (FR) factorization: 77s Total space in MBytes, IC factorization (INFOG(17)): 0 77s Total space in MBytes, OOC factorization (INFOG(27)): 0 77s 77s Elapsed time in analysis driver= 0.0002 77s 77s 77s ****** FACTORIZATION STEP ******** 77s 77s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 77s Number of working processes = 1 77s ICNTL(22) Out-of-core option = 1 77s ICNTL(35) BLR activation (eff. choice) = 0 77s ICNTL(37) BLR CB compression (eff. choice) = 0 77s ICNTL(49) Compact workarray S (end facto.) = 0 77s ICNTL(14) Memory relaxation = 20 77s INFOG(3) Real space for factors (estimated)= 25 77s INFOG(4) Integer space for factors (estim.)= 30 77s Maximum frontal size (estimated) = 5 77s Number of nodes in the tree = 1 77s ICNTL(23) Memory allowed (value on host) = 0 77s Sum over all procs = 0 77s Memory provided by user, sum of LWK_USER = 0 77s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 77s 77s Statistics on the scaling phase 77s Elapsed time for scaling = 0.0000 77s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 77s 77s Effective size of S (based on INFO(39))= 2445 77s Elapsed time to reformat/distribute matrix = 0.0000 77s 77s 77s Allocated buffers 77s ------------------ 77s Size of reception buffer in bytes ...... = 140000 77s Size of async. emission buffer (bytes).. = 140012 77s Small emission buffer (bytes) .......... = 20 77s 77s ** Memory allocated, total in Mbytes (INFOG(19)): 0 77s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 77s 77s Elapsed time for factorization = 0.0003 77s 77s Leaving factorization with ... 77s RINFOG (2) Operations in node assembly = 0.000D+00 77s ------ (3) Operations in node elimination = 7.000D+01 77s ICNTL (8) Scaling effectively used = 7 77s INFOG (9) Real space for factors = 50 77s INFOG (10) Integer space for factors = 31 77s INFOG (11) Maximum front size = 5 77s INFOG (29) Number of entries in factors = 25 77s INFOG (12) Number of off diagonal pivots = 1 77s INFOG (13) Number of delayed pivots = 0 77s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 77s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 77s RINFOG(21) Largest pivot in absolute value = 5.281D+00 77s INFOG (24) Effective value of ICNTL(12) = 1 77s INFOG (14) Number of memory compress = 0 77s 77s Elapsed time in factorization driver = 0.0013 77s 77s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 77s executing #MPI = 1, without OMP 77s Save done successfully 77s The corresponding OOC files are: 77s /tmp//mumps_0_m1aShN 77s /tmp//mumps_0_E1N01d 77s 77s Elapsed time in save structure driver= 0.0005 77s 77s Entering DMUMPS 5.7.3 with JOB = -2 77s executing #MPI = 1, without OMP 77s 77s Entering DMUMPS 5.7.3 with JOB = 8 77s executing #MPI = 1, without OMP 77s The corresponding OOC files are: 77s /tmp//mumps_0_m1aShN 77s /tmp//mumps_0_E1N01d 77s 77s Elapsed time in restore structure driver= 0.0002 77s 77s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 77s executing #MPI = 1, without OMP 77s 77s 77s 77s ****** SOLVE & CHECK STEP ******** 77s 77s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 77s Number of right-hand-sides = 1 77s Blocking factor for multiple rhs = 1 77s ICNTL (9) = 1 77s --- (10) = 0 77s --- (11) = 0 77s --- (20) = 0 77s --- (21) = 0 77s --- (30) = 0 77s --- (35) = 0 77s --- (48) (effective) = 0 77s ** Space in MBYTES used for solve : 0 77s 77s Leaving solve with ... 77s Time to build/scatter RHS = 0.000035 77s Time in solution step (fwd/bwd) = 0.000096 77s .. Time in forward (fwd) step = 0.000022 77s .. Time in backward (bwd) step = 0.000067 77s Time to gather solution(cent.sol)= 0.000001 77s Time for distributed solution = 0.000000 77s 77s Elapsed time in solve driver= 0.0004 77s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 77s 77s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 77s executing #MPI = 1, without OMP 77s 77s Entering DMUMPS 5.7.3 with JOB = -2 77s executing #MPI = 1, without OMP 77s 77s 77s === running simple test: complex, single precision, serial === 78s 78s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 78s executing #MPI = 1, without OMP 78s 78s ================================================= 78s MUMPS compiled with option -Dpord 78s ================================================= 78s L U Solver for unsymmetric matrices 78s Type of parallelism: Working host 78s 78s ****** ANALYSIS STEP ******** 78s 78s Processing a graph of size: 5 78s ... Structural symmetry (in percent)= 92 78s Average density of rows/columns = 2 78s ... No column permutation 78s Ordering based on AMF 78s 78s Leaving analysis phase with ... 78s INFOG(1) = 0 78s INFOG(2) = 0 78s -- (20) Number of entries in factors (estim.) = 25 78s -- (3) Real space for factors (estimated) = 25 78s -- (4) Integer space for factors (estimated) = 30 78s -- (5) Maximum frontal size (estimated) = 5 78s -- (6) Number of nodes in the tree = 1 78s -- (32) Type of analysis effectively used = 1 78s -- (7) Ordering option effectively used = 2 78s ICNTL (6) Maximum transversal option = 0 78s ICNTL (7) Pivot order option = 7 78s ICNTL(12) Ordering symmetric indef. matrices = 1 78s ICNTL(13) Parallelism/splitting of root node = 0 78s ICNTL(14) Percentage of memory relaxation = 20 78s ICNTL(15) Analysis by block effectively used = 0 78s ICNTL(18) Distributed input matrix (on if >0) = 0 78s ICNTL(32) Forward elimination during facto. = 0 78s ICNTL(35) BLR activation = 0 78s ICNTL(48) Tree based multithreading (effective)= 0 78s ICNTL(58) Symbolic factorization option = 2 78s Number of level 2 nodes = 0 78s Number of split nodes = 0 78s RINFOG(1) Operations during elimination (estim)= 7.000D+01 78s 78s MEMORY ESTIMATIONS ... 78s Estimations with standard Full-Rank (FR) factorization: 78s Total space in MBytes, IC factorization (INFOG(17)): 0 78s Total space in MBytes, OOC factorization (INFOG(27)): 0 78s 78s Elapsed time in analysis driver= 0.0002 78s 78s 78s ****** FACTORIZATION STEP ******** 78s 78s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 78s Number of working processes = 1 78s ICNTL(22) Out-of-core option = 0 78s ICNTL(35) BLR activation (eff. choice) = 0 78s ICNTL(37) BLR CB compression (eff. choice) = 0 78s ICNTL(49) Compact workarray S (end facto.) = 0 78s ICNTL(14) Memory relaxation = 20 78s INFOG(3) Real space for factors (estimated)= 25 78s INFOG(4) Integer space for factors (estim.)= 30 78s Maximum frontal size (estimated) = 5 78s Number of nodes in the tree = 1 78s ICNTL(23) Memory allowed (value on host) = 0 78s Sum over all procs = 0 78s Memory provided by user, sum of LWK_USER = 0 78s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 78s 78s Statistics on the scaling phase 78s Elapsed time for scaling = 0.0000 78s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 78s 78s Effective size of S (based on INFO(39))= 2445 78s Elapsed time to reformat/distribute matrix = 0.0000 78s 78s 78s Allocated buffers 78s ------------------ 78s Size of reception buffer in bytes ...... = 140000 78s Size of async. emission buffer (bytes).. = 140012 78s Small emission buffer (bytes) .......... = 20 78s 78s ** Memory allocated, total in Mbytes (INFOG(19)): 0 78s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 78s 78s Elapsed time for factorization = 0.0001 78s 78s Leaving factorization with ... 78s RINFOG (2) Operations in node assembly = 0.000D+00 78s ------ (3) Operations in node elimination = 7.000D+01 78s ICNTL (8) Scaling effectively used = 7 78s INFOG (9) Real space for factors = 25 78s INFOG (10) Integer space for factors = 30 78s INFOG (11) Maximum front size = 5 78s INFOG (29) Number of entries in factors = 25 78s INFOG (12) Number of off diagonal pivots = 1 78s INFOG (13) Number of delayed pivots = 0 78s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 78s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 78s RINFOG(21) Largest pivot in absolute value = 5.281D+00 78s INFOG (24) Effective value of ICNTL(12) = 1 78s INFOG (14) Number of memory compress = 0 78s 78s Elapsed time in factorization driver = 0.0003 78s 78s 78s ****** SOLVE & CHECK STEP ******** 78s 78s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 78s Number of right-hand-sides = 1 78s Blocking factor for multiple rhs = 1 78s ICNTL (9) = 1 78s --- (10) = 0 78s --- (11) = 0 78s --- (20) = 0 78s --- (21) = 0 78s --- (30) = 0 78s --- (35) = 0 78s --- (48) (effective) = 0 78s ** Space in MBYTES used for solve : 0 78s 78s Leaving solve with ... 78s Time to build/scatter RHS = 0.000037 78s Time in solution step (fwd/bwd) = 0.000081 78s .. Time in forward (fwd) step = 0.000064 78s .. Time in backward (bwd) step = 0.000010 78s Time to gather solution(cent.sol)= 0.000001 78s Time for distributed solution = 0.000000 78s 78s Elapsed time in solve driver= 0.0002 78s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 78s 78s Entering CMUMPS 5.7.3 with JOB = -2 78s executing #MPI = 1, without OMP 78s 78s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 78s executing #MPI = 1, without OMP 78s 78s ================================================= 78s MUMPS compiled with option -Dpord 78s ================================================= 78s L U Solver for unsymmetric matrices 78s Type of parallelism: Working host 78s 78s ****** ANALYSIS STEP ******** 78s 78s Processing a graph of size: 5 78s ... Structural symmetry (in percent)= 92 78s Average density of rows/columns = 2 78s ... No column permutation 78s Ordering based on AMF 78s 78s Leaving analysis phase with ... 78s INFOG(1) = 0 78s INFOG(2) = 0 78s -- (20) Number of entries in factors (estim.) = 25 78s -- (3) Real space for factors (estimated) = 25 78s -- (4) Integer space for factors (estimated) = 30 78s -- (5) Maximum frontal size (estimated) = 5 78s -- (6) Number of nodes in the tree = 1 78s -- (32) Type of analysis effectively used = 1 78s -- (7) Ordering option effectively used = 2 78s ICNTL (6) Maximum transversal option = 0 78s ICNTL (7) Pivot order option = 7 78s ICNTL(12) Ordering symmetric indef. matrices = 1 78s ICNTL(13) Parallelism/splitting of root node = 0 78s ICNTL(14) Percentage of memory relaxation = 20 78s ICNTL(15) Analysis by block effectively used = 0 78s ICNTL(18) Distributed input matrix (on if >0) = 0 78s ICNTL(32) Forward elimination during facto. = 0 78s ICNTL(35) BLR activation = 0 78s ICNTL(48) Tree based multithreading (effective)= 0 78s ICNTL(58) Symbolic factorization option = 2 78s Number of level 2 nodes = 0 78s Number of split nodes = 0 78s RINFOG(1) Operations during elimination (estim)= 7.000D+01 78s 78s MEMORY ESTIMATIONS ... 78s Estimations with standard Full-Rank (FR) factorization: 78s Total space in MBytes, IC factorization (INFOG(17)): 0 78s Total space in MBytes, OOC factorization (INFOG(27)): 0 78s 78s Elapsed time in analysis driver= 0.0002 78s 78s 78s ****** FACTORIZATION STEP ******** 78s 78s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 78s Number of working processes = 1 78s ICNTL(22) Out-of-core option = 1 78s ICNTL(35) BLR activation (eff. choice) = 0 78s ICNTL(37) BLR CB compression (eff. choice) = 0 78s ICNTL(49) Compact workarray S (end facto.) = 0 78s ICNTL(14) Memory relaxation = 20 78s INFOG(3) Real space for factors (estimated)= 25 78s INFOG(4) Integer space for factors (estim.)= 30 78s Maximum frontal size (estimated) = 5 78s Number of nodes in the tree = 1 78s ICNTL(23) Memory allowed (value on host) = 0 78s Sum over all procs = 0 78s Memory provided by user, sum of LWK_USER = 0 78s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 78s 78s Statistics on the scaling phase 78s Elapsed time for scaling = 0.0000 78s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 78s 78s Effective size of S (based on INFO(39))= 2445 78s Elapsed time to reformat/distribute matrix = 0.0000 78s 78s 78s Allocated buffers 78s ------------------ 78s Size of reception buffer in bytes ...... = 140000 78s Size of async. emission buffer (bytes).. = 140012 78s Small emission buffer (bytes) .......... = 20 78s 78s ** Memory allocated, total in Mbytes (INFOG(19)): 0 78s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 78s 78s Elapsed time for factorization = 0.0002 78s 78s Leaving factorization with ... 78s RINFOG (2) Operations in node assembly = 0.000D+00 78s ------ (3) Operations in node elimination = 7.000D+01 78s ICNTL (8) Scaling effectively used = 7 78s INFOG (9) Real space for factors = 50 78s INFOG (10) Integer space for factors = 31 78s INFOG (11) Maximum front size = 5 78s INFOG (29) Number of entries in factors = 25 78s INFOG (12) Number of off diagonal pivots = 1 78s INFOG (13) Number of delayed pivots = 0 78s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 78s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 78s RINFOG(21) Largest pivot in absolute value = 5.281D+00 78s INFOG (24) Effective value of ICNTL(12) = 1 78s INFOG (14) Number of memory compress = 0 78s 78s Elapsed time in factorization driver = 0.0009 78s 78s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 78s executing #MPI = 1, without OMP 78s Save done successfully 78s The corresponding OOC files are: 78s /tmp//mumps_0_kSDewS 78s /tmp//mumps_0_x0sCbj 78s 78s Elapsed time in save structure driver= 0.0003 78s 78s Entering CMUMPS 5.7.3 with JOB = -2 78s executing #MPI = 1, without OMP 78s 78s Entering CMUMPS 5.7.3 with JOB = 8 78s executing #MPI = 1, without OMP 78s The corresponding OOC files are: 78s /tmp//mumps_0_kSDewS 78s /tmp//mumps_0_x0sCbj 78s 78s Elapsed time in restore structure driver= 0.0002 78s 78s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 78s executing #MPI = 1, without OMP 78s 78s 78s 78s ****** SOLVE & CHECK STEP ******** 78s 78s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 78s Number of right-hand-sides = 1 78s Blocking factor for multiple rhs = 1 78s ICNTL (9) = 1 78s --- (10) = 0 78s --- (11) = 0 78s --- (20) = 0 78s --- (21) = 0 78s --- (30) = 0 78s --- (35) = 0 78s --- (48) (effective) = 0 78s ** Space in MBYTES used for solve : 0 78s 78s Leaving solve with ... 78s Time to build/scatter RHS = 0.000041 78s Time in solution step (fwd/bwd) = 0.000061 78s .. Time in forward (fwd) step = 0.000040 78s .. Time in backward (bwd) step = 0.000014 78s Time to gather solution(cent.sol)= 0.000001 78s Time for distributed solution = 0.000000 78s 78s Elapsed time in solve driver= 0.0002 78s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 78s 78s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 78s executing #MPI = 1, without OMP 78s 78s Entering CMUMPS 5.7.3 with JOB = -2 78s executing #MPI = 1, without OMP 78s 78s 78s === running simple test: complex, double precision, serial === 78s 78s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 78s executing #MPI = 1, without OMP 78s 78s ================================================= 78s MUMPS compiled with option -Dpord 78s ================================================= 78s L U Solver for unsymmetric matrices 78s Type of parallelism: Working host 78s 78s ****** ANALYSIS STEP ******** 78s 78s Processing a graph of size: 5 78s ... Structural symmetry (in percent)= 92 78s Average density of rows/columns = 2 78s ... No column permutation 78s Ordering based on AMF 78s 78s Leaving analysis phase with ... 78s INFOG(1) = 0 78s INFOG(2) = 0 78s -- (20) Number of entries in factors (estim.) = 25 78s -- (3) Real space for factors (estimated) = 25 78s -- (4) Integer space for factors (estimated) = 30 78s -- (5) Maximum frontal size (estimated) = 5 78s -- (6) Number of nodes in the tree = 1 78s -- (32) Type of analysis effectively used = 1 78s -- (7) Ordering option effectively used = 2 78s ICNTL (6) Maximum transversal option = 0 78s ICNTL (7) Pivot order option = 7 78s ICNTL(12) Ordering symmetric indef. matrices = 1 78s ICNTL(13) Parallelism/splitting of root node = 0 78s ICNTL(14) Percentage of memory relaxation = 20 78s ICNTL(15) Analysis by block effectively used = 0 78s ICNTL(18) Distributed input matrix (on if >0) = 0 78s ICNTL(32) Forward elimination during facto. = 0 78s ICNTL(35) BLR activation = 0 78s ICNTL(48) Tree based multithreading (effective)= 0 78s ICNTL(58) Symbolic factorization option = 2 78s Number of level 2 nodes = 0 78s Number of split nodes = 0 78s RINFOG(1) Operations during elimination (estim)= 7.000D+01 78s 78s MEMORY ESTIMATIONS ... 78s Estimations with standard Full-Rank (FR) factorization: 78s Total space in MBytes, IC factorization (INFOG(17)): 0 78s Total space in MBytes, OOC factorization (INFOG(27)): 0 78s 78s Elapsed time in analysis driver= 0.0002 78s 78s 78s ****** FACTORIZATION STEP ******** 78s 78s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 78s Number of working processes = 1 78s ICNTL(22) Out-of-core option = 0 78s ICNTL(35) BLR activation (eff. choice) = 0 78s ICNTL(37) BLR CB compression (eff. choice) = 0 78s ICNTL(49) Compact workarray S (end facto.) = 0 78s ICNTL(14) Memory relaxation = 20 78s INFOG(3) Real space for factors (estimated)= 25 78s INFOG(4) Integer space for factors (estim.)= 30 78s Maximum frontal size (estimated) = 5 78s Number of nodes in the tree = 1 78s ICNTL(23) Memory allowed (value on host) = 0 78s Sum over all procs = 0 78s Memory provided by user, sum of LWK_USER = 0 78s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 78s 78s Statistics on the scaling phase 78s Elapsed time for scaling = 0.0000 78s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 78s 78s Effective size of S (based on INFO(39))= 2445 78s Elapsed time to reformat/distribute matrix = 0.0000 78s 78s 78s Allocated buffers 78s ------------------ 78s Size of reception buffer in bytes ...... = 140000 78s Size of async. emission buffer (bytes).. = 140012 78s Small emission buffer (bytes) .......... = 20 78s 78s ** Memory allocated, total in Mbytes (INFOG(19)): 0 78s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 78s 78s Elapsed time for factorization = 0.0001 78s 78s Leaving factorization with ... 78s RINFOG (2) Operations in node assembly = 0.000D+00 78s ------ (3) Operations in node elimination = 7.000D+01 78s ICNTL (8) Scaling effectively used = 7 78s INFOG (9) Real space for factors = 25 78s INFOG (10) Integer space for factors = 30 78s INFOG (11) Maximum front size = 5 78s INFOG (29) Number of entries in factors = 25 78s INFOG (12) Number of off diagonal pivots = 1 78s INFOG (13) Number of delayed pivots = 0 78s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 78s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 78s RINFOG(21) Largest pivot in absolute value = 5.281D+00 78s INFOG (24) Effective value of ICNTL(12) = 1 78s INFOG (14) Number of memory compress = 0 78s 78s Elapsed time in factorization driver = 0.0003 78s 78s 78s ****** SOLVE & CHECK STEP ******** 78s 78s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 78s Number of right-hand-sides = 1 78s Blocking factor for multiple rhs = 1 78s ICNTL (9) = 1 78s --- (10) = 0 78s --- (11) = 0 78s --- (20) = 0 78s --- (21) = 0 78s --- (30) = 0 78s --- (35) = 0 78s --- (48) (effective) = 0 78s ** Space in MBYTES used for solve : 0 78s 78s Leaving solve with ... 78s Time to build/scatter RHS = 0.000037 78s Time in solution step (fwd/bwd) = 0.000027 78s .. Time in forward (fwd) step = 0.000018 78s .. Time in backward (bwd) step = 0.000006 78s Time to gather solution(cent.sol)= 0.000001 78s Time for distributed solution = 0.000000 78s 78s Elapsed time in solve driver= 0.0002 78s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 78s 78s Entering ZMUMPS 5.7.3 with JOB = -2 78s executing #MPI = 1, without OMP 78s 78s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 78s executing #MPI = 1, without OMP 78s 78s ================================================= 78s MUMPS compiled with option -Dpord 78s ================================================= 78s L U Solver for unsymmetric matrices 78s Type of parallelism: Working host 78s 78s ****** ANALYSIS STEP ******** 78s 78s Processing a graph of size: 5 78s ... Structural symmetry (in percent)= 92 78s Average density of rows/columns = 2 78s ... No column permutation 78s Ordering based on AMF 78s 78s Leaving analysis phase with ... 78s INFOG(1) = 0 78s INFOG(2) = 0 78s -- (20) Number of entries in factors (estim.) = 25 78s -- (3) Real space for factors (estimated) = 25 78s -- (4) Integer space for factors (estimated) = 30 78s -- (5) Maximum frontal size (estimated) = 5 78s -- (6) Number of nodes in the tree = 1 78s -- (32) Type of analysis effectively used = 1 78s -- (7) Ordering option effectively used = 2 78s ICNTL (6) Maximum transversal option = 0 78s ICNTL (7) Pivot order option = 7 78s ICNTL(12) Ordering symmetric indef. matrices = 1 78s ICNTL(13) Parallelism/splitting of root node = 0 78s ICNTL(14) Percentage of memory relaxation = 20 78s ICNTL(15) Analysis by block effectively used = 0 78s ICNTL(18) Distributed input matrix (on if >0) = 0 78s ICNTL(32) Forward elimination during facto. = 0 78s ICNTL(35) BLR activation = 0 78s ICNTL(48) Tree based multithreading (effective)= 0 78s ICNTL(58) Symbolic factorization option = 2 78s Number of level 2 nodes = 0 78s Number of split nodes = 0 78s RINFOG(1) Operations during elimination (estim)= 7.000D+01 78s 78s MEMORY ESTIMATIONS ... 78s Estimations with standard Full-Rank (FR) factorization: 78s Total space in MBytes, IC factorization (INFOG(17)): 0 78s Total space in MBytes, OOC factorization (INFOG(27)): 0 78s 78s Elapsed time in analysis driver= 0.0002 78s 78s 78s ****** FACTORIZATION STEP ******** 78s 78s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 78s Number of working processes = 1 78s ICNTL(22) Out-of-core option = 1 78s ICNTL(35) BLR activation (eff. choice) = 0 78s ICNTL(37) BLR CB compression (eff. choice) = 0 78s ICNTL(49) Compact workarray S (end facto.) = 0 78s ICNTL(14) Memory relaxation = 20 78s INFOG(3) Real space for factors (estimated)= 25 78s INFOG(4) Integer space for factors (estim.)= 30 78s Maximum frontal size (estimated) = 5 78s Number of nodes in the tree = 1 78s ICNTL(23) Memory allowed (value on host) = 0 78s Sum over all procs = 0 78s Memory provided by user, sum of LWK_USER = 0 78s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 78s 78s Statistics on the scaling phase 78s Elapsed time for scaling = 0.0000 78s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 78s 78s Effective size of S (based on INFO(39))= 2445 78s Elapsed time to reformat/distribute matrix = 0.0000 78s 78s 78s Allocated buffers 78s ------------------ 78s Size of reception buffer in bytes ...... = 140000 78s Size of async. emission buffer (bytes).. = 140012 78s Small emission buffer (bytes) .......... = 20 78s 78s ** Memory allocated, total in Mbytes (INFOG(19)): 0 78s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 78s 78s Elapsed time for factorization = 0.0002 78s 78s Leaving factorization with ... 78s RINFOG (2) Operations in node assembly = 0.000D+00 78s ------ (3) Operations in node elimination = 7.000D+01 78s ICNTL (8) Scaling effectively used = 7 78s INFOG (9) Real space for factors = 50 78s INFOG (10) Integer space for factors = 31 78s INFOG (11) Maximum front size = 5 78s INFOG (29) Number of entries in factors = 25 78s INFOG (12) Number of off diagonal pivots = 1 78s INFOG (13) Number of delayed pivots = 0 78s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 78s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 78s RINFOG(21) Largest pivot in absolute value = 5.281D+00 78s INFOG (24) Effective value of ICNTL(12) = 1 78s INFOG (14) Number of memory compress = 0 78s 78s Elapsed time in factorization driver = 0.0008 78s 78s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 78s executing #MPI = 1, without OMP 78s Save done successfully 78s The corresponding OOC files are: 78s /tmp//mumps_0_xy8SMB 78s /tmp//mumps_0_SJe7Q4 78s 78s Elapsed time in save structure driver= 0.0005 78s 78s Entering ZMUMPS 5.7.3 with JOB = -2 78s executing #MPI = 1, without OMP 78s 78s Entering ZMUMPS 5.7.3 with JOB = 8 78s executing #MPI = 1, without OMP 78s The corresponding OOC files are: 78s /tmp//mumps_0_xy8SMB 78s /tmp//mumps_0_SJe7Q4 78s 78s Elapsed time in restore structure driver= 0.0002 78s 78s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 78s executing #MPI = 1, without OMP 78s 78s 78s 78s ****** SOLVE & CHECK STEP ******** 78s 78s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 78s Number of right-hand-sides = 1 78s Blocking factor for multiple rhs = 1 78s ICNTL (9) = 1 78s --- (10) = 0 78s --- (11) = 0 78s --- (20) = 0 78s --- (21) = 0 78s --- (30) = 0 78s --- (35) = 0 78s --- (48) (effective) = 0 78s ** Space in MBYTES used for solve : 0 78s 78s Leaving solve with ... 78s Time to build/scatter RHS = 0.000048 78s Time in solution step (fwd/bwd) = 0.000054 78s .. Time in forward (fwd) step = 0.000040 78s .. Time in backward (bwd) step = 0.000011 78s Time to gather solution(cent.sol)= 0.000001 78s Time for distributed solution = 0.000000 78s 78s Elapsed time in solve driver= 0.0002 78s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 78s 78s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 78s executing #MPI = 1, without OMP 78s 78s Entering ZMUMPS 5.7.3 with JOB = -2 78s executing #MPI = 1, without OMP 79s autopkgtest [23:24:09]: test mumps-examples-serial: -----------------------] 79s autopkgtest [23:24:09]: test mumps-examples-serial: - - - - - - - - - - results - - - - - - - - - - 79s mumps-examples-serial PASS 79s autopkgtest [23:24:09]: test mumps-examples-mpi: preparing testbed 80s Reading package lists... 80s Building dependency tree... 80s Reading state information... 80s Starting pkgProblemResolver with broken count: 0 80s Starting 2 pkgProblemResolver with broken count: 0 80s Done 81s The following NEW packages will be installed: 81s autopkgtest-satdep 81s 0 upgraded, 1 newly installed, 0 to remove and 0 not upgraded. 81s Need to get 0 B/908 B of archives. 81s After this operation, 0 B of additional disk space will be used. 81s Get:1 /tmp/autopkgtest.6QbVo5/2-autopkgtest-satdep.deb autopkgtest-satdep amd64 0 [908 B] 81s Selecting previously unselected package autopkgtest-satdep. 81s (Reading database ... (Reading database ... 5% (Reading database ... 10% (Reading database ... 15% (Reading database ... 20% (Reading database ... 25% (Reading database ... 30% (Reading database ... 35% (Reading database ... 40% (Reading database ... 45% (Reading database ... 50% (Reading database ... 55% (Reading database ... 60% (Reading database ... 65% (Reading database ... 70% (Reading database ... 75% (Reading database ... 80% (Reading database ... 85% (Reading database ... 90% (Reading database ... 95% (Reading database ... 100% (Reading database ... 81335 files and directories currently installed.) 81s Preparing to unpack .../2-autopkgtest-satdep.deb ... 81s Unpacking autopkgtest-satdep (0) ... 81s Setting up autopkgtest-satdep (0) ... 83s (Reading database ... 81335 files and directories currently installed.) 83s Removing autopkgtest-satdep (0) ... 83s autopkgtest [23:24:13]: test mumps-examples-mpi: [----------------------- 84s /bin/rm -f *.o [sdcz]simpletest c_example multiple_arithmetics_example ssimpletest_save_restore dsimpletest_save_restore csimpletest_save_restore zsimpletest_save_restore c_example_save_restore 84s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o 84s mpifort -o csimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest.o -L/usr/lib/x86_64-linux-gnu -lcmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 84s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o 84s mpifort -o csimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lcmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 85s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o 85s mpifort -o zsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest.o -L/usr/lib/x86_64-linux-gnu -lzmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 85s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o 85s mpifort -o zsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lzmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 86s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o 86s mpifort -o ssimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest.o -L/usr/lib/x86_64-linux-gnu -lsmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 86s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o 86s mpifort -o ssimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lsmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 87s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o 87s mpifort -o dsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 87s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o 87s mpifort -o dsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 87s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o 88s mpifort -o c_example_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 88s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DAdd_ -I. -I../include -I../src -c c_example.c -o c_example.o 88s mpifort -o c_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example.o -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread 88s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o 88s mpifort -o multiple_arithmetics_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/x86_64-linux-gnu -lsmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -ldmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lcmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lzmumps -lmumps_common -L/usr/lib/x86_64-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread 89s 89s 89s === running c_example (MPI) === 89s Solution is : ( 1.00 2.00) 89s Saving MUMPS instance in /tmp with prefix csave_restore. 89s DONE 89s 89s Restoring MUMPS instance in /tmp with prefix csave_restore. 89s 89s Entering DMUMPS 5.7.3 from C interface with JOB = 8 89s executing #MPI = 3, without OMP 89s 89s Elapsed time in restore structure driver= 0.0048 89s DONE 89s 89s Calling MUMPS package (solve). 89s DONE 89s 89s Removing save files. 89s DONE 89s 89s Solution is : ( 1.00 2.00) 89s 89s 89s === running simple test: real, single precision, MPI === 90s 90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 90s executing #MPI = 3, without OMP 90s 90s ================================================= 90s MUMPS compiled with option -Dpord 90s ================================================= 90s L U Solver for unsymmetric matrices 90s Type of parallelism: Working host 90s 90s ****** ANALYSIS STEP ******** 90s 90s Processing a graph of size: 5 90s ... Structural symmetry (in percent)= 92 90s Average density of rows/columns = 2 90s ... No column permutation 90s Ordering based on AMF 90s WARNING: Largest root node of size 5 not selected for parallel execution 90s 90s Leaving analysis phase with ... 90s INFOG(1) = 0 90s INFOG(2) = 0 90s -- (20) Number of entries in factors (estim.) = 25 90s -- (3) Real space for factors (estimated) = 25 90s -- (4) Integer space for factors (estimated) = 30 90s -- (5) Maximum frontal size (estimated) = 5 90s -- (6) Number of nodes in the tree = 1 90s -- (32) Type of analysis effectively used = 1 90s -- (7) Ordering option effectively used = 2 90s ICNTL (6) Maximum transversal option = 0 90s ICNTL (7) Pivot order option = 7 90s ICNTL(12) Ordering symmetric indef. matrices = 1 90s ICNTL(13) Parallelism/splitting of root node = 0 90s ICNTL(14) Percentage of memory relaxation = 20 90s ICNTL(15) Analysis by block effectively used = 0 90s ICNTL(18) Distributed input matrix (on if >0) = 0 90s ICNTL(32) Forward elimination during facto. = 0 90s ICNTL(35) BLR activation = 0 90s ICNTL(48) Tree based multithreading (effective)= 0 90s ICNTL(58) Symbolic factorization option = 2 90s Number of level 2 nodes = 0 90s Number of split nodes = 0 90s RINFOG(1) Operations during elimination (estim)= 7.000D+01 90s 90s MEMORY ESTIMATIONS ... 90s Estimations with standard Full-Rank (FR) factorization: 90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 90s Total space in MBytes, IC factorization (INFOG(17)): 0 90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 90s Total space in MBytes, OOC factorization (INFOG(27)): 0 90s 90s Elapsed time in analysis driver= 0.0014 90s 90s 90s ****** FACTORIZATION STEP ******** 90s 90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 90s Number of working processes = 3 90s ICNTL(22) Out-of-core option = 0 90s ICNTL(35) BLR activation (eff. choice) = 0 90s ICNTL(37) BLR CB compression (eff. choice) = 0 90s ICNTL(49) Compact workarray S (end facto.) = 0 90s ICNTL(14) Memory relaxation = 20 90s INFOG(3) Real space for factors (estimated)= 25 90s INFOG(4) Integer space for factors (estim.)= 30 90s Maximum frontal size (estimated) = 5 90s Number of nodes in the tree = 1 90s ICNTL(23) Memory allowed (value on host) = 0 90s Sum over all procs = 0 90s Memory provided by user, sum of LWK_USER = 0 90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 90s 90s Statistics on the scaling phase 90s Elapsed time for scaling = 0.0001 90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 90s 90s Average Effective size of S (based on INFO(39))= 2428 90s Elapsed time to reformat/distribute matrix = 0.0000 90s 90s 90s Allocated buffers 90s ------------------ 90s Size of reception buffer in bytes ...... = 140000 90s Size of async. emission buffer (bytes).. = 140012 90s Small emission buffer (bytes) .......... = 180 90s ** Memory allocated, max in Mbytes (INFOG(18)): 0 90s 90s ** Memory allocated, total in Mbytes (INFOG(19)): 0 90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 90s 90s Elapsed time for factorization = 0.0006 90s 90s Leaving factorization with ... 90s RINFOG (2) Operations in node assembly = 0.000D+00 90s ------ (3) Operations in node elimination = 7.000D+01 90s ICNTL (8) Scaling effectively used = 7 90s INFOG (9) Real space for factors = 25 90s INFOG (10) Integer space for factors = 30 90s INFOG (11) Maximum front size = 5 90s INFOG (29) Number of entries in factors = 25 90s INFOG (12) Number of off diagonal pivots = 1 90s INFOG (13) Number of delayed pivots = 0 90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 90s RINFOG(21) Largest pivot in absolute value = 5.281D+00 90s INFOG (24) Effective value of ICNTL(12) = 1 90s INFOG (14) Number of memory compress = 0 90s 90s Elapsed time in factorization driver = 0.0020 90s 90s 90s ****** SOLVE & CHECK STEP ******** 90s 90s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 90s Number of right-hand-sides = 1 90s Blocking factor for multiple rhs = 1 90s ICNTL (9) = 1 90s --- (10) = 0 90s --- (11) = 0 90s --- (20) = 0 90s --- (21) = 0 90s --- (30) = 0 90s --- (35) = 0 90s --- (48) (effective) = 0 90s ** Rank of processor needing largest memory in solve : 0 90s ** Space in MBYTES used by this processor for solve : 0 90s ** Avg. Space in MBYTES per working proc during solve : 0 90s 90s Leaving solve with ... 90s Time to build/scatter RHS = 0.000135 90s Time in solution step (fwd/bwd) = 0.000192 90s .. Time in forward (fwd) step = 0.000113 90s .. Time in backward (bwd) step = 0.000068 90s Time to gather solution(cent.sol)= 0.000003 90s Time for distributed solution = 0.000000 90s 90s Elapsed time in solve driver= 0.0009 90s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 90s 90s Entering SMUMPS 5.7.3 with JOB = -2 90s executing #MPI = 3, without OMP 90s 90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 90s executing #MPI = 3, without OMP 90s 90s ================================================= 90s MUMPS compiled with option -Dpord 90s ================================================= 90s L U Solver for unsymmetric matrices 90s Type of parallelism: Working host 90s 90s ****** ANALYSIS STEP ******** 90s 90s Processing a graph of size: 5 90s ... Structural symmetry (in percent)= 92 90s Average density of rows/columns = 2 90s ... No column permutation 90s Ordering based on AMF 90s WARNING: Largest root node of size 5 not selected for parallel execution 90s 90s Leaving analysis phase with ... 90s INFOG(1) = 0 90s INFOG(2) = 0 90s -- (20) Number of entries in factors (estim.) = 25 90s -- (3) Real space for factors (estimated) = 25 90s -- (4) Integer space for factors (estimated) = 30 90s -- (5) Maximum frontal size (estimated) = 5 90s -- (6) Number of nodes in the tree = 1 90s -- (32) Type of analysis effectively used = 1 90s -- (7) Ordering option effectively used = 2 90s ICNTL (6) Maximum transversal option = 0 90s ICNTL (7) Pivot order option = 7 90s ICNTL(12) Ordering symmetric indef. matrices = 1 90s ICNTL(13) Parallelism/splitting of root node = 0 90s ICNTL(14) Percentage of memory relaxation = 20 90s ICNTL(15) Analysis by block effectively used = 0 90s ICNTL(18) Distributed input matrix (on if >0) = 0 90s ICNTL(32) Forward elimination during facto. = 0 90s ICNTL(35) BLR activation = 0 90s ICNTL(48) Tree based multithreading (effective)= 0 90s ICNTL(58) Symbolic factorization option = 2 90s Number of level 2 nodes = 0 90s Number of split nodes = 0 90s RINFOG(1) Operations during elimination (estim)= 7.000D+01 90s 90s MEMORY ESTIMATIONS ... 90s Estimations with standard Full-Rank (FR) factorization: 90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 90s Total space in MBytes, IC factorization (INFOG(17)): 0 90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 90s Total space in MBytes, OOC factorization (INFOG(27)): 0 90s 90s Elapsed time in analysis driver= 0.0016 90s 90s 90s ****** FACTORIZATION STEP ******** 90s 90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 90s Number of working processes = 3 90s ICNTL(22) Out-of-core option = 1 90s ICNTL(35) BLR activation (eff. choice) = 0 90s ICNTL(37) BLR CB compression (eff. choice) = 0 90s ICNTL(49) Compact workarray S (end facto.) = 0 90s ICNTL(14) Memory relaxation = 20 90s INFOG(3) Real space for factors (estimated)= 25 90s INFOG(4) Integer space for factors (estim.)= 30 90s Maximum frontal size (estimated) = 5 90s Number of nodes in the tree = 1 90s ICNTL(23) Memory allowed (value on host) = 0 90s Sum over all procs = 0 90s Memory provided by user, sum of LWK_USER = 0 90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 90s 90s Statistics on the scaling phase 90s Elapsed time for scaling = 0.0002 90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 90s 90s Average Effective size of S (based on INFO(39))= 2428 90s Elapsed time to reformat/distribute matrix = 0.0000 90s 90s 90s Allocated buffers 90s ------------------ 90s Size of reception buffer in bytes ...... = 140000 90s Size of async. emission buffer (bytes).. = 140012 90s Small emission buffer (bytes) .......... = 180 90s ** Memory allocated, max in Mbytes (INFOG(18)): 0 90s 90s ** Memory allocated, total in Mbytes (INFOG(19)): 0 90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 90s 90s Elapsed time for factorization = 0.0005 90s 90s Leaving factorization with ... 90s RINFOG (2) Operations in node assembly = 0.000D+00 90s ------ (3) Operations in node elimination = 7.000D+01 90s ICNTL (8) Scaling effectively used = 7 90s INFOG (9) Real space for factors = 50 90s INFOG (10) Integer space for factors = 31 90s INFOG (11) Maximum front size = 5 90s INFOG (29) Number of entries in factors = 25 90s INFOG (12) Number of off diagonal pivots = 1 90s INFOG (13) Number of delayed pivots = 0 90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 90s RINFOG(21) Largest pivot in absolute value = 5.281D+00 90s INFOG (24) Effective value of ICNTL(12) = 1 90s INFOG (14) Number of memory compress = 0 90s 90s Elapsed time in factorization driver = 0.0029 90s 90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 90s executing #MPI = 3, without OMP 90s Save done successfully 90s The corresponding OOC files are: 90s /tmp//mumps_0_NYNVYF 90s /tmp//mumps_0_P7WhxS 90s 90s Elapsed time in save structure driver= 0.0033 90s 90s Entering SMUMPS 5.7.3 with JOB = -2 90s executing #MPI = 3, without OMP 90s 90s Entering SMUMPS 5.7.3 with JOB = 8 90s executing #MPI = 3, without OMP 90s The corresponding OOC files are: 90s /tmp//mumps_0_NYNVYF 90s /tmp//mumps_0_P7WhxS 90s 90s Elapsed time in restore structure driver= 0.0032 90s 90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 90s executing #MPI = 3, without OMP 90s 90s 90s 90s ****** SOLVE & CHECK STEP ******** 90s 90s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 90s Number of right-hand-sides = 1 90s Blocking factor for multiple rhs = 1 90s ICNTL (9) = 1 90s --- (10) = 0 90s --- (11) = 0 90s --- (20) = 0 90s --- (21) = 0 90s --- (30) = 0 90s --- (35) = 0 90s --- (48) (effective) = 0 90s ** Rank of processor needing largest memory in solve : 0 90s ** Space in MBYTES used by this processor for solve : 0 90s ** Avg. Space in MBYTES per working proc during solve : 0 90s 90s Leaving solve with ... 90s Time to build/scatter RHS = 0.000121 90s Time in solution step (fwd/bwd) = 0.000230 90s .. Time in forward (fwd) step = 0.000122 90s .. Time in backward (bwd) step = 0.000072 90s Time to gather solution(cent.sol)= 0.000002 90s Time for distributed solution = 0.000000 90s 90s Elapsed time in solve driver= 0.0010 90s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 90s 90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 90s executing #MPI = 3, without OMP 90s 90s Entering SMUMPS 5.7.3 with JOB = -2 90s executing #MPI = 3, without OMP 90s 90s 90s === running simple test: real, double precision, MPI === 90s 90s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 90s executing #MPI = 3, without OMP 90s 90s ================================================= 90s MUMPS compiled with option -Dpord 90s ================================================= 90s L U Solver for unsymmetric matrices 90s Type of parallelism: Working host 90s 90s ****** ANALYSIS STEP ******** 90s 90s Processing a graph of size: 5 90s ... Structural symmetry (in percent)= 92 90s Average density of rows/columns = 2 90s ... No column permutation 90s Ordering based on AMF 90s WARNING: Largest root node of size 5 not selected for parallel execution 90s 90s Leaving analysis phase with ... 90s INFOG(1) = 0 90s INFOG(2) = 0 90s -- (20) Number of entries in factors (estim.) = 25 90s -- (3) Real space for factors (estimated) = 25 90s -- (4) Integer space for factors (estimated) = 30 90s -- (5) Maximum frontal size (estimated) = 5 90s -- (6) Number of nodes in the tree = 1 90s -- (32) Type of analysis effectively used = 1 90s -- (7) Ordering option effectively used = 2 90s ICNTL (6) Maximum transversal option = 0 90s ICNTL (7) Pivot order option = 7 90s ICNTL(12) Ordering symmetric indef. matrices = 1 90s ICNTL(13) Parallelism/splitting of root node = 0 90s ICNTL(14) Percentage of memory relaxation = 20 90s ICNTL(15) Analysis by block effectively used = 0 90s ICNTL(18) Distributed input matrix (on if >0) = 0 90s ICNTL(32) Forward elimination during facto. = 0 90s ICNTL(35) BLR activation = 0 90s ICNTL(48) Tree based multithreading (effective)= 0 90s ICNTL(58) Symbolic factorization option = 2 90s Number of level 2 nodes = 0 90s Number of split nodes = 0 90s RINFOG(1) Operations during elimination (estim)= 7.000D+01 90s 90s MEMORY ESTIMATIONS ... 90s Estimations with standard Full-Rank (FR) factorization: 90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 90s Total space in MBytes, IC factorization (INFOG(17)): 0 90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 90s Total space in MBytes, OOC factorization (INFOG(27)): 0 90s 90s Elapsed time in analysis driver= 0.0019 90s 90s 90s ****** FACTORIZATION STEP ******** 90s 90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 90s Number of working processes = 3 90s ICNTL(22) Out-of-core option = 0 90s ICNTL(35) BLR activation (eff. choice) = 0 90s ICNTL(37) BLR CB compression (eff. choice) = 0 90s ICNTL(49) Compact workarray S (end facto.) = 0 90s ICNTL(14) Memory relaxation = 20 90s INFOG(3) Real space for factors (estimated)= 25 90s INFOG(4) Integer space for factors (estim.)= 30 90s Maximum frontal size (estimated) = 5 90s Number of nodes in the tree = 1 90s ICNTL(23) Memory allowed (value on host) = 0 90s Sum over all procs = 0 90s Memory provided by user, sum of LWK_USER = 0 90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 90s 90s Statistics on the scaling phase 90s Elapsed time for scaling = 0.0002 90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 90s 90s Average Effective size of S (based on INFO(39))= 2428 90s Elapsed time to reformat/distribute matrix = 0.0000 90s 90s 90s Allocated buffers 90s ------------------ 90s Size of reception buffer in bytes ...... = 140000 90s Size of async. emission buffer (bytes).. = 140012 90s Small emission buffer (bytes) .......... = 180 90s ** Memory allocated, max in Mbytes (INFOG(18)): 0 90s 90s ** Memory allocated, total in Mbytes (INFOG(19)): 0 90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 90s 90s Elapsed time for factorization = 0.0005 90s 90s Leaving factorization with ... 90s RINFOG (2) Operations in node assembly = 0.000D+00 90s ------ (3) Operations in node elimination = 7.000D+01 90s ICNTL (8) Scaling effectively used = 7 90s INFOG (9) Real space for factors = 25 90s INFOG (10) Integer space for factors = 30 90s INFOG (11) Maximum front size = 5 90s INFOG (29) Number of entries in factors = 25 90s INFOG (12) Number of off diagonal pivots = 1 90s INFOG (13) Number of delayed pivots = 0 90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 90s RINFOG(21) Largest pivot in absolute value = 5.281D+00 90s INFOG (24) Effective value of ICNTL(12) = 1 90s INFOG (14) Number of memory compress = 0 90s 90s Elapsed time in factorization driver = 0.0026 90s 90s 90s ****** SOLVE & CHECK STEP ******** 90s 90s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 90s Number of right-hand-sides = 1 90s Blocking factor for multiple rhs = 1 90s ICNTL (9) = 1 90s --- (10) = 0 90s --- (11) = 0 90s --- (20) = 0 90s --- (21) = 0 90s --- (30) = 0 90s --- (35) = 0 90s --- (48) (effective) = 0 90s ** Rank of processor needing largest memory in solve : 0 90s ** Space in MBYTES used by this processor for solve : 0 90s ** Avg. Space in MBYTES per working proc during solve : 0 90s 90s Leaving solve with ... 90s Time to build/scatter RHS = 0.000104 90s Time in solution step (fwd/bwd) = 0.000159 90s .. Time in forward (fwd) step = 0.000078 90s .. Time in backward (bwd) step = 0.000055 90s Time to gather solution(cent.sol)= 0.000002 90s Time for distributed solution = 0.000000 90s 90s Elapsed time in solve driver= 0.0010 90s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 90s 90s Entering DMUMPS 5.7.3 with JOB = -2 90s executing #MPI = 3, without OMP 91s 91s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 91s executing #MPI = 3, without OMP 91s 91s ================================================= 91s MUMPS compiled with option -Dpord 91s ================================================= 91s L U Solver for unsymmetric matrices 91s Type of parallelism: Working host 91s 91s ****** ANALYSIS STEP ******** 91s 91s Processing a graph of size: 5 91s ... Structural symmetry (in percent)= 92 91s Average density of rows/columns = 2 91s ... No column permutation 91s Ordering based on AMF 91s WARNING: Largest root node of size 5 not selected for parallel execution 91s 91s Leaving analysis phase with ... 91s INFOG(1) = 0 91s INFOG(2) = 0 91s -- (20) Number of entries in factors (estim.) = 25 91s -- (3) Real space for factors (estimated) = 25 91s -- (4) Integer space for factors (estimated) = 30 91s -- (5) Maximum frontal size (estimated) = 5 91s -- (6) Number of nodes in the tree = 1 91s -- (32) Type of analysis effectively used = 1 91s -- (7) Ordering option effectively used = 2 91s ICNTL (6) Maximum transversal option = 0 91s ICNTL (7) Pivot order option = 7 91s ICNTL(12) Ordering symmetric indef. matrices = 1 91s ICNTL(13) Parallelism/splitting of root node = 0 91s ICNTL(14) Percentage of memory relaxation = 20 91s ICNTL(15) Analysis by block effectively used = 0 91s ICNTL(18) Distributed input matrix (on if >0) = 0 91s ICNTL(32) Forward elimination during facto. = 0 91s ICNTL(35) BLR activation = 0 91s ICNTL(48) Tree based multithreading (effective)= 0 91s ICNTL(58) Symbolic factorization option = 2 91s Number of level 2 nodes = 0 91s Number of split nodes = 0 91s RINFOG(1) Operations during elimination (estim)= 7.000D+01 91s 91s MEMORY ESTIMATIONS ... 91s Estimations with standard Full-Rank (FR) factorization: 91s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 91s Total space in MBytes, IC factorization (INFOG(17)): 0 91s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 91s Total space in MBytes, OOC factorization (INFOG(27)): 0 91s 91s Elapsed time in analysis driver= 0.0018 91s 91s 91s ****** FACTORIZATION STEP ******** 91s 91s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 91s Number of working processes = 3 91s ICNTL(22) Out-of-core option = 1 91s ICNTL(35) BLR activation (eff. choice) = 0 91s ICNTL(37) BLR CB compression (eff. choice) = 0 91s ICNTL(49) Compact workarray S (end facto.) = 0 91s ICNTL(14) Memory relaxation = 20 91s INFOG(3) Real space for factors (estimated)= 25 91s INFOG(4) Integer space for factors (estim.)= 30 91s Maximum frontal size (estimated) = 5 91s Number of nodes in the tree = 1 91s ICNTL(23) Memory allowed (value on host) = 0 91s Sum over all procs = 0 91s Memory provided by user, sum of LWK_USER = 0 91s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 91s 91s Statistics on the scaling phase 91s Elapsed time for scaling = 0.0003 91s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 91s 91s Average Effective size of S (based on INFO(39))= 2428 91s Elapsed time to reformat/distribute matrix = 0.0000 91s 91s 91s Allocated buffers 91s ------------------ 91s Size of reception buffer in bytes ...... = 140000 91s Size of async. emission buffer (bytes).. = 140012 91s Small emission buffer (bytes) .......... = 180 91s ** Memory allocated, max in Mbytes (INFOG(18)): 0 91s 91s ** Memory allocated, total in Mbytes (INFOG(19)): 0 91s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 91s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 91s 91s Elapsed time for factorization = 0.0006 91s 91s Leaving factorization with ... 91s RINFOG (2) Operations in node assembly = 0.000D+00 91s ------ (3) Operations in node elimination = 7.000D+01 91s ICNTL (8) Scaling effectively used = 7 91s INFOG (9) Real space for factors = 50 91s INFOG (10) Integer space for factors = 31 91s INFOG (11) Maximum front size = 5 91s INFOG (29) Number of entries in factors = 25 91s INFOG (12) Number of off diagonal pivots = 1 91s INFOG (13) Number of delayed pivots = 0 91s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 91s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 91s RINFOG(21) Largest pivot in absolute value = 5.281D+00 91s INFOG (24) Effective value of ICNTL(12) = 1 91s INFOG (14) Number of memory compress = 0 91s 91s Elapsed time in factorization driver = 0.0034 91s 91s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 91s executing #MPI = 3, without OMP 91s Save done successfully 91s The corresponding OOC files are: 91s /tmp//mumps_0_gLgHip 91s /tmp//mumps_0_fE7qvM 91s 91s Elapsed time in save structure driver= 0.0031 91s 91s Entering DMUMPS 5.7.3 with JOB = -2 91s executing #MPI = 3, without OMP 91s 91s Entering DMUMPS 5.7.3 with JOB = 8 91s executing #MPI = 3, without OMP 91s The corresponding OOC files are: 91s /tmp//mumps_0_gLgHip 91s /tmp//mumps_0_fE7qvM 91s 91s Elapsed time in restore structure driver= 0.0027 91s 91s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 91s executing #MPI = 3, without OMP 91s 91s 91s 91s ****** SOLVE & CHECK STEP ******** 91s 91s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 91s Number of right-hand-sides = 1 91s Blocking factor for multiple rhs = 1 91s ICNTL (9) = 1 91s --- (10) = 0 91s --- (11) = 0 91s --- (20) = 0 91s --- (21) = 0 91s --- (30) = 0 91s --- (35) = 0 91s --- (48) (effective) = 0 91s ** Rank of processor needing largest memory in solve : 0 91s ** Space in MBYTES used by this processor for solve : 0 91s ** Avg. Space in MBYTES per working proc during solve : 0 91s 91s Leaving solve with ... 91s Time to build/scatter RHS = 0.000114 91s Time in solution step (fwd/bwd) = 0.000232 91s .. Time in forward (fwd) step = 0.000127 91s .. Time in backward (bwd) step = 0.000068 91s Time to gather solution(cent.sol)= 0.000002 91s Time for distributed solution = 0.000000 91s 91s Elapsed time in solve driver= 0.0011 91s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 91s 91s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 91s executing #MPI = 3, without OMP 91s 91s Entering DMUMPS 5.7.3 with JOB = -2 91s executing #MPI = 3, without OMP 91s 91s 91s === running simple test: complex, single precision, MPI === 91s 91s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 91s executing #MPI = 3, without OMP 91s 91s ================================================= 91s MUMPS compiled with option -Dpord 91s ================================================= 91s L U Solver for unsymmetric matrices 91s Type of parallelism: Working host 91s 91s ****** ANALYSIS STEP ******** 91s 91s Processing a graph of size: 5 91s ... Structural symmetry (in percent)= 92 91s Average density of rows/columns = 2 91s ... No column permutation 91s Ordering based on AMF 91s WARNING: Largest root node of size 5 not selected for parallel execution 91s 91s Leaving analysis phase with ... 91s INFOG(1) = 0 91s INFOG(2) = 0 91s -- (20) Number of entries in factors (estim.) = 25 91s -- (3) Real space for factors (estimated) = 25 91s -- (4) Integer space for factors (estimated) = 30 91s -- (5) Maximum frontal size (estimated) = 5 91s -- (6) Number of nodes in the tree = 1 91s -- (32) Type of analysis effectively used = 1 91s -- (7) Ordering option effectively used = 2 91s ICNTL (6) Maximum transversal option = 0 91s ICNTL (7) Pivot order option = 7 91s ICNTL(12) Ordering symmetric indef. matrices = 1 91s ICNTL(13) Parallelism/splitting of root node = 0 91s ICNTL(14) Percentage of memory relaxation = 20 91s ICNTL(15) Analysis by block effectively used = 0 91s ICNTL(18) Distributed input matrix (on if >0) = 0 91s ICNTL(32) Forward elimination during facto. = 0 91s ICNTL(35) BLR activation = 0 91s ICNTL(48) Tree based multithreading (effective)= 0 91s ICNTL(58) Symbolic factorization option = 2 91s Number of level 2 nodes = 0 91s Number of split nodes = 0 91s RINFOG(1) Operations during elimination (estim)= 7.000D+01 91s 91s MEMORY ESTIMATIONS ... 91s Estimations with standard Full-Rank (FR) factorization: 91s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 91s Total space in MBytes, IC factorization (INFOG(17)): 0 91s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 91s Total space in MBytes, OOC factorization (INFOG(27)): 0 91s 91s Elapsed time in analysis driver= 0.0016 91s 91s 91s ****** FACTORIZATION STEP ******** 91s 91s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 91s Number of working processes = 3 91s ICNTL(22) Out-of-core option = 0 91s ICNTL(35) BLR activation (eff. choice) = 0 91s ICNTL(37) BLR CB compression (eff. choice) = 0 91s ICNTL(49) Compact workarray S (end facto.) = 0 91s ICNTL(14) Memory relaxation = 20 91s INFOG(3) Real space for factors (estimated)= 25 91s INFOG(4) Integer space for factors (estim.)= 30 91s Maximum frontal size (estimated) = 5 91s Number of nodes in the tree = 1 91s ICNTL(23) Memory allowed (value on host) = 0 91s Sum over all procs = 0 91s Memory provided by user, sum of LWK_USER = 0 91s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 91s 91s Statistics on the scaling phase 91s Elapsed time for scaling = 0.0002 91s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 91s 91s Average Effective size of S (based on INFO(39))= 2428 91s Elapsed time to reformat/distribute matrix = 0.0000 91s 91s 91s Allocated buffers 91s ------------------ 91s Size of reception buffer in bytes ...... = 140000 91s Size of async. emission buffer (bytes).. = 140012 91s Small emission buffer (bytes) .......... = 180 91s ** Memory allocated, max in Mbytes (INFOG(18)): 0 91s 91s ** Memory allocated, total in Mbytes (INFOG(19)): 0 91s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 91s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 91s 91s Elapsed time for factorization = 0.0006 91s 91s Leaving factorization with ... 91s RINFOG (2) Operations in node assembly = 0.000D+00 91s ------ (3) Operations in node elimination = 7.000D+01 91s ICNTL (8) Scaling effectively used = 7 91s INFOG (9) Real space for factors = 25 91s INFOG (10) Integer space for factors = 30 91s INFOG (11) Maximum front size = 5 91s INFOG (29) Number of entries in factors = 25 91s INFOG (12) Number of off diagonal pivots = 1 91s INFOG (13) Number of delayed pivots = 0 91s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 91s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 91s RINFOG(21) Largest pivot in absolute value = 5.281D+00 91s INFOG (24) Effective value of ICNTL(12) = 1 91s INFOG (14) Number of memory compress = 0 91s 91s Elapsed time in factorization driver = 0.0031 91s 91s 91s ****** SOLVE & CHECK STEP ******** 91s 91s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 91s Number of right-hand-sides = 1 91s Blocking factor for multiple rhs = 1 91s ICNTL (9) = 1 91s --- (10) = 0 91s --- (11) = 0 91s --- (20) = 0 91s --- (21) = 0 91s --- (30) = 0 91s --- (35) = 0 91s --- (48) (effective) = 0 91s ** Rank of processor needing largest memory in solve : 0 91s ** Space in MBYTES used by this processor for solve : 0 91s ** Avg. Space in MBYTES per working proc during solve : 0 91s 91s Leaving solve with ... 91s Time to build/scatter RHS = 0.000096 91s Time in solution step (fwd/bwd) = 0.000178 91s .. Time in forward (fwd) step = 0.000087 91s .. Time in backward (bwd) step = 0.000068 91s Time to gather solution(cent.sol)= 0.000002 91s Time for distributed solution = 0.000000 91s 91s Elapsed time in solve driver= 0.0011 91s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 91s 91s Entering CMUMPS 5.7.3 with JOB = -2 91s executing #MPI = 3, without OMP 92s 92s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 92s executing #MPI = 3, without OMP 92s 92s ================================================= 92s MUMPS compiled with option -Dpord 92s ================================================= 92s L U Solver for unsymmetric matrices 92s Type of parallelism: Working host 92s 92s ****** ANALYSIS STEP ******** 92s 92s Processing a graph of size: 5 92s ... Structural symmetry (in percent)= 92 92s Average density of rows/columns = 2 92s ... No column permutation 92s Ordering based on AMF 92s WARNING: Largest root node of size 5 not selected for parallel execution 92s 92s Leaving analysis phase with ... 92s INFOG(1) = 0 92s INFOG(2) = 0 92s -- (20) Number of entries in factors (estim.) = 25 92s -- (3) Real space for factors (estimated) = 25 92s -- (4) Integer space for factors (estimated) = 30 92s -- (5) Maximum frontal size (estimated) = 5 92s -- (6) Number of nodes in the tree = 1 92s -- (32) Type of analysis effectively used = 1 92s -- (7) Ordering option effectively used = 2 92s ICNTL (6) Maximum transversal option = 0 92s ICNTL (7) Pivot order option = 7 92s ICNTL(12) Ordering symmetric indef. matrices = 1 92s ICNTL(13) Parallelism/splitting of root node = 0 92s ICNTL(14) Percentage of memory relaxation = 20 92s ICNTL(15) Analysis by block effectively used = 0 92s ICNTL(18) Distributed input matrix (on if >0) = 0 92s ICNTL(32) Forward elimination during facto. = 0 92s ICNTL(35) BLR activation = 0 92s ICNTL(48) Tree based multithreading (effective)= 0 92s ICNTL(58) Symbolic factorization option = 2 92s Number of level 2 nodes = 0 92s Number of split nodes = 0 92s RINFOG(1) Operations during elimination (estim)= 7.000D+01 92s 92s MEMORY ESTIMATIONS ... 92s Estimations with standard Full-Rank (FR) factorization: 92s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 92s Total space in MBytes, IC factorization (INFOG(17)): 0 92s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 92s Total space in MBytes, OOC factorization (INFOG(27)): 0 92s 92s Elapsed time in analysis driver= 0.0019 92s 92s 92s ****** FACTORIZATION STEP ******** 92s 92s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 92s Number of working processes = 3 92s ICNTL(22) Out-of-core option = 1 92s ICNTL(35) BLR activation (eff. choice) = 0 92s ICNTL(37) BLR CB compression (eff. choice) = 0 92s ICNTL(49) Compact workarray S (end facto.) = 0 92s ICNTL(14) Memory relaxation = 20 92s INFOG(3) Real space for factors (estimated)= 25 92s INFOG(4) Integer space for factors (estim.)= 30 92s Maximum frontal size (estimated) = 5 92s Number of nodes in the tree = 1 92s ICNTL(23) Memory allowed (value on host) = 0 92s Sum over all procs = 0 92s Memory provided by user, sum of LWK_USER = 0 92s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 92s 92s Statistics on the scaling phase 92s Elapsed time for scaling = 0.0002 92s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 92s 92s Average Effective size of S (based on INFO(39))= 2428 92s Elapsed time to reformat/distribute matrix = 0.0000 92s 92s 92s Allocated buffers 92s ------------------ 92s Size of reception buffer in bytes ...... = 140000 92s Size of async. emission buffer (bytes).. = 140012 92s Small emission buffer (bytes) .......... = 180 92s ** Memory allocated, max in Mbytes (INFOG(18)): 0 92s 92s ** Memory allocated, total in Mbytes (INFOG(19)): 0 92s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 92s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 92s 92s Elapsed time for factorization = 0.0005 92s 92s Leaving factorization with ... 92s RINFOG (2) Operations in node assembly = 0.000D+00 92s ------ (3) Operations in node elimination = 7.000D+01 92s ICNTL (8) Scaling effectively used = 7 92s INFOG (9) Real space for factors = 50 92s INFOG (10) Integer space for factors = 31 92s INFOG (11) Maximum front size = 5 92s INFOG (29) Number of entries in factors = 25 92s INFOG (12) Number of off diagonal pivots = 1 92s INFOG (13) Number of delayed pivots = 0 92s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 92s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 92s RINFOG(21) Largest pivot in absolute value = 5.281D+00 92s INFOG (24) Effective value of ICNTL(12) = 1 92s INFOG (14) Number of memory compress = 0 92s 92s Elapsed time in factorization driver = 0.0033 92s 92s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 92s executing #MPI = 3, without OMP 92s Save done successfully 92s The corresponding OOC files are: 92s /tmp//mumps_0_BT7d7J 92s /tmp//mumps_0_suloBX 92s 92s Elapsed time in save structure driver= 0.0027 92s 92s Entering CMUMPS 5.7.3 with JOB = -2 92s executing #MPI = 3, without OMP 92s 92s Entering CMUMPS 5.7.3 with JOB = 8 92s executing #MPI = 3, without OMP 92s The corresponding OOC files are: 92s /tmp//mumps_0_BT7d7J 92s /tmp//mumps_0_suloBX 92s 92s Elapsed time in restore structure driver= 0.0027 92s 92s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 92s executing #MPI = 3, without OMP 92s 92s 92s 92s ****** SOLVE & CHECK STEP ******** 92s 92s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 92s Number of right-hand-sides = 1 92s Blocking factor for multiple rhs = 1 92s ICNTL (9) = 1 92s --- (10) = 0 92s --- (11) = 0 92s --- (20) = 0 92s --- (21) = 0 92s --- (30) = 0 92s --- (35) = 0 92s --- (48) (effective) = 0 92s ** Rank of processor needing largest memory in solve : 0 92s ** Space in MBYTES used by this processor for solve : 0 92s ** Avg. Space in MBYTES per working proc during solve : 0 92s 92s Leaving solve with ... 92s Time to build/scatter RHS = 0.000148 92s Time in solution step (fwd/bwd) = 0.000267 92s .. Time in forward (fwd) step = 0.000136 92s .. Time in backward (bwd) step = 0.000083 92s Time to gather solution(cent.sol)= 0.000003 92s Time for distributed solution = 0.000000 92s 92s Elapsed time in solve driver= 0.0011 92s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 92s 92s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 92s executing #MPI = 3, without OMP 92s 92s Entering CMUMPS 5.7.3 with JOB = -2 92s executing #MPI = 3, without OMP 92s 92s 92s === running simple test: complex, double precision, MPI === 92s 92s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 92s executing #MPI = 3, without OMP 92s 92s ================================================= 92s MUMPS compiled with option -Dpord 92s ================================================= 92s L U Solver for unsymmetric matrices 92s Type of parallelism: Working host 92s 92s ****** ANALYSIS STEP ******** 92s 92s Processing a graph of size: 5 92s ... Structural symmetry (in percent)= 92 92s Average density of rows/columns = 2 92s ... No column permutation 92s Ordering based on AMF 92s WARNING: Largest root node of size 5 not selected for parallel execution 92s 92s Leaving analysis phase with ... 92s INFOG(1) = 0 92s INFOG(2) = 0 92s -- (20) Number of entries in factors (estim.) = 25 92s -- (3) Real space for factors (estimated) = 25 92s -- (4) Integer space for factors (estimated) = 30 92s -- (5) Maximum frontal size (estimated) = 5 92s -- (6) Number of nodes in the tree = 1 92s -- (32) Type of analysis effectively used = 1 92s -- (7) Ordering option effectively used = 2 92s ICNTL (6) Maximum transversal option = 0 92s ICNTL (7) Pivot order option = 7 92s ICNTL(12) Ordering symmetric indef. matrices = 1 92s ICNTL(13) Parallelism/splitting of root node = 0 92s ICNTL(14) Percentage of memory relaxation = 20 92s ICNTL(15) Analysis by block effectively used = 0 92s ICNTL(18) Distributed input matrix (on if >0) = 0 92s ICNTL(32) Forward elimination during facto. = 0 92s ICNTL(35) BLR activation = 0 92s ICNTL(48) Tree based multithreading (effective)= 0 92s ICNTL(58) Symbolic factorization option = 2 92s Number of level 2 nodes = 0 92s Number of split nodes = 0 92s RINFOG(1) Operations during elimination (estim)= 7.000D+01 92s 92s MEMORY ESTIMATIONS ... 92s Estimations with standard Full-Rank (FR) factorization: 92s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 92s Total space in MBytes, IC factorization (INFOG(17)): 0 92s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 92s Total space in MBytes, OOC factorization (INFOG(27)): 0 92s 92s Elapsed time in analysis driver= 0.0024 92s 92s 92s ****** FACTORIZATION STEP ******** 92s 92s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 92s Number of working processes = 3 92s ICNTL(22) Out-of-core option = 0 92s ICNTL(35) BLR activation (eff. choice) = 0 92s ICNTL(37) BLR CB compression (eff. choice) = 0 92s ICNTL(49) Compact workarray S (end facto.) = 0 92s ICNTL(14) Memory relaxation = 20 92s INFOG(3) Real space for factors (estimated)= 25 92s INFOG(4) Integer space for factors (estim.)= 30 92s Maximum frontal size (estimated) = 5 92s Number of nodes in the tree = 1 92s ICNTL(23) Memory allowed (value on host) = 0 92s Sum over all procs = 0 92s Memory provided by user, sum of LWK_USER = 0 92s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 92s 92s Statistics on the scaling phase 92s Elapsed time for scaling = 0.0002 92s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 92s 92s Average Effective size of S (based on INFO(39))= 2428 92s Elapsed time to reformat/distribute matrix = 0.0000 92s 92s 92s Allocated buffers 92s ------------------ 92s Size of reception buffer in bytes ...... = 140000 92s Size of async. emission buffer (bytes).. = 140012 92s Small emission buffer (bytes) .......... = 180 92s ** Memory allocated, max in Mbytes (INFOG(18)): 0 92s 92s ** Memory allocated, total in Mbytes (INFOG(19)): 0 92s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 92s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 92s 92s Elapsed time for factorization = 0.0007 92s 92s Leaving factorization with ... 92s RINFOG (2) Operations in node assembly = 0.000D+00 92s ------ (3) Operations in node elimination = 7.000D+01 92s ICNTL (8) Scaling effectively used = 7 92s INFOG (9) Real space for factors = 25 92s INFOG (10) Integer space for factors = 30 92s INFOG (11) Maximum front size = 5 92s INFOG (29) Number of entries in factors = 25 92s INFOG (12) Number of off diagonal pivots = 1 92s INFOG (13) Number of delayed pivots = 0 92s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 92s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 92s RINFOG(21) Largest pivot in absolute value = 5.281D+00 92s INFOG (24) Effective value of ICNTL(12) = 1 92s INFOG (14) Number of memory compress = 0 92s 92s Elapsed time in factorization driver = 0.0035 92s 92s 92s ****** SOLVE & CHECK STEP ******** 92s 92s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 92s Number of right-hand-sides = 1 92s Blocking factor for multiple rhs = 1 92s ICNTL (9) = 1 92s --- (10) = 0 92s --- (11) = 0 92s --- (20) = 0 92s --- (21) = 0 92s --- (30) = 0 92s --- (35) = 0 92s --- (48) (effective) = 0 92s ** Rank of processor needing largest memory in solve : 0 92s ** Space in MBYTES used by this processor for solve : 0 92s ** Avg. Space in MBYTES per working proc during solve : 0 92s 92s Leaving solve with ... 92s Time to build/scatter RHS = 0.000149 92s Time in solution step (fwd/bwd) = 0.000205 92s .. Time in forward (fwd) step = 0.000095 92s .. Time in backward (bwd) step = 0.000079 92s Time to gather solution(cent.sol)= 0.000002 92s Time for distributed solution = 0.000000 92s 92s Elapsed time in solve driver= 0.0015 92s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 92s 92s Entering ZMUMPS 5.7.3 with JOB = -2 92s executing #MPI = 3, without OMP 92s 92s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 92s executing #MPI = 3, without OMP 92s 92s ================================================= 92s MUMPS compiled with option -Dpord 92s ================================================= 92s L U Solver for unsymmetric matrices 92s Type of parallelism: Working host 92s 92s ****** ANALYSIS STEP ******** 92s 92s Processing a graph of size: 5 92s ... Structural symmetry (in percent)= 92 92s Average density of rows/columns = 2 92s ... No column permutation 92s Ordering based on AMF 92s WARNING: Largest root node of size 5 not selected for parallel execution 92s 92s Leaving analysis phase with ... 92s INFOG(1) = 0 92s INFOG(2) = 0 92s -- (20) Number of entries in factors (estim.) = 25 92s -- (3) Real space for factors (estimated) = 25 92s -- (4) Integer space for factors (estimated) = 30 92s -- (5) Maximum frontal size (estimated) = 5 92s -- (6) Number of nodes in the tree = 1 92s -- (32) Type of analysis effectively used = 1 92s -- (7) Ordering option effectively used = 2 92s ICNTL (6) Maximum transversal option = 0 92s ICNTL (7) Pivot order option = 7 92s ICNTL(12) Ordering symmetric indef. matrices = 1 92s ICNTL(13) Parallelism/splitting of root node = 0 92s ICNTL(14) Percentage of memory relaxation = 20 92s ICNTL(15) Analysis by block effectively used = 0 92s ICNTL(18) Distributed input matrix (on if >0) = 0 92s ICNTL(32) Forward elimination during facto. = 0 92s ICNTL(35) BLR activation = 0 92s ICNTL(48) Tree based multithreading (effective)= 0 92s ICNTL(58) Symbolic factorization option = 2 92s Number of level 2 nodes = 0 92s Number of split nodes = 0 92s RINFOG(1) Operations during elimination (estim)= 7.000D+01 92s 92s MEMORY ESTIMATIONS ... 92s Estimations with standard Full-Rank (FR) factorization: 92s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 92s Total space in MBytes, IC factorization (INFOG(17)): 0 92s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 92s Total space in MBytes, OOC factorization (INFOG(27)): 0 92s 92s Elapsed time in analysis driver= 0.0017 92s 92s 92s ****** FACTORIZATION STEP ******** 92s 92s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 92s Number of working processes = 3 92s ICNTL(22) Out-of-core option = 1 92s ICNTL(35) BLR activation (eff. choice) = 0 92s ICNTL(37) BLR CB compression (eff. choice) = 0 92s ICNTL(49) Compact workarray S (end facto.) = 0 92s ICNTL(14) Memory relaxation = 20 92s INFOG(3) Real space for factors (estimated)= 25 92s INFOG(4) Integer space for factors (estim.)= 30 92s Maximum frontal size (estimated) = 5 92s Number of nodes in the tree = 1 92s ICNTL(23) Memory allowed (value on host) = 0 92s Sum over all procs = 0 92s Memory provided by user, sum of LWK_USER = 0 92s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 92s 92s Statistics on the scaling phase 92s Elapsed time for scaling = 0.0002 92s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 92s 92s Average Effective size of S (based on INFO(39))= 2428 92s Elapsed time to reformat/distribute matrix = 0.0000 92s 92s 92s Allocated buffers 92s ------------------ 92s Size of reception buffer in bytes ...... = 140000 92s Size of async. emission buffer (bytes).. = 140012 92s Small emission buffer (bytes) .......... = 180 92s ** Memory allocated, max in Mbytes (INFOG(18)): 0 92s 92s ** Memory allocated, total in Mbytes (INFOG(19)): 0 92s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 92s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 92s 92s Elapsed time for factorization = 0.0005 92s 92s Leaving factorization with ... 92s RINFOG (2) Operations in node assembly = 0.000D+00 92s ------ (3) Operations in node elimination = 7.000D+01 92s ICNTL (8) Scaling effectively used = 7 92s INFOG (9) Real space for factors = 50 92s INFOG (10) Integer space for factors = 31 92s INFOG (11) Maximum front size = 5 92s INFOG (29) Number of entries in factors = 25 92s INFOG (12) Number of off diagonal pivots = 1 92s INFOG (13) Number of delayed pivots = 0 92s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 92s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 92s RINFOG(21) Largest pivot in absolute value = 5.281D+00 92s INFOG (24) Effective value of ICNTL(12) = 1 92s INFOG (14) Number of memory compress = 0 92s 92s Elapsed time in factorization driver = 0.0036 92s 92s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 92s executing #MPI = 3, without OMP 92s Save done successfully 92s The corresponding OOC files are: 92s /tmp//mumps_0_67pJTY 92s /tmp//mumps_0_pWdex9 92s 92s Elapsed time in save structure driver= 0.0030 92s 92s Entering ZMUMPS 5.7.3 with JOB = -2 92s executing #MPI = 3, without OMP 92s 92s Entering ZMUMPS 5.7.3 with JOB = 8 92s executing #MPI = 3, without OMP 92s The corresponding OOC files are: 92s /tmp//mumps_0_67pJTY 92s /tmp//mumps_0_pWdex9 92s 92s Elapsed time in restore structure driver= 0.0032 92s 92s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 92s executing #MPI = 3, without OMP 92s 92s 92s 92s ****** SOLVE & CHECK STEP ******** 92s 92s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 92s Number of right-hand-sides = 1 92s Blocking factor for multiple rhs = 1 92s ICNTL (9) = 1 92s --- (10) = 0 92s --- (11) = 0 92s --- (20) = 0 92s --- (21) = 0 92s --- (30) = 0 92s --- (35) = 0 92s --- (48) (effective) = 0 92s ** Rank of processor needing largest memory in solve : 0 92s ** Space in MBYTES used by this processor for solve : 0 92s ** Avg. Space in MBYTES per working proc during solve : 0 92s 92s Leaving solve with ... 92s Time to build/scatter RHS = 0.000153 92s Time in solution step (fwd/bwd) = 0.000219 92s .. Time in forward (fwd) step = 0.000100 92s .. Time in backward (bwd) step = 0.000064 92s Time to gather solution(cent.sol)= 0.000006 92s Time for distributed solution = 0.000000 92s 92s Elapsed time in solve driver= 0.0012 92s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 92s 92s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 92s executing #MPI = 3, without OMP 92s 92s Entering ZMUMPS 5.7.3 with JOB = -2 92s executing #MPI = 3, without OMP 93s autopkgtest [23:24:23]: test mumps-examples-mpi: -----------------------] 93s mumps-examples-mpi PASS 93s autopkgtest [23:24:23]: test mumps-examples-mpi: - - - - - - - - - - results - - - - - - - - - - 93s autopkgtest [23:24:23]: test mumps64-examples-serial: preparing testbed 94s Reading package lists... 94s Building dependency tree... 94s Reading state information... 94s Starting pkgProblemResolver with broken count: 0 94s Starting 2 pkgProblemResolver with broken count: 0 94s Done 95s The following NEW packages will be installed: 95s autopkgtest-satdep 95s 0 upgraded, 1 newly installed, 0 to remove and 0 not upgraded. 95s Need to get 0 B/912 B of archives. 95s After this operation, 0 B of additional disk space will be used. 95s Get:1 /tmp/autopkgtest.6QbVo5/3-autopkgtest-satdep.deb autopkgtest-satdep amd64 0 [912 B] 95s Selecting previously unselected package autopkgtest-satdep. 95s (Reading database ... (Reading database ... 5% (Reading database ... 10% (Reading database ... 15% (Reading database ... 20% (Reading database ... 25% (Reading database ... 30% (Reading database ... 35% (Reading database ... 40% (Reading database ... 45% (Reading database ... 50% (Reading database ... 55% (Reading database ... 60% (Reading database ... 65% (Reading database ... 70% (Reading database ... 75% (Reading database ... 80% (Reading database ... 85% (Reading database ... 90% (Reading database ... 95% (Reading database ... 100% (Reading database ... 81335 files and directories currently installed.) 95s Preparing to unpack .../3-autopkgtest-satdep.deb ... 95s Unpacking autopkgtest-satdep (0) ... 95s Setting up autopkgtest-satdep (0) ... 98s (Reading database ... 81335 files and directories currently installed.) 98s Removing autopkgtest-satdep (0) ... 98s autopkgtest [23:24:28]: test mumps64-examples-serial: [----------------------- 98s /bin/rm -f *.o [sdcz]simpletest c_example multiple_arithmetics_example ssimpletest_save_restore dsimpletest_save_restore csimpletest_save_restore zsimpletest_save_restore c_example_save_restore 98s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o 98s mpifort -o csimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest.o -L/usr/lib/x86_64-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 99s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o 99s mpifort -o csimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 99s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o 99s mpifort -o zsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest.o -L/usr/lib/x86_64-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 100s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o 100s mpifort -o zsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 100s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o 100s mpifort -o ssimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest.o -L/usr/lib/x86_64-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 100s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o 101s mpifort -o ssimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 101s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o 101s mpifort -o dsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 101s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o 102s mpifort -o dsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 102s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DPORD_INTSIZE64 -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o 102s mpifort -o c_example_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 102s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DPORD_INTSIZE64 -DAdd_ -I. -I../include -I../src -c c_example.c -o c_example.o 102s mpifort -o c_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread 102s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o 103s mpifort -o multiple_arithmetics_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/x86_64-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 103s 103s === running 64-bit c_example (serial) === 103s Solution is : ( 1.00 2.00) 104s Saving MUMPS instance in /tmp with prefix csave_restore. 104s DONE 104s 104s Restoring MUMPS instance in /tmp with prefix csave_restore. 104s 104s Entering DMUMPS 5.7.3 from C interface with JOB = 8 104s executing #MPI = 1, without OMP 104s 104s Elapsed time in restore structure driver= 0.0001 104s DONE 104s 104s Calling MUMPS package (solve). 104s DONE 104s 104s Removing save files. 104s DONE 104s 104s Solution is : ( 1.00 2.00) 104s 104s 104s === running 64-bit simple test: real, single precision, serial === 104s 104s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 104s executing #MPI = 1, without OMP 104s 104s ================================================= 104s MUMPS compiled with option -Dpord 104s ================================================= 104s L U Solver for unsymmetric matrices 104s Type of parallelism: Working host 104s 104s ****** ANALYSIS STEP ******** 104s 104s Processing a graph of size: 5 104s ... Structural symmetry (in percent)= 92 104s Average density of rows/columns = 2 104s ... No column permutation 104s Ordering based on AMF 104s 104s Leaving analysis phase with ... 104s INFOG(1) = 0 104s INFOG(2) = 0 104s -- (20) Number of entries in factors (estim.) = 25 104s -- (3) Real space for factors (estimated) = 25 104s -- (4) Integer space for factors (estimated) = 30 104s -- (5) Maximum frontal size (estimated) = 5 104s -- (6) Number of nodes in the tree = 1 104s -- (32) Type of analysis effectively used = 1 104s -- (7) Ordering option effectively used = 2 104s ICNTL (6) Maximum transversal option = 0 104s ICNTL (7) Pivot order option = 7 104s ICNTL(12) Ordering symmetric indef. matrices = 1 104s ICNTL(13) Parallelism/splitting of root node = 0 104s ICNTL(14) Percentage of memory relaxation = 20 104s ICNTL(15) Analysis by block effectively used = 0 104s ICNTL(18) Distributed input matrix (on if >0) = 0 104s ICNTL(32) Forward elimination during facto. = 0 104s ICNTL(35) BLR activation = 0 104s ICNTL(48) Tree based multithreading (effective)= 0 104s ICNTL(58) Symbolic factorization option = 2 104s Number of level 2 nodes = 0 104s Number of split nodes = 0 104s RINFOG(1) Operations during elimination (estim)= 7.000D+01 104s 104s MEMORY ESTIMATIONS ... 104s Estimations with standard Full-Rank (FR) factorization: 104s Total space in MBytes, IC factorization (INFOG(17)): 0 104s Total space in MBytes, OOC factorization (INFOG(27)): 0 104s 104s Elapsed time in analysis driver= 0.0002 104s 104s 104s ****** FACTORIZATION STEP ******** 104s 104s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 104s Number of working processes = 1 104s ICNTL(22) Out-of-core option = 0 104s ICNTL(35) BLR activation (eff. choice) = 0 104s ICNTL(37) BLR CB compression (eff. choice) = 0 104s ICNTL(49) Compact workarray S (end facto.) = 0 104s ICNTL(14) Memory relaxation = 20 104s INFOG(3) Real space for factors (estimated)= 25 104s INFOG(4) Integer space for factors (estim.)= 30 104s Maximum frontal size (estimated) = 5 104s Number of nodes in the tree = 1 104s ICNTL(23) Memory allowed (value on host) = 0 104s Sum over all procs = 0 104s Memory provided by user, sum of LWK_USER = 0 104s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 104s 104s Statistics on the scaling phase 104s Elapsed time for scaling = 0.0000 104s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 104s 104s Effective size of S (based on INFO(39))= 2445 104s Elapsed time to reformat/distribute matrix = 0.0000 104s 104s 104s Allocated buffers 104s ------------------ 104s Size of reception buffer in bytes ...... = 140000 104s Size of async. emission buffer (bytes).. = 140012 104s Small emission buffer (bytes) .......... = 20 104s 104s ** Memory allocated, total in Mbytes (INFOG(19)): 0 104s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 104s 104s Elapsed time for factorization = 0.0001 104s 104s Leaving factorization with ... 104s RINFOG (2) Operations in node assembly = 0.000D+00 104s ------ (3) Operations in node elimination = 7.000D+01 104s ICNTL (8) Scaling effectively used = 7 104s INFOG (9) Real space for factors = 25 104s INFOG (10) Integer space for factors = 30 104s INFOG (11) Maximum front size = 5 104s INFOG (29) Number of entries in factors = 25 104s INFOG (12) Number of off diagonal pivots = 1 104s INFOG (13) Number of delayed pivots = 0 104s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 104s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 104s RINFOG(21) Largest pivot in absolute value = 5.281D+00 104s INFOG (24) Effective value of ICNTL(12) = 1 104s INFOG (14) Number of memory compress = 0 104s 104s Elapsed time in factorization driver = 0.0003 104s 104s 104s ****** SOLVE & CHECK STEP ******** 104s 104s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 104s Number of right-hand-sides = 1 104s Blocking factor for multiple rhs = 1 104s ICNTL (9) = 1 104s --- (10) = 0 104s --- (11) = 0 104s --- (20) = 0 104s --- (21) = 0 104s --- (30) = 0 104s --- (35) = 0 104s --- (48) (effective) = 0 104s ** Space in MBYTES used for solve : 0 104s 104s Leaving solve with ... 104s Time to build/scatter RHS = 0.000058 104s Time in solution step (fwd/bwd) = 0.000059 104s .. Time in forward (fwd) step = 0.000052 104s .. Time in backward (bwd) step = 0.000005 104s Time to gather solution(cent.sol)= 0.000001 104s Time for distributed solution = 0.000000 104s 104s Elapsed time in solve driver= 0.0002 104s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 104s 104s Entering SMUMPS 5.7.3 with JOB = -2 104s executing #MPI = 1, without OMP 104s 104s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 104s executing #MPI = 1, without OMP 104s 104s ================================================= 104s MUMPS compiled with option -Dpord 104s ================================================= 104s L U Solver for unsymmetric matrices 104s Type of parallelism: Working host 104s 104s ****** ANALYSIS STEP ******** 104s 104s Processing a graph of size: 5 104s ... Structural symmetry (in percent)= 92 104s Average density of rows/columns = 2 104s ... No column permutation 104s Ordering based on AMF 104s 104s Leaving analysis phase with ... 104s INFOG(1) = 0 104s INFOG(2) = 0 104s -- (20) Number of entries in factors (estim.) = 25 104s -- (3) Real space for factors (estimated) = 25 104s -- (4) Integer space for factors (estimated) = 30 104s -- (5) Maximum frontal size (estimated) = 5 104s -- (6) Number of nodes in the tree = 1 104s -- (32) Type of analysis effectively used = 1 104s -- (7) Ordering option effectively used = 2 104s ICNTL (6) Maximum transversal option = 0 104s ICNTL (7) Pivot order option = 7 104s ICNTL(12) Ordering symmetric indef. matrices = 1 104s ICNTL(13) Parallelism/splitting of root node = 0 104s ICNTL(14) Percentage of memory relaxation = 20 104s ICNTL(15) Analysis by block effectively used = 0 104s ICNTL(18) Distributed input matrix (on if >0) = 0 104s ICNTL(32) Forward elimination during facto. = 0 104s ICNTL(35) BLR activation = 0 104s ICNTL(48) Tree based multithreading (effective)= 0 104s ICNTL(58) Symbolic factorization option = 2 104s Number of level 2 nodes = 0 104s Number of split nodes = 0 104s RINFOG(1) Operations during elimination (estim)= 7.000D+01 104s 104s MEMORY ESTIMATIONS ... 104s Estimations with standard Full-Rank (FR) factorization: 104s Total space in MBytes, IC factorization (INFOG(17)): 0 104s Total space in MBytes, OOC factorization (INFOG(27)): 0 104s 104s Elapsed time in analysis driver= 0.0009 104s 104s 104s ****** FACTORIZATION STEP ******** 104s 104s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 104s Number of working processes = 1 104s ICNTL(22) Out-of-core option = 1 104s ICNTL(35) BLR activation (eff. choice) = 0 104s ICNTL(37) BLR CB compression (eff. choice) = 0 104s ICNTL(49) Compact workarray S (end facto.) = 0 104s ICNTL(14) Memory relaxation = 20 104s INFOG(3) Real space for factors (estimated)= 25 104s INFOG(4) Integer space for factors (estim.)= 30 104s Maximum frontal size (estimated) = 5 104s Number of nodes in the tree = 1 104s ICNTL(23) Memory allowed (value on host) = 0 104s Sum over all procs = 0 104s Memory provided by user, sum of LWK_USER = 0 104s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 104s 104s Statistics on the scaling phase 104s Elapsed time for scaling = 0.0000 104s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 104s 104s Effective size of S (based on INFO(39))= 2445 104s Elapsed time to reformat/distribute matrix = 0.0000 104s 104s 104s Allocated buffers 104s ------------------ 104s Size of reception buffer in bytes ...... = 140000 104s Size of async. emission buffer (bytes).. = 140012 104s Small emission buffer (bytes) .......... = 20 104s 104s ** Memory allocated, total in Mbytes (INFOG(19)): 0 104s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 104s 104s Elapsed time for factorization = 0.0004 104s 104s Leaving factorization with ... 104s RINFOG (2) Operations in node assembly = 0.000D+00 104s ------ (3) Operations in node elimination = 7.000D+01 104s ICNTL (8) Scaling effectively used = 7 104s INFOG (9) Real space for factors = 50 104s INFOG (10) Integer space for factors = 31 104s INFOG (11) Maximum front size = 5 104s INFOG (29) Number of entries in factors = 25 104s INFOG (12) Number of off diagonal pivots = 1 104s INFOG (13) Number of delayed pivots = 0 104s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 104s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 104s RINFOG(21) Largest pivot in absolute value = 5.281D+00 104s INFOG (24) Effective value of ICNTL(12) = 1 104s INFOG (14) Number of memory compress = 0 104s 104s Elapsed time in factorization driver = 0.0015 104s 104s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 104s executing #MPI = 1, without OMP 104s Save done successfully 104s The corresponding OOC files are: 104s /tmp//mumps_0_5VeENu 104s /tmp//mumps_0_omEP7K 104s 104s Elapsed time in save structure driver= 0.0003 104s 104s Entering SMUMPS 5.7.3 with JOB = -2 104s executing #MPI = 1, without OMP 104s 104s Entering SMUMPS 5.7.3 with JOB = 8 104s executing #MPI = 1, without OMP 104s The corresponding OOC files are: 104s /tmp//mumps_0_5VeENu 104s /tmp//mumps_0_omEP7K 104s 104s Elapsed time in restore structure driver= 0.0002 104s 104s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 104s executing #MPI = 1, without OMP 104s 104s 104s 104s ****** SOLVE & CHECK STEP ******** 104s 104s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 104s Number of right-hand-sides = 1 104s Blocking factor for multiple rhs = 1 104s ICNTL (9) = 1 104s --- (10) = 0 104s --- (11) = 0 104s --- (20) = 0 104s --- (21) = 0 104s --- (30) = 0 104s --- (35) = 0 104s --- (48) (effective) = 0 104s ** Space in MBYTES used for solve : 0 104s 104s Leaving solve with ... 104s Time to build/scatter RHS = 0.000031 104s Time in solution step (fwd/bwd) = 0.000043 104s .. Time in forward (fwd) step = 0.000030 104s .. Time in backward (bwd) step = 0.000009 104s Time to gather solution(cent.sol)= 0.000002 104s Time for distributed solution = 0.000000 104s 104s Elapsed time in solve driver= 0.0002 104s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 104s 104s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 104s executing #MPI = 1, without OMP 104s 104s Entering SMUMPS 5.7.3 with JOB = -2 104s executing #MPI = 1, without OMP 104s 104s 104s === running 64-bit simple test: real, double precision, serial === 104s 104s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 104s executing #MPI = 1, without OMP 104s 104s ================================================= 104s MUMPS compiled with option -Dpord 104s ================================================= 104s L U Solver for unsymmetric matrices 104s Type of parallelism: Working host 104s 104s ****** ANALYSIS STEP ******** 104s 104s Processing a graph of size: 5 104s ... Structural symmetry (in percent)= 92 104s Average density of rows/columns = 2 104s ... No column permutation 104s Ordering based on AMF 104s 104s Leaving analysis phase with ... 104s INFOG(1) = 0 104s INFOG(2) = 0 104s -- (20) Number of entries in factors (estim.) = 25 104s -- (3) Real space for factors (estimated) = 25 104s -- (4) Integer space for factors (estimated) = 30 104s -- (5) Maximum frontal size (estimated) = 5 104s -- (6) Number of nodes in the tree = 1 104s -- (32) Type of analysis effectively used = 1 104s -- (7) Ordering option effectively used = 2 104s ICNTL (6) Maximum transversal option = 0 104s ICNTL (7) Pivot order option = 7 104s ICNTL(12) Ordering symmetric indef. matrices = 1 104s ICNTL(13) Parallelism/splitting of root node = 0 104s ICNTL(14) Percentage of memory relaxation = 20 104s ICNTL(15) Analysis by block effectively used = 0 104s ICNTL(18) Distributed input matrix (on if >0) = 0 104s ICNTL(32) Forward elimination during facto. = 0 104s ICNTL(35) BLR activation = 0 104s ICNTL(48) Tree based multithreading (effective)= 0 104s ICNTL(58) Symbolic factorization option = 2 104s Number of level 2 nodes = 0 104s Number of split nodes = 0 104s RINFOG(1) Operations during elimination (estim)= 7.000D+01 104s 104s MEMORY ESTIMATIONS ... 104s Estimations with standard Full-Rank (FR) factorization: 104s Total space in MBytes, IC factorization (INFOG(17)): 0 104s Total space in MBytes, OOC factorization (INFOG(27)): 0 104s 104s Elapsed time in analysis driver= 0.0006 104s 104s 104s ****** FACTORIZATION STEP ******** 104s 104s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 104s Number of working processes = 1 104s ICNTL(22) Out-of-core option = 0 104s ICNTL(35) BLR activation (eff. choice) = 0 104s ICNTL(37) BLR CB compression (eff. choice) = 0 104s ICNTL(49) Compact workarray S (end facto.) = 0 104s ICNTL(14) Memory relaxation = 20 104s INFOG(3) Real space for factors (estimated)= 25 104s INFOG(4) Integer space for factors (estim.)= 30 104s Maximum frontal size (estimated) = 5 104s Number of nodes in the tree = 1 104s ICNTL(23) Memory allowed (value on host) = 0 104s Sum over all procs = 0 104s Memory provided by user, sum of LWK_USER = 0 104s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 104s 104s Statistics on the scaling phase 104s Elapsed time for scaling = 0.0000 104s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 104s 104s Effective size of S (based on INFO(39))= 2445 104s Elapsed time to reformat/distribute matrix = 0.0000 104s 104s 104s Allocated buffers 104s ------------------ 104s Size of reception buffer in bytes ...... = 140000 104s Size of async. emission buffer (bytes).. = 140012 104s Small emission buffer (bytes) .......... = 20 104s 104s ** Memory allocated, total in Mbytes (INFOG(19)): 0 104s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 104s 104s Elapsed time for factorization = 0.0001 104s 104s Leaving factorization with ... 104s RINFOG (2) Operations in node assembly = 0.000D+00 104s ------ (3) Operations in node elimination = 7.000D+01 104s ICNTL (8) Scaling effectively used = 7 104s INFOG (9) Real space for factors = 25 104s INFOG (10) Integer space for factors = 30 104s INFOG (11) Maximum front size = 5 104s INFOG (29) Number of entries in factors = 25 104s INFOG (12) Number of off diagonal pivots = 1 104s INFOG (13) Number of delayed pivots = 0 104s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 104s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 104s RINFOG(21) Largest pivot in absolute value = 5.281D+00 104s INFOG (24) Effective value of ICNTL(12) = 1 104s INFOG (14) Number of memory compress = 0 104s 104s Elapsed time in factorization driver = 0.0004 104s 104s 104s ****** SOLVE & CHECK STEP ******** 104s 104s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 104s Number of right-hand-sides = 1 104s Blocking factor for multiple rhs = 1 104s ICNTL (9) = 1 104s --- (10) = 0 104s --- (11) = 0 104s --- (20) = 0 104s --- (21) = 0 104s --- (30) = 0 104s --- (35) = 0 104s --- (48) (effective) = 0 104s ** Space in MBYTES used for solve : 0 104s 104s Leaving solve with ... 104s Time to build/scatter RHS = 0.000031 104s Time in solution step (fwd/bwd) = 0.000028 104s .. Time in forward (fwd) step = 0.000015 104s .. Time in backward (bwd) step = 0.000005 104s Time to gather solution(cent.sol)= 0.000001 104s Time for distributed solution = 0.000000 104s 104s Elapsed time in solve driver= 0.0001 104s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 104s 104s Entering DMUMPS 5.7.3 with JOB = -2 104s executing #MPI = 1, without OMP 105s 105s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 105s executing #MPI = 1, without OMP 105s 105s ================================================= 105s MUMPS compiled with option -Dpord 105s ================================================= 105s L U Solver for unsymmetric matrices 105s Type of parallelism: Working host 105s 105s ****** ANALYSIS STEP ******** 105s 105s Processing a graph of size: 5 105s ... Structural symmetry (in percent)= 92 105s Average density of rows/columns = 2 105s ... No column permutation 105s Ordering based on AMF 105s 105s Leaving analysis phase with ... 105s INFOG(1) = 0 105s INFOG(2) = 0 105s -- (20) Number of entries in factors (estim.) = 25 105s -- (3) Real space for factors (estimated) = 25 105s -- (4) Integer space for factors (estimated) = 30 105s -- (5) Maximum frontal size (estimated) = 5 105s -- (6) Number of nodes in the tree = 1 105s -- (32) Type of analysis effectively used = 1 105s -- (7) Ordering option effectively used = 2 105s ICNTL (6) Maximum transversal option = 0 105s ICNTL (7) Pivot order option = 7 105s ICNTL(12) Ordering symmetric indef. matrices = 1 105s ICNTL(13) Parallelism/splitting of root node = 0 105s ICNTL(14) Percentage of memory relaxation = 20 105s ICNTL(15) Analysis by block effectively used = 0 105s ICNTL(18) Distributed input matrix (on if >0) = 0 105s ICNTL(32) Forward elimination during facto. = 0 105s ICNTL(35) BLR activation = 0 105s ICNTL(48) Tree based multithreading (effective)= 0 105s ICNTL(58) Symbolic factorization option = 2 105s Number of level 2 nodes = 0 105s Number of split nodes = 0 105s RINFOG(1) Operations during elimination (estim)= 7.000D+01 105s 105s MEMORY ESTIMATIONS ... 105s Estimations with standard Full-Rank (FR) factorization: 105s Total space in MBytes, IC factorization (INFOG(17)): 0 105s Total space in MBytes, OOC factorization (INFOG(27)): 0 105s 105s Elapsed time in analysis driver= 0.0005 105s 105s 105s ****** FACTORIZATION STEP ******** 105s 105s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 105s Number of working processes = 1 105s ICNTL(22) Out-of-core option = 1 105s ICNTL(35) BLR activation (eff. choice) = 0 105s ICNTL(37) BLR CB compression (eff. choice) = 0 105s ICNTL(49) Compact workarray S (end facto.) = 0 105s ICNTL(14) Memory relaxation = 20 105s INFOG(3) Real space for factors (estimated)= 25 105s INFOG(4) Integer space for factors (estim.)= 30 105s Maximum frontal size (estimated) = 5 105s Number of nodes in the tree = 1 105s ICNTL(23) Memory allowed (value on host) = 0 105s Sum over all procs = 0 105s Memory provided by user, sum of LWK_USER = 0 105s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 105s 105s Statistics on the scaling phase 105s Elapsed time for scaling = 0.0000 105s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 105s 105s Effective size of S (based on INFO(39))= 2445 105s Elapsed time to reformat/distribute matrix = 0.0000 105s 105s 105s Allocated buffers 105s ------------------ 105s Size of reception buffer in bytes ...... = 140000 105s Size of async. emission buffer (bytes).. = 140012 105s Small emission buffer (bytes) .......... = 20 105s 105s ** Memory allocated, total in Mbytes (INFOG(19)): 0 105s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 105s 105s Elapsed time for factorization = 0.0002 105s 105s Leaving factorization with ... 105s RINFOG (2) Operations in node assembly = 0.000D+00 105s ------ (3) Operations in node elimination = 7.000D+01 105s ICNTL (8) Scaling effectively used = 7 105s INFOG (9) Real space for factors = 50 105s INFOG (10) Integer space for factors = 31 105s INFOG (11) Maximum front size = 5 105s INFOG (29) Number of entries in factors = 25 105s INFOG (12) Number of off diagonal pivots = 1 105s INFOG (13) Number of delayed pivots = 0 105s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 105s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 105s RINFOG(21) Largest pivot in absolute value = 5.281D+00 105s INFOG (24) Effective value of ICNTL(12) = 1 105s INFOG (14) Number of memory compress = 0 105s 105s Elapsed time in factorization driver = 0.0008 105s 105s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 105s executing #MPI = 1, without OMP 105s Save done successfully 105s The corresponding OOC files are: 105s /tmp//mumps_0_klBZYc 105s /tmp//mumps_0_LD4OPW 105s 105s Elapsed time in save structure driver= 0.0005 105s 105s Entering DMUMPS 5.7.3 with JOB = -2 105s executing #MPI = 1, without OMP 105s 105s Entering DMUMPS 5.7.3 with JOB = 8 105s executing #MPI = 1, without OMP 105s The corresponding OOC files are: 105s /tmp//mumps_0_klBZYc 105s /tmp//mumps_0_LD4OPW 105s 105s Elapsed time in restore structure driver= 0.0001 105s 105s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 105s executing #MPI = 1, without OMP 105s 105s 105s 105s ****** SOLVE & CHECK STEP ******** 105s 105s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 105s Number of right-hand-sides = 1 105s Blocking factor for multiple rhs = 1 105s ICNTL (9) = 1 105s --- (10) = 0 105s --- (11) = 0 105s --- (20) = 0 105s --- (21) = 0 105s --- (30) = 0 105s --- (35) = 0 105s --- (48) (effective) = 0 105s ** Space in MBYTES used for solve : 0 105s 105s Leaving solve with ... 105s Time to build/scatter RHS = 0.000047 105s Time in solution step (fwd/bwd) = 0.000048 105s .. Time in forward (fwd) step = 0.000028 105s .. Time in backward (bwd) step = 0.000010 105s Time to gather solution(cent.sol)= 0.000001 105s Time for distributed solution = 0.000000 105s 105s Elapsed time in solve driver= 0.0002 105s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 105s 105s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 105s executing #MPI = 1, without OMP 105s 105s Entering DMUMPS 5.7.3 with JOB = -2 105s executing #MPI = 1, without OMP 105s 105s 105s === running 64-bit simple test: complex, single precision, serial === 105s 105s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 105s executing #MPI = 1, without OMP 105s 105s ================================================= 105s MUMPS compiled with option -Dpord 105s ================================================= 105s L U Solver for unsymmetric matrices 105s Type of parallelism: Working host 105s 105s ****** ANALYSIS STEP ******** 105s 105s Processing a graph of size: 5 105s ... Structural symmetry (in percent)= 92 105s Average density of rows/columns = 2 105s ... No column permutation 105s Ordering based on AMF 105s 105s Leaving analysis phase with ... 105s INFOG(1) = 0 105s INFOG(2) = 0 105s -- (20) Number of entries in factors (estim.) = 25 105s -- (3) Real space for factors (estimated) = 25 105s -- (4) Integer space for factors (estimated) = 30 105s -- (5) Maximum frontal size (estimated) = 5 105s -- (6) Number of nodes in the tree = 1 105s -- (32) Type of analysis effectively used = 1 105s -- (7) Ordering option effectively used = 2 105s ICNTL (6) Maximum transversal option = 0 105s ICNTL (7) Pivot order option = 7 105s ICNTL(12) Ordering symmetric indef. matrices = 1 105s ICNTL(13) Parallelism/splitting of root node = 0 105s ICNTL(14) Percentage of memory relaxation = 20 105s ICNTL(15) Analysis by block effectively used = 0 105s ICNTL(18) Distributed input matrix (on if >0) = 0 105s ICNTL(32) Forward elimination during facto. = 0 105s ICNTL(35) BLR activation = 0 105s ICNTL(48) Tree based multithreading (effective)= 0 105s ICNTL(58) Symbolic factorization option = 2 105s Number of level 2 nodes = 0 105s Number of split nodes = 0 105s RINFOG(1) Operations during elimination (estim)= 7.000D+01 105s 105s MEMORY ESTIMATIONS ... 105s Estimations with standard Full-Rank (FR) factorization: 105s Total space in MBytes, IC factorization (INFOG(17)): 0 105s Total space in MBytes, OOC factorization (INFOG(27)): 0 105s 105s Elapsed time in analysis driver= 0.0002 105s 105s 105s ****** FACTORIZATION STEP ******** 105s 105s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 105s Number of working processes = 1 105s ICNTL(22) Out-of-core option = 0 105s ICNTL(35) BLR activation (eff. choice) = 0 105s ICNTL(37) BLR CB compression (eff. choice) = 0 105s ICNTL(49) Compact workarray S (end facto.) = 0 105s ICNTL(14) Memory relaxation = 20 105s INFOG(3) Real space for factors (estimated)= 25 105s INFOG(4) Integer space for factors (estim.)= 30 105s Maximum frontal size (estimated) = 5 105s Number of nodes in the tree = 1 105s ICNTL(23) Memory allowed (value on host) = 0 105s Sum over all procs = 0 105s Memory provided by user, sum of LWK_USER = 0 105s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 105s 105s Statistics on the scaling phase 105s Elapsed time for scaling = 0.0000 105s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 105s 105s Effective size of S (based on INFO(39))= 2445 105s Elapsed time to reformat/distribute matrix = 0.0000 105s 105s 105s Allocated buffers 105s ------------------ 105s Size of reception buffer in bytes ...... = 140000 105s Size of async. emission buffer (bytes).. = 140012 105s Small emission buffer (bytes) .......... = 20 105s 105s ** Memory allocated, total in Mbytes (INFOG(19)): 0 105s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 105s 105s Elapsed time for factorization = 0.0001 105s 105s Leaving factorization with ... 105s RINFOG (2) Operations in node assembly = 0.000D+00 105s ------ (3) Operations in node elimination = 7.000D+01 105s ICNTL (8) Scaling effectively used = 7 105s INFOG (9) Real space for factors = 25 105s INFOG (10) Integer space for factors = 30 105s INFOG (11) Maximum front size = 5 105s INFOG (29) Number of entries in factors = 25 105s INFOG (12) Number of off diagonal pivots = 1 105s INFOG (13) Number of delayed pivots = 0 105s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 105s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 105s RINFOG(21) Largest pivot in absolute value = 5.281D+00 105s INFOG (24) Effective value of ICNTL(12) = 1 105s INFOG (14) Number of memory compress = 0 105s 105s Elapsed time in factorization driver = 0.0003 105s 105s 105s ****** SOLVE & CHECK STEP ******** 105s 105s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 105s Number of right-hand-sides = 1 105s Blocking factor for multiple rhs = 1 105s ICNTL (9) = 1 105s --- (10) = 0 105s --- (11) = 0 105s --- (20) = 0 105s --- (21) = 0 105s --- (30) = 0 105s --- (35) = 0 105s --- (48) (effective) = 0 105s ** Space in MBYTES used for solve : 0 105s 105s Leaving solve with ... 105s Time to build/scatter RHS = 0.000037 105s Time in solution step (fwd/bwd) = 0.000032 105s .. Time in forward (fwd) step = 0.000015 105s .. Time in backward (bwd) step = 0.000011 105s Time to gather solution(cent.sol)= 0.000001 105s Time for distributed solution = 0.000000 105s 105s Elapsed time in solve driver= 0.0001 105s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 105s 105s Entering CMUMPS 5.7.3 with JOB = -2 105s executing #MPI = 1, without OMP 105s 105s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 105s executing #MPI = 1, without OMP 105s 105s ================================================= 105s MUMPS compiled with option -Dpord 105s ================================================= 105s L U Solver for unsymmetric matrices 105s Type of parallelism: Working host 105s 105s ****** ANALYSIS STEP ******** 105s 105s Processing a graph of size: 5 105s ... Structural symmetry (in percent)= 92 105s Average density of rows/columns = 2 105s ... No column permutation 105s Ordering based on AMF 105s 105s Leaving analysis phase with ... 105s INFOG(1) = 0 105s INFOG(2) = 0 105s -- (20) Number of entries in factors (estim.) = 25 105s -- (3) Real space for factors (estimated) = 25 105s -- (4) Integer space for factors (estimated) = 30 105s -- (5) Maximum frontal size (estimated) = 5 105s -- (6) Number of nodes in the tree = 1 105s -- (32) Type of analysis effectively used = 1 105s -- (7) Ordering option effectively used = 2 105s ICNTL (6) Maximum transversal option = 0 105s ICNTL (7) Pivot order option = 7 105s ICNTL(12) Ordering symmetric indef. matrices = 1 105s ICNTL(13) Parallelism/splitting of root node = 0 105s ICNTL(14) Percentage of memory relaxation = 20 105s ICNTL(15) Analysis by block effectively used = 0 105s ICNTL(18) Distributed input matrix (on if >0) = 0 105s ICNTL(32) Forward elimination during facto. = 0 105s ICNTL(35) BLR activation = 0 105s ICNTL(48) Tree based multithreading (effective)= 0 105s ICNTL(58) Symbolic factorization option = 2 105s Number of level 2 nodes = 0 105s Number of split nodes = 0 105s RINFOG(1) Operations during elimination (estim)= 7.000D+01 105s 105s MEMORY ESTIMATIONS ... 105s Estimations with standard Full-Rank (FR) factorization: 105s Total space in MBytes, IC factorization (INFOG(17)): 0 105s Total space in MBytes, OOC factorization (INFOG(27)): 0 105s 105s Elapsed time in analysis driver= 0.0009 105s 105s 105s ****** FACTORIZATION STEP ******** 105s 105s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 105s Number of working processes = 1 105s ICNTL(22) Out-of-core option = 1 105s ICNTL(35) BLR activation (eff. choice) = 0 105s ICNTL(37) BLR CB compression (eff. choice) = 0 105s ICNTL(49) Compact workarray S (end facto.) = 0 105s ICNTL(14) Memory relaxation = 20 105s INFOG(3) Real space for factors (estimated)= 25 105s INFOG(4) Integer space for factors (estim.)= 30 105s Maximum frontal size (estimated) = 5 105s Number of nodes in the tree = 1 105s ICNTL(23) Memory allowed (value on host) = 0 105s Sum over all procs = 0 105s Memory provided by user, sum of LWK_USER = 0 105s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 105s 105s Statistics on the scaling phase 105s Elapsed time for scaling = 0.0000 105s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 105s 105s Effective size of S (based on INFO(39))= 2445 105s Elapsed time to reformat/distribute matrix = 0.0000 105s 105s 105s Allocated buffers 105s ------------------ 105s Size of reception buffer in bytes ...... = 140000 105s Size of async. emission buffer (bytes).. = 140012 105s Small emission buffer (bytes) .......... = 20 105s 105s ** Memory allocated, total in Mbytes (INFOG(19)): 0 105s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 105s 105s Elapsed time for factorization = 0.0005 105s 105s Leaving factorization with ... 105s RINFOG (2) Operations in node assembly = 0.000D+00 105s ------ (3) Operations in node elimination = 7.000D+01 105s ICNTL (8) Scaling effectively used = 7 105s INFOG (9) Real space for factors = 50 105s INFOG (10) Integer space for factors = 31 105s INFOG (11) Maximum front size = 5 105s INFOG (29) Number of entries in factors = 25 105s INFOG (12) Number of off diagonal pivots = 1 105s INFOG (13) Number of delayed pivots = 0 105s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 105s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 105s RINFOG(21) Largest pivot in absolute value = 5.281D+00 105s INFOG (24) Effective value of ICNTL(12) = 1 105s INFOG (14) Number of memory compress = 0 105s 105s Elapsed time in factorization driver = 0.0014 105s 105s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 105s executing #MPI = 1, without OMP 105s Save done successfully 105s The corresponding OOC files are: 105s /tmp//mumps_0_Pmpkms 105s /tmp//mumps_0_UajQYn 105s 105s Elapsed time in save structure driver= 0.0006 105s 105s Entering CMUMPS 5.7.3 with JOB = -2 105s executing #MPI = 1, without OMP 105s 105s Entering CMUMPS 5.7.3 with JOB = 8 105s executing #MPI = 1, without OMP 105s The corresponding OOC files are: 105s /tmp//mumps_0_Pmpkms 105s /tmp//mumps_0_UajQYn 105s 105s Elapsed time in restore structure driver= 0.0002 105s 105s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 105s executing #MPI = 1, without OMP 105s 105s 105s 105s ****** SOLVE & CHECK STEP ******** 105s 105s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 105s Number of right-hand-sides = 1 105s Blocking factor for multiple rhs = 1 105s ICNTL (9) = 1 105s --- (10) = 0 105s --- (11) = 0 105s --- (20) = 0 105s --- (21) = 0 105s --- (30) = 0 105s --- (35) = 0 105s --- (48) (effective) = 0 105s ** Space in MBYTES used for solve : 0 105s 105s Leaving solve with ... 105s Time to build/scatter RHS = 0.000054 105s Time in solution step (fwd/bwd) = 0.000052 105s .. Time in forward (fwd) step = 0.000030 105s .. Time in backward (bwd) step = 0.000015 105s Time to gather solution(cent.sol)= 0.000001 105s Time for distributed solution = 0.000000 105s 105s Elapsed time in solve driver= 0.0002 105s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 105s 105s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 105s executing #MPI = 1, without OMP 105s 105s Entering CMUMPS 5.7.3 with JOB = -2 105s executing #MPI = 1, without OMP 105s 105s 105s === running 64-bit simple test: complex, double precision, serial === 105s 105s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 105s executing #MPI = 1, without OMP 105s 105s ================================================= 105s MUMPS compiled with option -Dpord 105s ================================================= 105s L U Solver for unsymmetric matrices 105s Type of parallelism: Working host 105s 105s ****** ANALYSIS STEP ******** 105s 105s Processing a graph of size: 5 105s ... Structural symmetry (in percent)= 92 105s Average density of rows/columns = 2 105s ... No column permutation 105s Ordering based on AMF 105s 105s Leaving analysis phase with ... 105s INFOG(1) = 0 105s INFOG(2) = 0 105s -- (20) Number of entries in factors (estim.) = 25 105s -- (3) Real space for factors (estimated) = 25 105s -- (4) Integer space for factors (estimated) = 30 105s -- (5) Maximum frontal size (estimated) = 5 105s -- (6) Number of nodes in the tree = 1 105s -- (32) Type of analysis effectively used = 1 105s -- (7) Ordering option effectively used = 2 105s ICNTL (6) Maximum transversal option = 0 105s ICNTL (7) Pivot order option = 7 105s ICNTL(12) Ordering symmetric indef. matrices = 1 105s ICNTL(13) Parallelism/splitting of root node = 0 105s ICNTL(14) Percentage of memory relaxation = 20 105s ICNTL(15) Analysis by block effectively used = 0 105s ICNTL(18) Distributed input matrix (on if >0) = 0 105s ICNTL(32) Forward elimination during facto. = 0 105s ICNTL(35) BLR activation = 0 105s ICNTL(48) Tree based multithreading (effective)= 0 105s ICNTL(58) Symbolic factorization option = 2 105s Number of level 2 nodes = 0 105s Number of split nodes = 0 105s RINFOG(1) Operations during elimination (estim)= 7.000D+01 105s 105s MEMORY ESTIMATIONS ... 105s Estimations with standard Full-Rank (FR) factorization: 105s Total space in MBytes, IC factorization (INFOG(17)): 0 105s Total space in MBytes, OOC factorization (INFOG(27)): 0 105s 105s Elapsed time in analysis driver= 0.0002 105s 105s 105s ****** FACTORIZATION STEP ******** 105s 105s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 105s Number of working processes = 1 105s ICNTL(22) Out-of-core option = 0 105s ICNTL(35) BLR activation (eff. choice) = 0 105s ICNTL(37) BLR CB compression (eff. choice) = 0 105s ICNTL(49) Compact workarray S (end facto.) = 0 105s ICNTL(14) Memory relaxation = 20 105s INFOG(3) Real space for factors (estimated)= 25 105s INFOG(4) Integer space for factors (estim.)= 30 105s Maximum frontal size (estimated) = 5 105s Number of nodes in the tree = 1 105s ICNTL(23) Memory allowed (value on host) = 0 105s Sum over all procs = 0 105s Memory provided by user, sum of LWK_USER = 0 105s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 105s 105s Statistics on the scaling phase 105s Elapsed time for scaling = 0.0000 105s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 105s 105s Effective size of S (based on INFO(39))= 2445 105s Elapsed time to reformat/distribute matrix = 0.0000 105s 105s 105s Allocated buffers 105s ------------------ 105s Size of reception buffer in bytes ...... = 140000 105s Size of async. emission buffer (bytes).. = 140012 105s Small emission buffer (bytes) .......... = 20 105s 105s ** Memory allocated, total in Mbytes (INFOG(19)): 0 105s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 105s 105s Elapsed time for factorization = 0.0001 105s 105s Leaving factorization with ... 105s RINFOG (2) Operations in node assembly = 0.000D+00 105s ------ (3) Operations in node elimination = 7.000D+01 105s ICNTL (8) Scaling effectively used = 7 105s INFOG (9) Real space for factors = 25 105s INFOG (10) Integer space for factors = 30 105s INFOG (11) Maximum front size = 5 105s INFOG (29) Number of entries in factors = 25 105s INFOG (12) Number of off diagonal pivots = 1 105s INFOG (13) Number of delayed pivots = 0 105s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 105s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 105s RINFOG(21) Largest pivot in absolute value = 5.281D+00 105s INFOG (24) Effective value of ICNTL(12) = 1 105s INFOG (14) Number of memory compress = 0 105s 105s Elapsed time in factorization driver = 0.0004 105s 105s 105s ****** SOLVE & CHECK STEP ******** 105s 105s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 105s Number of right-hand-sides = 1 105s Blocking factor for multiple rhs = 1 105s ICNTL (9) = 1 105s --- (10) = 0 105s --- (11) = 0 105s --- (20) = 0 105s --- (21) = 0 105s --- (30) = 0 105s --- (35) = 0 105s --- (48) (effective) = 0 105s ** Space in MBYTES used for solve : 0 105s 105s Leaving solve with ... 105s Time to build/scatter RHS = 0.000054 105s Time in solution step (fwd/bwd) = 0.000028 105s .. Time in forward (fwd) step = 0.000020 105s .. Time in backward (bwd) step = 0.000006 105s Time to gather solution(cent.sol)= 0.000001 105s Time for distributed solution = 0.000000 105s 105s Elapsed time in solve driver= 0.0002 105s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 105s 105s Entering ZMUMPS 5.7.3 with JOB = -2 105s executing #MPI = 1, without OMP 106s 106s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 106s executing #MPI = 1, without OMP 106s 106s ================================================= 106s MUMPS compiled with option -Dpord 106s ================================================= 106s L U Solver for unsymmetric matrices 106s Type of parallelism: Working host 106s 106s ****** ANALYSIS STEP ******** 106s 106s Processing a graph of size: 5 106s ... Structural symmetry (in percent)= 92 106s Average density of rows/columns = 2 106s ... No column permutation 106s Ordering based on AMF 106s 106s Leaving analysis phase with ... 106s INFOG(1) = 0 106s INFOG(2) = 0 106s -- (20) Number of entries in factors (estim.) = 25 106s -- (3) Real space for factors (estimated) = 25 106s -- (4) Integer space for factors (estimated) = 30 106s -- (5) Maximum frontal size (estimated) = 5 106s -- (6) Number of nodes in the tree = 1 106s -- (32) Type of analysis effectively used = 1 106s -- (7) Ordering option effectively used = 2 106s ICNTL (6) Maximum transversal option = 0 106s ICNTL (7) Pivot order option = 7 106s ICNTL(12) Ordering symmetric indef. matrices = 1 106s ICNTL(13) Parallelism/splitting of root node = 0 106s ICNTL(14) Percentage of memory relaxation = 20 106s ICNTL(15) Analysis by block effectively used = 0 106s ICNTL(18) Distributed input matrix (on if >0) = 0 106s ICNTL(32) Forward elimination during facto. = 0 106s ICNTL(35) BLR activation = 0 106s ICNTL(48) Tree based multithreading (effective)= 0 106s ICNTL(58) Symbolic factorization option = 2 106s Number of level 2 nodes = 0 106s Number of split nodes = 0 106s RINFOG(1) Operations during elimination (estim)= 7.000D+01 106s 106s MEMORY ESTIMATIONS ... 106s Estimations with standard Full-Rank (FR) factorization: 106s Total space in MBytes, IC factorization (INFOG(17)): 0 106s Total space in MBytes, OOC factorization (INFOG(27)): 0 106s 106s Elapsed time in analysis driver= 0.0009 106s 106s 106s ****** FACTORIZATION STEP ******** 106s 106s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 106s Number of working processes = 1 106s ICNTL(22) Out-of-core option = 1 106s ICNTL(35) BLR activation (eff. choice) = 0 106s ICNTL(37) BLR CB compression (eff. choice) = 0 106s ICNTL(49) Compact workarray S (end facto.) = 0 106s ICNTL(14) Memory relaxation = 20 106s INFOG(3) Real space for factors (estimated)= 25 106s INFOG(4) Integer space for factors (estim.)= 30 106s Maximum frontal size (estimated) = 5 106s Number of nodes in the tree = 1 106s ICNTL(23) Memory allowed (value on host) = 0 106s Sum over all procs = 0 106s Memory provided by user, sum of LWK_USER = 0 106s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 106s 106s Statistics on the scaling phase 106s Elapsed time for scaling = 0.0001 106s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 106s 106s Effective size of S (based on INFO(39))= 2445 106s Elapsed time to reformat/distribute matrix = 0.0000 106s 106s 106s Allocated buffers 106s ------------------ 106s Size of reception buffer in bytes ...... = 140000 106s Size of async. emission buffer (bytes).. = 140012 106s Small emission buffer (bytes) .......... = 20 106s 106s ** Memory allocated, total in Mbytes (INFOG(19)): 0 106s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 106s 106s Elapsed time for factorization = 0.0004 106s 106s Leaving factorization with ... 106s RINFOG (2) Operations in node assembly = 0.000D+00 106s ------ (3) Operations in node elimination = 7.000D+01 106s ICNTL (8) Scaling effectively used = 7 106s INFOG (9) Real space for factors = 50 106s INFOG (10) Integer space for factors = 31 106s INFOG (11) Maximum front size = 5 106s INFOG (29) Number of entries in factors = 25 106s INFOG (12) Number of off diagonal pivots = 1 106s INFOG (13) Number of delayed pivots = 0 106s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 106s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 106s RINFOG(21) Largest pivot in absolute value = 5.281D+00 106s INFOG (24) Effective value of ICNTL(12) = 1 106s INFOG (14) Number of memory compress = 0 106s 106s Elapsed time in factorization driver = 0.0014 106s 106s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 106s executing #MPI = 1, without OMP 106s Save done successfully 106s The corresponding OOC files are: 106s /tmp//mumps_0_NsSyco 106s /tmp//mumps_0_sm78O2 106s 106s Elapsed time in save structure driver= 0.0003 106s 106s Entering ZMUMPS 5.7.3 with JOB = -2 106s executing #MPI = 1, without OMP 106s 106s Entering ZMUMPS 5.7.3 with JOB = 8 106s executing #MPI = 1, without OMP 106s The corresponding OOC files are: 106s /tmp//mumps_0_NsSyco 106s /tmp//mumps_0_sm78O2 106s 106s Elapsed time in restore structure driver= 0.0001 106s 106s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 106s executing #MPI = 1, without OMP 106s 106s 106s 106s ****** SOLVE & CHECK STEP ******** 106s 106s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 106s Number of right-hand-sides = 1 106s Blocking factor for multiple rhs = 1 106s ICNTL (9) = 1 106s --- (10) = 0 106s --- (11) = 0 106s --- (20) = 0 106s --- (21) = 0 106s --- (30) = 0 106s --- (35) = 0 106s --- (48) (effective) = 0 106s ** Space in MBYTES used for solve : 0 106s 106s Leaving solve with ... 106s Time to build/scatter RHS = 0.000052 106s Time in solution step (fwd/bwd) = 0.000046 106s .. Time in forward (fwd) step = 0.000033 106s .. Time in backward (bwd) step = 0.000010 106s Time to gather solution(cent.sol)= 0.000001 106s Time for distributed solution = 0.000000 106s 106s Elapsed time in solve driver= 0.0002 106s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 106s 106s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 106s executing #MPI = 1, without OMP 106s 106s Entering ZMUMPS 5.7.3 with JOB = -2 106s executing #MPI = 1, without OMP 106s autopkgtest [23:24:36]: test mumps64-examples-serial: -----------------------] 106s mumps64-examples-serial PASS 106s autopkgtest [23:24:36]: test mumps64-examples-serial: - - - - - - - - - - results - - - - - - - - - - 106s autopkgtest [23:24:36]: test mumps64-examples-mpi: preparing testbed 107s Reading package lists... 107s Building dependency tree... 107s Reading state information... 107s Starting pkgProblemResolver with broken count: 0 107s Starting 2 pkgProblemResolver with broken count: 0 107s Done 108s The following NEW packages will be installed: 108s autopkgtest-satdep 108s 0 upgraded, 1 newly installed, 0 to remove and 0 not upgraded. 108s Need to get 0 B/916 B of archives. 108s After this operation, 0 B of additional disk space will be used. 108s Get:1 /tmp/autopkgtest.6QbVo5/4-autopkgtest-satdep.deb autopkgtest-satdep amd64 0 [916 B] 108s Selecting previously unselected package autopkgtest-satdep. 108s (Reading database ... (Reading database ... 5% (Reading database ... 10% (Reading database ... 15% (Reading database ... 20% (Reading database ... 25% (Reading database ... 30% (Reading database ... 35% (Reading database ... 40% (Reading database ... 45% (Reading database ... 50% (Reading database ... 55% (Reading database ... 60% (Reading database ... 65% (Reading database ... 70% (Reading database ... 75% (Reading database ... 80% (Reading database ... 85% (Reading database ... 90% (Reading database ... 95% (Reading database ... 100% (Reading database ... 81335 files and directories currently installed.) 108s Preparing to unpack .../4-autopkgtest-satdep.deb ... 108s Unpacking autopkgtest-satdep (0) ... 108s Setting up autopkgtest-satdep (0) ... 111s (Reading database ... 81335 files and directories currently installed.) 111s Removing autopkgtest-satdep (0) ... 113s autopkgtest [23:24:43]: test mumps64-examples-mpi: [----------------------- 113s /bin/rm -f *.o [sdcz]simpletest c_example multiple_arithmetics_example ssimpletest_save_restore dsimpletest_save_restore csimpletest_save_restore zsimpletest_save_restore c_example_save_restore 113s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o 114s mpifort -o csimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest.o -L/usr/lib/x86_64-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 114s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o 114s mpifort -o csimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 114s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o 115s mpifort -o zsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest.o -L/usr/lib/x86_64-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 115s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o 115s mpifort -o zsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 115s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o 116s mpifort -o ssimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest.o -L/usr/lib/x86_64-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 116s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o 116s mpifort -o ssimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 116s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o 117s mpifort -o dsimpletest -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 117s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o 117s mpifort -o dsimpletest_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 117s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DPORD_INTSIZE64 -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o 117s mpifort -o c_example_save_restore -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example_save_restore.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 117s mpicc -g -O2 -Werror=implicit-function-declaration -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -Wformat -Werror=format-security -fcf-protection -DPORD_INTSIZE64 -DAdd_ -I. -I../include -I../src -c c_example.c -o c_example.o 118s mpifort -o c_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro c_example.o -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread 118s mpifort -g -O2 -fno-omit-frame-pointer -mno-omit-leaf-frame-pointer -ffile-prefix-map=/tmp/autopkgtest.6QbVo5/build.zv3/src/examples=. -flto=auto -ffat-lto-objects -fstack-protector-strong -fstack-clash-protection -fcf-protection -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o 118s mpifort -o multiple_arithmetics_example -Wl,-Bsymbolic-functions -flto=auto -ffat-lto-objects -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/x86_64-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/x86_64-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread 118s 118s 118s === running 64-bit c_example (MPI) === 119s Solution is : ( 1.00 2.00) 119s Saving MUMPS instance in /tmp with prefix csave_restore. 119s DONE 119s 119s Restoring MUMPS instance in /tmp with prefix csave_restore. 119s 119s Entering DMUMPS 5.7.3 from C interface with JOB = 8 119s executing #MPI = 3, without OMP 119s 119s Elapsed time in restore structure driver= 0.0030 119s DONE 119s 119s Calling MUMPS package (solve). 119s DONE 119s 119s Removing save files. 119s DONE 119s 119s Solution is : ( 1.00 2.00) 119s 119s 119s === running 64-bit simple test: real, single precision, MPI === 119s 119s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 119s executing #MPI = 3, without OMP 119s 119s ================================================= 119s MUMPS compiled with option -Dpord 119s ================================================= 119s L U Solver for unsymmetric matrices 119s Type of parallelism: Working host 119s 119s ****** ANALYSIS STEP ******** 119s 119s Processing a graph of size: 5 119s ... Structural symmetry (in percent)= 92 119s Average density of rows/columns = 2 119s ... No column permutation 119s Ordering based on AMF 119s WARNING: Largest root node of size 5 not selected for parallel execution 119s 119s Leaving analysis phase with ... 119s INFOG(1) = 0 119s INFOG(2) = 0 119s -- (20) Number of entries in factors (estim.) = 25 119s -- (3) Real space for factors (estimated) = 25 119s -- (4) Integer space for factors (estimated) = 30 119s -- (5) Maximum frontal size (estimated) = 5 119s -- (6) Number of nodes in the tree = 1 119s -- (32) Type of analysis effectively used = 1 119s -- (7) Ordering option effectively used = 2 119s ICNTL (6) Maximum transversal option = 0 119s ICNTL (7) Pivot order option = 7 119s ICNTL(12) Ordering symmetric indef. matrices = 1 119s ICNTL(13) Parallelism/splitting of root node = 0 119s ICNTL(14) Percentage of memory relaxation = 20 119s ICNTL(15) Analysis by block effectively used = 0 119s ICNTL(18) Distributed input matrix (on if >0) = 0 119s ICNTL(32) Forward elimination during facto. = 0 119s ICNTL(35) BLR activation = 0 119s ICNTL(48) Tree based multithreading (effective)= 0 119s ICNTL(58) Symbolic factorization option = 2 119s Number of level 2 nodes = 0 119s Number of split nodes = 0 119s RINFOG(1) Operations during elimination (estim)= 7.000D+01 119s 119s MEMORY ESTIMATIONS ... 119s Estimations with standard Full-Rank (FR) factorization: 119s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 119s Total space in MBytes, IC factorization (INFOG(17)): 0 119s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 119s Total space in MBytes, OOC factorization (INFOG(27)): 0 119s 119s Elapsed time in analysis driver= 0.0017 119s 119s 119s ****** FACTORIZATION STEP ******** 119s 119s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 119s Number of working processes = 3 119s ICNTL(22) Out-of-core option = 0 119s ICNTL(35) BLR activation (eff. choice) = 0 119s ICNTL(37) BLR CB compression (eff. choice) = 0 119s ICNTL(49) Compact workarray S (end facto.) = 0 119s ICNTL(14) Memory relaxation = 20 119s INFOG(3) Real space for factors (estimated)= 25 119s INFOG(4) Integer space for factors (estim.)= 30 119s Maximum frontal size (estimated) = 5 119s Number of nodes in the tree = 1 119s ICNTL(23) Memory allowed (value on host) = 0 119s Sum over all procs = 0 119s Memory provided by user, sum of LWK_USER = 0 119s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 119s 119s Statistics on the scaling phase 119s Elapsed time for scaling = 0.0002 119s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 119s 119s Average Effective size of S (based on INFO(39))= 2428 119s Elapsed time to reformat/distribute matrix = 0.0001 119s 119s 119s Allocated buffers 119s ------------------ 119s Size of reception buffer in bytes ...... = 140000 119s Size of async. emission buffer (bytes).. = 140012 119s Small emission buffer (bytes) .......... = 180 119s ** Memory allocated, max in Mbytes (INFOG(18)): 0 119s 119s ** Memory allocated, total in Mbytes (INFOG(19)): 0 119s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 119s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 119s 119s Elapsed time for factorization = 0.0005 119s 119s Leaving factorization with ... 119s RINFOG (2) Operations in node assembly = 0.000D+00 119s ------ (3) Operations in node elimination = 7.000D+01 119s ICNTL (8) Scaling effectively used = 7 119s INFOG (9) Real space for factors = 25 119s INFOG (10) Integer space for factors = 30 119s INFOG (11) Maximum front size = 5 119s INFOG (29) Number of entries in factors = 25 119s INFOG (12) Number of off diagonal pivots = 1 119s INFOG (13) Number of delayed pivots = 0 119s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 119s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 119s RINFOG(21) Largest pivot in absolute value = 5.281D+00 119s INFOG (24) Effective value of ICNTL(12) = 1 119s INFOG (14) Number of memory compress = 0 119s 119s Elapsed time in factorization driver = 0.0029 119s 119s 119s ****** SOLVE & CHECK STEP ******** 119s 119s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 119s Number of right-hand-sides = 1 119s Blocking factor for multiple rhs = 1 119s ICNTL (9) = 1 119s --- (10) = 0 119s --- (11) = 0 119s --- (20) = 0 119s --- (21) = 0 119s --- (30) = 0 119s --- (35) = 0 119s --- (48) (effective) = 0 119s ** Rank of processor needing largest memory in solve : 0 119s ** Space in MBYTES used by this processor for solve : 0 119s ** Avg. Space in MBYTES per working proc during solve : 0 119s 119s Leaving solve with ... 119s Time to build/scatter RHS = 0.000153 119s Time in solution step (fwd/bwd) = 0.000235 119s .. Time in forward (fwd) step = 0.000109 119s .. Time in backward (bwd) step = 0.000080 119s Time to gather solution(cent.sol)= 0.000018 119s Time for distributed solution = 0.000000 119s 119s Elapsed time in solve driver= 0.0017 119s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 119s 119s Entering SMUMPS 5.7.3 with JOB = -2 119s executing #MPI = 3, without OMP 120s 120s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 120s executing #MPI = 3, without OMP 120s 120s ================================================= 120s MUMPS compiled with option -Dpord 120s ================================================= 120s L U Solver for unsymmetric matrices 120s Type of parallelism: Working host 120s 120s ****** ANALYSIS STEP ******** 120s 120s Processing a graph of size: 5 120s ... Structural symmetry (in percent)= 92 120s Average density of rows/columns = 2 120s ... No column permutation 120s Ordering based on AMF 120s WARNING: Largest root node of size 5 not selected for parallel execution 120s 120s Leaving analysis phase with ... 120s INFOG(1) = 0 120s INFOG(2) = 0 120s -- (20) Number of entries in factors (estim.) = 25 120s -- (3) Real space for factors (estimated) = 25 120s -- (4) Integer space for factors (estimated) = 30 120s -- (5) Maximum frontal size (estimated) = 5 120s -- (6) Number of nodes in the tree = 1 120s -- (32) Type of analysis effectively used = 1 120s -- (7) Ordering option effectively used = 2 120s ICNTL (6) Maximum transversal option = 0 120s ICNTL (7) Pivot order option = 7 120s ICNTL(12) Ordering symmetric indef. matrices = 1 120s ICNTL(13) Parallelism/splitting of root node = 0 120s ICNTL(14) Percentage of memory relaxation = 20 120s ICNTL(15) Analysis by block effectively used = 0 120s ICNTL(18) Distributed input matrix (on if >0) = 0 120s ICNTL(32) Forward elimination during facto. = 0 120s ICNTL(35) BLR activation = 0 120s ICNTL(48) Tree based multithreading (effective)= 0 120s ICNTL(58) Symbolic factorization option = 2 120s Number of level 2 nodes = 0 120s Number of split nodes = 0 120s RINFOG(1) Operations during elimination (estim)= 7.000D+01 120s 120s MEMORY ESTIMATIONS ... 120s Estimations with standard Full-Rank (FR) factorization: 120s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 120s Total space in MBytes, IC factorization (INFOG(17)): 0 120s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 120s Total space in MBytes, OOC factorization (INFOG(27)): 0 120s 120s Elapsed time in analysis driver= 0.0021 120s 120s 120s ****** FACTORIZATION STEP ******** 120s 120s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 120s Number of working processes = 3 120s ICNTL(22) Out-of-core option = 1 120s ICNTL(35) BLR activation (eff. choice) = 0 120s ICNTL(37) BLR CB compression (eff. choice) = 0 120s ICNTL(49) Compact workarray S (end facto.) = 0 120s ICNTL(14) Memory relaxation = 20 120s INFOG(3) Real space for factors (estimated)= 25 120s INFOG(4) Integer space for factors (estim.)= 30 120s Maximum frontal size (estimated) = 5 120s Number of nodes in the tree = 1 120s ICNTL(23) Memory allowed (value on host) = 0 120s Sum over all procs = 0 120s Memory provided by user, sum of LWK_USER = 0 120s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 120s 120s Statistics on the scaling phase 120s Elapsed time for scaling = 0.0002 120s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 120s 120s Average Effective size of S (based on INFO(39))= 2428 120s Elapsed time to reformat/distribute matrix = 0.0000 120s 120s 120s Allocated buffers 120s ------------------ 120s Size of reception buffer in bytes ...... = 140000 120s Size of async. emission buffer (bytes).. = 140012 120s Small emission buffer (bytes) .......... = 180 120s ** Memory allocated, max in Mbytes (INFOG(18)): 0 120s 120s ** Memory allocated, total in Mbytes (INFOG(19)): 0 120s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 120s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 120s 120s Elapsed time for factorization = 0.0007 120s 120s Leaving factorization with ... 120s RINFOG (2) Operations in node assembly = 0.000D+00 120s ------ (3) Operations in node elimination = 7.000D+01 120s ICNTL (8) Scaling effectively used = 7 120s INFOG (9) Real space for factors = 50 120s INFOG (10) Integer space for factors = 31 120s INFOG (11) Maximum front size = 5 120s INFOG (29) Number of entries in factors = 25 120s INFOG (12) Number of off diagonal pivots = 1 120s INFOG (13) Number of delayed pivots = 0 120s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 120s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 120s RINFOG(21) Largest pivot in absolute value = 5.281D+00 120s INFOG (24) Effective value of ICNTL(12) = 1 120s INFOG (14) Number of memory compress = 0 120s 120s Elapsed time in factorization driver = 0.0039 120s 120s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 120s executing #MPI = 3, without OMP 120s Save done successfully 120s The corresponding OOC files are: 120s /tmp//mumps_0_RGEOId 120s /tmp//mumps_0_YQjo98 120s 120s Elapsed time in save structure driver= 0.0037 120s 120s Entering SMUMPS 5.7.3 with JOB = -2 120s executing #MPI = 3, without OMP 120s 120s Entering SMUMPS 5.7.3 with JOB = 8 120s executing #MPI = 3, without OMP 120s The corresponding OOC files are: 120s /tmp//mumps_0_RGEOId 120s /tmp//mumps_0_YQjo98 120s 120s Elapsed time in restore structure driver= 0.0037 120s 120s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 120s executing #MPI = 3, without OMP 120s 120s 120s 120s ****** SOLVE & CHECK STEP ******** 120s 120s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 120s Number of right-hand-sides = 1 120s Blocking factor for multiple rhs = 1 120s ICNTL (9) = 1 120s --- (10) = 0 120s --- (11) = 0 120s --- (20) = 0 120s --- (21) = 0 120s --- (30) = 0 120s --- (35) = 0 120s --- (48) (effective) = 0 120s ** Rank of processor needing largest memory in solve : 0 120s ** Space in MBYTES used by this processor for solve : 0 120s ** Avg. Space in MBYTES per working proc during solve : 0 120s 120s Leaving solve with ... 120s Time to build/scatter RHS = 0.000241 120s Time in solution step (fwd/bwd) = 0.000358 120s .. Time in forward (fwd) step = 0.000230 120s .. Time in backward (bwd) step = 0.000088 120s Time to gather solution(cent.sol)= 0.000003 120s Time for distributed solution = 0.000000 120s 120s Elapsed time in solve driver= 0.0016 120s Solution is 0.999999225 2.00000000 2.99999928 4.00000000 5.00000048 120s 120s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 120s executing #MPI = 3, without OMP 120s 120s Entering SMUMPS 5.7.3 with JOB = -2 120s executing #MPI = 3, without OMP 120s 120s 120s === running 64-bit simple test: real, double precision, MPI === 120s 120s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 120s executing #MPI = 3, without OMP 120s 120s ================================================= 120s MUMPS compiled with option -Dpord 120s ================================================= 120s L U Solver for unsymmetric matrices 120s Type of parallelism: Working host 120s 120s ****** ANALYSIS STEP ******** 120s 120s Processing a graph of size: 5 120s ... Structural symmetry (in percent)= 92 120s Average density of rows/columns = 2 120s ... No column permutation 120s Ordering based on AMF 120s WARNING: Largest root node of size 5 not selected for parallel execution 120s 120s Leaving analysis phase with ... 120s INFOG(1) = 0 120s INFOG(2) = 0 120s -- (20) Number of entries in factors (estim.) = 25 120s -- (3) Real space for factors (estimated) = 25 120s -- (4) Integer space for factors (estimated) = 30 120s -- (5) Maximum frontal size (estimated) = 5 120s -- (6) Number of nodes in the tree = 1 120s -- (32) Type of analysis effectively used = 1 120s -- (7) Ordering option effectively used = 2 120s ICNTL (6) Maximum transversal option = 0 120s ICNTL (7) Pivot order option = 7 120s ICNTL(12) Ordering symmetric indef. matrices = 1 120s ICNTL(13) Parallelism/splitting of root node = 0 120s ICNTL(14) Percentage of memory relaxation = 20 120s ICNTL(15) Analysis by block effectively used = 0 120s ICNTL(18) Distributed input matrix (on if >0) = 0 120s ICNTL(32) Forward elimination during facto. = 0 120s ICNTL(35) BLR activation = 0 120s ICNTL(48) Tree based multithreading (effective)= 0 120s ICNTL(58) Symbolic factorization option = 2 120s Number of level 2 nodes = 0 120s Number of split nodes = 0 120s RINFOG(1) Operations during elimination (estim)= 7.000D+01 120s 120s MEMORY ESTIMATIONS ... 120s Estimations with standard Full-Rank (FR) factorization: 120s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 120s Total space in MBytes, IC factorization (INFOG(17)): 0 120s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 120s Total space in MBytes, OOC factorization (INFOG(27)): 0 120s 120s Elapsed time in analysis driver= 0.0019 120s 120s 120s ****** FACTORIZATION STEP ******** 120s 120s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 120s Number of working processes = 3 120s ICNTL(22) Out-of-core option = 0 120s ICNTL(35) BLR activation (eff. choice) = 0 120s ICNTL(37) BLR CB compression (eff. choice) = 0 120s ICNTL(49) Compact workarray S (end facto.) = 0 120s ICNTL(14) Memory relaxation = 20 120s INFOG(3) Real space for factors (estimated)= 25 120s INFOG(4) Integer space for factors (estim.)= 30 120s Maximum frontal size (estimated) = 5 120s Number of nodes in the tree = 1 120s ICNTL(23) Memory allowed (value on host) = 0 120s Sum over all procs = 0 120s Memory provided by user, sum of LWK_USER = 0 120s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 120s 120s Statistics on the scaling phase 120s Elapsed time for scaling = 0.0002 120s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 120s 120s Average Effective size of S (based on INFO(39))= 2428 120s Elapsed time to reformat/distribute matrix = 0.0000 120s 120s 120s Allocated buffers 120s ------------------ 120s Size of reception buffer in bytes ...... = 140000 120s Size of async. emission buffer (bytes).. = 140012 120s Small emission buffer (bytes) .......... = 180 120s ** Memory allocated, max in Mbytes (INFOG(18)): 0 120s 120s ** Memory allocated, total in Mbytes (INFOG(19)): 0 120s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 120s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 120s 120s Elapsed time for factorization = 0.0005 120s 120s Leaving factorization with ... 120s RINFOG (2) Operations in node assembly = 0.000D+00 120s ------ (3) Operations in node elimination = 7.000D+01 120s ICNTL (8) Scaling effectively used = 7 120s INFOG (9) Real space for factors = 25 120s INFOG (10) Integer space for factors = 30 120s INFOG (11) Maximum front size = 5 120s INFOG (29) Number of entries in factors = 25 120s INFOG (12) Number of off diagonal pivots = 1 120s INFOG (13) Number of delayed pivots = 0 120s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 120s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 120s RINFOG(21) Largest pivot in absolute value = 5.281D+00 120s INFOG (24) Effective value of ICNTL(12) = 1 120s INFOG (14) Number of memory compress = 0 120s 120s Elapsed time in factorization driver = 0.0026 120s 120s 120s ****** SOLVE & CHECK STEP ******** 120s 120s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 120s Number of right-hand-sides = 1 120s Blocking factor for multiple rhs = 1 120s ICNTL (9) = 1 120s --- (10) = 0 120s --- (11) = 0 120s --- (20) = 0 120s --- (21) = 0 120s --- (30) = 0 120s --- (35) = 0 120s --- (48) (effective) = 0 120s ** Rank of processor needing largest memory in solve : 0 120s ** Space in MBYTES used by this processor for solve : 0 120s ** Avg. Space in MBYTES per working proc during solve : 0 120s 120s Leaving solve with ... 120s Time to build/scatter RHS = 0.000114 120s Time in solution step (fwd/bwd) = 0.000190 120s .. Time in forward (fwd) step = 0.000100 120s .. Time in backward (bwd) step = 0.000061 120s Time to gather solution(cent.sol)= 0.000002 120s Time for distributed solution = 0.000000 120s 120s Elapsed time in solve driver= 0.0012 120s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 120s 120s Entering DMUMPS 5.7.3 with JOB = -2 120s executing #MPI = 3, without OMP 121s 121s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 121s executing #MPI = 3, without OMP 121s 121s ================================================= 121s MUMPS compiled with option -Dpord 121s ================================================= 121s L U Solver for unsymmetric matrices 121s Type of parallelism: Working host 121s 121s ****** ANALYSIS STEP ******** 121s 121s Processing a graph of size: 5 121s ... Structural symmetry (in percent)= 92 121s Average density of rows/columns = 2 121s ... No column permutation 121s Ordering based on AMF 121s WARNING: Largest root node of size 5 not selected for parallel execution 121s 121s Leaving analysis phase with ... 121s INFOG(1) = 0 121s INFOG(2) = 0 121s -- (20) Number of entries in factors (estim.) = 25 121s -- (3) Real space for factors (estimated) = 25 121s -- (4) Integer space for factors (estimated) = 30 121s -- (5) Maximum frontal size (estimated) = 5 121s -- (6) Number of nodes in the tree = 1 121s -- (32) Type of analysis effectively used = 1 121s -- (7) Ordering option effectively used = 2 121s ICNTL (6) Maximum transversal option = 0 121s ICNTL (7) Pivot order option = 7 121s ICNTL(12) Ordering symmetric indef. matrices = 1 121s ICNTL(13) Parallelism/splitting of root node = 0 121s ICNTL(14) Percentage of memory relaxation = 20 121s ICNTL(15) Analysis by block effectively used = 0 121s ICNTL(18) Distributed input matrix (on if >0) = 0 121s ICNTL(32) Forward elimination during facto. = 0 121s ICNTL(35) BLR activation = 0 121s ICNTL(48) Tree based multithreading (effective)= 0 121s ICNTL(58) Symbolic factorization option = 2 121s Number of level 2 nodes = 0 121s Number of split nodes = 0 121s RINFOG(1) Operations during elimination (estim)= 7.000D+01 121s 121s MEMORY ESTIMATIONS ... 121s Estimations with standard Full-Rank (FR) factorization: 121s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 121s Total space in MBytes, IC factorization (INFOG(17)): 0 121s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 121s Total space in MBytes, OOC factorization (INFOG(27)): 0 121s 121s Elapsed time in analysis driver= 0.0017 121s 121s 121s ****** FACTORIZATION STEP ******** 121s 121s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 121s Number of working processes = 3 121s ICNTL(22) Out-of-core option = 1 121s ICNTL(35) BLR activation (eff. choice) = 0 121s ICNTL(37) BLR CB compression (eff. choice) = 0 121s ICNTL(49) Compact workarray S (end facto.) = 0 121s ICNTL(14) Memory relaxation = 20 121s INFOG(3) Real space for factors (estimated)= 25 121s INFOG(4) Integer space for factors (estim.)= 30 121s Maximum frontal size (estimated) = 5 121s Number of nodes in the tree = 1 121s ICNTL(23) Memory allowed (value on host) = 0 121s Sum over all procs = 0 121s Memory provided by user, sum of LWK_USER = 0 121s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 121s 121s Statistics on the scaling phase 121s Elapsed time for scaling = 0.0001 121s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 121s 121s Average Effective size of S (based on INFO(39))= 2428 121s Elapsed time to reformat/distribute matrix = 0.0001 121s 121s 121s Allocated buffers 121s ------------------ 121s Size of reception buffer in bytes ...... = 140000 121s Size of async. emission buffer (bytes).. = 140012 121s Small emission buffer (bytes) .......... = 180 121s ** Memory allocated, max in Mbytes (INFOG(18)): 0 121s 121s ** Memory allocated, total in Mbytes (INFOG(19)): 0 121s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 121s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 121s 121s Elapsed time for factorization = 0.0006 121s 121s Leaving factorization with ... 121s RINFOG (2) Operations in node assembly = 0.000D+00 121s ------ (3) Operations in node elimination = 7.000D+01 121s ICNTL (8) Scaling effectively used = 7 121s INFOG (9) Real space for factors = 50 121s INFOG (10) Integer space for factors = 31 121s INFOG (11) Maximum front size = 5 121s INFOG (29) Number of entries in factors = 25 121s INFOG (12) Number of off diagonal pivots = 1 121s INFOG (13) Number of delayed pivots = 0 121s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 121s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 121s RINFOG(21) Largest pivot in absolute value = 5.281D+00 121s INFOG (24) Effective value of ICNTL(12) = 1 121s INFOG (14) Number of memory compress = 0 121s 121s Elapsed time in factorization driver = 0.0031 121s 121s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 121s executing #MPI = 3, without OMP 121s Save done successfully 121s The corresponding OOC files are: 121s /tmp//mumps_0_UG5gRX 121s /tmp//mumps_0_fMc7Hw 121s 121s Elapsed time in save structure driver= 0.0028 121s 121s Entering DMUMPS 5.7.3 with JOB = -2 121s executing #MPI = 3, without OMP 121s 121s Entering DMUMPS 5.7.3 with JOB = 8 121s executing #MPI = 3, without OMP 121s The corresponding OOC files are: 121s /tmp//mumps_0_UG5gRX 121s /tmp//mumps_0_fMc7Hw 121s 121s Elapsed time in restore structure driver= 0.0031 121s 121s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 121s executing #MPI = 3, without OMP 121s 121s 121s 121s ****** SOLVE & CHECK STEP ******** 121s 121s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 121s Number of right-hand-sides = 1 121s Blocking factor for multiple rhs = 1 121s ICNTL (9) = 1 121s --- (10) = 0 121s --- (11) = 0 121s --- (20) = 0 121s --- (21) = 0 121s --- (30) = 0 121s --- (35) = 0 121s --- (48) (effective) = 0 121s ** Rank of processor needing largest memory in solve : 0 121s ** Space in MBYTES used by this processor for solve : 0 121s ** Avg. Space in MBYTES per working proc during solve : 0 121s 121s Leaving solve with ... 121s Time to build/scatter RHS = 0.000097 121s Time in solution step (fwd/bwd) = 0.000225 121s .. Time in forward (fwd) step = 0.000119 121s .. Time in backward (bwd) step = 0.000073 121s Time to gather solution(cent.sol)= 0.000002 121s Time for distributed solution = 0.000000 121s 121s Elapsed time in solve driver= 0.0011 121s Solution is 0.99999999999999856 1.9999999999999998 2.9999999999999996 3.9999999999999996 5.0000000000000018 121s 121s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 121s executing #MPI = 3, without OMP 121s 121s Entering DMUMPS 5.7.3 with JOB = -2 121s executing #MPI = 3, without OMP 121s 121s 121s === running 64-bit simple test: complex, single precision, MPI === 121s 121s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 121s executing #MPI = 3, without OMP 121s 121s ================================================= 121s MUMPS compiled with option -Dpord 121s ================================================= 121s L U Solver for unsymmetric matrices 121s Type of parallelism: Working host 121s 121s ****** ANALYSIS STEP ******** 121s 121s Processing a graph of size: 5 121s ... Structural symmetry (in percent)= 92 121s Average density of rows/columns = 2 121s ... No column permutation 121s Ordering based on AMF 121s WARNING: Largest root node of size 5 not selected for parallel execution 121s 121s Leaving analysis phase with ... 121s INFOG(1) = 0 121s INFOG(2) = 0 121s -- (20) Number of entries in factors (estim.) = 25 121s -- (3) Real space for factors (estimated) = 25 121s -- (4) Integer space for factors (estimated) = 30 121s -- (5) Maximum frontal size (estimated) = 5 121s -- (6) Number of nodes in the tree = 1 121s -- (32) Type of analysis effectively used = 1 121s -- (7) Ordering option effectively used = 2 121s ICNTL (6) Maximum transversal option = 0 121s ICNTL (7) Pivot order option = 7 121s ICNTL(12) Ordering symmetric indef. matrices = 1 121s ICNTL(13) Parallelism/splitting of root node = 0 121s ICNTL(14) Percentage of memory relaxation = 20 121s ICNTL(15) Analysis by block effectively used = 0 121s ICNTL(18) Distributed input matrix (on if >0) = 0 121s ICNTL(32) Forward elimination during facto. = 0 121s ICNTL(35) BLR activation = 0 121s ICNTL(48) Tree based multithreading (effective)= 0 121s ICNTL(58) Symbolic factorization option = 2 121s Number of level 2 nodes = 0 121s Number of split nodes = 0 121s RINFOG(1) Operations during elimination (estim)= 7.000D+01 121s 121s MEMORY ESTIMATIONS ... 121s Estimations with standard Full-Rank (FR) factorization: 121s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 121s Total space in MBytes, IC factorization (INFOG(17)): 0 121s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 121s Total space in MBytes, OOC factorization (INFOG(27)): 0 121s 121s Elapsed time in analysis driver= 0.0024 121s 121s 121s ****** FACTORIZATION STEP ******** 121s 121s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 121s Number of working processes = 3 121s ICNTL(22) Out-of-core option = 0 121s ICNTL(35) BLR activation (eff. choice) = 0 121s ICNTL(37) BLR CB compression (eff. choice) = 0 121s ICNTL(49) Compact workarray S (end facto.) = 0 121s ICNTL(14) Memory relaxation = 20 121s INFOG(3) Real space for factors (estimated)= 25 121s INFOG(4) Integer space for factors (estim.)= 30 121s Maximum frontal size (estimated) = 5 121s Number of nodes in the tree = 1 121s ICNTL(23) Memory allowed (value on host) = 0 121s Sum over all procs = 0 121s Memory provided by user, sum of LWK_USER = 0 121s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 121s 121s Statistics on the scaling phase 121s Elapsed time for scaling = 0.0001 121s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 121s 121s Average Effective size of S (based on INFO(39))= 2428 121s Elapsed time to reformat/distribute matrix = 0.0000 121s 121s 121s Allocated buffers 121s ------------------ 121s Size of reception buffer in bytes ...... = 140000 121s Size of async. emission buffer (bytes).. = 140012 121s Small emission buffer (bytes) .......... = 180 121s ** Memory allocated, max in Mbytes (INFOG(18)): 0 121s 121s ** Memory allocated, total in Mbytes (INFOG(19)): 0 121s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 121s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 121s 121s Elapsed time for factorization = 0.0007 121s 121s Leaving factorization with ... 121s RINFOG (2) Operations in node assembly = 0.000D+00 121s ------ (3) Operations in node elimination = 7.000D+01 121s ICNTL (8) Scaling effectively used = 7 121s INFOG (9) Real space for factors = 25 121s INFOG (10) Integer space for factors = 30 121s INFOG (11) Maximum front size = 5 121s INFOG (29) Number of entries in factors = 25 121s INFOG (12) Number of off diagonal pivots = 1 121s INFOG (13) Number of delayed pivots = 0 121s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 121s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 121s RINFOG(21) Largest pivot in absolute value = 5.281D+00 121s INFOG (24) Effective value of ICNTL(12) = 1 121s INFOG (14) Number of memory compress = 0 121s 121s Elapsed time in factorization driver = 0.0043 121s 121s 121s ****** SOLVE & CHECK STEP ******** 121s 121s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 121s Number of right-hand-sides = 1 121s Blocking factor for multiple rhs = 1 121s ICNTL (9) = 1 121s --- (10) = 0 121s --- (11) = 0 121s --- (20) = 0 121s --- (21) = 0 121s --- (30) = 0 121s --- (35) = 0 121s --- (48) (effective) = 0 121s ** Rank of processor needing largest memory in solve : 0 121s ** Space in MBYTES used by this processor for solve : 0 121s ** Avg. Space in MBYTES per working proc during solve : 0 121s 121s Leaving solve with ... 121s Time to build/scatter RHS = 0.000104 121s Time in solution step (fwd/bwd) = 0.000193 121s .. Time in forward (fwd) step = 0.000098 121s .. Time in backward (bwd) step = 0.000072 121s Time to gather solution(cent.sol)= 0.000003 121s Time for distributed solution = 0.000000 121s 121s Elapsed time in solve driver= 0.0011 121s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 121s 121s Entering CMUMPS 5.7.3 with JOB = -2 121s executing #MPI = 3, without OMP 121s 121s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 121s executing #MPI = 3, without OMP 121s 121s ================================================= 121s MUMPS compiled with option -Dpord 121s ================================================= 121s L U Solver for unsymmetric matrices 121s Type of parallelism: Working host 121s 121s ****** ANALYSIS STEP ******** 121s 121s Processing a graph of size: 5 121s ... Structural symmetry (in percent)= 92 121s Average density of rows/columns = 2 121s ... No column permutation 121s Ordering based on AMF 121s WARNING: Largest root node of size 5 not selected for parallel execution 121s 121s Leaving analysis phase with ... 121s INFOG(1) = 0 121s INFOG(2) = 0 121s -- (20) Number of entries in factors (estim.) = 25 121s -- (3) Real space for factors (estimated) = 25 121s -- (4) Integer space for factors (estimated) = 30 121s -- (5) Maximum frontal size (estimated) = 5 121s -- (6) Number of nodes in the tree = 1 121s -- (32) Type of analysis effectively used = 1 121s -- (7) Ordering option effectively used = 2 121s ICNTL (6) Maximum transversal option = 0 121s ICNTL (7) Pivot order option = 7 121s ICNTL(12) Ordering symmetric indef. matrices = 1 121s ICNTL(13) Parallelism/splitting of root node = 0 121s ICNTL(14) Percentage of memory relaxation = 20 121s ICNTL(15) Analysis by block effectively used = 0 121s ICNTL(18) Distributed input matrix (on if >0) = 0 121s ICNTL(32) Forward elimination during facto. = 0 121s ICNTL(35) BLR activation = 0 121s ICNTL(48) Tree based multithreading (effective)= 0 121s ICNTL(58) Symbolic factorization option = 2 121s Number of level 2 nodes = 0 121s Number of split nodes = 0 121s RINFOG(1) Operations during elimination (estim)= 7.000D+01 121s 121s MEMORY ESTIMATIONS ... 121s Estimations with standard Full-Rank (FR) factorization: 121s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 121s Total space in MBytes, IC factorization (INFOG(17)): 0 121s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 121s Total space in MBytes, OOC factorization (INFOG(27)): 0 121s 121s Elapsed time in analysis driver= 0.0016 121s 121s 121s ****** FACTORIZATION STEP ******** 121s 121s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 121s Number of working processes = 3 121s ICNTL(22) Out-of-core option = 1 121s ICNTL(35) BLR activation (eff. choice) = 0 121s ICNTL(37) BLR CB compression (eff. choice) = 0 121s ICNTL(49) Compact workarray S (end facto.) = 0 121s ICNTL(14) Memory relaxation = 20 121s INFOG(3) Real space for factors (estimated)= 25 121s INFOG(4) Integer space for factors (estim.)= 30 121s Maximum frontal size (estimated) = 5 121s Number of nodes in the tree = 1 121s ICNTL(23) Memory allowed (value on host) = 0 121s Sum over all procs = 0 121s Memory provided by user, sum of LWK_USER = 0 121s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 121s 121s Statistics on the scaling phase 121s Elapsed time for scaling = 0.0002 121s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 121s 121s Average Effective size of S (based on INFO(39))= 2428 121s Elapsed time to reformat/distribute matrix = 0.0000 121s 121s 121s Allocated buffers 121s ------------------ 121s Size of reception buffer in bytes ...... = 140000 121s Size of async. emission buffer (bytes).. = 140012 121s Small emission buffer (bytes) .......... = 180 121s ** Memory allocated, max in Mbytes (INFOG(18)): 0 121s 121s ** Memory allocated, total in Mbytes (INFOG(19)): 0 121s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 121s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 121s 121s Elapsed time for factorization = 0.0006 121s 121s Leaving factorization with ... 121s RINFOG (2) Operations in node assembly = 0.000D+00 121s ------ (3) Operations in node elimination = 7.000D+01 121s ICNTL (8) Scaling effectively used = 7 121s INFOG (9) Real space for factors = 50 121s INFOG (10) Integer space for factors = 31 121s INFOG (11) Maximum front size = 5 121s INFOG (29) Number of entries in factors = 25 121s INFOG (12) Number of off diagonal pivots = 1 121s INFOG (13) Number of delayed pivots = 0 121s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 121s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 121s RINFOG(21) Largest pivot in absolute value = 5.281D+00 121s INFOG (24) Effective value of ICNTL(12) = 1 121s INFOG (14) Number of memory compress = 0 121s 121s Elapsed time in factorization driver = 0.0035 121s 121s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 121s executing #MPI = 3, without OMP 121s Save done successfully 121s The corresponding OOC files are: 121s /tmp//mumps_0_9ZPuKJ 121s /tmp//mumps_0_c0eSLr 121s 121s Elapsed time in save structure driver= 0.0035 121s 121s Entering CMUMPS 5.7.3 with JOB = -2 121s executing #MPI = 3, without OMP 121s 121s Entering CMUMPS 5.7.3 with JOB = 8 121s executing #MPI = 3, without OMP 121s The corresponding OOC files are: 121s /tmp//mumps_0_9ZPuKJ 121s /tmp//mumps_0_c0eSLr 121s 121s Elapsed time in restore structure driver= 0.0035 121s 121s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 121s executing #MPI = 3, without OMP 121s 121s 121s 121s ****** SOLVE & CHECK STEP ******** 121s 121s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 121s Number of right-hand-sides = 1 121s Blocking factor for multiple rhs = 1 121s ICNTL (9) = 1 121s --- (10) = 0 121s --- (11) = 0 121s --- (20) = 0 121s --- (21) = 0 121s --- (30) = 0 121s --- (35) = 0 121s --- (48) (effective) = 0 121s ** Rank of processor needing largest memory in solve : 0 121s ** Space in MBYTES used by this processor for solve : 0 121s ** Avg. Space in MBYTES per working proc during solve : 0 121s 121s Leaving solve with ... 121s Time to build/scatter RHS = 0.000169 121s Time in solution step (fwd/bwd) = 0.000237 121s .. Time in forward (fwd) step = 0.000118 121s .. Time in backward (bwd) step = 0.000070 121s Time to gather solution(cent.sol)= 0.000002 121s Time for distributed solution = 0.000000 121s 121s Elapsed time in solve driver= 0.0013 121s Solution is (0.999999225,0.00000000) (2.00000000,0.00000000) (2.99999928,0.00000000) (4.00000000,0.00000000) (5.00000048,0.00000000) 121s 121s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 121s executing #MPI = 3, without OMP 121s 121s Entering CMUMPS 5.7.3 with JOB = -2 121s executing #MPI = 3, without OMP 121s 121s 121s === running 64-bit simple test: complex, double precision, MPI === 122s 122s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12 122s executing #MPI = 3, without OMP 122s 122s ================================================= 122s MUMPS compiled with option -Dpord 122s ================================================= 122s L U Solver for unsymmetric matrices 122s Type of parallelism: Working host 122s 122s ****** ANALYSIS STEP ******** 122s 122s Processing a graph of size: 5 122s ... Structural symmetry (in percent)= 92 122s Average density of rows/columns = 2 122s ... No column permutation 122s Ordering based on AMF 122s WARNING: Largest root node of size 5 not selected for parallel execution 122s 122s Leaving analysis phase with ... 122s INFOG(1) = 0 122s INFOG(2) = 0 122s -- (20) Number of entries in factors (estim.) = 25 122s -- (3) Real space for factors (estimated) = 25 122s -- (4) Integer space for factors (estimated) = 30 122s -- (5) Maximum frontal size (estimated) = 5 122s -- (6) Number of nodes in the tree = 1 122s -- (32) Type of analysis effectively used = 1 122s -- (7) Ordering option effectively used = 2 122s ICNTL (6) Maximum transversal option = 0 122s ICNTL (7) Pivot order option = 7 122s ICNTL(12) Ordering symmetric indef. matrices = 1 122s ICNTL(13) Parallelism/splitting of root node = 0 122s ICNTL(14) Percentage of memory relaxation = 20 122s ICNTL(15) Analysis by block effectively used = 0 122s ICNTL(18) Distributed input matrix (on if >0) = 0 122s ICNTL(32) Forward elimination during facto. = 0 122s ICNTL(35) BLR activation = 0 122s ICNTL(48) Tree based multithreading (effective)= 0 122s ICNTL(58) Symbolic factorization option = 2 122s Number of level 2 nodes = 0 122s Number of split nodes = 0 122s RINFOG(1) Operations during elimination (estim)= 7.000D+01 122s 122s MEMORY ESTIMATIONS ... 122s Estimations with standard Full-Rank (FR) factorization: 122s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 122s Total space in MBytes, IC factorization (INFOG(17)): 0 122s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 122s Total space in MBytes, OOC factorization (INFOG(27)): 0 122s 122s Elapsed time in analysis driver= 0.0015 122s 122s 122s ****** FACTORIZATION STEP ******** 122s 122s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 122s Number of working processes = 3 122s ICNTL(22) Out-of-core option = 0 122s ICNTL(35) BLR activation (eff. choice) = 0 122s ICNTL(37) BLR CB compression (eff. choice) = 0 122s ICNTL(49) Compact workarray S (end facto.) = 0 122s ICNTL(14) Memory relaxation = 20 122s INFOG(3) Real space for factors (estimated)= 25 122s INFOG(4) Integer space for factors (estim.)= 30 122s Maximum frontal size (estimated) = 5 122s Number of nodes in the tree = 1 122s ICNTL(23) Memory allowed (value on host) = 0 122s Sum over all procs = 0 122s Memory provided by user, sum of LWK_USER = 0 122s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 122s 122s Statistics on the scaling phase 122s Elapsed time for scaling = 0.0002 122s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 122s 122s Average Effective size of S (based on INFO(39))= 2428 122s Elapsed time to reformat/distribute matrix = 0.0001 122s 122s 122s Allocated buffers 122s ------------------ 122s Size of reception buffer in bytes ...... = 140000 122s Size of async. emission buffer (bytes).. = 140012 122s Small emission buffer (bytes) .......... = 180 122s ** Memory allocated, max in Mbytes (INFOG(18)): 0 122s 122s ** Memory allocated, total in Mbytes (INFOG(19)): 0 122s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 122s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 122s 122s Elapsed time for factorization = 0.0005 122s 122s Leaving factorization with ... 122s RINFOG (2) Operations in node assembly = 0.000D+00 122s ------ (3) Operations in node elimination = 7.000D+01 122s ICNTL (8) Scaling effectively used = 7 122s INFOG (9) Real space for factors = 25 122s INFOG (10) Integer space for factors = 30 122s INFOG (11) Maximum front size = 5 122s INFOG (29) Number of entries in factors = 25 122s INFOG (12) Number of off diagonal pivots = 1 122s INFOG (13) Number of delayed pivots = 0 122s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 122s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 122s RINFOG(21) Largest pivot in absolute value = 5.281D+00 122s INFOG (24) Effective value of ICNTL(12) = 1 122s INFOG (14) Number of memory compress = 0 122s 122s Elapsed time in factorization driver = 0.0024 122s 122s 122s ****** SOLVE & CHECK STEP ******** 122s 122s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 122s Number of right-hand-sides = 1 122s Blocking factor for multiple rhs = 1 122s ICNTL (9) = 1 122s --- (10) = 0 122s --- (11) = 0 122s --- (20) = 0 122s --- (21) = 0 122s --- (30) = 0 122s --- (35) = 0 122s --- (48) (effective) = 0 122s ** Rank of processor needing largest memory in solve : 0 122s ** Space in MBYTES used by this processor for solve : 0 122s ** Avg. Space in MBYTES per working proc during solve : 0 122s 122s Leaving solve with ... 122s Time to build/scatter RHS = 0.000123 122s Time in solution step (fwd/bwd) = 0.000217 122s .. Time in forward (fwd) step = 0.000083 122s .. Time in backward (bwd) step = 0.000107 122s Time to gather solution(cent.sol)= 0.000002 122s Time for distributed solution = 0.000000 122s 122s Elapsed time in solve driver= 0.0010 122s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 122s 122s Entering ZMUMPS 5.7.3 with JOB = -2 122s executing #MPI = 3, without OMP 122s 122s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12 122s executing #MPI = 3, without OMP 122s 122s ================================================= 122s MUMPS compiled with option -Dpord 122s ================================================= 122s L U Solver for unsymmetric matrices 122s Type of parallelism: Working host 122s 122s ****** ANALYSIS STEP ******** 122s 122s Processing a graph of size: 5 122s ... Structural symmetry (in percent)= 92 122s Average density of rows/columns = 2 122s ... No column permutation 122s Ordering based on AMF 122s WARNING: Largest root node of size 5 not selected for parallel execution 122s 122s Leaving analysis phase with ... 122s INFOG(1) = 0 122s INFOG(2) = 0 122s -- (20) Number of entries in factors (estim.) = 25 122s -- (3) Real space for factors (estimated) = 25 122s -- (4) Integer space for factors (estimated) = 30 122s -- (5) Maximum frontal size (estimated) = 5 122s -- (6) Number of nodes in the tree = 1 122s -- (32) Type of analysis effectively used = 1 122s -- (7) Ordering option effectively used = 2 122s ICNTL (6) Maximum transversal option = 0 122s ICNTL (7) Pivot order option = 7 122s ICNTL(12) Ordering symmetric indef. matrices = 1 122s ICNTL(13) Parallelism/splitting of root node = 0 122s ICNTL(14) Percentage of memory relaxation = 20 122s ICNTL(15) Analysis by block effectively used = 0 122s ICNTL(18) Distributed input matrix (on if >0) = 0 122s ICNTL(32) Forward elimination during facto. = 0 122s ICNTL(35) BLR activation = 0 122s ICNTL(48) Tree based multithreading (effective)= 0 122s ICNTL(58) Symbolic factorization option = 2 122s Number of level 2 nodes = 0 122s Number of split nodes = 0 122s RINFOG(1) Operations during elimination (estim)= 7.000D+01 122s 122s MEMORY ESTIMATIONS ... 122s Estimations with standard Full-Rank (FR) factorization: 122s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0 122s Total space in MBytes, IC factorization (INFOG(17)): 0 122s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0 122s Total space in MBytes, OOC factorization (INFOG(27)): 0 122s 122s Elapsed time in analysis driver= 0.0023 122s 122s 122s ****** FACTORIZATION STEP ******** 122s 122s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ... 122s Number of working processes = 3 122s ICNTL(22) Out-of-core option = 1 122s ICNTL(35) BLR activation (eff. choice) = 0 122s ICNTL(37) BLR CB compression (eff. choice) = 0 122s ICNTL(49) Compact workarray S (end facto.) = 0 122s ICNTL(14) Memory relaxation = 20 122s INFOG(3) Real space for factors (estimated)= 25 122s INFOG(4) Integer space for factors (estim.)= 30 122s Maximum frontal size (estimated) = 5 122s Number of nodes in the tree = 1 122s ICNTL(23) Memory allowed (value on host) = 0 122s Sum over all procs = 0 122s Memory provided by user, sum of LWK_USER = 0 122s Effective threshold for pivoting, CNTL(1) = 0.1000D-01 122s 122s Statistics on the scaling phase 122s Elapsed time for scaling = 0.0003 122s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D+00 122s 122s Average Effective size of S (based on INFO(39))= 2428 122s Elapsed time to reformat/distribute matrix = 0.0000 122s 122s 122s Allocated buffers 122s ------------------ 122s Size of reception buffer in bytes ...... = 140000 122s Size of async. emission buffer (bytes).. = 140012 122s Small emission buffer (bytes) .......... = 180 122s ** Memory allocated, max in Mbytes (INFOG(18)): 0 122s 122s ** Memory allocated, total in Mbytes (INFOG(19)): 0 122s ** Memory effectively used, max in Mbytes (INFOG(21)): 0 122s ** Memory effectively used, total in Mbytes (INFOG(22)): 0 122s 122s Elapsed time for factorization = 0.0008 122s 122s Leaving factorization with ... 122s RINFOG (2) Operations in node assembly = 0.000D+00 122s ------ (3) Operations in node elimination = 7.000D+01 122s ICNTL (8) Scaling effectively used = 7 122s INFOG (9) Real space for factors = 50 122s INFOG (10) Integer space for factors = 31 122s INFOG (11) Maximum front size = 5 122s INFOG (29) Number of entries in factors = 25 122s INFOG (12) Number of off diagonal pivots = 1 122s INFOG (13) Number of delayed pivots = 0 122s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01 122s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01 122s RINFOG(21) Largest pivot in absolute value = 5.281D+00 122s INFOG (24) Effective value of ICNTL(12) = 1 122s INFOG (14) Number of memory compress = 0 122s 122s Elapsed time in factorization driver = 0.0044 122s 122s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12 122s executing #MPI = 3, without OMP 122s Save done successfully 122s The corresponding OOC files are: 122s /tmp//mumps_0_uXHwls 122s /tmp//mumps_0_j4SMMU 122s 122s Elapsed time in save structure driver= 0.0034 122s 122s Entering ZMUMPS 5.7.3 with JOB = -2 122s executing #MPI = 3, without OMP 122s 122s Entering ZMUMPS 5.7.3 with JOB = 8 122s executing #MPI = 3, without OMP 122s The corresponding OOC files are: 122s /tmp//mumps_0_uXHwls 122s /tmp//mumps_0_j4SMMU 122s 122s Elapsed time in restore structure driver= 0.0035 122s 122s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12 122s executing #MPI = 3, without OMP 122s 122s 122s 122s ****** SOLVE & CHECK STEP ******** 122s 122s GLOBAL STATISTICS PRIOR SOLVE PHASE ........... 122s Number of right-hand-sides = 1 122s Blocking factor for multiple rhs = 1 122s ICNTL (9) = 1 122s --- (10) = 0 122s --- (11) = 0 122s --- (20) = 0 122s --- (21) = 0 122s --- (30) = 0 122s --- (35) = 0 122s --- (48) (effective) = 0 122s ** Rank of processor needing largest memory in solve : 0 122s ** Space in MBYTES used by this processor for solve : 0 122s ** Avg. Space in MBYTES per working proc during solve : 0 122s 122s Leaving solve with ... 122s Time to build/scatter RHS = 0.000134 122s Time in solution step (fwd/bwd) = 0.000227 122s .. Time in forward (fwd) step = 0.000111 122s .. Time in backward (bwd) step = 0.000075 122s Time to gather solution(cent.sol)= 0.000006 122s Time for distributed solution = 0.000000 122s 122s Elapsed time in solve driver= 0.0020 122s Solution is (0.99999999999999856,0.0000000000000000) (1.9999999999999998,0.0000000000000000) (2.9999999999999996,0.0000000000000000) (3.9999999999999996,0.0000000000000000) (5.0000000000000018,0.0000000000000000) 122s 122s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12 122s executing #MPI = 3, without OMP 122s 122s Entering ZMUMPS 5.7.3 with JOB = -2 122s executing #MPI = 3, without OMP 122s autopkgtest [23:24:52]: test mumps64-examples-mpi: -----------------------] 123s mumps64-examples-mpi PASS 123s autopkgtest [23:24:53]: test mumps64-examples-mpi: - - - - - - - - - - results - - - - - - - - - - 123s autopkgtest [23:24:53]: @@@@@@@@@@@@@@@@@@@@ summary 123s mumps-examples-serial PASS 123s mumps-examples-mpi PASS 123s mumps64-examples-serial PASS 123s mumps64-examples-mpi PASS 132s nova [W] Skipping flock for amd64 132s Creating nova instance adt-plucky-amd64-mumps-20241103-232250-juju-7f2275-prod-proposed-migration-environment-15-e99f5409-5726-43be-ae87-f7b0ea9386be from image adt/ubuntu-plucky-amd64-server-20241103.img (UUID 35ab818c-a1b8-49b0-b1ec-61e6c5b42b5f)...