Debian Continuous Integration

mumps [ testing/ppc64el ] — job 54407097 Download raw log Download test artifacts

Preparation

start run test bed setup apt-source

test mumps-examples-serial

preparing testbed test run test results

test mumps-examples-mpi

preparing testbed test run test results

test mumps64-examples-serial

preparing testbed test run test results

test mumps64-examples-mpi

preparing testbed test run test results

Closing

summary

▸ ▾ start run

0s autopkgtest [07:57:46]: starting date and time: 2024-11-17 07:57:46 0000

0s autopkgtest [07:57:46]: version 5.42

0s autopkgtest [07:57:46]: host ci-worker-ppc64el-05; command line: /usr/bin/autopkgtest --no-built-binaries '--setup-commands=echo '"'"'mumps testing/ppc64el'"'"' > /var/tmp/debci.pkg 2>&1 || true' '--setup-commands=echo '"'"'Acquire::Retries "10";'"'"' > /etc/apt/apt.conf.d/75retry 2>&1 || true' --timeout=30600 --user debci --apt-upgrade --pin-packages=unstable=src:mumps,src:openmpi '--add-apt-source=deb-src http://deb.debian.org/debian unstable main contrib non-free non-free-firmware

0s deb http://deb.debian.org/debian unstable main contrib non-free non-free-firmware' --output-dir /tmp/debci-worker-54407097-SV6jIPt9AE/autopkgtest-incoming/testing/ppc64el/m/mumps/54407097 mumps -- lxc --sudo --name ci-322-968146f8 autopkgtest-testing-ppc64el

7s autopkgtest [07:57:53]: testbed dpkg architecture: ppc64el

7s autopkgtest [07:57:53]: testbed apt version: 2.9.10

▸ ▾ test bed setup

7s autopkgtest [07:57:53]: @@@@@@@@@@@@@@@@@@@@ test bed setup

7s autopkgtest [07:57:53]: testbed release detected to be: None

7s autopkgtest [07:57:53]: updating testbed package index (apt update)

7s Hit:1 http://cvo.debian.osuosl.org/debian testing InRelease

7s Hit:2 http://deb.debian.org/debian-debug testing-debug InRelease

7s Get:3 http://deb.debian.org/debian unstable InRelease [202 kB]

8s Get:4 http://deb.debian.org/debian unstable/main Sources [10.9 MB]

8s Get:5 http://deb.debian.org/debian unstable/contrib Sources [62.2 kB]

8s Get:6 http://deb.debian.org/debian unstable/non-free Sources [83.7 kB]

8s Get:7 http://deb.debian.org/debian unstable/non-free-firmware Sources [6,824 B]

8s Get:8 http://deb.debian.org/debian unstable/contrib ppc64el Packages [52.3 kB]

8s Get:9 http://deb.debian.org/debian unstable/non-free-firmware ppc64el Packages [6,192 B]

8s Get:10 http://deb.debian.org/debian unstable/non-free ppc64el Packages [85.4 kB]

8s Get:11 http://deb.debian.org/debian unstable/main ppc64el Packages [9,852 kB]

10s Fetched 21.3 MB in 3s (6,231 kB/s)

12s Reading package lists...

12s autopkgtest [07:57:58]: upgrading testbed (apt dist-upgrade and autopurge)

12s Reading package lists...

12s Building dependency tree...

12s Reading state information...

12s Calculating upgrade...Starting pkgProblemResolver with broken count: 0

13s Starting 2 pkgProblemResolver with broken count: 0

13s Done

13s Entering ResolveByKeep

13s

14s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded.

14s Reading package lists...

14s Building dependency tree...

14s Reading state information...

14s Starting pkgProblemResolver with broken count: 0

14s Starting 2 pkgProblemResolver with broken count: 0

14s Done

15s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded.

15s autopkgtest [07:58:01]: testbed running kernel: Linux 6.1.0-26-powerpc64le #1 SMP Debian 6.1.112-1 (2024-09-30)

▸ ▾ apt-source

15s autopkgtest [07:58:01]: @@@@@@@@@@@@@@@@@@@@ apt-source mumps

30s Get:1 http://deb.debian.org/debian unstable/main mumps 5.7.3-3 (dsc) [3,449 B]

30s Get:2 http://deb.debian.org/debian unstable/main mumps 5.7.3-3 (tar) [4,543 kB]

30s Get:3 http://deb.debian.org/debian unstable/main mumps 5.7.3-3 (diff) [22.6 kB]

31s gpgv: Signature made Thu 31 Oct 2024 01:17:51 PM UTC

31s gpgv: using RSA key 1B5D04B1E507BBF03669E2B801F35FC33E73AF8C

31s gpgv: Can't check signature: No public key

31s dpkg-source: warning: cannot verify inline signature for ./mumps_5.7.3-3.dsc: no acceptable signature found

31s autopkgtest [07:58:17]: testing package mumps version 5.7.3-3

31s autopkgtest [07:58:17]: build not needed

▸ ▾ test mumps-examples-serial: preparing testbed

31s autopkgtest [07:58:17]: test mumps-examples-serial: preparing testbed

31s Reading package lists...

31s Building dependency tree...

31s Reading state information...

32s Starting pkgProblemResolver with broken count: 0

32s Starting 2 pkgProblemResolver with broken count: 0

32s Done

32s The following NEW packages will be installed:

32s autoconf automake autopoint autotools-dev bsdextrautils build-essential cpp

32s cpp-14 cpp-14-powerpc64le-linux-gnu cpp-powerpc64le-linux-gnu debhelper

32s dh-autoreconf dh-strip-nondeterminism dwz file g g -14

32s g -14-powerpc64le-linux-gnu g -powerpc64le-linux-gnu gcc gcc-14

32s gcc-14-powerpc64le-linux-gnu gcc-powerpc64le-linux-gnu gettext gettext-base

32s gfortran gfortran-14 gfortran-14-powerpc64le-linux-gnu

32s gfortran-powerpc64le-linux-gnu groff-base ibverbs-providers intltool-debian

32s libamd-comgr2 libamdhip64-5 libarchive-zip-perl libasan8 libatomic1

32s libblas-dev libblas3 libc-dev-bin libc6-dev libcc1-0 libcrypt-dev

32s libdebhelper-perl libdrm-amdgpu1 libdrm-common libdrm2 libevent-2.1-7t64

32s libevent-core-2.1-7t64 libevent-dev libevent-extra-2.1-7t64

32s libevent-openssl-2.1-7t64 libevent-pthreads-2.1-7t64 libfabric1

32s libfile-stripnondeterminism-perl libgcc-14-dev libgfortran-14-dev

32s libgfortran5 libgomp1 libhsa-runtime64-1 libhsakmt1 libhwloc-dev

32s libhwloc-plugins libhwloc15 libibmad5 libibumad3 libibverbs-dev libibverbs1

32s libicu72 libisl23 libitm1 libjs-jquery libjs-jquery-ui liblapack-dev

32s liblapack3 libllvm17t64 liblsan0 libltdl-dev libltdl7 libmagic-mgc

32s libmagic1t64 libmpc3 libmpfr6 libmumps-5.7 libmumps-64pord-5.7

32s libmumps-64pord-ptscotch-5.7 libmumps-64pord-scotch-5.7

32s libmumps-64pord-seq-5.7 libmumps-dev libmumps-headers-dev

32s libmumps-ptscotch-5.7 libmumps-ptscotch-dev libmumps-scotch-5.7

32s libmumps-scotch-dev libmumps-seq-5.7 libmumps-seq-dev libmumps64-dev

32s libmumps64-ptscotch-dev libmumps64-scotch-dev libmumps64-seq-dev libmunge2

32s libnl-3-200 libnl-3-dev libnl-route-3-200 libnl-route-3-dev libnuma-dev

32s libnuma1 libopenmpi-dev libopenmpi3t64 libpciaccess0 libpipeline1

32s libpmix-dev libpmix2t64 libptscotch-7.0 libptscotch-dev libquadmath0

32s librdmacm1t64 libscalapack-mpi-dev libscalapack-openmpi-dev

32s libscalapack-openmpi2.2 libscotch-7.0 libscotch-dev libstdc -14-dev libtool

32s libtsan2 libubsan1 libuchardet0 libucx0 libx11-6 libx11-data libxau6 libxcb1

32s libxdmcp6 libxext6 libxml2 libxnvctrl0 libz3-4 linux-libc-dev m4 man-db

32s mpi-default-bin mpi-default-dev mumps-test ocl-icd-libopencl1 openmpi-bin

32s openmpi-common po-debconf rpcsvc-proto zlib1g-dev

33s 0 upgraded, 149 newly installed, 0 to remove and 0 not upgraded.

33s Need to get 200 MB of archives.

33s After this operation, 962 MB of additional disk space will be used.

33s Get:1 http://cvo.debian.osuosl.org/debian testing/main ppc64el libmagic-mgc ppc64el 1:5.45-3 b1 [314 kB]

33s Get:2 http://deb.debian.org/debian unstable/main ppc64el libopenmpi3t64 ppc64el 5.0.5-6 [2,039 kB]

33s Get:3 http://cvo.debian.osuosl.org/debian testing/main ppc64el libmagic1t64 ppc64el 1:5.45-3 b1 [115 kB]

33s Get:4 http://cvo.debian.osuosl.org/debian testing/main ppc64el file ppc64el 1:5.45-3 b1 [44.1 kB]

33s Get:5 http://cvo.debian.osuosl.org/debian testing/main ppc64el gettext-base ppc64el 0.22.5-2 [201 kB]

33s Get:6 http://cvo.debian.osuosl.org/debian testing/main ppc64el libuchardet0 ppc64el 0.0.8-1 b2 [71.3 kB]

100

33s Get:7 http://cvo.debian.osuosl.org/debian testing/main ppc64el groff-base ppc64el 1.23.0-5 [1,183 kB]

101

33s Get:8 http://cvo.debian.osuosl.org/debian testing/main ppc64el bsdextrautils ppc64el 2.40.2-11 [97.8 kB]

102

33s Get:9 http://cvo.debian.osuosl.org/debian testing/main ppc64el libpipeline1 ppc64el 1.5.8-1 [43.2 kB]

103

33s Get:10 http://cvo.debian.osuosl.org/debian testing/main ppc64el man-db ppc64el 2.13.0-1 [1,432 kB]

104

33s Get:11 http://deb.debian.org/debian unstable/main ppc64el openmpi-common all 5.0.5-6 [95.0 kB]

105

33s Get:12 http://deb.debian.org/debian unstable/main ppc64el openmpi-bin ppc64el 5.0.5-6 [201 kB]

106

33s Get:13 http://deb.debian.org/debian unstable/main ppc64el libmumps-5.7 ppc64el 5.7.3-3 [1,861 kB]

107

33s Get:14 http://deb.debian.org/debian unstable/main ppc64el libmumps-64pord-5.7 ppc64el 5.7.3-3 [1,862 kB]

108

33s Get:15 http://cvo.debian.osuosl.org/debian testing/main ppc64el m4 ppc64el 1.4.19-4 [301 kB]

109

33s Get:16 http://cvo.debian.osuosl.org/debian testing/main ppc64el autoconf all 2.72-3 [493 kB]

110

33s Get:17 http://cvo.debian.osuosl.org/debian testing/main ppc64el autotools-dev all 20220109.1 [51.6 kB]

111

33s Get:18 http://cvo.debian.osuosl.org/debian testing/main ppc64el automake all 1:1.16.5-1.3 [823 kB]

112

33s Get:19 http://cvo.debian.osuosl.org/debian testing/main ppc64el autopoint all 0.22.5-2 [723 kB]

113

33s Get:20 http://cvo.debian.osuosl.org/debian testing/main ppc64el libc-dev-bin ppc64el 2.40-3 [52.4 kB]

114

33s Get:21 http://cvo.debian.osuosl.org/debian testing/main ppc64el linux-libc-dev all 6.11.7-1 [2,454 kB]

115

33s Get:22 http://deb.debian.org/debian unstable/main ppc64el libmumps-64pord-ptscotch-5.7 ppc64el 5.7.3-3 [1,881 kB]

116

33s Get:23 http://cvo.debian.osuosl.org/debian testing/main ppc64el libcrypt-dev ppc64el 1:4.4.36-5 [132 kB]

117

33s Get:24 http://cvo.debian.osuosl.org/debian testing/main ppc64el rpcsvc-proto ppc64el 1.4.3-1 [64.9 kB]

118

33s Get:25 http://cvo.debian.osuosl.org/debian testing/main ppc64el libc6-dev ppc64el 2.40-3 [1,863 kB]

119

33s Get:26 http://cvo.debian.osuosl.org/debian testing/main ppc64el libisl23 ppc64el 0.27-1 [733 kB]

120

33s Get:27 http://cvo.debian.osuosl.org/debian testing/main ppc64el libmpfr6 ppc64el 4.2.1-1 b2 [717 kB]

121

33s Get:28 http://cvo.debian.osuosl.org/debian testing/main ppc64el libmpc3 ppc64el 1.3.1-1 b3 [56.0 kB]

122

33s Get:29 http://cvo.debian.osuosl.org/debian testing/main ppc64el cpp-14-powerpc64le-linux-gnu ppc64el 14.2.0-8 [9,289 kB]

123

33s Get:30 http://cvo.debian.osuosl.org/debian testing/main ppc64el cpp-14 ppc64el 14.2.0-8 [1,288 B]

124

33s Get:31 http://cvo.debian.osuosl.org/debian testing/main ppc64el cpp-powerpc64le-linux-gnu ppc64el 4:14.2.0-1 [4,848 B]

125

33s Get:32 http://cvo.debian.osuosl.org/debian testing/main ppc64el cpp ppc64el 4:14.2.0-1 [1,584 B]

126

33s Get:33 http://cvo.debian.osuosl.org/debian testing/main ppc64el libcc1-0 ppc64el 14.2.0-8 [43.3 kB]

127

33s Get:34 http://cvo.debian.osuosl.org/debian testing/main ppc64el libgomp1 ppc64el 14.2.0-8 [142 kB]

128

33s Get:35 http://cvo.debian.osuosl.org/debian testing/main ppc64el libitm1 ppc64el 14.2.0-8 [28.6 kB]

129

33s Get:36 http://cvo.debian.osuosl.org/debian testing/main ppc64el libatomic1 ppc64el 14.2.0-8 [9,928 B]

130

33s Get:37 http://cvo.debian.osuosl.org/debian testing/main ppc64el libasan8 ppc64el 14.2.0-8 [2,651 kB]

131

33s Get:38 http://cvo.debian.osuosl.org/debian testing/main ppc64el liblsan0 ppc64el 14.2.0-8 [1,203 kB]

132

33s Get:39 http://cvo.debian.osuosl.org/debian testing/main ppc64el libtsan2 ppc64el 14.2.0-8 [2,417 kB]

133

33s Get:40 http://cvo.debian.osuosl.org/debian testing/main ppc64el libubsan1 ppc64el 14.2.0-8 [1,081 kB]

134

33s Get:41 http://cvo.debian.osuosl.org/debian testing/main ppc64el libquadmath0 ppc64el 14.2.0-8 [151 kB]

135

33s Get:42 http://cvo.debian.osuosl.org/debian testing/main ppc64el libgcc-14-dev ppc64el 14.2.0-8 [1,411 kB]

136

33s Get:43 http://cvo.debian.osuosl.org/debian testing/main ppc64el gcc-14-powerpc64le-linux-gnu ppc64el 14.2.0-8 [17.9 MB]

137

33s Get:44 http://cvo.debian.osuosl.org/debian testing/main ppc64el gcc-14 ppc64el 14.2.0-8 [530 kB]

138

33s Get:45 http://cvo.debian.osuosl.org/debian testing/main ppc64el gcc-powerpc64le-linux-gnu ppc64el 4:14.2.0-1 [1,448 B]

139

33s Get:46 http://cvo.debian.osuosl.org/debian testing/main ppc64el gcc ppc64el 4:14.2.0-1 [5,148 B]

140

33s Get:47 http://cvo.debian.osuosl.org/debian testing/main ppc64el libstdc -14-dev ppc64el 14.2.0-8 [2,502 kB]

141

33s Get:48 http://cvo.debian.osuosl.org/debian testing/main ppc64el g -14-powerpc64le-linux-gnu ppc64el 14.2.0-8 [10.3 MB]

142

33s Get:49 http://cvo.debian.osuosl.org/debian testing/main ppc64el g -14 ppc64el 14.2.0-8 [20.2 kB]

143

33s Get:50 http://cvo.debian.osuosl.org/debian testing/main ppc64el g -powerpc64le-linux-gnu ppc64el 4:14.2.0-1 [1,208 B]

144

33s Get:51 http://cvo.debian.osuosl.org/debian testing/main ppc64el g ppc64el 4:14.2.0-1 [1,340 B]

145

33s Get:52 http://cvo.debian.osuosl.org/debian testing/main ppc64el build-essential ppc64el 12.12 [4,628 B]

146

33s Get:53 http://cvo.debian.osuosl.org/debian testing/main ppc64el libdebhelper-perl all 13.20 [89.7 kB]

147

33s Get:54 http://cvo.debian.osuosl.org/debian testing/main ppc64el libtool all 2.4.7-8 [517 kB]

148

33s Get:55 http://cvo.debian.osuosl.org/debian testing/main ppc64el dh-autoreconf all 20 [17.1 kB]

149

33s Get:56 http://cvo.debian.osuosl.org/debian testing/main ppc64el libarchive-zip-perl all 1.68-1 [104 kB]

150

33s Get:57 http://cvo.debian.osuosl.org/debian testing/main ppc64el libfile-stripnondeterminism-perl all 1.14.0-1 [19.5 kB]

151

33s Get:58 http://cvo.debian.osuosl.org/debian testing/main ppc64el dh-strip-nondeterminism all 1.14.0-1 [8,448 B]

152

33s Get:59 http://cvo.debian.osuosl.org/debian testing/main ppc64el dwz ppc64el 0.15-1 b1 [110 kB]

153

33s Get:60 http://cvo.debian.osuosl.org/debian testing/main ppc64el libicu72 ppc64el 72.1-5 b1 [9,522 kB]

154

34s Get:61 http://cvo.debian.osuosl.org/debian testing/main ppc64el libxml2 ppc64el 2.12.7 dfsg really2.9.14-0.2 b1 [731 kB]

155

34s Get:62 http://cvo.debian.osuosl.org/debian testing/main ppc64el gettext ppc64el 0.22.5-2 [1,639 kB]

156

34s Get:63 http://cvo.debian.osuosl.org/debian testing/main ppc64el intltool-debian all 0.35.0 20060710.6 [22.9 kB]

157

34s Get:64 http://cvo.debian.osuosl.org/debian testing/main ppc64el po-debconf all 1.0.21 nmu1 [248 kB]

158

34s Get:65 http://cvo.debian.osuosl.org/debian testing/main ppc64el debhelper all 13.20 [915 kB]

159

34s Get:66 http://cvo.debian.osuosl.org/debian testing/main ppc64el libgfortran5 ppc64el 14.2.0-8 [520 kB]

160

34s Get:67 http://cvo.debian.osuosl.org/debian testing/main ppc64el libgfortran-14-dev ppc64el 14.2.0-8 [572 kB]

161

34s Get:68 http://cvo.debian.osuosl.org/debian testing/main ppc64el gfortran-14-powerpc64le-linux-gnu ppc64el 14.2.0-8 [10.0 MB]

162

34s Get:69 http://cvo.debian.osuosl.org/debian testing/main ppc64el gfortran-14 ppc64el 14.2.0-8 [12.2 kB]

163

34s Get:70 http://cvo.debian.osuosl.org/debian testing/main ppc64el gfortran-powerpc64le-linux-gnu ppc64el 4:14.2.0-1 [1,296 B]

164

34s Get:71 http://cvo.debian.osuosl.org/debian testing/main ppc64el gfortran ppc64el 4:14.2.0-1 [1,436 B]

165

34s Get:72 http://cvo.debian.osuosl.org/debian testing/main ppc64el libnl-3-200 ppc64el 3.7.0-0.3 b1 [64.1 kB]

166

34s Get:73 http://cvo.debian.osuosl.org/debian testing/main ppc64el libnl-route-3-200 ppc64el 3.7.0-0.3 b1 [184 kB]

167

34s Get:74 http://cvo.debian.osuosl.org/debian testing/main ppc64el libibverbs1 ppc64el 52.0-2 b1 [66.2 kB]

168

34s Get:75 http://cvo.debian.osuosl.org/debian testing/main ppc64el ibverbs-providers ppc64el 52.0-2 b1 [369 kB]

169

34s Get:76 http://cvo.debian.osuosl.org/debian testing/main ppc64el libz3-4 ppc64el 4.13.3-1 [8,560 kB]

170

34s Get:77 http://deb.debian.org/debian unstable/main ppc64el libmumps-64pord-scotch-5.7 ppc64el 5.7.3-3 [1,904 kB]

171

34s Get:78 http://cvo.debian.osuosl.org/debian testing/main ppc64el libllvm17t64 ppc64el 1:17.0.6-18 [23.3 MB]

172

34s Get:79 http://cvo.debian.osuosl.org/debian testing/main ppc64el libamd-comgr2 ppc64el 6.0 git20231212.4510c28 dfsg-3 b2 [13.0 MB]

173

34s Get:80 http://cvo.debian.osuosl.org/debian testing/main ppc64el libdrm-common all 2.4.123-1 [8,084 B]

174

34s Get:81 http://cvo.debian.osuosl.org/debian testing/main ppc64el libdrm2 ppc64el 2.4.123-1 [43.1 kB]

175

34s Get:82 http://cvo.debian.osuosl.org/debian testing/main ppc64el libdrm-amdgpu1 ppc64el 2.4.123-1 [24.0 kB]

176

34s Get:83 http://cvo.debian.osuosl.org/debian testing/main ppc64el libnuma1 ppc64el 2.0.18-1 b1 [25.0 kB]

177

34s Get:84 http://cvo.debian.osuosl.org/debian testing/main ppc64el libhsakmt1 ppc64el 5.7.0-1 [67.2 kB]

178

34s Get:85 http://cvo.debian.osuosl.org/debian testing/main ppc64el libhsa-runtime64-1 ppc64el 5.7.1-3 [313 kB]

179

34s Get:86 http://cvo.debian.osuosl.org/debian testing/main ppc64el libamdhip64-5 ppc64el 5.7.1-5 [8,580 kB]

180

34s Get:87 http://cvo.debian.osuosl.org/debian testing/main ppc64el libblas3 ppc64el 3.12.0-3 b1 [114 kB]

181

34s Get:88 http://cvo.debian.osuosl.org/debian testing/main ppc64el libblas-dev ppc64el 3.12.0-3 b1 [123 kB]

182

34s Get:89 http://cvo.debian.osuosl.org/debian testing/main ppc64el libevent-2.1-7t64 ppc64el 2.1.12-stable-10 b1 [189 kB]

183

34s Get:90 http://cvo.debian.osuosl.org/debian testing/main ppc64el libevent-core-2.1-7t64 ppc64el 2.1.12-stable-10 b1 [136 kB]

184

34s Get:91 http://cvo.debian.osuosl.org/debian testing/main ppc64el libevent-extra-2.1-7t64 ppc64el 2.1.12-stable-10 b1 [111 kB]

185

34s Get:92 http://cvo.debian.osuosl.org/debian testing/main ppc64el libevent-pthreads-2.1-7t64 ppc64el 2.1.12-stable-10 b1 [54.6 kB]

186

34s Get:93 http://cvo.debian.osuosl.org/debian testing/main ppc64el libevent-openssl-2.1-7t64 ppc64el 2.1.12-stable-10 b1 [61.9 kB]

187

34s Get:94 http://cvo.debian.osuosl.org/debian testing/main ppc64el libevent-dev ppc64el 2.1.12-stable-10 b1 [325 kB]

188

34s Get:95 http://cvo.debian.osuosl.org/debian testing/main ppc64el librdmacm1t64 ppc64el 52.0-2 b1 [76.7 kB]

189

34s Get:96 http://cvo.debian.osuosl.org/debian testing/main ppc64el libfabric1 ppc64el 1.17.0-3.1 [550 kB]

190

34s Get:97 http://cvo.debian.osuosl.org/debian testing/main ppc64el libhwloc15 ppc64el 2.11.2-1 [179 kB]

191

34s Get:98 http://cvo.debian.osuosl.org/debian testing/main ppc64el libnuma-dev ppc64el 2.0.18-1 b1 [40.4 kB]

192

34s Get:99 http://cvo.debian.osuosl.org/debian testing/main ppc64el libltdl7 ppc64el 2.4.7-8 [396 kB]

193

34s Get:100 http://cvo.debian.osuosl.org/debian testing/main ppc64el libltdl-dev ppc64el 2.4.7-8 [169 kB]

194

34s Get:101 http://cvo.debian.osuosl.org/debian testing/main ppc64el libhwloc-dev ppc64el 2.11.2-1 [276 kB]

195

34s Get:102 http://cvo.debian.osuosl.org/debian testing/main ppc64el libpciaccess0 ppc64el 0.17-3 b2 [53.2 kB]

196

34s Get:103 http://cvo.debian.osuosl.org/debian testing/main ppc64el libxau6 ppc64el 1:1.0.11-1 [21.1 kB]

197

34s Get:104 http://cvo.debian.osuosl.org/debian testing/main ppc64el libxdmcp6 ppc64el 1:1.1.2-3 b2 [25.4 kB]

198

34s Get:105 http://cvo.debian.osuosl.org/debian testing/main ppc64el libxcb1 ppc64el 1.17.0-2 b1 [148 kB]

199

34s Get:106 http://cvo.debian.osuosl.org/debian testing/main ppc64el libx11-data all 2:1.8.10-2 [337 kB]

200

34s Get:107 http://cvo.debian.osuosl.org/debian testing/main ppc64el libx11-6 ppc64el 2:1.8.10-2 [848 kB]

201

34s Get:108 http://cvo.debian.osuosl.org/debian testing/main ppc64el libxext6 ppc64el 2:1.3.4-1 b2 [52.0 kB]

202

35s Get:109 http://cvo.debian.osuosl.org/debian testing/main ppc64el libxnvctrl0 ppc64el 535.171.04-1 b1 [14.5 kB]

203

35s Get:110 http://cvo.debian.osuosl.org/debian testing/main ppc64el ocl-icd-libopencl1 ppc64el 2.3.2-1 b2 [43.7 kB]

204

35s Get:111 http://cvo.debian.osuosl.org/debian testing/main ppc64el libhwloc-plugins ppc64el 2.11.2-1 [19.7 kB]

205

35s Get:112 http://cvo.debian.osuosl.org/debian testing/main ppc64el libibumad3 ppc64el 52.0-2 b1 [29.6 kB]

206

35s Get:113 http://cvo.debian.osuosl.org/debian testing/main ppc64el libibmad5 ppc64el 52.0-2 b1 [45.2 kB]

207

35s Get:114 http://cvo.debian.osuosl.org/debian testing/main ppc64el libnl-3-dev ppc64el 3.7.0-0.3 b1 [109 kB]

208

35s Get:115 http://cvo.debian.osuosl.org/debian testing/main ppc64el libnl-route-3-dev ppc64el 3.7.0-0.3 b1 [219 kB]

209

35s Get:116 http://cvo.debian.osuosl.org/debian testing/main ppc64el libibverbs-dev ppc64el 52.0-2 b1 [678 kB]

210

35s Get:117 http://cvo.debian.osuosl.org/debian testing/main ppc64el libjs-jquery all 3.6.1 dfsg ~3.5.14-1 [326 kB]

211

35s Get:118 http://cvo.debian.osuosl.org/debian testing/main ppc64el libjs-jquery-ui all 1.13.2 dfsg-1 [250 kB]

212

35s Get:119 http://cvo.debian.osuosl.org/debian testing/main ppc64el liblapack3 ppc64el 3.12.0-3 b1 [2,002 kB]

213

35s Get:120 http://cvo.debian.osuosl.org/debian testing/main ppc64el liblapack-dev ppc64el 3.12.0-3 b1 [4,161 kB]

214

35s Get:121 http://cvo.debian.osuosl.org/debian testing/main ppc64el libmunge2 ppc64el 0.5.15-4 b1 [21.2 kB]

215

35s Get:122 http://cvo.debian.osuosl.org/debian testing/main ppc64el libpmix2t64 ppc64el 5.0.3-2 b1 [681 kB]

216

35s Get:123 http://cvo.debian.osuosl.org/debian testing/main ppc64el libucx0 ppc64el 1.17.0 ds-3 [1,046 kB]

217

35s Get:124 http://deb.debian.org/debian unstable/main ppc64el libmumps-64pord-seq-5.7 ppc64el 5.7.3-3 [1,907 kB]

218

35s Get:125 http://cvo.debian.osuosl.org/debian testing/main ppc64el mpi-default-bin ppc64el 1.17 [2,376 B]

219

35s Get:126 http://cvo.debian.osuosl.org/debian testing/main ppc64el libscalapack-openmpi2.2 ppc64el 2.2.1-5 [1,337 kB]

220

35s Get:127 http://cvo.debian.osuosl.org/debian testing/main ppc64el libptscotch-7.0 ppc64el 7.0.5-1 [694 kB]

221

35s Get:128 http://cvo.debian.osuosl.org/debian testing/main ppc64el libscotch-7.0 ppc64el 7.0.5-1 [444 kB]

222

35s Get:129 http://cvo.debian.osuosl.org/debian testing/main ppc64el libscalapack-openmpi-dev ppc64el 2.2.1-5 [10.7 kB]

223

35s Get:130 http://cvo.debian.osuosl.org/debian testing/main ppc64el zlib1g-dev ppc64el 1:1.3.dfsg really1.3.1-1 b1 [919 kB]

224

35s Get:131 http://cvo.debian.osuosl.org/debian testing/main ppc64el libpmix-dev ppc64el 5.0.3-2 b1 [4,029 kB]

225

35s Get:132 http://cvo.debian.osuosl.org/debian testing/main ppc64el mpi-default-dev ppc64el 1.17 [3,148 B]

226

35s Get:133 http://cvo.debian.osuosl.org/debian testing/main ppc64el libscalapack-mpi-dev ppc64el 2.2.1-5 [5,892 B]

227

35s Get:134 http://cvo.debian.osuosl.org/debian testing/main ppc64el libscotch-dev ppc64el 7.0.5-1 [1,610 kB]

228

35s Get:135 http://cvo.debian.osuosl.org/debian testing/main ppc64el libptscotch-dev ppc64el 7.0.5-1 [1,405 kB]

229

35s Get:136 http://deb.debian.org/debian unstable/main ppc64el libmumps-headers-dev all 5.7.3-3 [36.3 kB]

230

35s Get:137 http://deb.debian.org/debian unstable/main ppc64el libopenmpi-dev ppc64el 5.0.5-6 [1,086 kB]

231

35s Get:138 http://deb.debian.org/debian unstable/main ppc64el libmumps-dev ppc64el 5.7.3-3 [1,906 kB]

232

36s Get:139 http://deb.debian.org/debian unstable/main ppc64el libmumps-ptscotch-5.7 ppc64el 5.7.3-3 [1,882 kB]

233

37s Get:140 http://deb.debian.org/debian unstable/main ppc64el libmumps-ptscotch-dev ppc64el 5.7.3-3 [1,919 kB]

234

38s Get:141 http://deb.debian.org/debian unstable/main ppc64el libmumps-scotch-5.7 ppc64el 5.7.3-3 [1,905 kB]

235

39s Get:142 http://deb.debian.org/debian unstable/main ppc64el libmumps-scotch-dev ppc64el 5.7.3-3 [1,915 kB]

236

39s Get:143 http://deb.debian.org/debian unstable/main ppc64el libmumps-seq-5.7 ppc64el 5.7.3-3 [1,905 kB]

237

40s Get:144 http://deb.debian.org/debian unstable/main ppc64el libmumps-seq-dev ppc64el 5.7.3-3 [1,915 kB]

238

40s Get:145 http://deb.debian.org/debian unstable/main ppc64el libmumps64-dev ppc64el 5.7.3-3 [1,905 kB]

239

40s Get:146 http://deb.debian.org/debian unstable/main ppc64el libmumps64-ptscotch-dev ppc64el 5.7.3-3 [1,917 kB]

240

41s Get:147 http://deb.debian.org/debian unstable/main ppc64el libmumps64-scotch-dev ppc64el 5.7.3-3 [1,914 kB]

241

42s Get:148 http://deb.debian.org/debian unstable/main ppc64el libmumps64-seq-dev ppc64el 5.7.3-3 [1,915 kB]

242

43s Get:149 http://deb.debian.org/debian unstable/main ppc64el mumps-test ppc64el 5.7.3-3 [34.3 kB]

243

43s debconf: delaying package configuration, since apt-utils is not installed

244

43s Fetched 200 MB in 10s (19.1 MB/s)

245

43s Selecting previously unselected package libmagic-mgc.

246

43s (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 ... 12222 files and directories currently installed.)

247

43s Preparing to unpack .../000-libmagic-mgc_1:5.45-3 b1_ppc64el.deb ...

248

43s Unpacking libmagic-mgc (1:5.45-3 b1) ...

249

43s Selecting previously unselected package libmagic1t64:ppc64el.

250

43s Preparing to unpack .../001-libmagic1t64_1:5.45-3 b1_ppc64el.deb ...

251

43s Unpacking libmagic1t64:ppc64el (1:5.45-3 b1) ...

252

43s Selecting previously unselected package file.

253

43s Preparing to unpack .../002-file_1:5.45-3 b1_ppc64el.deb ...

254

43s Unpacking file (1:5.45-3 b1) ...

255

43s Selecting previously unselected package gettext-base.

256

43s Preparing to unpack .../003-gettext-base_0.22.5-2_ppc64el.deb ...

257

43s Unpacking gettext-base (0.22.5-2) ...

258

43s Selecting previously unselected package libuchardet0:ppc64el.

259

43s Preparing to unpack .../004-libuchardet0_0.0.8-1 b2_ppc64el.deb ...

260

43s Unpacking libuchardet0:ppc64el (0.0.8-1 b2) ...

261

43s Selecting previously unselected package groff-base.

262

43s Preparing to unpack .../005-groff-base_1.23.0-5_ppc64el.deb ...

263

43s Unpacking groff-base (1.23.0-5) ...

264

43s Selecting previously unselected package bsdextrautils.

265

43s Preparing to unpack .../006-bsdextrautils_2.40.2-11_ppc64el.deb ...

266

43s Unpacking bsdextrautils (2.40.2-11) ...

267

43s Selecting previously unselected package libpipeline1:ppc64el.

268

43s Preparing to unpack .../007-libpipeline1_1.5.8-1_ppc64el.deb ...

269

43s Unpacking libpipeline1:ppc64el (1.5.8-1) ...

270

43s Selecting previously unselected package man-db.

271

43s Preparing to unpack .../008-man-db_2.13.0-1_ppc64el.deb ...

272

43s Unpacking man-db (2.13.0-1) ...

273

44s Selecting previously unselected package m4.

274

44s Preparing to unpack .../009-m4_1.4.19-4_ppc64el.deb ...

275

44s Unpacking m4 (1.4.19-4) ...

276

44s Selecting previously unselected package autoconf.

277

44s Preparing to unpack .../010-autoconf_2.72-3_all.deb ...

278

44s Unpacking autoconf (2.72-3) ...

279

44s Selecting previously unselected package autotools-dev.

280

44s Preparing to unpack .../011-autotools-dev_20220109.1_all.deb ...

281

44s Unpacking autotools-dev (20220109.1) ...

282

44s Selecting previously unselected package automake.

283

44s Preparing to unpack .../012-automake_1:1.16.5-1.3_all.deb ...

284

44s Unpacking automake (1:1.16.5-1.3) ...

285

44s Selecting previously unselected package autopoint.

286

44s Preparing to unpack .../013-autopoint_0.22.5-2_all.deb ...

287

44s Unpacking autopoint (0.22.5-2) ...

288

44s Selecting previously unselected package libc-dev-bin.

289

44s Preparing to unpack .../014-libc-dev-bin_2.40-3_ppc64el.deb ...

290

44s Unpacking libc-dev-bin (2.40-3) ...

291

44s Selecting previously unselected package linux-libc-dev.

292

44s Preparing to unpack .../015-linux-libc-dev_6.11.7-1_all.deb ...

293

44s Unpacking linux-libc-dev (6.11.7-1) ...

294

44s Selecting previously unselected package libcrypt-dev:ppc64el.

295

44s Preparing to unpack .../016-libcrypt-dev_1:4.4.36-5_ppc64el.deb ...

296

44s Unpacking libcrypt-dev:ppc64el (1:4.4.36-5) ...

297

44s Selecting previously unselected package rpcsvc-proto.

298

44s Preparing to unpack .../017-rpcsvc-proto_1.4.3-1_ppc64el.deb ...

299

44s Unpacking rpcsvc-proto (1.4.3-1) ...

300

44s Selecting previously unselected package libc6-dev:ppc64el.

301

44s Preparing to unpack .../018-libc6-dev_2.40-3_ppc64el.deb ...

302

44s Unpacking libc6-dev:ppc64el (2.40-3) ...

303

44s Selecting previously unselected package libisl23:ppc64el.

304

44s Preparing to unpack .../019-libisl23_0.27-1_ppc64el.deb ...

305

44s Unpacking libisl23:ppc64el (0.27-1) ...

306

44s Selecting previously unselected package libmpfr6:ppc64el.

307

44s Preparing to unpack .../020-libmpfr6_4.2.1-1 b2_ppc64el.deb ...

308

44s Unpacking libmpfr6:ppc64el (4.2.1-1 b2) ...

309

45s Selecting previously unselected package libmpc3:ppc64el.

310

45s Preparing to unpack .../021-libmpc3_1.3.1-1 b3_ppc64el.deb ...

311

45s Unpacking libmpc3:ppc64el (1.3.1-1 b3) ...

312

45s Selecting previously unselected package cpp-14-powerpc64le-linux-gnu.

313

45s Preparing to unpack .../022-cpp-14-powerpc64le-linux-gnu_14.2.0-8_ppc64el.deb ...

314

45s Unpacking cpp-14-powerpc64le-linux-gnu (14.2.0-8) ...

315

45s Selecting previously unselected package cpp-14.

316

45s Preparing to unpack .../023-cpp-14_14.2.0-8_ppc64el.deb ...

317

45s Unpacking cpp-14 (14.2.0-8) ...

318

45s Selecting previously unselected package cpp-powerpc64le-linux-gnu.

319

45s Preparing to unpack .../024-cpp-powerpc64le-linux-gnu_4:14.2.0-1_ppc64el.deb ...

320

45s Unpacking cpp-powerpc64le-linux-gnu (4:14.2.0-1) ...

321

45s Selecting previously unselected package cpp.

322

45s Preparing to unpack .../025-cpp_4:14.2.0-1_ppc64el.deb ...

323

45s Unpacking cpp (4:14.2.0-1) ...

324

45s Selecting previously unselected package libcc1-0:ppc64el.

325

45s Preparing to unpack .../026-libcc1-0_14.2.0-8_ppc64el.deb ...

326

45s Unpacking libcc1-0:ppc64el (14.2.0-8) ...

327

45s Selecting previously unselected package libgomp1:ppc64el.

328

45s Preparing to unpack .../027-libgomp1_14.2.0-8_ppc64el.deb ...

329

45s Unpacking libgomp1:ppc64el (14.2.0-8) ...

330

45s Selecting previously unselected package libitm1:ppc64el.

331

45s Preparing to unpack .../028-libitm1_14.2.0-8_ppc64el.deb ...

332

45s Unpacking libitm1:ppc64el (14.2.0-8) ...

333

45s Selecting previously unselected package libatomic1:ppc64el.

334

45s Preparing to unpack .../029-libatomic1_14.2.0-8_ppc64el.deb ...

335

45s Unpacking libatomic1:ppc64el (14.2.0-8) ...

336

45s Selecting previously unselected package libasan8:ppc64el.

337

45s Preparing to unpack .../030-libasan8_14.2.0-8_ppc64el.deb ...

338

45s Unpacking libasan8:ppc64el (14.2.0-8) ...

339

46s Selecting previously unselected package liblsan0:ppc64el.

340

46s Preparing to unpack .../031-liblsan0_14.2.0-8_ppc64el.deb ...

341

46s Unpacking liblsan0:ppc64el (14.2.0-8) ...

342

46s Selecting previously unselected package libtsan2:ppc64el.

343

46s Preparing to unpack .../032-libtsan2_14.2.0-8_ppc64el.deb ...

344

46s Unpacking libtsan2:ppc64el (14.2.0-8) ...

345

46s Selecting previously unselected package libubsan1:ppc64el.

346

46s Preparing to unpack .../033-libubsan1_14.2.0-8_ppc64el.deb ...

347

46s Unpacking libubsan1:ppc64el (14.2.0-8) ...

348

46s Selecting previously unselected package libquadmath0:ppc64el.

349

46s Preparing to unpack .../034-libquadmath0_14.2.0-8_ppc64el.deb ...

350

46s Unpacking libquadmath0:ppc64el (14.2.0-8) ...

351

46s Selecting previously unselected package libgcc-14-dev:ppc64el.

352

46s Preparing to unpack .../035-libgcc-14-dev_14.2.0-8_ppc64el.deb ...

353

46s Unpacking libgcc-14-dev:ppc64el (14.2.0-8) ...

354

46s Selecting previously unselected package gcc-14-powerpc64le-linux-gnu.

355

46s Preparing to unpack .../036-gcc-14-powerpc64le-linux-gnu_14.2.0-8_ppc64el.deb ...

356

46s Unpacking gcc-14-powerpc64le-linux-gnu (14.2.0-8) ...

357

47s Selecting previously unselected package gcc-14.

358

47s Preparing to unpack .../037-gcc-14_14.2.0-8_ppc64el.deb ...

359

47s Unpacking gcc-14 (14.2.0-8) ...

360

47s Selecting previously unselected package gcc-powerpc64le-linux-gnu.

361

47s Preparing to unpack .../038-gcc-powerpc64le-linux-gnu_4:14.2.0-1_ppc64el.deb ...

362

47s Unpacking gcc-powerpc64le-linux-gnu (4:14.2.0-1) ...

363

47s Selecting previously unselected package gcc.

364

47s Preparing to unpack .../039-gcc_4:14.2.0-1_ppc64el.deb ...

365

47s Unpacking gcc (4:14.2.0-1) ...

366

47s Selecting previously unselected package libstdc -14-dev:ppc64el.

367

47s Preparing to unpack .../040-libstdc -14-dev_14.2.0-8_ppc64el.deb ...

368

47s Unpacking libstdc -14-dev:ppc64el (14.2.0-8) ...

369

47s Selecting previously unselected package g -14-powerpc64le-linux-gnu.

370

47s Preparing to unpack .../041-g -14-powerpc64le-linux-gnu_14.2.0-8_ppc64el.deb ...

371

47s Unpacking g -14-powerpc64le-linux-gnu (14.2.0-8) ...

372

48s Selecting previously unselected package g -14.

373

48s Preparing to unpack .../042-g -14_14.2.0-8_ppc64el.deb ...

374

48s Unpacking g -14 (14.2.0-8) ...

375

48s Selecting previously unselected package g -powerpc64le-linux-gnu.

376

48s Preparing to unpack .../043-g -powerpc64le-linux-gnu_4:14.2.0-1_ppc64el.deb ...

377

48s Unpacking g -powerpc64le-linux-gnu (4:14.2.0-1) ...

378

48s Selecting previously unselected package g .

379

48s Preparing to unpack .../044-g _4:14.2.0-1_ppc64el.deb ...

380

48s Unpacking g (4:14.2.0-1) ...

381

48s Selecting previously unselected package build-essential.

382

48s Preparing to unpack .../045-build-essential_12.12_ppc64el.deb ...

383

48s Unpacking build-essential (12.12) ...

384

48s Selecting previously unselected package libdebhelper-perl.

385

48s Preparing to unpack .../046-libdebhelper-perl_13.20_all.deb ...

386

48s Unpacking libdebhelper-perl (13.20) ...

387

48s Selecting previously unselected package libtool.

388

48s Preparing to unpack .../047-libtool_2.4.7-8_all.deb ...

389

48s Unpacking libtool (2.4.7-8) ...

390

48s Selecting previously unselected package dh-autoreconf.

391

48s Preparing to unpack .../048-dh-autoreconf_20_all.deb ...

392

48s Unpacking dh-autoreconf (20) ...

393

48s Selecting previously unselected package libarchive-zip-perl.

394

48s Preparing to unpack .../049-libarchive-zip-perl_1.68-1_all.deb ...

395

48s Unpacking libarchive-zip-perl (1.68-1) ...

396

48s Selecting previously unselected package libfile-stripnondeterminism-perl.

397

48s Preparing to unpack .../050-libfile-stripnondeterminism-perl_1.14.0-1_all.deb ...

398

48s Unpacking libfile-stripnondeterminism-perl (1.14.0-1) ...

399

48s Selecting previously unselected package dh-strip-nondeterminism.

400

48s Preparing to unpack .../051-dh-strip-nondeterminism_1.14.0-1_all.deb ...

401

48s Unpacking dh-strip-nondeterminism (1.14.0-1) ...

402

48s Selecting previously unselected package dwz.

403

48s Preparing to unpack .../052-dwz_0.15-1 b1_ppc64el.deb ...

404

48s Unpacking dwz (0.15-1 b1) ...

405

48s Selecting previously unselected package libicu72:ppc64el.

406

48s Preparing to unpack .../053-libicu72_72.1-5 b1_ppc64el.deb ...

407

48s Unpacking libicu72:ppc64el (72.1-5 b1) ...

408

49s Selecting previously unselected package libxml2:ppc64el.

409

49s Preparing to unpack .../054-libxml2_2.12.7 dfsg really2.9.14-0.2 b1_ppc64el.deb ...

410

49s Unpacking libxml2:ppc64el (2.12.7 dfsg really2.9.14-0.2 b1) ...

411

49s Selecting previously unselected package gettext.

412

49s Preparing to unpack .../055-gettext_0.22.5-2_ppc64el.deb ...

413

49s Unpacking gettext (0.22.5-2) ...

414

49s Selecting previously unselected package intltool-debian.

415

49s Preparing to unpack .../056-intltool-debian_0.35.0 20060710.6_all.deb ...

416

49s Unpacking intltool-debian (0.35.0 20060710.6) ...

417

49s Selecting previously unselected package po-debconf.

418

49s Preparing to unpack .../057-po-debconf_1.0.21 nmu1_all.deb ...

419

49s Unpacking po-debconf (1.0.21 nmu1) ...

420

49s Selecting previously unselected package debhelper.

421

49s Preparing to unpack .../058-debhelper_13.20_all.deb ...

422

49s Unpacking debhelper (13.20) ...

423

49s Selecting previously unselected package libgfortran5:ppc64el.

424

49s Preparing to unpack .../059-libgfortran5_14.2.0-8_ppc64el.deb ...

425

49s Unpacking libgfortran5:ppc64el (14.2.0-8) ...

426

49s Selecting previously unselected package libgfortran-14-dev:ppc64el.

427

49s Preparing to unpack .../060-libgfortran-14-dev_14.2.0-8_ppc64el.deb ...

428

49s Unpacking libgfortran-14-dev:ppc64el (14.2.0-8) ...

429

49s Selecting previously unselected package gfortran-14-powerpc64le-linux-gnu.

430

49s Preparing to unpack .../061-gfortran-14-powerpc64le-linux-gnu_14.2.0-8_ppc64el.deb ...

431

49s Unpacking gfortran-14-powerpc64le-linux-gnu (14.2.0-8) ...

432

50s Selecting previously unselected package gfortran-14.

433

50s Preparing to unpack .../062-gfortran-14_14.2.0-8_ppc64el.deb ...

434

50s Unpacking gfortran-14 (14.2.0-8) ...

435

50s Selecting previously unselected package gfortran-powerpc64le-linux-gnu.

436

50s Preparing to unpack .../063-gfortran-powerpc64le-linux-gnu_4:14.2.0-1_ppc64el.deb ...

437

50s Unpacking gfortran-powerpc64le-linux-gnu (4:14.2.0-1) ...

438

50s Selecting previously unselected package gfortran.

439

50s Preparing to unpack .../064-gfortran_4:14.2.0-1_ppc64el.deb ...

440

50s Unpacking gfortran (4:14.2.0-1) ...

441

50s Selecting previously unselected package libnl-3-200:ppc64el.

442

50s Preparing to unpack .../065-libnl-3-200_3.7.0-0.3 b1_ppc64el.deb ...

443

50s Unpacking libnl-3-200:ppc64el (3.7.0-0.3 b1) ...

444

50s Selecting previously unselected package libnl-route-3-200:ppc64el.

445

50s Preparing to unpack .../066-libnl-route-3-200_3.7.0-0.3 b1_ppc64el.deb ...

446

50s Unpacking libnl-route-3-200:ppc64el (3.7.0-0.3 b1) ...

447

50s Selecting previously unselected package libibverbs1:ppc64el.

448

50s Preparing to unpack .../067-libibverbs1_52.0-2 b1_ppc64el.deb ...

449

50s Unpacking libibverbs1:ppc64el (52.0-2 b1) ...

450

50s Selecting previously unselected package ibverbs-providers:ppc64el.

451

50s Preparing to unpack .../068-ibverbs-providers_52.0-2 b1_ppc64el.deb ...

452

50s Unpacking ibverbs-providers:ppc64el (52.0-2 b1) ...

453

50s Selecting previously unselected package libz3-4:ppc64el.

454

50s Preparing to unpack .../069-libz3-4_4.13.3-1_ppc64el.deb ...

455

50s Unpacking libz3-4:ppc64el (4.13.3-1) ...

456

50s Selecting previously unselected package libllvm17t64:ppc64el.

457

50s Preparing to unpack .../070-libllvm17t64_1:17.0.6-18_ppc64el.deb ...

458

50s Unpacking libllvm17t64:ppc64el (1:17.0.6-18) ...

459

51s Selecting previously unselected package libamd-comgr2:ppc64el.

460

51s Preparing to unpack .../071-libamd-comgr2_6.0 git20231212.4510c28 dfsg-3 b2_ppc64el.deb ...

461

51s Unpacking libamd-comgr2:ppc64el (6.0 git20231212.4510c28 dfsg-3 b2) ...

462

52s Selecting previously unselected package libdrm-common.

463

52s Preparing to unpack .../072-libdrm-common_2.4.123-1_all.deb ...

464

52s Unpacking libdrm-common (2.4.123-1) ...

465

52s Selecting previously unselected package libdrm2:ppc64el.

466

52s Preparing to unpack .../073-libdrm2_2.4.123-1_ppc64el.deb ...

467

52s Unpacking libdrm2:ppc64el (2.4.123-1) ...

468

52s Selecting previously unselected package libdrm-amdgpu1:ppc64el.

469

52s Preparing to unpack .../074-libdrm-amdgpu1_2.4.123-1_ppc64el.deb ...

470

52s Unpacking libdrm-amdgpu1:ppc64el (2.4.123-1) ...

471

52s Selecting previously unselected package libnuma1:ppc64el.

472

52s Preparing to unpack .../075-libnuma1_2.0.18-1 b1_ppc64el.deb ...

473

52s Unpacking libnuma1:ppc64el (2.0.18-1 b1) ...

474

52s Selecting previously unselected package libhsakmt1:ppc64el.

475

52s Preparing to unpack .../076-libhsakmt1_5.7.0-1_ppc64el.deb ...

476

52s Unpacking libhsakmt1:ppc64el (5.7.0-1) ...

477

52s Selecting previously unselected package libhsa-runtime64-1:ppc64el.

478

52s Preparing to unpack .../077-libhsa-runtime64-1_5.7.1-3_ppc64el.deb ...

479

52s Unpacking libhsa-runtime64-1:ppc64el (5.7.1-3) ...

480

52s Selecting previously unselected package libamdhip64-5.

481

52s Preparing to unpack .../078-libamdhip64-5_5.7.1-5_ppc64el.deb ...

482

52s Unpacking libamdhip64-5 (5.7.1-5) ...

483

53s Selecting previously unselected package libblas3:ppc64el.

484

53s Preparing to unpack .../079-libblas3_3.12.0-3 b1_ppc64el.deb ...

485

53s Unpacking libblas3:ppc64el (3.12.0-3 b1) ...

486

53s Selecting previously unselected package libblas-dev:ppc64el.

487

53s Preparing to unpack .../080-libblas-dev_3.12.0-3 b1_ppc64el.deb ...

488

53s Unpacking libblas-dev:ppc64el (3.12.0-3 b1) ...

489

53s Selecting previously unselected package libevent-2.1-7t64:ppc64el.

490

53s Preparing to unpack .../081-libevent-2.1-7t64_2.1.12-stable-10 b1_ppc64el.deb ...

491

53s Unpacking libevent-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

492

53s Selecting previously unselected package libevent-core-2.1-7t64:ppc64el.

493

53s Preparing to unpack .../082-libevent-core-2.1-7t64_2.1.12-stable-10 b1_ppc64el.deb ...

494

53s Unpacking libevent-core-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

495

53s Selecting previously unselected package libevent-extra-2.1-7t64:ppc64el.

496

53s Preparing to unpack .../083-libevent-extra-2.1-7t64_2.1.12-stable-10 b1_ppc64el.deb ...

497

53s Unpacking libevent-extra-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

498

53s Selecting previously unselected package libevent-pthreads-2.1-7t64:ppc64el.

499

53s Preparing to unpack .../084-libevent-pthreads-2.1-7t64_2.1.12-stable-10 b1_ppc64el.deb ...

500

53s Unpacking libevent-pthreads-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

501

53s Selecting previously unselected package libevent-openssl-2.1-7t64:ppc64el.

502

53s Preparing to unpack .../085-libevent-openssl-2.1-7t64_2.1.12-stable-10 b1_ppc64el.deb ...

503

53s Unpacking libevent-openssl-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

504

53s Selecting previously unselected package libevent-dev.

505

53s Preparing to unpack .../086-libevent-dev_2.1.12-stable-10 b1_ppc64el.deb ...

506

53s Unpacking libevent-dev (2.1.12-stable-10 b1) ...

507

53s Selecting previously unselected package librdmacm1t64:ppc64el.

508

53s Preparing to unpack .../087-librdmacm1t64_52.0-2 b1_ppc64el.deb ...

509

53s Unpacking librdmacm1t64:ppc64el (52.0-2 b1) ...

510

53s Selecting previously unselected package libfabric1:ppc64el.

511

53s Preparing to unpack .../088-libfabric1_1.17.0-3.1_ppc64el.deb ...

512

53s Unpacking libfabric1:ppc64el (1.17.0-3.1) ...

513

53s Selecting previously unselected package libhwloc15:ppc64el.

514

53s Preparing to unpack .../089-libhwloc15_2.11.2-1_ppc64el.deb ...

515

53s Unpacking libhwloc15:ppc64el (2.11.2-1) ...

516

53s Selecting previously unselected package libnuma-dev:ppc64el.

517

53s Preparing to unpack .../090-libnuma-dev_2.0.18-1 b1_ppc64el.deb ...

518

53s Unpacking libnuma-dev:ppc64el (2.0.18-1 b1) ...

519

53s Selecting previously unselected package libltdl7:ppc64el.

520

53s Preparing to unpack .../091-libltdl7_2.4.7-8_ppc64el.deb ...

521

53s Unpacking libltdl7:ppc64el (2.4.7-8) ...

522

53s Selecting previously unselected package libltdl-dev:ppc64el.

523

53s Preparing to unpack .../092-libltdl-dev_2.4.7-8_ppc64el.deb ...

524

53s Unpacking libltdl-dev:ppc64el (2.4.7-8) ...

525

53s Selecting previously unselected package libhwloc-dev:ppc64el.

526

53s Preparing to unpack .../093-libhwloc-dev_2.11.2-1_ppc64el.deb ...

527

53s Unpacking libhwloc-dev:ppc64el (2.11.2-1) ...

528

53s Selecting previously unselected package libpciaccess0:ppc64el.

529

53s Preparing to unpack .../094-libpciaccess0_0.17-3 b2_ppc64el.deb ...

530

53s Unpacking libpciaccess0:ppc64el (0.17-3 b2) ...

531

53s Selecting previously unselected package libxau6:ppc64el.

532

53s Preparing to unpack .../095-libxau6_1:1.0.11-1_ppc64el.deb ...

533

53s Unpacking libxau6:ppc64el (1:1.0.11-1) ...

534

53s Selecting previously unselected package libxdmcp6:ppc64el.

535

53s Preparing to unpack .../096-libxdmcp6_1:1.1.2-3 b2_ppc64el.deb ...

536

53s Unpacking libxdmcp6:ppc64el (1:1.1.2-3 b2) ...

537

53s Selecting previously unselected package libxcb1:ppc64el.

538

53s Preparing to unpack .../097-libxcb1_1.17.0-2 b1_ppc64el.deb ...

539

53s Unpacking libxcb1:ppc64el (1.17.0-2 b1) ...

540

53s Selecting previously unselected package libx11-data.

541

53s Preparing to unpack .../098-libx11-data_2:1.8.10-2_all.deb ...

542

53s Unpacking libx11-data (2:1.8.10-2) ...

543

53s Selecting previously unselected package libx11-6:ppc64el.

544

53s Preparing to unpack .../099-libx11-6_2:1.8.10-2_ppc64el.deb ...

545

53s Unpacking libx11-6:ppc64el (2:1.8.10-2) ...

546

53s Selecting previously unselected package libxext6:ppc64el.

547

53s Preparing to unpack .../100-libxext6_2:1.3.4-1 b2_ppc64el.deb ...

548

53s Unpacking libxext6:ppc64el (2:1.3.4-1 b2) ...

549

53s Selecting previously unselected package libxnvctrl0:ppc64el.

550

53s Preparing to unpack .../101-libxnvctrl0_535.171.04-1 b1_ppc64el.deb ...

551

53s Unpacking libxnvctrl0:ppc64el (535.171.04-1 b1) ...

552

53s Selecting previously unselected package ocl-icd-libopencl1:ppc64el.

553

53s Preparing to unpack .../102-ocl-icd-libopencl1_2.3.2-1 b2_ppc64el.deb ...

554

53s Unpacking ocl-icd-libopencl1:ppc64el (2.3.2-1 b2) ...

555

53s Selecting previously unselected package libhwloc-plugins:ppc64el.

556

53s Preparing to unpack .../103-libhwloc-plugins_2.11.2-1_ppc64el.deb ...

557

53s Unpacking libhwloc-plugins:ppc64el (2.11.2-1) ...

558

53s Selecting previously unselected package libibumad3:ppc64el.

559

53s Preparing to unpack .../104-libibumad3_52.0-2 b1_ppc64el.deb ...

560

53s Unpacking libibumad3:ppc64el (52.0-2 b1) ...

561

53s Selecting previously unselected package libibmad5:ppc64el.

562

53s Preparing to unpack .../105-libibmad5_52.0-2 b1_ppc64el.deb ...

563

53s Unpacking libibmad5:ppc64el (52.0-2 b1) ...

564

53s Selecting previously unselected package libnl-3-dev:ppc64el.

565

53s Preparing to unpack .../106-libnl-3-dev_3.7.0-0.3 b1_ppc64el.deb ...

566

53s Unpacking libnl-3-dev:ppc64el (3.7.0-0.3 b1) ...

567

53s Selecting previously unselected package libnl-route-3-dev:ppc64el.

568

53s Preparing to unpack .../107-libnl-route-3-dev_3.7.0-0.3 b1_ppc64el.deb ...

569

53s Unpacking libnl-route-3-dev:ppc64el (3.7.0-0.3 b1) ...

570

54s Selecting previously unselected package libibverbs-dev:ppc64el.

571

54s Preparing to unpack .../108-libibverbs-dev_52.0-2 b1_ppc64el.deb ...

572

54s Unpacking libibverbs-dev:ppc64el (52.0-2 b1) ...

573

54s Selecting previously unselected package libjs-jquery.

574

54s Preparing to unpack .../109-libjs-jquery_3.6.1 dfsg ~3.5.14-1_all.deb ...

575

54s Unpacking libjs-jquery (3.6.1 dfsg ~3.5.14-1) ...

576

54s Selecting previously unselected package libjs-jquery-ui.

577

54s Preparing to unpack .../110-libjs-jquery-ui_1.13.2 dfsg-1_all.deb ...

578

54s Unpacking libjs-jquery-ui (1.13.2 dfsg-1) ...

579

54s Selecting previously unselected package liblapack3:ppc64el.

580

54s Preparing to unpack .../111-liblapack3_3.12.0-3 b1_ppc64el.deb ...

581

54s Unpacking liblapack3:ppc64el (3.12.0-3 b1) ...

582

54s Selecting previously unselected package liblapack-dev:ppc64el.

583

54s Preparing to unpack .../112-liblapack-dev_3.12.0-3 b1_ppc64el.deb ...

584

54s Unpacking liblapack-dev:ppc64el (3.12.0-3 b1) ...

585

54s Selecting previously unselected package libmunge2:ppc64el.

586

54s Preparing to unpack .../113-libmunge2_0.5.15-4 b1_ppc64el.deb ...

587

54s Unpacking libmunge2:ppc64el (0.5.15-4 b1) ...

588

54s Selecting previously unselected package libpmix2t64:ppc64el.

589

54s Preparing to unpack .../114-libpmix2t64_5.0.3-2 b1_ppc64el.deb ...

590

54s Unpacking libpmix2t64:ppc64el (5.0.3-2 b1) ...

591

54s Selecting previously unselected package libucx0:ppc64el.

592

54s Preparing to unpack .../115-libucx0_1.17.0 ds-3_ppc64el.deb ...

593

54s Unpacking libucx0:ppc64el (1.17.0 ds-3) ...

863

54s Selecting previously unselected package libopenmpi3t64:ppc64el.

595

54s Preparing to unpack .../116-libopenmpi3t64_5.0.5-6_ppc64el.deb ...

596

54s Unpacking libopenmpi3t64:ppc64el (5.0.5-6) ...

597

55s Selecting previously unselected package openmpi-common.

598

55s Preparing to unpack .../117-openmpi-common_5.0.5-6_all.deb ...

599

55s Unpacking openmpi-common (5.0.5-6) ...

600

55s Selecting previously unselected package openmpi-bin.

601

55s Preparing to unpack .../118-openmpi-bin_5.0.5-6_ppc64el.deb ...

602

55s Unpacking openmpi-bin (5.0.5-6) ...

603

55s Selecting previously unselected package mpi-default-bin.

604

55s Preparing to unpack .../119-mpi-default-bin_1.17_ppc64el.deb ...

605

55s Unpacking mpi-default-bin (1.17) ...

606

55s Selecting previously unselected package libscalapack-openmpi2.2:ppc64el.

607

55s Preparing to unpack .../120-libscalapack-openmpi2.2_2.2.1-5_ppc64el.deb ...

608

55s Unpacking libscalapack-openmpi2.2:ppc64el (2.2.1-5) ...

609

55s Selecting previously unselected package libmumps-5.7:ppc64el.

610

55s Preparing to unpack .../121-libmumps-5.7_5.7.3-3_ppc64el.deb ...

611

55s Unpacking libmumps-5.7:ppc64el (5.7.3-3) ...

612

55s Selecting previously unselected package libmumps-64pord-5.7:ppc64el.

613

55s Preparing to unpack .../122-libmumps-64pord-5.7_5.7.3-3_ppc64el.deb ...

614

55s Unpacking libmumps-64pord-5.7:ppc64el (5.7.3-3) ...

615

55s Selecting previously unselected package libptscotch-7.0:ppc64el.

616

55s Preparing to unpack .../123-libptscotch-7.0_7.0.5-1_ppc64el.deb ...

617

55s Unpacking libptscotch-7.0:ppc64el (7.0.5-1) ...

618

55s Selecting previously unselected package libmumps-64pord-ptscotch-5.7:ppc64el.

619

55s Preparing to unpack .../124-libmumps-64pord-ptscotch-5.7_5.7.3-3_ppc64el.deb ...

620

55s Unpacking libmumps-64pord-ptscotch-5.7:ppc64el (5.7.3-3) ...

621

55s Selecting previously unselected package libscotch-7.0:ppc64el.

622

55s Preparing to unpack .../125-libscotch-7.0_7.0.5-1_ppc64el.deb ...

623

55s Unpacking libscotch-7.0:ppc64el (7.0.5-1) ...

624

55s Selecting previously unselected package libmumps-64pord-scotch-5.7:ppc64el.

625

56s Preparing to unpack .../126-libmumps-64pord-scotch-5.7_5.7.3-3_ppc64el.deb ...

626

56s Unpacking libmumps-64pord-scotch-5.7:ppc64el (5.7.3-3) ...

627

56s Selecting previously unselected package libmumps-64pord-seq-5.7:ppc64el.

628

56s Preparing to unpack .../127-libmumps-64pord-seq-5.7_5.7.3-3_ppc64el.deb ...

629

56s Unpacking libmumps-64pord-seq-5.7:ppc64el (5.7.3-3) ...

630

56s Selecting previously unselected package libmumps-headers-dev.

631

56s Preparing to unpack .../128-libmumps-headers-dev_5.7.3-3_all.deb ...

632

56s Unpacking libmumps-headers-dev (5.7.3-3) ...

633

56s Selecting previously unselected package libscalapack-openmpi-dev:ppc64el.

634

56s Preparing to unpack .../129-libscalapack-openmpi-dev_2.2.1-5_ppc64el.deb ...

635

56s Unpacking libscalapack-openmpi-dev:ppc64el (2.2.1-5) ...

636

56s Selecting previously unselected package zlib1g-dev:ppc64el.

637

56s Preparing to unpack .../130-zlib1g-dev_1:1.3.dfsg really1.3.1-1 b1_ppc64el.deb ...

638

56s Unpacking zlib1g-dev:ppc64el (1:1.3.dfsg really1.3.1-1 b1) ...

639

56s Selecting previously unselected package libpmix-dev:ppc64el.

640

56s Preparing to unpack .../131-libpmix-dev_5.0.3-2 b1_ppc64el.deb ...

641

56s Unpacking libpmix-dev:ppc64el (5.0.3-2 b1) ...

642

56s Selecting previously unselected package libopenmpi-dev:ppc64el.

643

56s Preparing to unpack .../132-libopenmpi-dev_5.0.5-6_ppc64el.deb ...

644

56s Unpacking libopenmpi-dev:ppc64el (5.0.5-6) ...

645

56s Selecting previously unselected package mpi-default-dev.

646

56s Preparing to unpack .../133-mpi-default-dev_1.17_ppc64el.deb ...

647

56s Unpacking mpi-default-dev (1.17) ...

648

56s Selecting previously unselected package libscalapack-mpi-dev:ppc64el.

649

56s Preparing to unpack .../134-libscalapack-mpi-dev_2.2.1-5_ppc64el.deb ...

650

56s Unpacking libscalapack-mpi-dev:ppc64el (2.2.1-5) ...

651

56s Selecting previously unselected package libmumps-dev:ppc64el.

652

56s Preparing to unpack .../135-libmumps-dev_5.7.3-3_ppc64el.deb ...

653

56s Unpacking libmumps-dev:ppc64el (5.7.3-3) ...

654

57s Selecting previously unselected package libmumps-ptscotch-5.7:ppc64el.

655

57s Preparing to unpack .../136-libmumps-ptscotch-5.7_5.7.3-3_ppc64el.deb ...

656

57s Unpacking libmumps-ptscotch-5.7:ppc64el (5.7.3-3) ...

657

57s Selecting previously unselected package libmumps-ptscotch-dev:ppc64el.

658

57s Preparing to unpack .../137-libmumps-ptscotch-dev_5.7.3-3_ppc64el.deb ...

659

57s Unpacking libmumps-ptscotch-dev:ppc64el (5.7.3-3) ...

660

57s Selecting previously unselected package libmumps-scotch-5.7:ppc64el.

661

57s Preparing to unpack .../138-libmumps-scotch-5.7_5.7.3-3_ppc64el.deb ...

662

57s Unpacking libmumps-scotch-5.7:ppc64el (5.7.3-3) ...

663

57s Selecting previously unselected package libmumps-scotch-dev:ppc64el.

664

57s Preparing to unpack .../139-libmumps-scotch-dev_5.7.3-3_ppc64el.deb ...

665

57s Unpacking libmumps-scotch-dev:ppc64el (5.7.3-3) ...

666

57s Selecting previously unselected package libmumps-seq-5.7:ppc64el.

667

57s Preparing to unpack .../140-libmumps-seq-5.7_5.7.3-3_ppc64el.deb ...

668

57s Unpacking libmumps-seq-5.7:ppc64el (5.7.3-3) ...

669

58s Selecting previously unselected package libmumps-seq-dev:ppc64el.

670

58s Preparing to unpack .../141-libmumps-seq-dev_5.7.3-3_ppc64el.deb ...

671

58s Unpacking libmumps-seq-dev:ppc64el (5.7.3-3) ...

672

58s Selecting previously unselected package libmumps64-dev:ppc64el.

673

58s Preparing to unpack .../142-libmumps64-dev_5.7.3-3_ppc64el.deb ...

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58s Unpacking libmumps64-dev:ppc64el (5.7.3-3) ...

675

58s Selecting previously unselected package libmumps64-ptscotch-dev:ppc64el.

676

58s Preparing to unpack .../143-libmumps64-ptscotch-dev_5.7.3-3_ppc64el.deb ...

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58s Unpacking libmumps64-ptscotch-dev:ppc64el (5.7.3-3) ...

678

58s Selecting previously unselected package libmumps64-scotch-dev:ppc64el.

679

58s Preparing to unpack .../144-libmumps64-scotch-dev_5.7.3-3_ppc64el.deb ...

680

58s Unpacking libmumps64-scotch-dev:ppc64el (5.7.3-3) ...

681

58s Selecting previously unselected package libmumps64-seq-dev:ppc64el.

682

58s Preparing to unpack .../145-libmumps64-seq-dev_5.7.3-3_ppc64el.deb ...

683

58s Unpacking libmumps64-seq-dev:ppc64el (5.7.3-3) ...

684

59s Selecting previously unselected package libscotch-dev.

685

59s Preparing to unpack .../146-libscotch-dev_7.0.5-1_ppc64el.deb ...

686

59s Unpacking libscotch-dev (7.0.5-1) ...

687

59s Selecting previously unselected package libptscotch-dev.

688

59s Preparing to unpack .../147-libptscotch-dev_7.0.5-1_ppc64el.deb ...

689

59s Unpacking libptscotch-dev (7.0.5-1) ...

690

59s Selecting previously unselected package mumps-test.

691

59s Preparing to unpack .../148-mumps-test_5.7.3-3_ppc64el.deb ...

692

59s Unpacking mumps-test (5.7.3-3) ...

693

59s Setting up libpipeline1:ppc64el (1.5.8-1) ...

694

59s Setting up libpciaccess0:ppc64el (0.17-3 b2) ...

695

59s Setting up libxau6:ppc64el (1:1.0.11-1) ...

696

59s Setting up libxdmcp6:ppc64el (1:1.1.2-3 b2) ...

697

59s Setting up libxcb1:ppc64el (1.17.0-2 b1) ...

698

59s Setting up libicu72:ppc64el (72.1-5 b1) ...

699

59s Setting up bsdextrautils (2.40.2-11) ...

700

59s Setting up libmagic-mgc (1:5.45-3 b1) ...

701

59s Setting up libarchive-zip-perl (1.68-1) ...

702

59s Setting up libscotch-7.0:ppc64el (7.0.5-1) ...

703

59s Setting up libdebhelper-perl (13.20) ...

704

59s Setting up libmagic1t64:ppc64el (1:5.45-3 b1) ...

705

59s Setting up libibumad3:ppc64el (52.0-2 b1) ...

706

59s Setting up linux-libc-dev (6.11.7-1) ...

707

59s Setting up gettext-base (0.22.5-2) ...

708

59s Setting up m4 (1.4.19-4) ...

709

59s Setting up libevent-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

710

59s Setting up libibmad5:ppc64el (52.0-2 b1) ...

711

59s Setting up file (1:5.45-3 b1) ...

712

59s Setting up libgomp1:ppc64el (14.2.0-8) ...

713

59s Setting up autotools-dev (20220109.1) ...

714

59s Setting up libz3-4:ppc64el (4.13.3-1) ...

715

59s Setting up libblas3:ppc64el (3.12.0-3 b1) ...

716

59s update-alternatives: using /usr/lib/powerpc64le-linux-gnu/blas/libblas.so.3 to provide /usr/lib/powerpc64le-linux-gnu/libblas.so.3 (libblas.so.3-powerpc64le-linux-gnu) in auto mode

717

59s Setting up rpcsvc-proto (1.4.3-1) ...

718

59s Setting up libmunge2:ppc64el (0.5.15-4 b1) ...

719

59s Setting up libx11-data (2:1.8.10-2) ...

720

59s Setting up libmpfr6:ppc64el (4.2.1-1 b2) ...

721

59s Setting up libquadmath0:ppc64el (14.2.0-8) ...

722

59s Setting up libhwloc15:ppc64el (2.11.2-1) ...

723

59s Setting up libmpc3:ppc64el (1.3.1-1 b3) ...

724

59s Setting up libatomic1:ppc64el (14.2.0-8) ...

725

59s Setting up autopoint (0.22.5-2) ...

726

59s Setting up libltdl7:ppc64el (2.4.7-8) ...

727

59s Setting up libgfortran5:ppc64el (14.2.0-8) ...

728

59s Setting up autoconf (2.72-3) ...

729

59s Setting up libmumps-headers-dev (5.7.3-3) ...

730

59s Setting up libubsan1:ppc64el (14.2.0-8) ...

731

59s Setting up libnuma1:ppc64el (2.0.18-1 b1) ...

732

59s Setting up dwz (0.15-1 b1) ...

733

59s Setting up ocl-icd-libopencl1:ppc64el (2.3.2-1 b2) ...

734

59s Setting up libcrypt-dev:ppc64el (1:4.4.36-5) ...

735

59s Setting up libasan8:ppc64el (14.2.0-8) ...

736

59s Setting up libuchardet0:ppc64el (0.0.8-1 b2) ...

737

59s Setting up libnl-3-200:ppc64el (3.7.0-0.3 b1) ...

738

59s Setting up openmpi-common (5.0.5-6) ...

739

59s Setting up libx11-6:ppc64el (2:1.8.10-2) ...

740

59s Setting up libevent-core-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

741

59s Setting up libtsan2:ppc64el (14.2.0-8) ...

742

59s Setting up libjs-jquery (3.6.1 dfsg ~3.5.14-1) ...

743

59s Setting up libisl23:ppc64el (0.27-1) ...

744

59s Setting up libc-dev-bin (2.40-3) ...

745

59s Setting up libdrm-common (2.4.123-1) ...

746

59s Setting up libxml2:ppc64el (2.12.7 dfsg really2.9.14-0.2 b1) ...

747

59s Setting up libcc1-0:ppc64el (14.2.0-8) ...

748

59s Setting up liblsan0:ppc64el (14.2.0-8) ...

749

59s Setting up libblas-dev:ppc64el (3.12.0-3 b1) ...

750

59s update-alternatives: using /usr/lib/powerpc64le-linux-gnu/blas/libblas.so to provide /usr/lib/powerpc64le-linux-gnu/libblas.so (libblas.so-powerpc64le-linux-gnu) in auto mode

751

59s Setting up libitm1:ppc64el (14.2.0-8) ...

752

59s Setting up automake (1:1.16.5-1.3) ...

753

59s update-alternatives: using /usr/bin/automake-1.16 to provide /usr/bin/automake (automake) in auto mode

754

59s Setting up libfile-stripnondeterminism-perl (1.14.0-1) ...

755

59s Setting up liblapack3:ppc64el (3.12.0-3 b1) ...

756

59s update-alternatives: using /usr/lib/powerpc64le-linux-gnu/lapack/liblapack.so.3 to provide /usr/lib/powerpc64le-linux-gnu/liblapack.so.3 (liblapack.so.3-powerpc64le-linux-gnu) in auto mode

757

59s Setting up gettext (0.22.5-2) ...

758

59s Setting up libmumps-64pord-seq-5.7:ppc64el (5.7.3-3) ...

759

59s Setting up libevent-pthreads-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

760

59s Setting up libevent-openssl-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

761

59s Setting up libxext6:ppc64el (2:1.3.4-1 b2) ...

762

59s Setting up intltool-debian (0.35.0 20060710.6) ...

763

59s Setting up libnl-route-3-200:ppc64el (3.7.0-0.3 b1) ...

764

59s Setting up libxnvctrl0:ppc64el (535.171.04-1 b1) ...

765

59s Setting up libltdl-dev:ppc64el (2.4.7-8) ...

766

59s Setting up libjs-jquery-ui (1.13.2 dfsg-1) ...

767

59s Setting up libllvm17t64:ppc64el (1:17.0.6-18) ...

768

59s Setting up liblapack-dev:ppc64el (3.12.0-3 b1) ...

769

59s update-alternatives: using /usr/lib/powerpc64le-linux-gnu/lapack/liblapack.so to provide /usr/lib/powerpc64le-linux-gnu/liblapack.so (liblapack.so-powerpc64le-linux-gnu) in auto mode

770

59s Setting up cpp-14-powerpc64le-linux-gnu (14.2.0-8) ...

771

59s Setting up libmumps-64pord-scotch-5.7:ppc64el (5.7.3-3) ...

772

59s Setting up cpp-14 (14.2.0-8) ...

773

59s Setting up libevent-extra-2.1-7t64:ppc64el (2.1.12-stable-10 b1) ...

774

59s Setting up dh-strip-nondeterminism (1.14.0-1) ...

775

59s Setting up libdrm2:ppc64el (2.4.123-1) ...

776

59s Setting up libnl-3-dev:ppc64el (3.7.0-0.3 b1) ...

777

59s Setting up libmumps-seq-5.7:ppc64el (5.7.3-3) ...

778

59s Setting up groff-base (1.23.0-5) ...

779

59s Setting up libc6-dev:ppc64el (2.40-3) ...

780

59s Setting up libamd-comgr2:ppc64el (6.0 git20231212.4510c28 dfsg-3 b2) ...

781

59s Setting up libmumps-scotch-5.7:ppc64el (5.7.3-3) ...

782

59s Setting up libgcc-14-dev:ppc64el (14.2.0-8) ...

783

59s Setting up libstdc -14-dev:ppc64el (14.2.0-8) ...

784

59s Setting up cpp-powerpc64le-linux-gnu (4:14.2.0-1) ...

785

59s Setting up gcc-14-powerpc64le-linux-gnu (14.2.0-8) ...

786

59s Setting up libdrm-amdgpu1:ppc64el (2.4.123-1) ...

787

59s Setting up libgfortran-14-dev:ppc64el (14.2.0-8) ...

788

59s Setting up libibverbs1:ppc64el (52.0-2 b1) ...

789

59s Setting up g -14-powerpc64le-linux-gnu (14.2.0-8) ...

790

59s Setting up ibverbs-providers:ppc64el (52.0-2 b1) ...

791

59s Setting up po-debconf (1.0.21 nmu1) ...

792

59s Setting up libhwloc-plugins:ppc64el (2.11.2-1) ...

793

59s Setting up man-db (2.13.0-1) ...

794

59s Building database of manual pages ...

795

60s Created symlink '/etc/systemd/system/timers.target.wants/man-db.timer' → '/usr/lib/systemd/system/man-db.timer'.

796

60s man-db.service is a disabled or a static unit, not starting it.

797

60s Setting up gcc-14 (14.2.0-8) ...

798

60s Setting up libnuma-dev:ppc64el (2.0.18-1 b1) ...

799

60s Setting up libnl-route-3-dev:ppc64el (3.7.0-0.3 b1) ...

800

60s Setting up gcc-powerpc64le-linux-gnu (4:14.2.0-1) ...

801

60s Setting up libevent-dev (2.1.12-stable-10 b1) ...

802

60s Setting up libpmix2t64:ppc64el (5.0.3-2 b1) ...

803

60s Setting up zlib1g-dev:ppc64el (1:1.3.dfsg really1.3.1-1 b1) ...

804

60s Setting up cpp (4:14.2.0-1) ...

805

60s Setting up librdmacm1t64:ppc64el (52.0-2 b1) ...

806

60s Setting up libhwloc-dev:ppc64el (2.11.2-1) ...

807

60s Setting up g -14 (14.2.0-8) ...

808

60s Setting up gfortran-14-powerpc64le-linux-gnu (14.2.0-8) ...

809

60s Setting up gfortran-14 (14.2.0-8) ...

810

60s Setting up libpmix-dev:ppc64el (5.0.3-2 b1) ...

811

60s Setting up libhsakmt1:ppc64el (5.7.0-1) ...

812

60s Setting up g -powerpc64le-linux-gnu (4:14.2.0-1) ...

813

60s Setting up libfabric1:ppc64el (1.17.0-3.1) ...

814

60s Setting up libtool (2.4.7-8) ...

815

60s Setting up libibverbs-dev:ppc64el (52.0-2 b1) ...

816

60s Setting up gcc (4:14.2.0-1) ...

817

60s Setting up dh-autoreconf (20) ...

818

60s Setting up gfortran-powerpc64le-linux-gnu (4:14.2.0-1) ...

819

60s Setting up g (4:14.2.0-1) ...

820

60s update-alternatives: using /usr/bin/g to provide /usr/bin/c (c ) in auto mode

821

60s Setting up libhsa-runtime64-1:ppc64el (5.7.1-3) ...

822

60s Setting up build-essential (12.12) ...

823

60s Setting up debhelper (13.20) ...

824

60s Setting up gfortran (4:14.2.0-1) ...

825

60s update-alternatives: using /usr/bin/gfortran to provide /usr/bin/f95 (f95) in auto mode

826

60s update-alternatives: using /usr/bin/gfortran to provide /usr/bin/f77 (f77) in auto mode

827

60s Setting up libamdhip64-5 (5.7.1-5) ...

828

60s Setting up libucx0:ppc64el (1.17.0 ds-3) ...

829

60s Setting up libopenmpi3t64:ppc64el (5.0.5-6) ...

830

60s Setting up openmpi-bin (5.0.5-6) ...

831

60s update-alternatives: using /usr/bin/mpirun.openmpi to provide /usr/bin/mpirun (mpirun) in auto mode

832

60s 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

833

60s update-alternatives: using /usr/bin/mpicc.openmpi to provide /usr/bin/mpicc (mpi) in auto mode

834

60s Setting up libptscotch-7.0:ppc64el (7.0.5-1) ...

835

60s Setting up mpi-default-bin (1.17) ...

836

60s Setting up libopenmpi-dev:ppc64el (5.0.5-6) ...

837

60s update-alternatives: using /usr/lib/powerpc64le-linux-gnu/openmpi/include to provide /usr/include/powerpc64le-linux-gnu/mpi (mpi-powerpc64le-linux-gnu) in auto mode

838

60s update-alternatives: warning: skip creation of /usr/lib/powerpc64le-linux-gnu/libmpi.so because associated file /usr/lib/powerpc64le-linux-gnu/openmpi/lib/libmpi.so (of link group mpi-powerpc64le-linux-gnu) doesn't exist

839

60s Setting up libscalapack-openmpi2.2:ppc64el (2.2.1-5) ...

840

60s Setting up libmumps-64pord-5.7:ppc64el (5.7.3-3) ...

841

60s Setting up libmumps-5.7:ppc64el (5.7.3-3) ...

842

60s Setting up libmumps-64pord-ptscotch-5.7:ppc64el (5.7.3-3) ...

843

60s Setting up libmumps-ptscotch-5.7:ppc64el (5.7.3-3) ...

844

60s Setting up libscalapack-openmpi-dev:ppc64el (2.2.1-5) ...

845

60s Setting up mpi-default-dev (1.17) ...

846

60s Setting up libscalapack-mpi-dev:ppc64el (2.2.1-5) ...

847

60s Setting up mumps-test (5.7.3-3) ...

848

60s Setting up libmumps64-dev:ppc64el (5.7.3-3) ...

849

60s Setting up libmumps-dev:ppc64el (5.7.3-3) ...

850

60s Setting up libscotch-dev (7.0.5-1) ...

851

60s Setting up libmumps-ptscotch-dev:ppc64el (5.7.3-3) ...

852

60s Setting up libmumps-scotch-dev:ppc64el (5.7.3-3) ...

853

60s Setting up libmumps64-scotch-dev:ppc64el (5.7.3-3) ...

854

60s Setting up libptscotch-dev (7.0.5-1) ...

855

60s Setting up libmumps64-seq-dev:ppc64el (5.7.3-3) ...

856

60s Setting up libmumps-seq-dev:ppc64el (5.7.3-3) ...

857

60s Setting up libmumps64-ptscotch-dev:ppc64el (5.7.3-3) ...

858

60s Processing triggers for libc-bin (2.40-3) ...

▸ ▾ test mumps-examples-serial: test run

859

61s autopkgtest [07:58:47]: test mumps-examples-serial: [-----------------------

860

62s /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

861

62s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o

862

62s mpifort -o csimpletest -Wl,-z,relro csimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

863

62s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o

864

62s mpifort -o csimpletest_save_restore -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

865

62s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o

866

63s mpifort -o zsimpletest -Wl,-z,relro zsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

867

63s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o

868

63s mpifort -o zsimpletest_save_restore -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

869

63s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o

870

64s mpifort -o ssimpletest -Wl,-z,relro ssimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

871

64s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o

872

64s mpifort -o ssimpletest_save_restore -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

873

64s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o

874

64s mpifort -o dsimpletest -Wl,-z,relro dsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

875

64s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o

876

65s mpifort -o dsimpletest_save_restore -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

877

65s mpicc -g -O2 -Werror=implicit-function-declaration -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Wformat -Werror=format-security -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o

878

65s mpifort -o c_example_save_restore -Wl,-z,relro c_example_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

879

880

65s mpifort -o c_example -Wl,-z,relro c_example.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread

881

65s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o

882

65s mpifort -o multiple_arithmetics_example -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lcmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lzmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

883

66s

884

66s === running c_example (serial) ===

885

66s Solution is : ( 1.00 2.00)

886

66s Saving MUMPS instance in /tmp with prefix csave_restore.

887

66s DONE

888

66s

889

66s Restoring MUMPS instance in /tmp with prefix csave_restore.

890

66s

891

66s Entering DMUMPS 5.7.3 from C interface with JOB = 8

892

66s executing #MPI = 1, without OMP

893

66s

894

66s Elapsed time in restore structure driver= 0.0001

895

66s DONE

896

66s

897

66s Calling MUMPS package (solve).

898

66s DONE

899

66s

900

66s Removing save files.

901

66s DONE

902

66s

903

66s Solution is : ( 1.00 2.00)

904

66s

905

66s

906

66s === running simple test: real, single precision, serial ===

907

66s

908

66s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

909

66s executing #MPI = 1, without OMP

910

66s

911

66s =================================================

912

66s MUMPS compiled with option -Dpord

913

66s =================================================

914

66s L U Solver for unsymmetric matrices

915

66s Type of parallelism: Working host

916

66s

917

66s ****** ANALYSIS STEP ********

918

66s

919

66s Processing a graph of size: 5

920

66s ... Structural symmetry (in percent)= 92

921

66s Average density of rows/columns = 2

922

66s ... No column permutation

923

66s Ordering based on AMF

924

66s

925

66s Leaving analysis phase with ...

926

66s INFOG(1) = 0

927

66s INFOG(2) = 0

928

66s -- (20) Number of entries in factors (estim.) = 25

929

66s -- (3) Real space for factors (estimated) = 25

930

66s -- (4) Integer space for factors (estimated) = 30

931

66s -- (5) Maximum frontal size (estimated) = 5

932

66s -- (6) Number of nodes in the tree = 1

933

66s -- (32) Type of analysis effectively used = 1

934

66s -- (7) Ordering option effectively used = 2

935

66s ICNTL (6) Maximum transversal option = 0

936

66s ICNTL (7) Pivot order option = 7

937

66s ICNTL(12) Ordering symmetric indef. matrices = 1

938

66s ICNTL(13) Parallelism/splitting of root node = 0

939

66s ICNTL(14) Percentage of memory relaxation = 20

940

66s ICNTL(15) Analysis by block effectively used = 0

941

66s ICNTL(18) Distributed input matrix (on if >0) = 0

942

66s ICNTL(32) Forward elimination during facto. = 0

943

66s ICNTL(35) BLR activation = 0

944

66s ICNTL(48) Tree based multithreading (effective)= 0

945

66s ICNTL(58) Symbolic factorization option = 2

946

66s Number of level 2 nodes = 0

947

66s Number of split nodes = 0

948

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

949

66s

950

66s MEMORY ESTIMATIONS ...

951

66s Estimations with standard Full-Rank (FR) factorization:

952

66s Total space in MBytes, IC factorization (INFOG(17)): 0

953

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

954

66s

955

66s Elapsed time in analysis driver= 0.0005

956

66s

957

66s

958

66s ****** FACTORIZATION STEP ********

959

66s

960

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

961

66s Number of working processes = 1

962

66s ICNTL(22) Out-of-core option = 0

963

66s ICNTL(35) BLR activation (eff. choice) = 0

964

66s ICNTL(37) BLR CB compression (eff. choice) = 0

965

66s ICNTL(49) Compact workarray S (end facto.) = 0

966

66s ICNTL(14) Memory relaxation = 20

967

66s INFOG(3) Real space for factors (estimated)= 25

968

66s INFOG(4) Integer space for factors (estim.)= 30

969

66s Maximum frontal size (estimated) = 5

970

66s Number of nodes in the tree = 1

971

66s ICNTL(23) Memory allowed (value on host) = 0

972

66s Sum over all procs = 0

973

66s Memory provided by user, sum of LWK_USER = 0

974

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

975

66s

976

66s Statistics on the scaling phase

977

66s Elapsed time for scaling = 0.0000

978

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

979

66s

980

66s Effective size of S (based on INFO(39))= 2445

981

66s Elapsed time to reformat/distribute matrix = 0.0000

982

66s

983

66s

984

66s Allocated buffers

985

66s ------------------

986

66s Size of reception buffer in bytes ...... = 140000

987

66s Size of async. emission buffer (bytes).. = 140012

988

66s Small emission buffer (bytes) .......... = 20

989

66s

990

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

991

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

992

66s

993

66s Elapsed time for factorization = 0.0002

994

66s

995

66s Leaving factorization with ...

996

66s RINFOG (2) Operations in node assembly = 0.000D 00

997

66s ------ (3) Operations in node elimination = 7.000D 01

998

66s ICNTL (8) Scaling effectively used = 7

999

66s INFOG (9) Real space for factors = 25

1000

66s INFOG (10) Integer space for factors = 30

1001

66s INFOG (11) Maximum front size = 5

1002

66s INFOG (29) Number of entries in factors = 25

1003

66s INFOG (12) Number of off diagonal pivots = 1

1004

66s INFOG (13) Number of delayed pivots = 0

1005

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1006

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1007

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1008

66s INFOG (24) Effective value of ICNTL(12) = 1

1009

66s INFOG (14) Number of memory compress = 0

1010

66s

1011

66s Elapsed time in factorization driver = 0.0008

1012

66s

1013

66s

1014

66s ****** SOLVE & CHECK STEP ********

1015

66s

1016

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1017

66s Number of right-hand-sides = 1

1018

66s Blocking factor for multiple rhs = 1

1019

66s ICNTL (9) = 1

1020

66s --- (10) = 0

1021

66s --- (11) = 0

1022

66s --- (20) = 0

1023

66s --- (21) = 0

1024

66s --- (30) = 0

1025

66s --- (35) = 0

1026

66s --- (48) (effective) = 0

1027

66s ** Space in MBYTES used for solve : 0

1028

66s

1029

66s Leaving solve with ...

1030

66s Time to build/scatter RHS = 0.000037

1031

66s Time in solution step (fwd/bwd) = 0.000021

1032

66s .. Time in forward (fwd) step = 0.000012

1033

66s .. Time in backward (bwd) step = 0.000006

1034

66s Time to gather solution(cent.sol)= 0.000002

1035

66s Time for distributed solution = 0.000000

1036

66s

1037

66s Elapsed time in solve driver= 0.0004

1038

66s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

1039

66s

1040

66s Entering SMUMPS 5.7.3 with JOB = -2

1041

66s executing #MPI = 1, without OMP

1042

66s

1043

66s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

1044

66s executing #MPI = 1, without OMP

1045

66s

1046

66s =================================================

1047

66s MUMPS compiled with option -Dpord

1048

66s =================================================

1049

66s L U Solver for unsymmetric matrices

1050

66s Type of parallelism: Working host

1051

66s

1052

66s ****** ANALYSIS STEP ********

1053

66s

1054

66s Processing a graph of size: 5

1055

66s ... Structural symmetry (in percent)= 92

1056

66s Average density of rows/columns = 2

1057

66s ... No column permutation

1058

66s Ordering based on AMF

1059

66s

1060

66s Leaving analysis phase with ...

1061

66s INFOG(1) = 0

1062

66s INFOG(2) = 0

1063

66s -- (20) Number of entries in factors (estim.) = 25

1064

66s -- (3) Real space for factors (estimated) = 25

1065

66s -- (4) Integer space for factors (estimated) = 30

1066

66s -- (5) Maximum frontal size (estimated) = 5

1067

66s -- (6) Number of nodes in the tree = 1

1068

66s -- (32) Type of analysis effectively used = 1

1069

66s -- (7) Ordering option effectively used = 2

1070

66s ICNTL (6) Maximum transversal option = 0

1071

66s ICNTL (7) Pivot order option = 7

1072

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1073

66s ICNTL(13) Parallelism/splitting of root node = 0

1074

66s ICNTL(14) Percentage of memory relaxation = 20

1075

66s ICNTL(15) Analysis by block effectively used = 0

1076

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1077

66s ICNTL(32) Forward elimination during facto. = 0

1078

66s ICNTL(35) BLR activation = 0

1079

66s ICNTL(48) Tree based multithreading (effective)= 0

1080

66s ICNTL(58) Symbolic factorization option = 2

1081

66s Number of level 2 nodes = 0

1082

66s Number of split nodes = 0

1083

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1084

66s

1085

66s MEMORY ESTIMATIONS ...

1086

66s Estimations with standard Full-Rank (FR) factorization:

1087

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1088

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1089

66s

1090

66s Elapsed time in analysis driver= 0.0006

1091

66s

1092

66s

1093

66s ****** FACTORIZATION STEP ********

1094

66s

1095

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1096

66s Number of working processes = 1

1097

66s ICNTL(22) Out-of-core option = 1

1098

66s ICNTL(35) BLR activation (eff. choice) = 0

1099

66s ICNTL(37) BLR CB compression (eff. choice) = 0

1100

66s ICNTL(49) Compact workarray S (end facto.) = 0

1101

66s ICNTL(14) Memory relaxation = 20

1102

66s INFOG(3) Real space for factors (estimated)= 25

1103

66s INFOG(4) Integer space for factors (estim.)= 30

1104

66s Maximum frontal size (estimated) = 5

1105

66s Number of nodes in the tree = 1

1106

66s ICNTL(23) Memory allowed (value on host) = 0

1107

66s Sum over all procs = 0

1108

66s Memory provided by user, sum of LWK_USER = 0

1109

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

1110

66s

1111

66s Statistics on the scaling phase

1112

66s Elapsed time for scaling = 0.0000

1113

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

1114

66s

1115

66s Effective size of S (based on INFO(39))= 2445

1116

66s Elapsed time to reformat/distribute matrix = 0.0000

1117

66s

1118

66s

1119

66s Allocated buffers

1120

66s ------------------

1121

66s Size of reception buffer in bytes ...... = 140000

1122

66s Size of async. emission buffer (bytes).. = 140012

1123

66s Small emission buffer (bytes) .......... = 20

1124

66s

1125

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

1126

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

1127

66s

1128

66s Elapsed time for factorization = 0.0005

1129

66s

1130

66s Leaving factorization with ...

1131

66s RINFOG (2) Operations in node assembly = 0.000D 00

1132

66s ------ (3) Operations in node elimination = 7.000D 01

1133

66s ICNTL (8) Scaling effectively used = 7

1134

66s INFOG (9) Real space for factors = 50

1135

66s INFOG (10) Integer space for factors = 31

1136

66s INFOG (11) Maximum front size = 5

1137

66s INFOG (29) Number of entries in factors = 25

1138

66s INFOG (12) Number of off diagonal pivots = 1

1139

66s INFOG (13) Number of delayed pivots = 0

1140

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1141

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1142

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1143

66s INFOG (24) Effective value of ICNTL(12) = 1

1144

66s INFOG (14) Number of memory compress = 0

1145

66s

1146

66s Elapsed time in factorization driver = 0.0018

1147

66s

1148

66s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

1149

66s executing #MPI = 1, without OMP

1150

66s Save done successfully

1151

66s The corresponding OOC files are:

1152

66s /tmp//mumps_0_3FJaQE

1153

66s /tmp//mumps_0_24DdnO

1154

66s

1155

66s Elapsed time in save structure driver= 0.0005

1156

66s

1157

66s Entering SMUMPS 5.7.3 with JOB = -2

1158

66s executing #MPI = 1, without OMP

1159

66s

1160

66s Entering SMUMPS 5.7.3 with JOB = 8

1161

66s executing #MPI = 1, without OMP

1162

66s The corresponding OOC files are:

1163

66s /tmp//mumps_0_3FJaQE

1164

66s /tmp//mumps_0_24DdnO

1165

66s

1166

66s Elapsed time in restore structure driver= 0.0004

1167

66s

1168

66s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

1169

66s executing #MPI = 1, without OMP

1170

66s

1171

66s

1172

66s

1173

66s ****** SOLVE & CHECK STEP ********

1174

66s

1175

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1176

66s Number of right-hand-sides = 1

1177

66s Blocking factor for multiple rhs = 1

1178

66s ICNTL (9) = 1

1179

66s --- (10) = 0

1180

66s --- (11) = 0

1181

66s --- (20) = 0

1182

66s --- (21) = 0

1183

66s --- (30) = 0

1184

66s --- (35) = 0

1185

66s --- (48) (effective) = 0

1186

66s ** Space in MBYTES used for solve : 0

1187

66s

1188

66s Leaving solve with ...

1189

66s Time to build/scatter RHS = 0.000058

1190

66s Time in solution step (fwd/bwd) = 0.000064

1191

66s .. Time in forward (fwd) step = 0.000045

1192

66s .. Time in backward (bwd) step = 0.000014

1193

66s Time to gather solution(cent.sol)= 0.000002

1194

66s Time for distributed solution = 0.000000

1195

66s

1196

66s Elapsed time in solve driver= 0.0010

1197

66s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

1198

66s

1199

66s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

1200

66s executing #MPI = 1, without OMP

1201

66s

1202

66s Entering SMUMPS 5.7.3 with JOB = -2

1203

66s executing #MPI = 1, without OMP

1204

66s

1205

66s

1206

66s === running simple test: real, double precision, serial ===

1207

66s

1208

66s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

1209

66s executing #MPI = 1, without OMP

1210

66s

1211

66s =================================================

1212

66s MUMPS compiled with option -Dpord

1213

66s =================================================

1214

66s L U Solver for unsymmetric matrices

1215

66s Type of parallelism: Working host

1216

66s

1217

66s ****** ANALYSIS STEP ********

1218

66s

1219

66s Processing a graph of size: 5

1220

66s ... Structural symmetry (in percent)= 92

1221

66s Average density of rows/columns = 2

1222

66s ... No column permutation

1223

66s Ordering based on AMF

1224

66s

1225

66s Leaving analysis phase with ...

1226

66s INFOG(1) = 0

1227

66s INFOG(2) = 0

1228

66s -- (20) Number of entries in factors (estim.) = 25

1229

66s -- (3) Real space for factors (estimated) = 25

1230

66s -- (4) Integer space for factors (estimated) = 30

1231

66s -- (5) Maximum frontal size (estimated) = 5

1232

66s -- (6) Number of nodes in the tree = 1

1233

66s -- (32) Type of analysis effectively used = 1

1234

66s -- (7) Ordering option effectively used = 2

1235

66s ICNTL (6) Maximum transversal option = 0

1236

66s ICNTL (7) Pivot order option = 7

1237

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1238

66s ICNTL(13) Parallelism/splitting of root node = 0

1239

66s ICNTL(14) Percentage of memory relaxation = 20

1240

66s ICNTL(15) Analysis by block effectively used = 0

1241

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1242

66s ICNTL(32) Forward elimination during facto. = 0

1243

66s ICNTL(35) BLR activation = 0

1244

66s ICNTL(48) Tree based multithreading (effective)= 0

1245

66s ICNTL(58) Symbolic factorization option = 2

1246

66s Number of level 2 nodes = 0

1247

66s Number of split nodes = 0

1248

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1249

66s

1250

66s MEMORY ESTIMATIONS ...

1251

66s Estimations with standard Full-Rank (FR) factorization:

1252

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1253

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1254

66s

1255

66s Elapsed time in analysis driver= 0.0006

1256

66s

1257

66s

1258

66s ****** FACTORIZATION STEP ********

1259

66s

1260

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1261

66s Number of working processes = 1

1262

66s ICNTL(22) Out-of-core option = 0

1263

66s ICNTL(35) BLR activation (eff. choice) = 0

1264

66s ICNTL(37) BLR CB compression (eff. choice) = 0

1265

66s ICNTL(49) Compact workarray S (end facto.) = 0

1266

66s ICNTL(14) Memory relaxation = 20

1267

66s INFOG(3) Real space for factors (estimated)= 25

1268

66s INFOG(4) Integer space for factors (estim.)= 30

1269

66s Maximum frontal size (estimated) = 5

1270

66s Number of nodes in the tree = 1

1271

66s ICNTL(23) Memory allowed (value on host) = 0

1272

66s Sum over all procs = 0

1273

66s Memory provided by user, sum of LWK_USER = 0

1274

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

1275

66s

1276

66s Statistics on the scaling phase

1277

66s Elapsed time for scaling = 0.0000

1278

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

1279

66s

1280

66s Effective size of S (based on INFO(39))= 2445

1281

66s Elapsed time to reformat/distribute matrix = 0.0000

1282

66s

1283

66s

1284

66s Allocated buffers

1285

66s ------------------

1286

66s Size of reception buffer in bytes ...... = 140000

1287

66s Size of async. emission buffer (bytes).. = 140012

1288

66s Small emission buffer (bytes) .......... = 20

1289

66s

1290

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

1291

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

1292

66s

1293

66s Elapsed time for factorization = 0.0002

1294

66s

1295

66s Leaving factorization with ...

1296

66s RINFOG (2) Operations in node assembly = 0.000D 00

1297

66s ------ (3) Operations in node elimination = 7.000D 01

1298

66s ICNTL (8) Scaling effectively used = 7

1299

66s INFOG (9) Real space for factors = 25

1300

66s INFOG (10) Integer space for factors = 30

1301

66s INFOG (11) Maximum front size = 5

1302

66s INFOG (29) Number of entries in factors = 25

1303

66s INFOG (12) Number of off diagonal pivots = 1

1304

66s INFOG (13) Number of delayed pivots = 0

1305

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1306

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1307

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1308

66s INFOG (24) Effective value of ICNTL(12) = 1

1309

66s INFOG (14) Number of memory compress = 0

1310

66s

1311

66s Elapsed time in factorization driver = 0.0009

1312

66s

1313

66s

1314

66s ****** SOLVE & CHECK STEP ********

1315

66s

1316

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1317

66s Number of right-hand-sides = 1

1318

66s Blocking factor for multiple rhs = 1

1319

66s ICNTL (9) = 1

1320

66s --- (10) = 0

1321

66s --- (11) = 0

1322

66s --- (20) = 0

1323

66s --- (21) = 0

1324

66s --- (30) = 0

1325

66s --- (35) = 0

1326

66s --- (48) (effective) = 0

1327

66s ** Space in MBYTES used for solve : 0

1328

66s

1329

66s Leaving solve with ...

1330

66s Time to build/scatter RHS = 0.000053

1331

66s Time in solution step (fwd/bwd) = 0.000030

1332

66s .. Time in forward (fwd) step = 0.000016

1333

66s .. Time in backward (bwd) step = 0.000009

1334

66s Time to gather solution(cent.sol)= 0.000002

1335

66s Time for distributed solution = 0.000000

1336

66s

1337

66s Elapsed time in solve driver= 0.0004

1338

66s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

1339

66s

1340

66s Entering DMUMPS 5.7.3 with JOB = -2

1341

66s executing #MPI = 1, without OMP

1342

66s

1343

66s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

1344

66s executing #MPI = 1, without OMP

1345

66s

1346

66s =================================================

1347

66s MUMPS compiled with option -Dpord

1348

66s =================================================

1349

66s L U Solver for unsymmetric matrices

1350

66s Type of parallelism: Working host

1351

66s

1352

66s ****** ANALYSIS STEP ********

1353

66s

1354

66s Processing a graph of size: 5

1355

66s ... Structural symmetry (in percent)= 92

1356

66s Average density of rows/columns = 2

1357

66s ... No column permutation

1358

66s Ordering based on AMF

1359

66s

1360

66s Leaving analysis phase with ...

1361

66s INFOG(1) = 0

1362

66s INFOG(2) = 0

1363

66s -- (20) Number of entries in factors (estim.) = 25

1364

66s -- (3) Real space for factors (estimated) = 25

1365

66s -- (4) Integer space for factors (estimated) = 30

1366

66s -- (5) Maximum frontal size (estimated) = 5

1367

66s -- (6) Number of nodes in the tree = 1

1368

66s -- (32) Type of analysis effectively used = 1

1369

66s -- (7) Ordering option effectively used = 2

1370

66s ICNTL (6) Maximum transversal option = 0

1371

66s ICNTL (7) Pivot order option = 7

1372

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1373

66s ICNTL(13) Parallelism/splitting of root node = 0

1374

66s ICNTL(14) Percentage of memory relaxation = 20

1375

66s ICNTL(15) Analysis by block effectively used = 0

1376

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1377

66s ICNTL(32) Forward elimination during facto. = 0

1378

66s ICNTL(35) BLR activation = 0

1379

66s ICNTL(48) Tree based multithreading (effective)= 0

1380

66s ICNTL(58) Symbolic factorization option = 2

1381

66s Number of level 2 nodes = 0

1382

66s Number of split nodes = 0

1383

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1384

66s

1385

66s MEMORY ESTIMATIONS ...

1386

66s Estimations with standard Full-Rank (FR) factorization:

1387

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1388

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1389

66s

1390

66s Elapsed time in analysis driver= 0.0006

1391

66s

1392

66s

1393

66s ****** FACTORIZATION STEP ********

1394

66s

1395

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1396

66s Number of working processes = 1

1397

66s ICNTL(22) Out-of-core option = 1

1398

66s ICNTL(35) BLR activation (eff. choice) = 0

1399

66s ICNTL(37) BLR CB compression (eff. choice) = 0

1400

66s ICNTL(49) Compact workarray S (end facto.) = 0

1401

66s ICNTL(14) Memory relaxation = 20

1402

66s INFOG(3) Real space for factors (estimated)= 25

1403

66s INFOG(4) Integer space for factors (estim.)= 30

1404

66s Maximum frontal size (estimated) = 5

1405

66s Number of nodes in the tree = 1

1406

66s ICNTL(23) Memory allowed (value on host) = 0

1407

66s Sum over all procs = 0

1408

66s Memory provided by user, sum of LWK_USER = 0

1409

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

1410

66s

1411

66s Statistics on the scaling phase

1412

66s Elapsed time for scaling = 0.0000

1413

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

1414

66s

1415

66s Effective size of S (based on INFO(39))= 2445

1416

66s Elapsed time to reformat/distribute matrix = 0.0000

1417

66s

1418

66s

1419

66s Allocated buffers

1420

66s ------------------

1421

66s Size of reception buffer in bytes ...... = 140000

1422

66s Size of async. emission buffer (bytes).. = 140012

1423

66s Small emission buffer (bytes) .......... = 20

1424

66s

1425

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

1426

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

1427

66s

1428

66s Elapsed time for factorization = 0.0034

1429

66s

1430

66s Leaving factorization with ...

1431

66s RINFOG (2) Operations in node assembly = 0.000D 00

1432

66s ------ (3) Operations in node elimination = 7.000D 01

1433

66s ICNTL (8) Scaling effectively used = 7

1434

66s INFOG (9) Real space for factors = 50

1435

66s INFOG (10) Integer space for factors = 31

1436

66s INFOG (11) Maximum front size = 5

1437

66s INFOG (29) Number of entries in factors = 25

1438

66s INFOG (12) Number of off diagonal pivots = 1

1439

66s INFOG (13) Number of delayed pivots = 0

1440

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1441

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1442

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1443

66s INFOG (24) Effective value of ICNTL(12) = 1

1444

66s INFOG (14) Number of memory compress = 0

1445

66s

1446

66s Elapsed time in factorization driver = 0.0045

1447

66s

1448

66s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

1449

66s executing #MPI = 1, without OMP

1450

66s Save done successfully

1451

66s The corresponding OOC files are:

1452

66s /tmp//mumps_0_67ISIM

1453

66s /tmp//mumps_0_mbenUt

1454

66s

1455

66s Elapsed time in save structure driver= 0.0004

1456

66s

1457

66s Entering DMUMPS 5.7.3 with JOB = -2

1458

66s executing #MPI = 1, without OMP

1459

66s

1460

66s Entering DMUMPS 5.7.3 with JOB = 8

1461

66s executing #MPI = 1, without OMP

1462

66s The corresponding OOC files are:

1463

66s /tmp//mumps_0_67ISIM

1464

66s /tmp//mumps_0_mbenUt

1465

66s

1466

66s Elapsed time in restore structure driver= 0.0002

1467

66s

1468

66s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

1469

66s executing #MPI = 1, without OMP

1470

66s

1471

66s

1472

66s

1473

66s ****** SOLVE & CHECK STEP ********

1474

66s

1475

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1476

66s Number of right-hand-sides = 1

1477

66s Blocking factor for multiple rhs = 1

1478

66s ICNTL (9) = 1

1479

66s --- (10) = 0

1480

66s --- (11) = 0

1481

66s --- (20) = 0

1482

66s --- (21) = 0

1483

66s --- (30) = 0

1484

66s --- (35) = 0

1485

66s --- (48) (effective) = 0

1486

66s ** Space in MBYTES used for solve : 0

1487

66s

1488

66s Leaving solve with ...

1489

66s Time to build/scatter RHS = 0.000076

1490

66s Time in solution step (fwd/bwd) = 0.000057

1491

66s .. Time in forward (fwd) step = 0.000041

1492

66s .. Time in backward (bwd) step = 0.000011

1493

66s Time to gather solution(cent.sol)= 0.000001

1494

66s Time for distributed solution = 0.000000

1495

66s

1496

66s Elapsed time in solve driver= 0.0005

1497

66s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

1498

66s

1499

66s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

1500

66s executing #MPI = 1, without OMP

1501

66s

1502

66s Entering DMUMPS 5.7.3 with JOB = -2

1503

66s executing #MPI = 1, without OMP

1504

66s

1505

66s

1506

66s === running simple test: complex, single precision, serial ===

1507

66s

1508

66s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

1509

66s executing #MPI = 1, without OMP

1510

66s

1511

66s =================================================

1512

66s MUMPS compiled with option -Dpord

1513

66s =================================================

1514

66s L U Solver for unsymmetric matrices

1515

66s Type of parallelism: Working host

1516

66s

1517

66s ****** ANALYSIS STEP ********

1518

66s

1519

66s Processing a graph of size: 5

1520

66s ... Structural symmetry (in percent)= 92

1521

66s Average density of rows/columns = 2

1522

66s ... No column permutation

1523

66s Ordering based on AMF

1524

66s

1525

66s Leaving analysis phase with ...

1526

66s INFOG(1) = 0

1527

66s INFOG(2) = 0

1528

66s -- (20) Number of entries in factors (estim.) = 25

1529

66s -- (3) Real space for factors (estimated) = 25

1530

66s -- (4) Integer space for factors (estimated) = 30

1531

66s -- (5) Maximum frontal size (estimated) = 5

1532

66s -- (6) Number of nodes in the tree = 1

1533

66s -- (32) Type of analysis effectively used = 1

1534

66s -- (7) Ordering option effectively used = 2

1535

66s ICNTL (6) Maximum transversal option = 0

1536

66s ICNTL (7) Pivot order option = 7

1537

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1538

66s ICNTL(13) Parallelism/splitting of root node = 0

1539

66s ICNTL(14) Percentage of memory relaxation = 20

1540

66s ICNTL(15) Analysis by block effectively used = 0

1541

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1542

66s ICNTL(32) Forward elimination during facto. = 0

1543

66s ICNTL(35) BLR activation = 0

1544

66s ICNTL(48) Tree based multithreading (effective)= 0

1545

66s ICNTL(58) Symbolic factorization option = 2

1546

66s Number of level 2 nodes = 0

1547

66s Number of split nodes = 0

1548

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1549

66s

1550

66s MEMORY ESTIMATIONS ...

1551

66s Estimations with standard Full-Rank (FR) factorization:

1552

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1553

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1554

66s

1555

66s Elapsed time in analysis driver= 0.0006

1556

66s

1557

66s

1558

66s ****** FACTORIZATION STEP ********

1559

66s

1560

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1561

66s Number of working processes = 1

1562

66s ICNTL(22) Out-of-core option = 0

1563

66s ICNTL(35) BLR activation (eff. choice) = 0

1564

66s ICNTL(37) BLR CB compression (eff. choice) = 0

1565

66s ICNTL(49) Compact workarray S (end facto.) = 0

1566

66s ICNTL(14) Memory relaxation = 20

1567

66s INFOG(3) Real space for factors (estimated)= 25

1568

66s INFOG(4) Integer space for factors (estim.)= 30

1569

66s Maximum frontal size (estimated) = 5

1570

66s Number of nodes in the tree = 1

1571

66s ICNTL(23) Memory allowed (value on host) = 0

1572

66s Sum over all procs = 0

1573

66s Memory provided by user, sum of LWK_USER = 0

1574

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

1575

66s

1576

66s Statistics on the scaling phase

1577

66s Elapsed time for scaling = 0.0000

1578

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

1579

66s

1580

66s Effective size of S (based on INFO(39))= 2445

1581

66s Elapsed time to reformat/distribute matrix = 0.0000

1582

66s

1583

66s

1584

66s Allocated buffers

1585

66s ------------------

1586

66s Size of reception buffer in bytes ...... = 140000

1587

66s Size of async. emission buffer (bytes).. = 140012

1588

66s Small emission buffer (bytes) .......... = 20

1589

66s

1590

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

1591

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

1592

66s

1593

66s Elapsed time for factorization = 0.0002

1863

66s

1595

66s Leaving factorization with ...

1596

66s RINFOG (2) Operations in node assembly = 0.000D 00

1597

66s ------ (3) Operations in node elimination = 7.000D 01

1598

66s ICNTL (8) Scaling effectively used = 7

1599

66s INFOG (9) Real space for factors = 25

1600

66s INFOG (10) Integer space for factors = 30

1601

66s INFOG (11) Maximum front size = 5

1602

66s INFOG (29) Number of entries in factors = 25

1603

66s INFOG (12) Number of off diagonal pivots = 1

1604

66s INFOG (13) Number of delayed pivots = 0

1605

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1606

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1607

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1608

66s INFOG (24) Effective value of ICNTL(12) = 1

1609

66s INFOG (14) Number of memory compress = 0

1610

66s

1611

66s Elapsed time in factorization driver = 0.0009

1612

66s

1613

66s

1614

66s ****** SOLVE & CHECK STEP ********

1615

66s

1616

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1617

66s Number of right-hand-sides = 1

1618

66s Blocking factor for multiple rhs = 1

1619

66s ICNTL (9) = 1

1620

66s --- (10) = 0

1621

66s --- (11) = 0

1622

66s --- (20) = 0

1623

66s --- (21) = 0

1624

66s --- (30) = 0

1625

66s --- (35) = 0

1626

66s --- (48) (effective) = 0

1627

66s ** Space in MBYTES used for solve : 0

1628

66s

1629

66s Leaving solve with ...

1630

66s Time to build/scatter RHS = 0.000041

1631

66s Time in solution step (fwd/bwd) = 0.000029

1632

66s .. Time in forward (fwd) step = 0.000015

1633

66s .. Time in backward (bwd) step = 0.000010

1634

66s Time to gather solution(cent.sol)= 0.000002

1635

66s Time for distributed solution = 0.000000

1636

66s

1637

66s Elapsed time in solve driver= 0.0004

1638

66s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

1639

66s

1640

66s Entering CMUMPS 5.7.3 with JOB = -2

1641

66s executing #MPI = 1, without OMP

1642

66s

1643

66s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

1644

66s executing #MPI = 1, without OMP

1645

66s

1646

66s =================================================

1647

66s MUMPS compiled with option -Dpord

1648

66s =================================================

1649

66s L U Solver for unsymmetric matrices

1650

66s Type of parallelism: Working host

1651

66s

1652

66s ****** ANALYSIS STEP ********

1653

66s

1654

66s Processing a graph of size: 5

1655

66s ... Structural symmetry (in percent)= 92

1656

66s Average density of rows/columns = 2

1657

66s ... No column permutation

1658

66s Ordering based on AMF

1659

66s

1660

66s Leaving analysis phase with ...

1661

66s INFOG(1) = 0

1662

66s INFOG(2) = 0

1663

66s -- (20) Number of entries in factors (estim.) = 25

1664

66s -- (3) Real space for factors (estimated) = 25

1665

66s -- (4) Integer space for factors (estimated) = 30

1666

66s -- (5) Maximum frontal size (estimated) = 5

1667

66s -- (6) Number of nodes in the tree = 1

1668

66s -- (32) Type of analysis effectively used = 1

1669

66s -- (7) Ordering option effectively used = 2

1670

66s ICNTL (6) Maximum transversal option = 0

1671

66s ICNTL (7) Pivot order option = 7

1672

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1673

66s ICNTL(13) Parallelism/splitting of root node = 0

1674

66s ICNTL(14) Percentage of memory relaxation = 20

1675

66s ICNTL(15) Analysis by block effectively used = 0

1676

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1677

66s ICNTL(32) Forward elimination during facto. = 0

1678

66s ICNTL(35) BLR activation = 0

1679

66s ICNTL(48) Tree based multithreading (effective)= 0

1680

66s ICNTL(58) Symbolic factorization option = 2

1681

66s Number of level 2 nodes = 0

1682

66s Number of split nodes = 0

1683

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1684

66s

1685

66s MEMORY ESTIMATIONS ...

1686

66s Estimations with standard Full-Rank (FR) factorization:

1687

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1688

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1689

66s

1690

66s Elapsed time in analysis driver= 0.0007

1691

66s

1692

66s

1693

66s ****** FACTORIZATION STEP ********

1694

66s

1695

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1696

66s Number of working processes = 1

1697

66s ICNTL(22) Out-of-core option = 1

1698

66s ICNTL(35) BLR activation (eff. choice) = 0

1699

66s ICNTL(37) BLR CB compression (eff. choice) = 0

1700

66s ICNTL(49) Compact workarray S (end facto.) = 0

1701

66s ICNTL(14) Memory relaxation = 20

1702

66s INFOG(3) Real space for factors (estimated)= 25

1703

66s INFOG(4) Integer space for factors (estim.)= 30

1704

66s Maximum frontal size (estimated) = 5

1705

66s Number of nodes in the tree = 1

1706

66s ICNTL(23) Memory allowed (value on host) = 0

1707

66s Sum over all procs = 0

1708

66s Memory provided by user, sum of LWK_USER = 0

1709

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

1710

66s

1711

66s Statistics on the scaling phase

1712

66s Elapsed time for scaling = 0.0000

1713

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

1714

66s

1715

66s Effective size of S (based on INFO(39))= 2445

1716

66s Elapsed time to reformat/distribute matrix = 0.0000

1717

66s

1718

66s

1719

66s Allocated buffers

1720

66s ------------------

1721

66s Size of reception buffer in bytes ...... = 140000

1722

66s Size of async. emission buffer (bytes).. = 140012

1723

66s Small emission buffer (bytes) .......... = 20

1724

66s

1725

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

1726

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

1727

66s

1728

66s Elapsed time for factorization = 0.0003

1729

66s

1730

66s Leaving factorization with ...

1731

66s RINFOG (2) Operations in node assembly = 0.000D 00

1732

66s ------ (3) Operations in node elimination = 7.000D 01

1733

66s ICNTL (8) Scaling effectively used = 7

1734

66s INFOG (9) Real space for factors = 50

1735

66s INFOG (10) Integer space for factors = 31

1736

66s INFOG (11) Maximum front size = 5

1737

66s INFOG (29) Number of entries in factors = 25

1738

66s INFOG (12) Number of off diagonal pivots = 1

1739

66s INFOG (13) Number of delayed pivots = 0

1740

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1741

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1742

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1743

66s INFOG (24) Effective value of ICNTL(12) = 1

1744

66s INFOG (14) Number of memory compress = 0

1745

66s

1746

66s Elapsed time in factorization driver = 0.0014

1747

66s

1748

66s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

1749

66s executing #MPI = 1, without OMP

1750

66s Save done successfully

1751

66s The corresponding OOC files are:

1752

66s /tmp//mumps_0_oHBdCB

1753

66s /tmp//mumps_0_vkrx6W

1754

66s

1755

66s Elapsed time in save structure driver= 0.0005

1756

66s

1757

66s Entering CMUMPS 5.7.3 with JOB = -2

1758

66s executing #MPI = 1, without OMP

1759

66s

1760

66s Entering CMUMPS 5.7.3 with JOB = 8

1761

66s executing #MPI = 1, without OMP

1762

66s The corresponding OOC files are:

1763

66s /tmp//mumps_0_oHBdCB

1764

66s /tmp//mumps_0_vkrx6W

1765

66s

1766

66s Elapsed time in restore structure driver= 0.0004

1767

66s

1768

66s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

1769

66s executing #MPI = 1, without OMP

1770

66s

1771

66s

1772

66s

1773

66s ****** SOLVE & CHECK STEP ********

1774

66s

1775

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1776

66s Number of right-hand-sides = 1

1777

66s Blocking factor for multiple rhs = 1

1778

66s ICNTL (9) = 1

1779

66s --- (10) = 0

1780

66s --- (11) = 0

1781

66s --- (20) = 0

1782

66s --- (21) = 0

1783

66s --- (30) = 0

1784

66s --- (35) = 0

1785

66s --- (48) (effective) = 0

1786

66s ** Space in MBYTES used for solve : 0

1787

66s

1788

66s Leaving solve with ...

1789

66s Time to build/scatter RHS = 0.000078

1790

66s Time in solution step (fwd/bwd) = 0.000062

1791

66s .. Time in forward (fwd) step = 0.000041

1792

66s .. Time in backward (bwd) step = 0.000015

1793

66s Time to gather solution(cent.sol)= 0.000002

1794

66s Time for distributed solution = 0.000000

1795

66s

1796

66s Elapsed time in solve driver= 0.0008

1797

66s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

1798

66s

1799

66s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

1800

66s executing #MPI = 1, without OMP

1801

66s

1802

66s Entering CMUMPS 5.7.3 with JOB = -2

1803

66s executing #MPI = 1, without OMP

1804

66s

1805

66s

1806

66s === running simple test: complex, double precision, serial ===

1807

66s

1808

66s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

1809

66s executing #MPI = 1, without OMP

1810

66s

1811

66s =================================================

1812

66s MUMPS compiled with option -Dpord

1813

66s =================================================

1814

66s L U Solver for unsymmetric matrices

1815

66s Type of parallelism: Working host

1816

66s

1817

66s ****** ANALYSIS STEP ********

1818

66s

1819

66s Processing a graph of size: 5

1820

66s ... Structural symmetry (in percent)= 92

1821

66s Average density of rows/columns = 2

1822

66s ... No column permutation

1823

66s Ordering based on AMF

1824

66s

1825

66s Leaving analysis phase with ...

1826

66s INFOG(1) = 0

1827

66s INFOG(2) = 0

1828

66s -- (20) Number of entries in factors (estim.) = 25

1829

66s -- (3) Real space for factors (estimated) = 25

1830

66s -- (4) Integer space for factors (estimated) = 30

1831

66s -- (5) Maximum frontal size (estimated) = 5

1832

66s -- (6) Number of nodes in the tree = 1

1833

66s -- (32) Type of analysis effectively used = 1

1834

66s -- (7) Ordering option effectively used = 2

1835

66s ICNTL (6) Maximum transversal option = 0

1836

66s ICNTL (7) Pivot order option = 7

1837

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1838

66s ICNTL(13) Parallelism/splitting of root node = 0

1839

66s ICNTL(14) Percentage of memory relaxation = 20

1840

66s ICNTL(15) Analysis by block effectively used = 0

1841

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1842

66s ICNTL(32) Forward elimination during facto. = 0

1843

66s ICNTL(35) BLR activation = 0

1844

66s ICNTL(48) Tree based multithreading (effective)= 0

1845

66s ICNTL(58) Symbolic factorization option = 2

1846

66s Number of level 2 nodes = 0

1847

66s Number of split nodes = 0

1848

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1849

66s

1850

66s MEMORY ESTIMATIONS ...

1851

66s Estimations with standard Full-Rank (FR) factorization:

1852

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1853

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1854

66s

1855

66s Elapsed time in analysis driver= 0.0010

1856

66s

1857

66s

1858

66s ****** FACTORIZATION STEP ********

1859

66s

1860

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1861

66s Number of working processes = 1

1862

66s ICNTL(22) Out-of-core option = 0

1863

66s ICNTL(35) BLR activation (eff. choice) = 0

1864

66s ICNTL(37) BLR CB compression (eff. choice) = 0

1865

66s ICNTL(49) Compact workarray S (end facto.) = 0

1866

66s ICNTL(14) Memory relaxation = 20

1867

66s INFOG(3) Real space for factors (estimated)= 25

1868

66s INFOG(4) Integer space for factors (estim.)= 30

1869

66s Maximum frontal size (estimated) = 5

1870

66s Number of nodes in the tree = 1

1871

66s ICNTL(23) Memory allowed (value on host) = 0

1872

66s Sum over all procs = 0

1873

66s Memory provided by user, sum of LWK_USER = 0

1874

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

1875

66s

1876

66s Statistics on the scaling phase

1877

66s Elapsed time for scaling = 0.0000

1878

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

1879

66s

1880

66s Effective size of S (based on INFO(39))= 2445

1881

66s Elapsed time to reformat/distribute matrix = 0.0000

1882

66s

1883

66s

1884

66s Allocated buffers

1885

66s ------------------

1886

66s Size of reception buffer in bytes ...... = 140000

1887

66s Size of async. emission buffer (bytes).. = 140012

1888

66s Small emission buffer (bytes) .......... = 20

1889

66s

1890

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

1891

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

1892

66s

1893

66s Elapsed time for factorization = 0.0003

1894

66s

1895

66s Leaving factorization with ...

1896

66s RINFOG (2) Operations in node assembly = 0.000D 00

1897

66s ------ (3) Operations in node elimination = 7.000D 01

1898

66s ICNTL (8) Scaling effectively used = 7

1899

66s INFOG (9) Real space for factors = 25

1900

66s INFOG (10) Integer space for factors = 30

1901

66s INFOG (11) Maximum front size = 5

1902

66s INFOG (29) Number of entries in factors = 25

1903

66s INFOG (12) Number of off diagonal pivots = 1

1904

66s INFOG (13) Number of delayed pivots = 0

1905

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

1906

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

1907

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

1908

66s INFOG (24) Effective value of ICNTL(12) = 1

1909

66s INFOG (14) Number of memory compress = 0

1910

66s

1911

66s Elapsed time in factorization driver = 0.0015

1912

66s

1913

66s

1914

66s ****** SOLVE & CHECK STEP ********

1915

66s

1916

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

1917

66s Number of right-hand-sides = 1

1918

66s Blocking factor for multiple rhs = 1

1919

66s ICNTL (9) = 1

1920

66s --- (10) = 0

1921

66s --- (11) = 0

1922

66s --- (20) = 0

1923

66s --- (21) = 0

1924

66s --- (30) = 0

1925

66s --- (35) = 0

1926

66s --- (48) (effective) = 0

1927

66s ** Space in MBYTES used for solve : 0

1928

66s

1929

66s Leaving solve with ...

1930

66s Time to build/scatter RHS = 0.000050

1931

66s Time in solution step (fwd/bwd) = 0.000031

1932

66s .. Time in forward (fwd) step = 0.000016

1933

66s .. Time in backward (bwd) step = 0.000010

1934

66s Time to gather solution(cent.sol)= 0.000002

1935

66s Time for distributed solution = 0.000000

1936

66s

1937

66s Elapsed time in solve driver= 0.0007

1938

66s Solution is (1.0000000000000013,0.0000000000000000) (2.0000000000000000,0.0000000000000000) (3.0000000000000004,0.0000000000000000) (4.0000000000000000,0.0000000000000000) (4.9999999999999991,0.0000000000000000)

1939

66s

1940

66s Entering ZMUMPS 5.7.3 with JOB = -2

1941

66s executing #MPI = 1, without OMP

1942

66s

1943

66s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

1944

66s executing #MPI = 1, without OMP

1945

66s

1946

66s =================================================

1947

66s MUMPS compiled with option -Dpord

1948

66s =================================================

1949

66s L U Solver for unsymmetric matrices

1950

66s Type of parallelism: Working host

1951

66s

1952

66s ****** ANALYSIS STEP ********

1953

66s

1954

66s Processing a graph of size: 5

1955

66s ... Structural symmetry (in percent)= 92

1956

66s Average density of rows/columns = 2

1957

66s ... No column permutation

1958

66s Ordering based on AMF

1959

66s

1960

66s Leaving analysis phase with ...

1961

66s INFOG(1) = 0

1962

66s INFOG(2) = 0

1963

66s -- (20) Number of entries in factors (estim.) = 25

1964

66s -- (3) Real space for factors (estimated) = 25

1965

66s -- (4) Integer space for factors (estimated) = 30

1966

66s -- (5) Maximum frontal size (estimated) = 5

1967

66s -- (6) Number of nodes in the tree = 1

1968

66s -- (32) Type of analysis effectively used = 1

1969

66s -- (7) Ordering option effectively used = 2

1970

66s ICNTL (6) Maximum transversal option = 0

1971

66s ICNTL (7) Pivot order option = 7

1972

66s ICNTL(12) Ordering symmetric indef. matrices = 1

1973

66s ICNTL(13) Parallelism/splitting of root node = 0

1974

66s ICNTL(14) Percentage of memory relaxation = 20

1975

66s ICNTL(15) Analysis by block effectively used = 0

1976

66s ICNTL(18) Distributed input matrix (on if >0) = 0

1977

66s ICNTL(32) Forward elimination during facto. = 0

1978

66s ICNTL(35) BLR activation = 0

1979

66s ICNTL(48) Tree based multithreading (effective)= 0

1980

66s ICNTL(58) Symbolic factorization option = 2

1981

66s Number of level 2 nodes = 0

1982

66s Number of split nodes = 0

1983

66s RINFOG(1) Operations during elimination (estim)= 7.000D 01

1984

66s

1985

66s MEMORY ESTIMATIONS ...

1986

66s Estimations with standard Full-Rank (FR) factorization:

1987

66s Total space in MBytes, IC factorization (INFOG(17)): 0

1988

66s Total space in MBytes, OOC factorization (INFOG(27)): 0

1989

66s

1990

66s Elapsed time in analysis driver= 0.0010

1991

66s

1992

66s

1993

66s ****** FACTORIZATION STEP ********

1994

66s

1995

66s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

1996

66s Number of working processes = 1

1997

66s ICNTL(22) Out-of-core option = 1

1998

66s ICNTL(35) BLR activation (eff. choice) = 0

1999

66s ICNTL(37) BLR CB compression (eff. choice) = 0

2000

66s ICNTL(49) Compact workarray S (end facto.) = 0

2001

66s ICNTL(14) Memory relaxation = 20

2002

66s INFOG(3) Real space for factors (estimated)= 25

2003

66s INFOG(4) Integer space for factors (estim.)= 30

2004

66s Maximum frontal size (estimated) = 5

2005

66s Number of nodes in the tree = 1

2006

66s ICNTL(23) Memory allowed (value on host) = 0

2007

66s Sum over all procs = 0

2008

66s Memory provided by user, sum of LWK_USER = 0

2009

66s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

2010

66s

2011

66s Statistics on the scaling phase

2012

66s Elapsed time for scaling = 0.0000

2013

66s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

2014

66s

2015

66s Effective size of S (based on INFO(39))= 2445

2016

66s Elapsed time to reformat/distribute matrix = 0.0000

2017

66s

2018

66s

2019

66s Allocated buffers

2020

66s ------------------

2021

66s Size of reception buffer in bytes ...... = 140000

2022

66s Size of async. emission buffer (bytes).. = 140012

2023

66s Small emission buffer (bytes) .......... = 20

2024

66s

2025

66s ** Memory allocated, total in Mbytes (INFOG(19)): 0

2026

66s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

2027

66s

2028

66s Elapsed time for factorization = 0.0003

2029

66s

2030

66s Leaving factorization with ...

2031

66s RINFOG (2) Operations in node assembly = 0.000D 00

2032

66s ------ (3) Operations in node elimination = 7.000D 01

2033

66s ICNTL (8) Scaling effectively used = 7

2034

66s INFOG (9) Real space for factors = 50

2035

66s INFOG (10) Integer space for factors = 31

2036

66s INFOG (11) Maximum front size = 5

2037

66s INFOG (29) Number of entries in factors = 25

2038

66s INFOG (12) Number of off diagonal pivots = 1

2039

66s INFOG (13) Number of delayed pivots = 0

2040

66s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

2041

66s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

2042

66s RINFOG(21) Largest pivot in absolute value = 5.281D 00

2043

66s INFOG (24) Effective value of ICNTL(12) = 1

2044

66s INFOG (14) Number of memory compress = 0

2045

66s

2046

66s Elapsed time in factorization driver = 0.0018

2047

66s

2048

66s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

2049

66s executing #MPI = 1, without OMP

2050

66s Save done successfully

2051

66s The corresponding OOC files are:

2052

66s /tmp//mumps_0_1DJVNS

2053

66s /tmp//mumps_0_j7wnWq

2054

66s

2055

66s Elapsed time in save structure driver= 0.0004

2056

66s

2057

66s Entering ZMUMPS 5.7.3 with JOB = -2

2058

66s executing #MPI = 1, without OMP

2059

66s

2060

66s Entering ZMUMPS 5.7.3 with JOB = 8

2061

66s executing #MPI = 1, without OMP

2062

66s The corresponding OOC files are:

2063

66s /tmp//mumps_0_1DJVNS

2064

66s /tmp//mumps_0_j7wnWq

2065

66s

2066

66s Elapsed time in restore structure driver= 0.0003

2067

66s

2068

66s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

2069

66s executing #MPI = 1, without OMP

2070

66s

2071

66s

2072

66s

2073

66s ****** SOLVE & CHECK STEP ********

2074

66s

2075

66s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

2076

66s Number of right-hand-sides = 1

2077

66s Blocking factor for multiple rhs = 1

2078

66s ICNTL (9) = 1

2079

66s --- (10) = 0

2080

66s --- (11) = 0

2081

66s --- (20) = 0

2082

66s --- (21) = 0

2083

66s --- (30) = 0

2084

66s --- (35) = 0

2085

66s --- (48) (effective) = 0

2086

66s ** Space in MBYTES used for solve : 0

2087

66s

2088

66s Leaving solve with ...

2089

66s Time to build/scatter RHS = 0.000096

2090

66s Time in solution step (fwd/bwd) = 0.000094

2091

66s .. Time in forward (fwd) step = 0.000057

2092

66s .. Time in backward (bwd) step = 0.000026

2093

66s Time to gather solution(cent.sol)= 0.000003

2094

66s Time for distributed solution = 0.000000

2095

66s

2096

66s Elapsed time in solve driver= 0.0008

2097

2098

66s

2099

66s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

2100

66s executing #MPI = 1, without OMP

2101

66s

2102

66s Entering ZMUMPS 5.7.3 with JOB = -2

2103

66s executing #MPI = 1, without OMP

2104

67s autopkgtest [07:58:53]: test mumps-examples-serial: -----------------------]

▸ ▾ test mumps-examples-serial: test results

2105

67s autopkgtest [07:58:53]: test mumps-examples-serial: - - - - - - - - - - results - - - - - - - - - -

2106

67s mumps-examples-serial PASS

▸ ▾ preparing testbed

2107

67s autopkgtest [07:58:53]: test mumps-examples-mpi: preparing testbed

2108

67s Reading package lists...

2109

68s Building dependency tree...

2110

68s Reading state information...

2111

68s Starting pkgProblemResolver with broken count: 0

2112

68s Starting 2 pkgProblemResolver with broken count: 0

2113

68s Done

2114

68s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded.

▸ ▾ test run

2115

69s autopkgtest [07:58:55]: test mumps-examples-mpi: [-----------------------

2116

69s /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

2117

70s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o

2118

70s mpifort -o csimpletest -Wl,-z,relro csimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2119

70s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o

2120

70s mpifort -o csimpletest_save_restore -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2121

70s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o

2122

71s mpifort -o zsimpletest -Wl,-z,relro zsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2123

71s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o

2124

71s mpifort -o zsimpletest_save_restore -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2125

71s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o

2126

71s mpifort -o ssimpletest -Wl,-z,relro ssimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2127

72s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o

2128

72s mpifort -o ssimpletest_save_restore -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2129

72s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o

2130

72s mpifort -o dsimpletest -Wl,-z,relro dsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2131

72s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o

2132

73s mpifort -o dsimpletest_save_restore -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2133

73s mpicc -g -O2 -Werror=implicit-function-declaration -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Wformat -Werror=format-security -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o

2134

73s mpifort -o c_example_save_restore -Wl,-z,relro c_example_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2135

2136

73s mpifort -o c_example -Wl,-z,relro c_example.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread

2137

73s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o

2138

73s mpifort -o multiple_arithmetics_example -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -ldmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lcmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lzmumps -lmumps_common -L/usr/lib/powerpc64le-linux-gnu -lpord -lscalapack-openmpi -llapack -lblas -lpthread

2139

74s

2140

74s

2141

74s === running c_example (MPI) ===

2142

74s Solution is : ( 1.00 2.00)

2143

74s Saving MUMPS instance in /tmp with prefix csave_restore.

2144

74s DONE

2145

74s

2146

74s Restoring MUMPS instance in /tmp with prefix csave_restore.

2147

74s

2148

74s Entering DMUMPS 5.7.3 from C interface with JOB = 8

2149

74s executing #MPI = 3, without OMP

2150

74s

2151

74s Elapsed time in restore structure driver= 0.0006

2152

74s DONE

2153

74s

2154

74s Calling MUMPS package (solve).

2155

74s DONE

2156

74s

2157

74s Removing save files.

2158

74s DONE

2159

74s

2160

74s Solution is : ( 1.00 2.00)

2161

74s

2162

74s

2163

74s === running simple test: real, single precision, MPI ===

2164

74s

2165

74s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

2166

74s executing #MPI = 3, without OMP

2167

74s

2168

74s =================================================

2169

74s MUMPS compiled with option -Dpord

2170

74s =================================================

2171

74s L U Solver for unsymmetric matrices

2172

74s Type of parallelism: Working host

2173

74s

2174

74s ****** ANALYSIS STEP ********

2175

74s

2176

74s Processing a graph of size: 5

2177

74s ... Structural symmetry (in percent)= 92

2178

74s Average density of rows/columns = 2

2179

74s ... No column permutation

2180

74s Ordering based on AMF

2181

74s WARNING: Largest root node of size 5 not selected for parallel execution

2182

74s

2183

74s Leaving analysis phase with ...

2184

74s INFOG(1) = 0

2185

74s INFOG(2) = 0

2186

74s -- (20) Number of entries in factors (estim.) = 25

2187

74s -- (3) Real space for factors (estimated) = 25

2188

74s -- (4) Integer space for factors (estimated) = 30

2189

74s -- (5) Maximum frontal size (estimated) = 5

2190

74s -- (6) Number of nodes in the tree = 1

2191

74s -- (32) Type of analysis effectively used = 1

2192

74s -- (7) Ordering option effectively used = 2

2193

74s ICNTL (6) Maximum transversal option = 0

2194

74s ICNTL (7) Pivot order option = 7

2195

74s ICNTL(12) Ordering symmetric indef. matrices = 1

2196

74s ICNTL(13) Parallelism/splitting of root node = 0

2197

74s ICNTL(14) Percentage of memory relaxation = 20

2198

74s ICNTL(15) Analysis by block effectively used = 0

2199

74s ICNTL(18) Distributed input matrix (on if >0) = 0

2200

74s ICNTL(32) Forward elimination during facto. = 0

2201

74s ICNTL(35) BLR activation = 0

2202

74s ICNTL(48) Tree based multithreading (effective)= 0

2203

74s ICNTL(58) Symbolic factorization option = 2

2204

74s Number of level 2 nodes = 0

2205

74s Number of split nodes = 0

2206

74s RINFOG(1) Operations during elimination (estim)= 7.000D 01

2207

74s

2208

74s MEMORY ESTIMATIONS ...

2209

74s Estimations with standard Full-Rank (FR) factorization:

2210

74s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

2211

74s Total space in MBytes, IC factorization (INFOG(17)): 0

2212

74s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

2213

74s Total space in MBytes, OOC factorization (INFOG(27)): 0

2214

74s

2215

74s Elapsed time in analysis driver= 0.0005

2216

74s

2217

74s

2218

74s ****** FACTORIZATION STEP ********

2219

74s

2220

74s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

2221

74s Number of working processes = 3

2222

74s ICNTL(22) Out-of-core option = 0

2223

74s ICNTL(35) BLR activation (eff. choice) = 0

2224

74s ICNTL(37) BLR CB compression (eff. choice) = 0

2225

74s ICNTL(49) Compact workarray S (end facto.) = 0

2226

74s ICNTL(14) Memory relaxation = 20

2227

74s INFOG(3) Real space for factors (estimated)= 25

2228

74s INFOG(4) Integer space for factors (estim.)= 30

2229

74s Maximum frontal size (estimated) = 5

2230

74s Number of nodes in the tree = 1

2231

74s ICNTL(23) Memory allowed (value on host) = 0

2232

74s Sum over all procs = 0

2233

74s Memory provided by user, sum of LWK_USER = 0

2234

74s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

2235

74s

2236

74s Statistics on the scaling phase

2237

74s Elapsed time for scaling = 0.0000

2238

74s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

2239

74s

2240

74s Average Effective size of S (based on INFO(39))= 2428

2241

74s Elapsed time to reformat/distribute matrix = 0.0000

2242

74s

2243

74s

2244

74s Allocated buffers

2245

74s ------------------

2246

74s Size of reception buffer in bytes ...... = 140000

2247

74s Size of async. emission buffer (bytes).. = 140012

2248

74s Small emission buffer (bytes) .......... = 180

2249

74s ** Memory allocated, max in Mbytes (INFOG(18)): 0

2250

74s

2251

74s ** Memory allocated, total in Mbytes (INFOG(19)): 0

2252

74s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

2253

74s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

2254

74s

2255

74s Elapsed time for factorization = 0.0002

2256

74s

2257

74s Leaving factorization with ...

2258

74s RINFOG (2) Operations in node assembly = 0.000D 00

2259

74s ------ (3) Operations in node elimination = 7.000D 01

2260

74s ICNTL (8) Scaling effectively used = 7

2261

74s INFOG (9) Real space for factors = 25

2262

74s INFOG (10) Integer space for factors = 30

2263

74s INFOG (11) Maximum front size = 5

2264

74s INFOG (29) Number of entries in factors = 25

2265

74s INFOG (12) Number of off diagonal pivots = 1

2266

74s INFOG (13) Number of delayed pivots = 0

2267

74s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

2268

74s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

2269

74s RINFOG(21) Largest pivot in absolute value = 5.281D 00

2270

74s INFOG (24) Effective value of ICNTL(12) = 1

2271

74s INFOG (14) Number of memory compress = 0

2272

74s

2273

74s Elapsed time in factorization driver = 0.0006

2274

74s

2275

74s

2276

74s ****** SOLVE & CHECK STEP ********

2277

74s

2278

74s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

2279

74s Number of right-hand-sides = 1

2280

74s Blocking factor for multiple rhs = 1

2281

74s ICNTL (9) = 1

2282

74s --- (10) = 0

2283

74s --- (11) = 0

2284

74s --- (20) = 0

2285

74s --- (21) = 0

2286

74s --- (30) = 0

2287

74s --- (35) = 0

2288

74s --- (48) (effective) = 0

2289

74s ** Rank of processor needing largest memory in solve : 0

2290

74s ** Space in MBYTES used by this processor for solve : 0

2291

74s ** Avg. Space in MBYTES per working proc during solve : 0

2292

74s

2293

74s Leaving solve with ...

2294

74s Time to build/scatter RHS = 0.000085

2295

74s Time in solution step (fwd/bwd) = 0.000068

2296

74s .. Time in forward (fwd) step = 0.000039

2297

74s .. Time in backward (bwd) step = 0.000021

2298

74s Time to gather solution(cent.sol)= 0.000006

2299

74s Time for distributed solution = 0.000000

2300

74s

2301

74s Elapsed time in solve driver= 0.0004

2302

74s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

2303

74s

2304

74s Entering SMUMPS 5.7.3 with JOB = -2

2305

74s executing #MPI = 3, without OMP

2306

74s

2307

74s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

2308

74s executing #MPI = 3, without OMP

2309

74s

2310

74s =================================================

2311

74s MUMPS compiled with option -Dpord

2312

74s =================================================

2313

74s L U Solver for unsymmetric matrices

2314

74s Type of parallelism: Working host

2315

74s

2316

74s ****** ANALYSIS STEP ********

2317

74s

2318

74s Processing a graph of size: 5

2319

74s ... Structural symmetry (in percent)= 92

2320

74s Average density of rows/columns = 2

2321

74s ... No column permutation

2322

74s Ordering based on AMF

2323

74s WARNING: Largest root node of size 5 not selected for parallel execution

2324

74s

2325

74s Leaving analysis phase with ...

2326

74s INFOG(1) = 0

2327

74s INFOG(2) = 0

2328

74s -- (20) Number of entries in factors (estim.) = 25

2329

74s -- (3) Real space for factors (estimated) = 25

2330

74s -- (4) Integer space for factors (estimated) = 30

2331

74s -- (5) Maximum frontal size (estimated) = 5

2332

74s -- (6) Number of nodes in the tree = 1

2333

74s -- (32) Type of analysis effectively used = 1

2334

74s -- (7) Ordering option effectively used = 2

2335

74s ICNTL (6) Maximum transversal option = 0

2336

74s ICNTL (7) Pivot order option = 7

2337

74s ICNTL(12) Ordering symmetric indef. matrices = 1

2338

74s ICNTL(13) Parallelism/splitting of root node = 0

2339

74s ICNTL(14) Percentage of memory relaxation = 20

2340

74s ICNTL(15) Analysis by block effectively used = 0

2341

74s ICNTL(18) Distributed input matrix (on if >0) = 0

2342

74s ICNTL(32) Forward elimination during facto. = 0

2343

74s ICNTL(35) BLR activation = 0

2344

74s ICNTL(48) Tree based multithreading (effective)= 0

2345

74s ICNTL(58) Symbolic factorization option = 2

2346

74s Number of level 2 nodes = 0

2347

74s Number of split nodes = 0

2348

74s RINFOG(1) Operations during elimination (estim)= 7.000D 01

2349

74s

2350

74s MEMORY ESTIMATIONS ...

2351

74s Estimations with standard Full-Rank (FR) factorization:

2352

74s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

2353

74s Total space in MBytes, IC factorization (INFOG(17)): 0

2354

74s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

2355

74s Total space in MBytes, OOC factorization (INFOG(27)): 0

2356

74s

2357

74s Elapsed time in analysis driver= 0.0008

2358

74s

2359

74s

2360

74s ****** FACTORIZATION STEP ********

2361

74s

2362

74s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

2363

74s Number of working processes = 3

2364

74s ICNTL(22) Out-of-core option = 1

2365

74s ICNTL(35) BLR activation (eff. choice) = 0

2366

74s ICNTL(37) BLR CB compression (eff. choice) = 0

2367

74s ICNTL(49) Compact workarray S (end facto.) = 0

2368

74s ICNTL(14) Memory relaxation = 20

2369

74s INFOG(3) Real space for factors (estimated)= 25

2370

74s INFOG(4) Integer space for factors (estim.)= 30

2371

74s Maximum frontal size (estimated) = 5

2372

74s Number of nodes in the tree = 1

2373

74s ICNTL(23) Memory allowed (value on host) = 0

2374

74s Sum over all procs = 0

2375

74s Memory provided by user, sum of LWK_USER = 0

2376

74s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

2377

74s

2378

74s Statistics on the scaling phase

2379

74s Elapsed time for scaling = 0.0000

2380

74s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

2381

74s

2382

74s Average Effective size of S (based on INFO(39))= 2428

2383

74s Elapsed time to reformat/distribute matrix = 0.0000

2384

74s

2385

74s

2386

74s Allocated buffers

2387

74s ------------------

2388

74s Size of reception buffer in bytes ...... = 140000

2389

74s Size of async. emission buffer (bytes).. = 140012

2390

74s Small emission buffer (bytes) .......... = 180

2391

74s ** Memory allocated, max in Mbytes (INFOG(18)): 0

2392

74s

2393

74s ** Memory allocated, total in Mbytes (INFOG(19)): 0

2394

74s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

2395

74s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

2396

74s

2397

74s Elapsed time for factorization = 0.0004

2398

74s

2399

74s Leaving factorization with ...

2400

74s RINFOG (2) Operations in node assembly = 0.000D 00

2401

74s ------ (3) Operations in node elimination = 7.000D 01

2402

74s ICNTL (8) Scaling effectively used = 7

2403

74s INFOG (9) Real space for factors = 50

2404

74s INFOG (10) Integer space for factors = 31

2405

74s INFOG (11) Maximum front size = 5

2406

74s INFOG (29) Number of entries in factors = 25

2407

74s INFOG (12) Number of off diagonal pivots = 1

2408

74s INFOG (13) Number of delayed pivots = 0

2409

74s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

2410

74s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

2411

74s RINFOG(21) Largest pivot in absolute value = 5.281D 00

2412

74s INFOG (24) Effective value of ICNTL(12) = 1

2413

74s INFOG (14) Number of memory compress = 0

2414

74s

2415

74s Elapsed time in factorization driver = 0.0019

2416

74s

2417

74s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

2418

74s executing #MPI = 3, without OMP

2419

74s Save done successfully

2420

74s The corresponding OOC files are:

2421

74s /tmp//mumps_0_nDCGq5

2422

74s /tmp//mumps_0_HrWhNQ

2423

74s

2424

74s Elapsed time in save structure driver= 0.0009

2425

74s

2426

74s Entering SMUMPS 5.7.3 with JOB = -2

2427

74s executing #MPI = 3, without OMP

2428

74s

2429

74s Entering SMUMPS 5.7.3 with JOB = 8

2430

74s executing #MPI = 3, without OMP

2431

74s The corresponding OOC files are:

2432

74s /tmp//mumps_0_nDCGq5

2433

74s /tmp//mumps_0_HrWhNQ

2434

74s

2435

74s Elapsed time in restore structure driver= 0.0008

2436

74s

2437

74s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

2438

74s executing #MPI = 3, without OMP

2439

74s

2440

74s

2441

74s

2442

74s ****** SOLVE & CHECK STEP ********

2443

74s

2444

74s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

2445

74s Number of right-hand-sides = 1

2446

74s Blocking factor for multiple rhs = 1

2447

74s ICNTL (9) = 1

2448

74s --- (10) = 0

2449

74s --- (11) = 0

2450

74s --- (20) = 0

2451

74s --- (21) = 0

2452

74s --- (30) = 0

2453

74s --- (35) = 0

2454

74s --- (48) (effective) = 0

2455

74s ** Rank of processor needing largest memory in solve : 0

2456

74s ** Space in MBYTES used by this processor for solve : 0

2457

74s ** Avg. Space in MBYTES per working proc during solve : 0

2458

74s

2459

74s Leaving solve with ...

2460

74s Time to build/scatter RHS = 0.000078

2461

74s Time in solution step (fwd/bwd) = 0.000103

2462

74s .. Time in forward (fwd) step = 0.000065

2463

74s .. Time in backward (bwd) step = 0.000026

2464

74s Time to gather solution(cent.sol)= 0.000006

2465

74s Time for distributed solution = 0.000000

2466

74s

2467

74s Elapsed time in solve driver= 0.0007

2468

74s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

2469

74s

2470

74s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

2471

74s executing #MPI = 3, without OMP

2472

74s

2473

74s Entering SMUMPS 5.7.3 with JOB = -2

2474

74s executing #MPI = 3, without OMP

2475

74s

2476

74s

2477

74s === running simple test: real, double precision, MPI ===

2478

74s

2479

74s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

2480

74s executing #MPI = 3, without OMP

2481

74s

2482

74s =================================================

2483

74s MUMPS compiled with option -Dpord

2484

74s =================================================

2485

74s L U Solver for unsymmetric matrices

2486

74s Type of parallelism: Working host

2487

74s

2488

74s ****** ANALYSIS STEP ********

2489

74s

2490

74s Processing a graph of size: 5

2491

74s ... Structural symmetry (in percent)= 92

2492

74s Average density of rows/columns = 2

2493

74s ... No column permutation

2494

74s Ordering based on AMF

2495

74s WARNING: Largest root node of size 5 not selected for parallel execution

2496

74s

2497

74s Leaving analysis phase with ...

2498

74s INFOG(1) = 0

2499

74s INFOG(2) = 0

2500

74s -- (20) Number of entries in factors (estim.) = 25

2501

74s -- (3) Real space for factors (estimated) = 25

2502

74s -- (4) Integer space for factors (estimated) = 30

2503

74s -- (5) Maximum frontal size (estimated) = 5

2504

74s -- (6) Number of nodes in the tree = 1

2505

74s -- (32) Type of analysis effectively used = 1

2506

74s -- (7) Ordering option effectively used = 2

2507

74s ICNTL (6) Maximum transversal option = 0

2508

74s ICNTL (7) Pivot order option = 7

2509

74s ICNTL(12) Ordering symmetric indef. matrices = 1

2510

74s ICNTL(13) Parallelism/splitting of root node = 0

2511

74s ICNTL(14) Percentage of memory relaxation = 20

2512

74s ICNTL(15) Analysis by block effectively used = 0

2513

74s ICNTL(18) Distributed input matrix (on if >0) = 0

2514

74s ICNTL(32) Forward elimination during facto. = 0

2515

74s ICNTL(35) BLR activation = 0

2516

74s ICNTL(48) Tree based multithreading (effective)= 0

2517

74s ICNTL(58) Symbolic factorization option = 2

2518

74s Number of level 2 nodes = 0

2519

74s Number of split nodes = 0

2520

74s RINFOG(1) Operations during elimination (estim)= 7.000D 01

2521

74s

2522

74s MEMORY ESTIMATIONS ...

2523

74s Estimations with standard Full-Rank (FR) factorization:

2524

74s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

2525

74s Total space in MBytes, IC factorization (INFOG(17)): 0

2526

74s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

2527

74s Total space in MBytes, OOC factorization (INFOG(27)): 0

2528

74s

2529

74s Elapsed time in analysis driver= 0.0010

2530

74s

2531

74s

2532

74s ****** FACTORIZATION STEP ********

2533

74s

2534

74s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

2535

74s Number of working processes = 3

2536

74s ICNTL(22) Out-of-core option = 0

2537

74s ICNTL(35) BLR activation (eff. choice) = 0

2538

74s ICNTL(37) BLR CB compression (eff. choice) = 0

2539

74s ICNTL(49) Compact workarray S (end facto.) = 0

2540

74s ICNTL(14) Memory relaxation = 20

2541

74s INFOG(3) Real space for factors (estimated)= 25

2542

74s INFOG(4) Integer space for factors (estim.)= 30

2543

74s Maximum frontal size (estimated) = 5

2544

74s Number of nodes in the tree = 1

2545

74s ICNTL(23) Memory allowed (value on host) = 0

2546

74s Sum over all procs = 0

2547

74s Memory provided by user, sum of LWK_USER = 0

2548

74s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

2549

74s

2550

74s Statistics on the scaling phase

2551

74s Elapsed time for scaling = 0.0000

2552

74s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

2553

74s

2554

74s Average Effective size of S (based on INFO(39))= 2428

2555

74s Elapsed time to reformat/distribute matrix = 0.0000

2556

74s

2557

74s

2558

74s Allocated buffers

2559

74s ------------------

2560

74s Size of reception buffer in bytes ...... = 140000

2561

74s Size of async. emission buffer (bytes).. = 140012

2562

74s Small emission buffer (bytes) .......... = 180

2563

74s ** Memory allocated, max in Mbytes (INFOG(18)): 0

2564

74s

2565

74s ** Memory allocated, total in Mbytes (INFOG(19)): 0

2566

74s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

2567

74s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

2568

74s

2569

74s Elapsed time for factorization = 0.0003

2570

74s

2571

74s Leaving factorization with ...

2572

74s RINFOG (2) Operations in node assembly = 0.000D 00

2573

74s ------ (3) Operations in node elimination = 7.000D 01

2574

74s ICNTL (8) Scaling effectively used = 7

2575

74s INFOG (9) Real space for factors = 25

2576

74s INFOG (10) Integer space for factors = 30

2577

74s INFOG (11) Maximum front size = 5

2578

74s INFOG (29) Number of entries in factors = 25

2579

74s INFOG (12) Number of off diagonal pivots = 1

2580

74s INFOG (13) Number of delayed pivots = 0

2581

74s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

2582

74s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

2583

74s RINFOG(21) Largest pivot in absolute value = 5.281D 00

2584

74s INFOG (24) Effective value of ICNTL(12) = 1

2585

74s INFOG (14) Number of memory compress = 0

2586

74s

2587

74s Elapsed time in factorization driver = 0.0014

2588

74s

2589

74s

2590

74s ****** SOLVE & CHECK STEP ********

2591

74s

2592

74s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

2593

74s Number of right-hand-sides = 1

2863

74s Blocking factor for multiple rhs = 1

2595

74s ICNTL (9) = 1

2596

74s --- (10) = 0

2597

74s --- (11) = 0

2598

74s --- (20) = 0

2599

74s --- (21) = 0

2600

74s --- (30) = 0

2601

74s --- (35) = 0

2602

74s --- (48) (effective) = 0

2603

74s ** Rank of processor needing largest memory in solve : 0

2604

74s ** Space in MBYTES used by this processor for solve : 0

2605

74s ** Avg. Space in MBYTES per working proc during solve : 0

2606

74s

2607

74s Leaving solve with ...

2608

74s Time to build/scatter RHS = 0.000078

2609

74s Time in solution step (fwd/bwd) = 0.000065

2610

74s .. Time in forward (fwd) step = 0.000035

2611

74s .. Time in backward (bwd) step = 0.000021

2612

74s Time to gather solution(cent.sol)= 0.000005

2613

74s Time for distributed solution = 0.000000

2614

74s

2615

74s Elapsed time in solve driver= 0.0006

2616

74s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

2617

74s

2618

74s Entering DMUMPS 5.7.3 with JOB = -2

2619

74s executing #MPI = 3, without OMP

2620

74s

2621

74s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

2622

74s executing #MPI = 3, without OMP

2623

74s

2624

74s =================================================

2625

74s MUMPS compiled with option -Dpord

2626

74s =================================================

2627

74s L U Solver for unsymmetric matrices

2628

74s Type of parallelism: Working host

2629

74s

2630

74s ****** ANALYSIS STEP ********

2631

74s

2632

74s Processing a graph of size: 5

2633

74s ... Structural symmetry (in percent)= 92

2634

74s Average density of rows/columns = 2

2635

74s ... No column permutation

2636

74s Ordering based on AMF

2637

74s WARNING: Largest root node of size 5 not selected for parallel execution

2638

74s

2639

74s Leaving analysis phase with ...

2640

74s INFOG(1) = 0

2641

74s INFOG(2) = 0

2642

74s -- (20) Number of entries in factors (estim.) = 25

2643

74s -- (3) Real space for factors (estimated) = 25

2644

74s -- (4) Integer space for factors (estimated) = 30

2645

74s -- (5) Maximum frontal size (estimated) = 5

2646

74s -- (6) Number of nodes in the tree = 1

2647

74s -- (32) Type of analysis effectively used = 1

2648

74s -- (7) Ordering option effectively used = 2

2649

74s ICNTL (6) Maximum transversal option = 0

2650

74s ICNTL (7) Pivot order option = 7

2651

74s ICNTL(12) Ordering symmetric indef. matrices = 1

2652

74s ICNTL(13) Parallelism/splitting of root node = 0

2653

74s ICNTL(14) Percentage of memory relaxation = 20

2654

74s ICNTL(15) Analysis by block effectively used = 0

2655

74s ICNTL(18) Distributed input matrix (on if >0) = 0

2656

74s ICNTL(32) Forward elimination during facto. = 0

2657

74s ICNTL(35) BLR activation = 0

2658

74s ICNTL(48) Tree based multithreading (effective)= 0

2659

74s ICNTL(58) Symbolic factorization option = 2

2660

74s Number of level 2 nodes = 0

2661

74s Number of split nodes = 0

2662

74s RINFOG(1) Operations during elimination (estim)= 7.000D 01

2663

74s

2664

74s MEMORY ESTIMATIONS ...

2665

74s Estimations with standard Full-Rank (FR) factorization:

2666

74s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

2667

74s Total space in MBytes, IC factorization (INFOG(17)): 0

2668

74s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

2669

74s Total space in MBytes, OOC factorization (INFOG(27)): 0

2670

74s

2671

74s Elapsed time in analysis driver= 0.0011

2672

74s

2673

74s

2674

74s ****** FACTORIZATION STEP ********

2675

74s

2676

74s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

2677

74s Number of working processes = 3

2678

74s ICNTL(22) Out-of-core option = 1

2679

74s ICNTL(35) BLR activation (eff. choice) = 0

2680

74s ICNTL(37) BLR CB compression (eff. choice) = 0

2681

74s ICNTL(49) Compact workarray S (end facto.) = 0

2682

74s ICNTL(14) Memory relaxation = 20

2683

74s INFOG(3) Real space for factors (estimated)= 25

2684

74s INFOG(4) Integer space for factors (estim.)= 30

2685

74s Maximum frontal size (estimated) = 5

2686

74s Number of nodes in the tree = 1

2687

74s ICNTL(23) Memory allowed (value on host) = 0

2688

74s Sum over all procs = 0

2689

74s Memory provided by user, sum of LWK_USER = 0

2690

74s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

2691

74s

2692

74s Statistics on the scaling phase

2693

74s Elapsed time for scaling = 0.0000

2694

74s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

2695

74s

2696

74s Average Effective size of S (based on INFO(39))= 2428

2697

74s Elapsed time to reformat/distribute matrix = 0.0000

2698

74s

2699

74s

2700

74s Allocated buffers

2701

74s ------------------

2702

74s Size of reception buffer in bytes ...... = 140000

2703

74s Size of async. emission buffer (bytes).. = 140012

2704

74s Small emission buffer (bytes) .......... = 180

2705

74s ** Memory allocated, max in Mbytes (INFOG(18)): 0

2706

74s

2707

74s ** Memory allocated, total in Mbytes (INFOG(19)): 0

2708

74s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

2709

74s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

2710

74s

2711

74s Elapsed time for factorization = 0.0003

2712

74s

2713

74s Leaving factorization with ...

2714

74s RINFOG (2) Operations in node assembly = 0.000D 00

2715

74s ------ (3) Operations in node elimination = 7.000D 01

2716

74s ICNTL (8) Scaling effectively used = 7

2717

74s INFOG (9) Real space for factors = 50

2718

74s INFOG (10) Integer space for factors = 31

2719

74s INFOG (11) Maximum front size = 5

2720

74s INFOG (29) Number of entries in factors = 25

2721

74s INFOG (12) Number of off diagonal pivots = 1

2722

74s INFOG (13) Number of delayed pivots = 0

2723

74s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

2724

74s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

2725

74s RINFOG(21) Largest pivot in absolute value = 5.281D 00

2726

74s INFOG (24) Effective value of ICNTL(12) = 1

2727

74s INFOG (14) Number of memory compress = 0

2728

74s

2729

74s Elapsed time in factorization driver = 0.0018

2730

74s

2731

74s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

2732

74s executing #MPI = 3, without OMP

2733

74s Save done successfully

2734

74s The corresponding OOC files are:

2735

74s /tmp//mumps_0_aNwIKU

2736

74s /tmp//mumps_0_nwbjKo

2737

74s

2738

74s Elapsed time in save structure driver= 0.0009

2739

74s

2740

74s Entering DMUMPS 5.7.3 with JOB = -2

2741

74s executing #MPI = 3, without OMP

2742

74s

2743

74s Entering DMUMPS 5.7.3 with JOB = 8

2744

74s executing #MPI = 3, without OMP

2745

74s The corresponding OOC files are:

2746

74s /tmp//mumps_0_aNwIKU

2747

74s /tmp//mumps_0_nwbjKo

2748

74s

2749

74s Elapsed time in restore structure driver= 0.0009

2750

74s

2751

74s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

2752

74s executing #MPI = 3, without OMP

2753

74s

2754

74s

2755

74s

2756

74s ****** SOLVE & CHECK STEP ********

2757

74s

2758

74s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

2759

74s Number of right-hand-sides = 1

2760

74s Blocking factor for multiple rhs = 1

2761

74s ICNTL (9) = 1

2762

74s --- (10) = 0

2763

74s --- (11) = 0

2764

74s --- (20) = 0

2765

74s --- (21) = 0

2766

74s --- (30) = 0

2767

74s --- (35) = 0

2768

74s --- (48) (effective) = 0

2769

74s ** Rank of processor needing largest memory in solve : 0

2770

74s ** Space in MBYTES used by this processor for solve : 0

2771

74s ** Avg. Space in MBYTES per working proc during solve : 0

2772

74s

2773

74s Leaving solve with ...

2774

74s Time to build/scatter RHS = 0.000080

2775

74s Time in solution step (fwd/bwd) = 0.000097

2776

74s .. Time in forward (fwd) step = 0.000059

2777

74s .. Time in backward (bwd) step = 0.000025

2778

74s Time to gather solution(cent.sol)= 0.000005

2779

74s Time for distributed solution = 0.000000

2780

74s

2781

74s Elapsed time in solve driver= 0.0007

2782

74s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

2783

74s

2784

74s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

2785

74s executing #MPI = 3, without OMP

2786

74s

2787

74s Entering DMUMPS 5.7.3 with JOB = -2

2788

74s executing #MPI = 3, without OMP

2789

75s

2790

75s

2791

75s === running simple test: complex, single precision, MPI ===

2792

75s

2793

75s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

2794

75s executing #MPI = 3, without OMP

2795

75s

2796

75s =================================================

2797

75s MUMPS compiled with option -Dpord

2798

75s =================================================

2799

75s L U Solver for unsymmetric matrices

2800

75s Type of parallelism: Working host

2801

75s

2802

75s ****** ANALYSIS STEP ********

2803

75s

2804

75s Processing a graph of size: 5

2805

75s ... Structural symmetry (in percent)= 92

2806

75s Average density of rows/columns = 2

2807

75s ... No column permutation

2808

75s Ordering based on AMF

2809

75s WARNING: Largest root node of size 5 not selected for parallel execution

2810

75s

2811

75s Leaving analysis phase with ...

2812

75s INFOG(1) = 0

2813

75s INFOG(2) = 0

2814

75s -- (20) Number of entries in factors (estim.) = 25

2815

75s -- (3) Real space for factors (estimated) = 25

2816

75s -- (4) Integer space for factors (estimated) = 30

2817

75s -- (5) Maximum frontal size (estimated) = 5

2818

75s -- (6) Number of nodes in the tree = 1

2819

75s -- (32) Type of analysis effectively used = 1

2820

75s -- (7) Ordering option effectively used = 2

2821

75s ICNTL (6) Maximum transversal option = 0

2822

75s ICNTL (7) Pivot order option = 7

2823

75s ICNTL(12) Ordering symmetric indef. matrices = 1

2824

75s ICNTL(13) Parallelism/splitting of root node = 0

2825

75s ICNTL(14) Percentage of memory relaxation = 20

2826

75s ICNTL(15) Analysis by block effectively used = 0

2827

75s ICNTL(18) Distributed input matrix (on if >0) = 0

2828

75s ICNTL(32) Forward elimination during facto. = 0

2829

75s ICNTL(35) BLR activation = 0

2830

75s ICNTL(48) Tree based multithreading (effective)= 0

2831

75s ICNTL(58) Symbolic factorization option = 2

2832

75s Number of level 2 nodes = 0

2833

75s Number of split nodes = 0

2834

75s RINFOG(1) Operations during elimination (estim)= 7.000D 01

2835

75s

2836

75s MEMORY ESTIMATIONS ...

2837

75s Estimations with standard Full-Rank (FR) factorization:

2838

75s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

2839

75s Total space in MBytes, IC factorization (INFOG(17)): 0

2840

75s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

2841

75s Total space in MBytes, OOC factorization (INFOG(27)): 0

2842

75s

2843

75s Elapsed time in analysis driver= 0.0011

2844

75s

2845

75s

2846

75s ****** FACTORIZATION STEP ********

2847

75s

2848

75s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

2849

75s Number of working processes = 3

2850

75s ICNTL(22) Out-of-core option = 0

2851

75s ICNTL(35) BLR activation (eff. choice) = 0

2852

75s ICNTL(37) BLR CB compression (eff. choice) = 0

2853

75s ICNTL(49) Compact workarray S (end facto.) = 0

2854

75s ICNTL(14) Memory relaxation = 20

2855

75s INFOG(3) Real space for factors (estimated)= 25

2856

75s INFOG(4) Integer space for factors (estim.)= 30

2857

75s Maximum frontal size (estimated) = 5

2858

75s Number of nodes in the tree = 1

2859

75s ICNTL(23) Memory allowed (value on host) = 0

2860

75s Sum over all procs = 0

2861

75s Memory provided by user, sum of LWK_USER = 0

2862

75s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

2863

75s

2864

75s Statistics on the scaling phase

2865

75s Elapsed time for scaling = 0.0001

2866

75s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

2867

75s

2868

75s Average Effective size of S (based on INFO(39))= 2428

2869

75s Elapsed time to reformat/distribute matrix = 0.0000

2870

75s

2871

75s

2872

75s Allocated buffers

2873

75s ------------------

2874

75s Size of reception buffer in bytes ...... = 140000

2875

75s Size of async. emission buffer (bytes).. = 140012

2876

75s Small emission buffer (bytes) .......... = 180

2877

75s ** Memory allocated, max in Mbytes (INFOG(18)): 0

2878

75s

2879

75s ** Memory allocated, total in Mbytes (INFOG(19)): 0

2880

75s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

2881

75s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

2882

75s

2883

75s Elapsed time for factorization = 0.0002

2884

75s

2885

75s Leaving factorization with ...

2886

75s RINFOG (2) Operations in node assembly = 0.000D 00

2887

75s ------ (3) Operations in node elimination = 7.000D 01

2888

75s ICNTL (8) Scaling effectively used = 7

2889

75s INFOG (9) Real space for factors = 25

2890

75s INFOG (10) Integer space for factors = 30

2891

75s INFOG (11) Maximum front size = 5

2892

75s INFOG (29) Number of entries in factors = 25

2893

75s INFOG (12) Number of off diagonal pivots = 1

2894

75s INFOG (13) Number of delayed pivots = 0

2895

75s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

2896

75s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

2897

75s RINFOG(21) Largest pivot in absolute value = 5.281D 00

2898

75s INFOG (24) Effective value of ICNTL(12) = 1

2899

75s INFOG (14) Number of memory compress = 0

2900

75s

2901

75s Elapsed time in factorization driver = 0.0012

2902

75s

2903

75s

2904

75s ****** SOLVE & CHECK STEP ********

2905

75s

2906

75s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

2907

75s Number of right-hand-sides = 1

2908

75s Blocking factor for multiple rhs = 1

2909

75s ICNTL (9) = 1

2910

75s --- (10) = 0

2911

75s --- (11) = 0

2912

75s --- (20) = 0

2913

75s --- (21) = 0

2914

75s --- (30) = 0

2915

75s --- (35) = 0

2916

75s --- (48) (effective) = 0

2917

75s ** Rank of processor needing largest memory in solve : 0

2918

75s ** Space in MBYTES used by this processor for solve : 0

2919

75s ** Avg. Space in MBYTES per working proc during solve : 0

2920

75s

2921

75s Leaving solve with ...

2922

75s Time to build/scatter RHS = 0.000087

2923

75s Time in solution step (fwd/bwd) = 0.000068

2924

75s .. Time in forward (fwd) step = 0.000037

2925

75s .. Time in backward (bwd) step = 0.000020

2926

75s Time to gather solution(cent.sol)= 0.000007

2927

75s Time for distributed solution = 0.000000

2928

75s

2929

75s Elapsed time in solve driver= 0.0005

2930

75s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

2931

75s

2932

75s Entering CMUMPS 5.7.3 with JOB = -2

2933

75s executing #MPI = 3, without OMP

2934

75s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

2935

75s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

2936

75s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

2937

75s

2938

75s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

2939

75s executing #MPI = 3, without OMP

2940

75s

2941

75s =================================================

2942

75s MUMPS compiled with option -Dpord

2943

75s =================================================

2944

75s L U Solver for unsymmetric matrices

2945

75s Type of parallelism: Working host

2946

75s

2947

75s ****** ANALYSIS STEP ********

2948

75s

2949

75s Processing a graph of size: 5

2950

75s ... Structural symmetry (in percent)= 92

2951

75s Average density of rows/columns = 2

2952

75s ... No column permutation

2953

75s Ordering based on AMF

2954

75s WARNING: Largest root node of size 5 not selected for parallel execution

2955

75s

2956

75s Leaving analysis phase with ...

2957

75s INFOG(1) = 0

2958

75s INFOG(2) = 0

2959

75s -- (20) Number of entries in factors (estim.) = 25

2960

75s -- (3) Real space for factors (estimated) = 25

2961

75s -- (4) Integer space for factors (estimated) = 30

2962

75s -- (5) Maximum frontal size (estimated) = 5

2963

75s -- (6) Number of nodes in the tree = 1

2964

75s -- (32) Type of analysis effectively used = 1

2965

75s -- (7) Ordering option effectively used = 2

2966

75s ICNTL (6) Maximum transversal option = 0

2967

75s ICNTL (7) Pivot order option = 7

2968

75s ICNTL(12) Ordering symmetric indef. matrices = 1

2969

75s ICNTL(13) Parallelism/splitting of root node = 0

2970

75s ICNTL(14) Percentage of memory relaxation = 20

2971

75s ICNTL(15) Analysis by block effectively used = 0

2972

75s ICNTL(18) Distributed input matrix (on if >0) = 0

2973

75s ICNTL(32) Forward elimination during facto. = 0

2974

75s ICNTL(35) BLR activation = 0

2975

75s ICNTL(48) Tree based multithreading (effective)= 0

2976

75s ICNTL(58) Symbolic factorization option = 2

2977

75s Number of level 2 nodes = 0

2978

75s Number of split nodes = 0

2979

75s RINFOG(1) Operations during elimination (estim)= 7.000D 01

2980

75s

2981

75s MEMORY ESTIMATIONS ...

2982

75s Estimations with standard Full-Rank (FR) factorization:

2983

75s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

2984

75s Total space in MBytes, IC factorization (INFOG(17)): 0

2985

75s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

2986

75s Total space in MBytes, OOC factorization (INFOG(27)): 0

2987

75s

2988

75s Elapsed time in analysis driver= 0.0004

2989

75s

2990

75s

2991

75s ****** FACTORIZATION STEP ********

2992

75s

2993

75s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

2994

75s Number of working processes = 3

2995

75s ICNTL(22) Out-of-core option = 1

2996

75s ICNTL(35) BLR activation (eff. choice) = 0

2997

75s ICNTL(37) BLR CB compression (eff. choice) = 0

2998

75s ICNTL(49) Compact workarray S (end facto.) = 0

2999

75s ICNTL(14) Memory relaxation = 20

3000

75s INFOG(3) Real space for factors (estimated)= 25

3001

75s INFOG(4) Integer space for factors (estim.)= 30

3002

75s Maximum frontal size (estimated) = 5

3003

75s Number of nodes in the tree = 1

3004

75s ICNTL(23) Memory allowed (value on host) = 0

3005

75s Sum over all procs = 0

3006

75s Memory provided by user, sum of LWK_USER = 0

3007

75s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3008

75s

3009

75s Statistics on the scaling phase

3010

75s Elapsed time for scaling = 0.0001

3011

75s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3012

75s

3013

75s Average Effective size of S (based on INFO(39))= 2428

3014

75s Elapsed time to reformat/distribute matrix = 0.0000

3015

75s

3016

75s

3017

75s Allocated buffers

3018

75s ------------------

3019

75s Size of reception buffer in bytes ...... = 140000

3020

75s Size of async. emission buffer (bytes).. = 140012

3021

75s Small emission buffer (bytes) .......... = 180

3022

75s ** Memory allocated, max in Mbytes (INFOG(18)): 0

3023

75s

3024

75s ** Memory allocated, total in Mbytes (INFOG(19)): 0

3025

75s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

3026

75s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

3027

75s

3028

75s Elapsed time for factorization = 0.0003

3029

75s

3030

75s Leaving factorization with ...

3031

75s RINFOG (2) Operations in node assembly = 0.000D 00

3032

75s ------ (3) Operations in node elimination = 7.000D 01

3033

75s ICNTL (8) Scaling effectively used = 7

3034

75s INFOG (9) Real space for factors = 50

3035

75s INFOG (10) Integer space for factors = 31

3036

75s INFOG (11) Maximum front size = 5

3037

75s INFOG (29) Number of entries in factors = 25

3038

75s INFOG (12) Number of off diagonal pivots = 1

3039

75s INFOG (13) Number of delayed pivots = 0

3040

75s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

3041

75s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

3042

75s RINFOG(21) Largest pivot in absolute value = 5.281D 00

3043

75s INFOG (24) Effective value of ICNTL(12) = 1

3044

75s INFOG (14) Number of memory compress = 0

3045

75s

3046

75s Elapsed time in factorization driver = 0.0015

3047

75s

3048

75s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

3049

75s executing #MPI = 3, without OMP

3050

75s Save done successfully

3051

75s The corresponding OOC files are:

3052

75s /tmp//mumps_0_pX8kHf

3053

75s /tmp//mumps_0_Bg0y4X

3054

75s

3055

75s Elapsed time in save structure driver= 0.0008

3056

75s

3057

75s Entering CMUMPS 5.7.3 with JOB = -2

3058

75s executing #MPI = 3, without OMP

3059

75s

3060

75s Entering CMUMPS 5.7.3 with JOB = 8

3061

75s executing #MPI = 3, without OMP

3062

75s The corresponding OOC files are:

3063

75s /tmp//mumps_0_pX8kHf

3064

75s /tmp//mumps_0_Bg0y4X

3065

75s

3066

75s Elapsed time in restore structure driver= 0.0006

3067

75s

3068

75s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

3069

75s executing #MPI = 3, without OMP

3070

75s

3071

75s

3072

75s

3073

75s ****** SOLVE & CHECK STEP ********

3074

75s

3075

75s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

3076

75s Number of right-hand-sides = 1

3077

75s Blocking factor for multiple rhs = 1

3078

75s ICNTL (9) = 1

3079

75s --- (10) = 0

3080

75s --- (11) = 0

3081

75s --- (20) = 0

3082

75s --- (21) = 0

3083

75s --- (30) = 0

3084

75s --- (35) = 0

3085

75s --- (48) (effective) = 0

3086

75s ** Rank of processor needing largest memory in solve : 0

3087

75s ** Space in MBYTES used by this processor for solve : 0

3088

75s ** Avg. Space in MBYTES per working proc during solve : 0

3089

75s

3090

75s Leaving solve with ...

3091

75s Time to build/scatter RHS = 0.000085

3092

75s Time in solution step (fwd/bwd) = 0.000092

3093

75s .. Time in forward (fwd) step = 0.000058

3094

75s .. Time in backward (bwd) step = 0.000023

3095

75s Time to gather solution(cent.sol)= 0.000005

3096

75s Time for distributed solution = 0.000000

3097

75s

3098

75s Elapsed time in solve driver= 0.0006

3099

75s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

3100

75s

3101

75s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

3102

75s executing #MPI = 3, without OMP

3103

75s

3104

75s Entering CMUMPS 5.7.3 with JOB = -2

3105

75s executing #MPI = 3, without OMP

3106

75s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

3107

75s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

3108

75s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

3109

75s

3110

75s

3111

75s === running simple test: complex, double precision, MPI ===

3112

75s

3113

75s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

3114

75s executing #MPI = 3, without OMP

3115

75s

3116

75s =================================================

3117

75s MUMPS compiled with option -Dpord

3118

75s =================================================

3119

75s L U Solver for unsymmetric matrices

3120

75s Type of parallelism: Working host

3121

75s

3122

75s ****** ANALYSIS STEP ********

3123

75s

3124

75s Processing a graph of size: 5

3125

75s ... Structural symmetry (in percent)= 92

3126

75s Average density of rows/columns = 2

3127

75s ... No column permutation

3128

75s Ordering based on AMF

3129

75s WARNING: Largest root node of size 5 not selected for parallel execution

3130

75s

3131

75s Leaving analysis phase with ...

3132

75s INFOG(1) = 0

3133

75s INFOG(2) = 0

3134

75s -- (20) Number of entries in factors (estim.) = 25

3135

75s -- (3) Real space for factors (estimated) = 25

3136

75s -- (4) Integer space for factors (estimated) = 30

3137

75s -- (5) Maximum frontal size (estimated) = 5

3138

75s -- (6) Number of nodes in the tree = 1

3139

75s -- (32) Type of analysis effectively used = 1

3140

75s -- (7) Ordering option effectively used = 2

3141

75s ICNTL (6) Maximum transversal option = 0

3142

75s ICNTL (7) Pivot order option = 7

3143

75s ICNTL(12) Ordering symmetric indef. matrices = 1

3144

75s ICNTL(13) Parallelism/splitting of root node = 0

3145

75s ICNTL(14) Percentage of memory relaxation = 20

3146

75s ICNTL(15) Analysis by block effectively used = 0

3147

75s ICNTL(18) Distributed input matrix (on if >0) = 0

3148

75s ICNTL(32) Forward elimination during facto. = 0

3149

75s ICNTL(35) BLR activation = 0

3150

75s ICNTL(48) Tree based multithreading (effective)= 0

3151

75s ICNTL(58) Symbolic factorization option = 2

3152

75s Number of level 2 nodes = 0

3153

75s Number of split nodes = 0

3154

75s RINFOG(1) Operations during elimination (estim)= 7.000D 01

3155

75s

3156

75s MEMORY ESTIMATIONS ...

3157

75s Estimations with standard Full-Rank (FR) factorization:

3158

75s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

3159

75s Total space in MBytes, IC factorization (INFOG(17)): 0

3160

75s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

3161

75s Total space in MBytes, OOC factorization (INFOG(27)): 0

3162

75s

3163

75s Elapsed time in analysis driver= 0.0005

3164

75s

3165

75s

3166

75s ****** FACTORIZATION STEP ********

3167

75s

3168

75s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

3169

75s Number of working processes = 3

3170

75s ICNTL(22) Out-of-core option = 0

3171

75s ICNTL(35) BLR activation (eff. choice) = 0

3172

75s ICNTL(37) BLR CB compression (eff. choice) = 0

3173

75s ICNTL(49) Compact workarray S (end facto.) = 0

3174

75s ICNTL(14) Memory relaxation = 20

3175

75s INFOG(3) Real space for factors (estimated)= 25

3176

75s INFOG(4) Integer space for factors (estim.)= 30

3177

75s Maximum frontal size (estimated) = 5

3178

75s Number of nodes in the tree = 1

3179

75s ICNTL(23) Memory allowed (value on host) = 0

3180

75s Sum over all procs = 0

3181

75s Memory provided by user, sum of LWK_USER = 0

3182

75s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3183

75s

3184

75s Statistics on the scaling phase

3185

75s Elapsed time for scaling = 0.0001

3186

75s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3187

75s

3188

75s Average Effective size of S (based on INFO(39))= 2428

3189

75s Elapsed time to reformat/distribute matrix = 0.0000

3190

75s

3191

75s

3192

75s Allocated buffers

3193

75s ------------------

3194

75s Size of reception buffer in bytes ...... = 140000

3195

75s Size of async. emission buffer (bytes).. = 140012

3196

75s Small emission buffer (bytes) .......... = 180

3197

75s ** Memory allocated, max in Mbytes (INFOG(18)): 0

3198

75s

3199

75s ** Memory allocated, total in Mbytes (INFOG(19)): 0

3200

75s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

3201

75s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

3202

75s

3203

75s Elapsed time for factorization = 0.0002

3204

75s

3205

75s Leaving factorization with ...

3206

75s RINFOG (2) Operations in node assembly = 0.000D 00

3207

75s ------ (3) Operations in node elimination = 7.000D 01

3208

75s ICNTL (8) Scaling effectively used = 7

3209

75s INFOG (9) Real space for factors = 25

3210

75s INFOG (10) Integer space for factors = 30

3211

75s INFOG (11) Maximum front size = 5

3212

75s INFOG (29) Number of entries in factors = 25

3213

75s INFOG (12) Number of off diagonal pivots = 1

3214

75s INFOG (13) Number of delayed pivots = 0

3215

75s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

3216

75s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

3217

75s RINFOG(21) Largest pivot in absolute value = 5.281D 00

3218

75s INFOG (24) Effective value of ICNTL(12) = 1

3219

75s INFOG (14) Number of memory compress = 0

3220

75s

3221

75s Elapsed time in factorization driver = 0.0008

3222

75s

3223

75s

3224

75s ****** SOLVE & CHECK STEP ********

3225

75s

3226

75s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

3227

75s Number of right-hand-sides = 1

3228

75s Blocking factor for multiple rhs = 1

3229

75s ICNTL (9) = 1

3230

75s --- (10) = 0

3231

75s --- (11) = 0

3232

75s --- (20) = 0

3233

75s --- (21) = 0

3234

75s --- (30) = 0

3235

75s --- (35) = 0

3236

75s --- (48) (effective) = 0

3237

75s ** Rank of processor needing largest memory in solve : 0

3238

75s ** Space in MBYTES used by this processor for solve : 0

3239

75s ** Avg. Space in MBYTES per working proc during solve : 0

3240

75s

3241

75s Leaving solve with ...

3242

75s Time to build/scatter RHS = 0.000081

3243

75s Time in solution step (fwd/bwd) = 0.000066

3244

75s .. Time in forward (fwd) step = 0.000034

3245

75s .. Time in backward (bwd) step = 0.000022

3246

75s Time to gather solution(cent.sol)= 0.000007

3247

75s Time for distributed solution = 0.000000

3248

75s

3249

75s Elapsed time in solve driver= 0.0004

3250

75s Solution is (1.0000000000000013,0.0000000000000000) (2.0000000000000000,0.0000000000000000) (3.0000000000000004,0.0000000000000000) (4.0000000000000000,0.0000000000000000) (4.9999999999999991,0.0000000000000000)

3251

75s

3252

75s Entering ZMUMPS 5.7.3 with JOB = -2

3253

75s executing #MPI = 3, without OMP

3254

75s

3255

75s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

3256

75s executing #MPI = 3, without OMP

3257

75s

3258

75s =================================================

3259

75s MUMPS compiled with option -Dpord

3260

75s =================================================

3261

75s L U Solver for unsymmetric matrices

3262

75s Type of parallelism: Working host

3263

75s

3264

75s ****** ANALYSIS STEP ********

3265

75s

3266

75s Processing a graph of size: 5

3267

75s ... Structural symmetry (in percent)= 92

3268

75s Average density of rows/columns = 2

3269

75s ... No column permutation

3270

75s Ordering based on AMF

3271

75s WARNING: Largest root node of size 5 not selected for parallel execution

3272

75s

3273

75s Leaving analysis phase with ...

3274

75s INFOG(1) = 0

3275

75s INFOG(2) = 0

3276

75s -- (20) Number of entries in factors (estim.) = 25

3277

75s -- (3) Real space for factors (estimated) = 25

3278

75s -- (4) Integer space for factors (estimated) = 30

3279

75s -- (5) Maximum frontal size (estimated) = 5

3280

75s -- (6) Number of nodes in the tree = 1

3281

75s -- (32) Type of analysis effectively used = 1

3282

75s -- (7) Ordering option effectively used = 2

3283

75s ICNTL (6) Maximum transversal option = 0

3284

75s ICNTL (7) Pivot order option = 7

3285

75s ICNTL(12) Ordering symmetric indef. matrices = 1

3286

75s ICNTL(13) Parallelism/splitting of root node = 0

3287

75s ICNTL(14) Percentage of memory relaxation = 20

3288

75s ICNTL(15) Analysis by block effectively used = 0

3289

75s ICNTL(18) Distributed input matrix (on if >0) = 0

3290

75s ICNTL(32) Forward elimination during facto. = 0

3291

75s ICNTL(35) BLR activation = 0

3292

75s ICNTL(48) Tree based multithreading (effective)= 0

3293

75s ICNTL(58) Symbolic factorization option = 2

3294

75s Number of level 2 nodes = 0

3295

75s Number of split nodes = 0

3296

75s RINFOG(1) Operations during elimination (estim)= 7.000D 01

3297

75s

3298

75s MEMORY ESTIMATIONS ...

3299

75s Estimations with standard Full-Rank (FR) factorization:

3300

75s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

3301

75s Total space in MBytes, IC factorization (INFOG(17)): 0

3302

75s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

3303

75s Total space in MBytes, OOC factorization (INFOG(27)): 0

3304

75s

3305

75s Elapsed time in analysis driver= 0.0008

3306

75s

3307

75s

3308

75s ****** FACTORIZATION STEP ********

3309

75s

3310

75s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

3311

75s Number of working processes = 3

3312

75s ICNTL(22) Out-of-core option = 1

3313

75s ICNTL(35) BLR activation (eff. choice) = 0

3314

75s ICNTL(37) BLR CB compression (eff. choice) = 0

3315

75s ICNTL(49) Compact workarray S (end facto.) = 0

3316

75s ICNTL(14) Memory relaxation = 20

3317

75s INFOG(3) Real space for factors (estimated)= 25

3318

75s INFOG(4) Integer space for factors (estim.)= 30

3319

75s Maximum frontal size (estimated) = 5

3320

75s Number of nodes in the tree = 1

3321

75s ICNTL(23) Memory allowed (value on host) = 0

3322

75s Sum over all procs = 0

3323

75s Memory provided by user, sum of LWK_USER = 0

3324

75s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3325

75s

3326

75s Statistics on the scaling phase

3327

75s Elapsed time for scaling = 0.0001

3328

75s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3329

75s

3330

75s Average Effective size of S (based on INFO(39))= 2428

3331

75s Elapsed time to reformat/distribute matrix = 0.0000

3332

75s

3333

75s

3334

75s Allocated buffers

3335

75s ------------------

3336

75s Size of reception buffer in bytes ...... = 140000

3337

75s Size of async. emission buffer (bytes).. = 140012

3338

75s Small emission buffer (bytes) .......... = 180

3339

75s ** Memory allocated, max in Mbytes (INFOG(18)): 0

3340

75s

3341

75s ** Memory allocated, total in Mbytes (INFOG(19)): 0

3342

75s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

3343

75s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

3344

75s

3345

75s Elapsed time for factorization = 0.0007

3346

75s

3347

75s Leaving factorization with ...

3348

75s RINFOG (2) Operations in node assembly = 0.000D 00

3349

75s ------ (3) Operations in node elimination = 7.000D 01

3350

75s ICNTL (8) Scaling effectively used = 7

3351

75s INFOG (9) Real space for factors = 50

3352

75s INFOG (10) Integer space for factors = 31

3353

75s INFOG (11) Maximum front size = 5

3354

75s INFOG (29) Number of entries in factors = 25

3355

75s INFOG (12) Number of off diagonal pivots = 1

3356

75s INFOG (13) Number of delayed pivots = 0

3357

75s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

3358

75s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

3359

75s RINFOG(21) Largest pivot in absolute value = 5.281D 00

3360

75s INFOG (24) Effective value of ICNTL(12) = 1

3361

75s INFOG (14) Number of memory compress = 0

3362

75s

3363

75s Elapsed time in factorization driver = 0.0022

3364

75s

3365

75s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

3366

75s executing #MPI = 3, without OMP

3367

75s Save done successfully

3368

75s The corresponding OOC files are:

3369

75s /tmp//mumps_0_NvQ9dv

3370

75s /tmp//mumps_0_PrxYOu

3371

75s

3372

75s Elapsed time in save structure driver= 0.0009

3373

75s

3374

75s Entering ZMUMPS 5.7.3 with JOB = -2

3375

75s executing #MPI = 3, without OMP

3376

75s

3377

75s Entering ZMUMPS 5.7.3 with JOB = 8

3378

75s executing #MPI = 3, without OMP

3379

75s The corresponding OOC files are:

3380

75s /tmp//mumps_0_NvQ9dv

3381

75s /tmp//mumps_0_PrxYOu

3382

75s

3383

75s Elapsed time in restore structure driver= 0.0010

3384

75s

3385

75s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

3386

75s executing #MPI = 3, without OMP

3387

75s

3388

75s

3389

75s

3390

75s ****** SOLVE & CHECK STEP ********

3391

75s

3392

75s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

3393

75s Number of right-hand-sides = 1

3394

75s Blocking factor for multiple rhs = 1

3395

75s ICNTL (9) = 1

3396

75s --- (10) = 0

3397

75s --- (11) = 0

3398

75s --- (20) = 0

3399

75s --- (21) = 0

3400

75s --- (30) = 0

3401

75s --- (35) = 0

3402

75s --- (48) (effective) = 0

3403

75s ** Rank of processor needing largest memory in solve : 0

3404

75s ** Space in MBYTES used by this processor for solve : 0

3405

75s ** Avg. Space in MBYTES per working proc during solve : 0

3406

75s

3407

75s Leaving solve with ...

3408

75s Time to build/scatter RHS = 0.000093

3409

75s Time in solution step (fwd/bwd) = 0.000113

3410

75s .. Time in forward (fwd) step = 0.000072

3411

75s .. Time in backward (bwd) step = 0.000028

3412

75s Time to gather solution(cent.sol)= 0.000005

3413

75s Time for distributed solution = 0.000000

3414

75s

3415

75s Elapsed time in solve driver= 0.0005

3416

3417

75s

3418

75s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

3419

75s executing #MPI = 3, without OMP

3420

75s

3421

75s Entering ZMUMPS 5.7.3 with JOB = -2

3422

75s executing #MPI = 3, without OMP

3423

76s autopkgtest [07:59:02]: test mumps-examples-mpi: -----------------------]

3424

76s mumps-examples-mpi PASS

▸ ▾ test results

3425

76s autopkgtest [07:59:02]: test mumps-examples-mpi: - - - - - - - - - - results - - - - - - - - - -

▸ ▾ test mumps64-examples-serial: preparing testbed

3426

76s autopkgtest [07:59:02]: test mumps64-examples-serial: preparing testbed

3427

76s Reading package lists...

3428

76s Building dependency tree...

3429

76s Reading state information...

3430

76s Starting pkgProblemResolver with broken count: 0

3431

76s Starting 2 pkgProblemResolver with broken count: 0

3432

76s Done

3433

77s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded.

▸ ▾ test mumps64-examples-serial: test run

3434

78s autopkgtest [07:59:04]: test mumps64-examples-serial: [-----------------------

3435

78s /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

3436

78s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o

3437

78s mpifort -o csimpletest -Wl,-z,relro csimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3438

78s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o

3439

78s mpifort -o csimpletest_save_restore -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3440

79s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o

3441

79s mpifort -o zsimpletest -Wl,-z,relro zsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3442

79s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o

3443

79s mpifort -o zsimpletest_save_restore -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3444

79s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o

3445

80s mpifort -o ssimpletest -Wl,-z,relro ssimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3446

80s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o

3447

80s mpifort -o ssimpletest_save_restore -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3448

80s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o

3449

80s mpifort -o dsimpletest -Wl,-z,relro dsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3450

80s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o

3451

81s mpifort -o dsimpletest_save_restore -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3452

81s mpicc -g -O2 -Werror=implicit-function-declaration -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Wformat -Werror=format-security -DPORD_INTSIZE64 -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o

3453

81s mpifort -o c_example_save_restore -Wl,-z,relro c_example_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3454

3455

81s mpifort -o c_example -Wl,-z,relro c_example.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread

3456

81s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o

3457

82s mpifort -o multiple_arithmetics_example -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

3458

82s

3459

82s === running 64-bit c_example (serial) ===

3460

82s Solution is : ( 1.00 2.00)

3461

82s Saving MUMPS instance in /tmp with prefix csave_restore.

3462

82s DONE

3463

82s

3464

82s Restoring MUMPS instance in /tmp with prefix csave_restore.

3465

82s

3466

82s Entering DMUMPS 5.7.3 from C interface with JOB = 8

3467

82s executing #MPI = 1, without OMP

3468

82s

3469

82s Elapsed time in restore structure driver= 0.0001

3470

82s DONE

3471

82s

3472

82s Calling MUMPS package (solve).

3473

82s DONE

3474

82s

3475

82s Removing save files.

3476

82s DONE

3477

82s

3478

82s Solution is : ( 1.00 2.00)

3479

82s

3480

82s

3481

82s === running 64-bit simple test: real, single precision, serial ===

3482

82s

3483

82s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

3484

82s executing #MPI = 1, without OMP

3485

82s

3486

82s =================================================

3487

82s MUMPS compiled with option -Dpord

3488

82s =================================================

3489

82s L U Solver for unsymmetric matrices

3490

82s Type of parallelism: Working host

3491

82s

3492

82s ****** ANALYSIS STEP ********

3493

82s

3494

82s Processing a graph of size: 5

3495

82s ... Structural symmetry (in percent)= 92

3496

82s Average density of rows/columns = 2

3497

82s ... No column permutation

3498

82s Ordering based on AMF

3499

82s

3500

82s Leaving analysis phase with ...

3501

82s INFOG(1) = 0

3502

82s INFOG(2) = 0

3503

82s -- (20) Number of entries in factors (estim.) = 25

3504

82s -- (3) Real space for factors (estimated) = 25

3505

82s -- (4) Integer space for factors (estimated) = 30

3506

82s -- (5) Maximum frontal size (estimated) = 5

3507

82s -- (6) Number of nodes in the tree = 1

3508

82s -- (32) Type of analysis effectively used = 1

3509

82s -- (7) Ordering option effectively used = 2

3510

82s ICNTL (6) Maximum transversal option = 0

3511

82s ICNTL (7) Pivot order option = 7

3512

82s ICNTL(12) Ordering symmetric indef. matrices = 1

3513

82s ICNTL(13) Parallelism/splitting of root node = 0

3514

82s ICNTL(14) Percentage of memory relaxation = 20

3515

82s ICNTL(15) Analysis by block effectively used = 0

3516

82s ICNTL(18) Distributed input matrix (on if >0) = 0

3517

82s ICNTL(32) Forward elimination during facto. = 0

3518

82s ICNTL(35) BLR activation = 0

3519

82s ICNTL(48) Tree based multithreading (effective)= 0

3520

82s ICNTL(58) Symbolic factorization option = 2

3521

82s Number of level 2 nodes = 0

3522

82s Number of split nodes = 0

3523

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

3524

82s

3525

82s MEMORY ESTIMATIONS ...

3526

82s Estimations with standard Full-Rank (FR) factorization:

3527

82s Total space in MBytes, IC factorization (INFOG(17)): 0

3528

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

3529

82s

3530

82s Elapsed time in analysis driver= 0.0002

3531

82s

3532

82s

3533

82s ****** FACTORIZATION STEP ********

3534

82s

3535

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

3536

82s Number of working processes = 1

3537

82s ICNTL(22) Out-of-core option = 0

3538

82s ICNTL(35) BLR activation (eff. choice) = 0

3539

82s ICNTL(37) BLR CB compression (eff. choice) = 0

3540

82s ICNTL(49) Compact workarray S (end facto.) = 0

3541

82s ICNTL(14) Memory relaxation = 20

3542

82s INFOG(3) Real space for factors (estimated)= 25

3543

82s INFOG(4) Integer space for factors (estim.)= 30

3544

82s Maximum frontal size (estimated) = 5

3545

82s Number of nodes in the tree = 1

3546

82s ICNTL(23) Memory allowed (value on host) = 0

3547

82s Sum over all procs = 0

3548

82s Memory provided by user, sum of LWK_USER = 0

3549

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3550

82s

3551

82s Statistics on the scaling phase

3552

82s Elapsed time for scaling = 0.0000

3553

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3554

82s

3555

82s Effective size of S (based on INFO(39))= 2445

3556

82s Elapsed time to reformat/distribute matrix = 0.0000

3557

82s

3558

82s

3559

82s Allocated buffers

3560

82s ------------------

3561

82s Size of reception buffer in bytes ...... = 140000

3562

82s Size of async. emission buffer (bytes).. = 140012

3563

82s Small emission buffer (bytes) .......... = 20

3564

82s

3565

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

3566

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

3567

82s

3568

82s Elapsed time for factorization = 0.0001

3569

82s

3570

82s Leaving factorization with ...

3571

82s RINFOG (2) Operations in node assembly = 0.000D 00

3572

82s ------ (3) Operations in node elimination = 7.000D 01

3573

82s ICNTL (8) Scaling effectively used = 7

3574

82s INFOG (9) Real space for factors = 25

3575

82s INFOG (10) Integer space for factors = 30

3576

82s INFOG (11) Maximum front size = 5

3577

82s INFOG (29) Number of entries in factors = 25

3578

82s INFOG (12) Number of off diagonal pivots = 1

3579

82s INFOG (13) Number of delayed pivots = 0

3580

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

3581

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

3582

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

3583

82s INFOG (24) Effective value of ICNTL(12) = 1

3584

82s INFOG (14) Number of memory compress = 0

3585

82s

3586

82s Elapsed time in factorization driver = 0.0004

3587

82s

3588

82s

3589

82s ****** SOLVE & CHECK STEP ********

3590

82s

3591

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

3592

82s Number of right-hand-sides = 1

3593

82s Blocking factor for multiple rhs = 1

3863

82s ICNTL (9) = 1

3595

82s --- (10) = 0

3596

82s --- (11) = 0

3597

82s --- (20) = 0

3598

82s --- (21) = 0

3599

82s --- (30) = 0

3600

82s --- (35) = 0

3601

82s --- (48) (effective) = 0

3602

82s ** Space in MBYTES used for solve : 0

3603

82s

3604

82s Leaving solve with ...

3605

82s Time to build/scatter RHS = 0.000047

3606

82s Time in solution step (fwd/bwd) = 0.000025

3607

82s .. Time in forward (fwd) step = 0.000014

3608

82s .. Time in backward (bwd) step = 0.000007

3609

82s Time to gather solution(cent.sol)= 0.000002

3610

82s Time for distributed solution = 0.000000

3611

82s

3612

82s Elapsed time in solve driver= 0.0002

3613

82s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

3614

82s

3615

82s Entering SMUMPS 5.7.3 with JOB = -2

3616

82s executing #MPI = 1, without OMP

3617

82s

3618

82s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

3619

82s executing #MPI = 1, without OMP

3620

82s

3621

82s =================================================

3622

82s MUMPS compiled with option -Dpord

3623

82s =================================================

3624

82s L U Solver for unsymmetric matrices

3625

82s Type of parallelism: Working host

3626

82s

3627

82s ****** ANALYSIS STEP ********

3628

82s

3629

82s Processing a graph of size: 5

3630

82s ... Structural symmetry (in percent)= 92

3631

82s Average density of rows/columns = 2

3632

82s ... No column permutation

3633

82s Ordering based on AMF

3634

82s

3635

82s Leaving analysis phase with ...

3636

82s INFOG(1) = 0

3637

82s INFOG(2) = 0

3638

82s -- (20) Number of entries in factors (estim.) = 25

3639

82s -- (3) Real space for factors (estimated) = 25

3640

82s -- (4) Integer space for factors (estimated) = 30

3641

82s -- (5) Maximum frontal size (estimated) = 5

3642

82s -- (6) Number of nodes in the tree = 1

3643

82s -- (32) Type of analysis effectively used = 1

3644

82s -- (7) Ordering option effectively used = 2

3645

82s ICNTL (6) Maximum transversal option = 0

3646

82s ICNTL (7) Pivot order option = 7

3647

82s ICNTL(12) Ordering symmetric indef. matrices = 1

3648

82s ICNTL(13) Parallelism/splitting of root node = 0

3649

82s ICNTL(14) Percentage of memory relaxation = 20

3650

82s ICNTL(15) Analysis by block effectively used = 0

3651

82s ICNTL(18) Distributed input matrix (on if >0) = 0

3652

82s ICNTL(32) Forward elimination during facto. = 0

3653

82s ICNTL(35) BLR activation = 0

3654

82s ICNTL(48) Tree based multithreading (effective)= 0

3655

82s ICNTL(58) Symbolic factorization option = 2

3656

82s Number of level 2 nodes = 0

3657

82s Number of split nodes = 0

3658

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

3659

82s

3660

82s MEMORY ESTIMATIONS ...

3661

82s Estimations with standard Full-Rank (FR) factorization:

3662

82s Total space in MBytes, IC factorization (INFOG(17)): 0

3663

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

3664

82s

3665

82s Elapsed time in analysis driver= 0.0002

3666

82s

3667

82s

3668

82s ****** FACTORIZATION STEP ********

3669

82s

3670

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

3671

82s Number of working processes = 1

3672

82s ICNTL(22) Out-of-core option = 1

3673

82s ICNTL(35) BLR activation (eff. choice) = 0

3674

82s ICNTL(37) BLR CB compression (eff. choice) = 0

3675

82s ICNTL(49) Compact workarray S (end facto.) = 0

3676

82s ICNTL(14) Memory relaxation = 20

3677

82s INFOG(3) Real space for factors (estimated)= 25

3678

82s INFOG(4) Integer space for factors (estim.)= 30

3679

82s Maximum frontal size (estimated) = 5

3680

82s Number of nodes in the tree = 1

3681

82s ICNTL(23) Memory allowed (value on host) = 0

3682

82s Sum over all procs = 0

3683

82s Memory provided by user, sum of LWK_USER = 0

3684

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3685

82s

3686

82s Statistics on the scaling phase

3687

82s Elapsed time for scaling = 0.0000

3688

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3689

82s

3690

82s Effective size of S (based on INFO(39))= 2445

3691

82s Elapsed time to reformat/distribute matrix = 0.0000

3692

82s

3693

82s

3694

82s Allocated buffers

3695

82s ------------------

3696

82s Size of reception buffer in bytes ...... = 140000

3697

82s Size of async. emission buffer (bytes).. = 140012

3698

82s Small emission buffer (bytes) .......... = 20

3699

82s

3700

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

3701

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

3702

82s

3703

82s Elapsed time for factorization = 0.0002

3704

82s

3705

82s Leaving factorization with ...

3706

82s RINFOG (2) Operations in node assembly = 0.000D 00

3707

82s ------ (3) Operations in node elimination = 7.000D 01

3708

82s ICNTL (8) Scaling effectively used = 7

3709

82s INFOG (9) Real space for factors = 50

3710

82s INFOG (10) Integer space for factors = 31

3711

82s INFOG (11) Maximum front size = 5

3712

82s INFOG (29) Number of entries in factors = 25

3713

82s INFOG (12) Number of off diagonal pivots = 1

3714

82s INFOG (13) Number of delayed pivots = 0

3715

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

3716

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

3717

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

3718

82s INFOG (24) Effective value of ICNTL(12) = 1

3719

82s INFOG (14) Number of memory compress = 0

3720

82s

3721

82s Elapsed time in factorization driver = 0.0008

3722

82s

3723

82s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

3724

82s executing #MPI = 1, without OMP

3725

82s Save done successfully

3726

82s The corresponding OOC files are:

3727

82s /tmp//mumps_0_87G2Ah

3728

82s /tmp//mumps_0_bUO0hn

3729

82s

3730

82s Elapsed time in save structure driver= 0.0004

3731

82s

3732

82s Entering SMUMPS 5.7.3 with JOB = -2

3733

82s executing #MPI = 1, without OMP

3734

82s

3735

82s Entering SMUMPS 5.7.3 with JOB = 8

3736

82s executing #MPI = 1, without OMP

3737

82s The corresponding OOC files are:

3738

82s /tmp//mumps_0_87G2Ah

3739

82s /tmp//mumps_0_bUO0hn

3740

82s

3741

82s Elapsed time in restore structure driver= 0.0002

3742

82s

3743

82s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

3744

82s executing #MPI = 1, without OMP

3745

82s

3746

82s

3747

82s

3748

82s ****** SOLVE & CHECK STEP ********

3749

82s

3750

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

3751

82s Number of right-hand-sides = 1

3752

82s Blocking factor for multiple rhs = 1

3753

82s ICNTL (9) = 1

3754

82s --- (10) = 0

3755

82s --- (11) = 0

3756

82s --- (20) = 0

3757

82s --- (21) = 0

3758

82s --- (30) = 0

3759

82s --- (35) = 0

3760

82s --- (48) (effective) = 0

3761

82s ** Space in MBYTES used for solve : 0

3762

82s

3763

82s Leaving solve with ...

3764

82s Time to build/scatter RHS = 0.000071

3765

82s Time in solution step (fwd/bwd) = 0.000060

3766

82s .. Time in forward (fwd) step = 0.000040

3767

82s .. Time in backward (bwd) step = 0.000014

3768

82s Time to gather solution(cent.sol)= 0.000002

3769

82s Time for distributed solution = 0.000000

3770

82s

3771

82s Elapsed time in solve driver= 0.0003

3772

82s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

3773

82s

3774

82s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

3775

82s executing #MPI = 1, without OMP

3776

82s

3777

82s Entering SMUMPS 5.7.3 with JOB = -2

3778

82s executing #MPI = 1, without OMP

3779

82s

3780

82s

3781

82s === running 64-bit simple test: real, double precision, serial ===

3782

82s

3783

82s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

3784

82s executing #MPI = 1, without OMP

3785

82s

3786

82s =================================================

3787

82s MUMPS compiled with option -Dpord

3788

82s =================================================

3789

82s L U Solver for unsymmetric matrices

3790

82s Type of parallelism: Working host

3791

82s

3792

82s ****** ANALYSIS STEP ********

3793

82s

3794

82s Processing a graph of size: 5

3795

82s ... Structural symmetry (in percent)= 92

3796

82s Average density of rows/columns = 2

3797

82s ... No column permutation

3798

82s Ordering based on AMF

3799

82s

3800

82s Leaving analysis phase with ...

3801

82s INFOG(1) = 0

3802

82s INFOG(2) = 0

3803

82s -- (20) Number of entries in factors (estim.) = 25

3804

82s -- (3) Real space for factors (estimated) = 25

3805

82s -- (4) Integer space for factors (estimated) = 30

3806

82s -- (5) Maximum frontal size (estimated) = 5

3807

82s -- (6) Number of nodes in the tree = 1

3808

82s -- (32) Type of analysis effectively used = 1

3809

82s -- (7) Ordering option effectively used = 2

3810

82s ICNTL (6) Maximum transversal option = 0

3811

82s ICNTL (7) Pivot order option = 7

3812

82s ICNTL(12) Ordering symmetric indef. matrices = 1

3813

82s ICNTL(13) Parallelism/splitting of root node = 0

3814

82s ICNTL(14) Percentage of memory relaxation = 20

3815

82s ICNTL(15) Analysis by block effectively used = 0

3816

82s ICNTL(18) Distributed input matrix (on if >0) = 0

3817

82s ICNTL(32) Forward elimination during facto. = 0

3818

82s ICNTL(35) BLR activation = 0

3819

82s ICNTL(48) Tree based multithreading (effective)= 0

3820

82s ICNTL(58) Symbolic factorization option = 2

3821

82s Number of level 2 nodes = 0

3822

82s Number of split nodes = 0

3823

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

3824

82s

3825

82s MEMORY ESTIMATIONS ...

3826

82s Estimations with standard Full-Rank (FR) factorization:

3827

82s Total space in MBytes, IC factorization (INFOG(17)): 0

3828

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

3829

82s

3830

82s Elapsed time in analysis driver= 0.0002

3831

82s

3832

82s

3833

82s ****** FACTORIZATION STEP ********

3834

82s

3835

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

3836

82s Number of working processes = 1

3837

82s ICNTL(22) Out-of-core option = 0

3838

82s ICNTL(35) BLR activation (eff. choice) = 0

3839

82s ICNTL(37) BLR CB compression (eff. choice) = 0

3840

82s ICNTL(49) Compact workarray S (end facto.) = 0

3841

82s ICNTL(14) Memory relaxation = 20

3842

82s INFOG(3) Real space for factors (estimated)= 25

3843

82s INFOG(4) Integer space for factors (estim.)= 30

3844

82s Maximum frontal size (estimated) = 5

3845

82s Number of nodes in the tree = 1

3846

82s ICNTL(23) Memory allowed (value on host) = 0

3847

82s Sum over all procs = 0

3848

82s Memory provided by user, sum of LWK_USER = 0

3849

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3850

82s

3851

82s Statistics on the scaling phase

3852

82s Elapsed time for scaling = 0.0000

3853

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3854

82s

3855

82s Effective size of S (based on INFO(39))= 2445

3856

82s Elapsed time to reformat/distribute matrix = 0.0000

3857

82s

3858

82s

3859

82s Allocated buffers

3860

82s ------------------

3861

82s Size of reception buffer in bytes ...... = 140000

3862

82s Size of async. emission buffer (bytes).. = 140012

3863

82s Small emission buffer (bytes) .......... = 20

3864

82s

3865

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

3866

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

3867

82s

3868

82s Elapsed time for factorization = 0.0002

3869

82s

3870

82s Leaving factorization with ...

3871

82s RINFOG (2) Operations in node assembly = 0.000D 00

3872

82s ------ (3) Operations in node elimination = 7.000D 01

3873

82s ICNTL (8) Scaling effectively used = 7

3874

82s INFOG (9) Real space for factors = 25

3875

82s INFOG (10) Integer space for factors = 30

3876

82s INFOG (11) Maximum front size = 5

3877

82s INFOG (29) Number of entries in factors = 25

3878

82s INFOG (12) Number of off diagonal pivots = 1

3879

82s INFOG (13) Number of delayed pivots = 0

3880

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

3881

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

3882

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

3883

82s INFOG (24) Effective value of ICNTL(12) = 1

3884

82s INFOG (14) Number of memory compress = 0

3885

82s

3886

82s Elapsed time in factorization driver = 0.0004

3887

82s

3888

82s

3889

82s ****** SOLVE & CHECK STEP ********

3890

82s

3891

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

3892

82s Number of right-hand-sides = 1

3893

82s Blocking factor for multiple rhs = 1

3894

82s ICNTL (9) = 1

3895

82s --- (10) = 0

3896

82s --- (11) = 0

3897

82s --- (20) = 0

3898

82s --- (21) = 0

3899

82s --- (30) = 0

3900

82s --- (35) = 0

3901

82s --- (48) (effective) = 0

3902

82s ** Space in MBYTES used for solve : 0

3903

82s

3904

82s Leaving solve with ...

3905

82s Time to build/scatter RHS = 0.000058

3906

82s Time in solution step (fwd/bwd) = 0.000021

3907

82s .. Time in forward (fwd) step = 0.000011

3908

82s .. Time in backward (bwd) step = 0.000006

3909

82s Time to gather solution(cent.sol)= 0.000001

3910

82s Time for distributed solution = 0.000000

3911

82s

3912

82s Elapsed time in solve driver= 0.0002

3913

82s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

3914

82s

3915

82s Entering DMUMPS 5.7.3 with JOB = -2

3916

82s executing #MPI = 1, without OMP

3917

82s

3918

82s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

3919

82s executing #MPI = 1, without OMP

3920

82s

3921

82s =================================================

3922

82s MUMPS compiled with option -Dpord

3923

82s =================================================

3924

82s L U Solver for unsymmetric matrices

3925

82s Type of parallelism: Working host

3926

82s

3927

82s ****** ANALYSIS STEP ********

3928

82s

3929

82s Processing a graph of size: 5

3930

82s ... Structural symmetry (in percent)= 92

3931

82s Average density of rows/columns = 2

3932

82s ... No column permutation

3933

82s Ordering based on AMF

3934

82s

3935

82s Leaving analysis phase with ...

3936

82s INFOG(1) = 0

3937

82s INFOG(2) = 0

3938

82s -- (20) Number of entries in factors (estim.) = 25

3939

82s -- (3) Real space for factors (estimated) = 25

3940

82s -- (4) Integer space for factors (estimated) = 30

3941

82s -- (5) Maximum frontal size (estimated) = 5

3942

82s -- (6) Number of nodes in the tree = 1

3943

82s -- (32) Type of analysis effectively used = 1

3944

82s -- (7) Ordering option effectively used = 2

3945

82s ICNTL (6) Maximum transversal option = 0

3946

82s ICNTL (7) Pivot order option = 7

3947

82s ICNTL(12) Ordering symmetric indef. matrices = 1

3948

82s ICNTL(13) Parallelism/splitting of root node = 0

3949

82s ICNTL(14) Percentage of memory relaxation = 20

3950

82s ICNTL(15) Analysis by block effectively used = 0

3951

82s ICNTL(18) Distributed input matrix (on if >0) = 0

3952

82s ICNTL(32) Forward elimination during facto. = 0

3953

82s ICNTL(35) BLR activation = 0

3954

82s ICNTL(48) Tree based multithreading (effective)= 0

3955

82s ICNTL(58) Symbolic factorization option = 2

3956

82s Number of level 2 nodes = 0

3957

82s Number of split nodes = 0

3958

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

3959

82s

3960

82s MEMORY ESTIMATIONS ...

3961

82s Estimations with standard Full-Rank (FR) factorization:

3962

82s Total space in MBytes, IC factorization (INFOG(17)): 0

3963

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

3964

82s

3965

82s Elapsed time in analysis driver= 0.0002

3966

82s

3967

82s

3968

82s ****** FACTORIZATION STEP ********

3969

82s

3970

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

3971

82s Number of working processes = 1

3972

82s ICNTL(22) Out-of-core option = 1

3973

82s ICNTL(35) BLR activation (eff. choice) = 0

3974

82s ICNTL(37) BLR CB compression (eff. choice) = 0

3975

82s ICNTL(49) Compact workarray S (end facto.) = 0

3976

82s ICNTL(14) Memory relaxation = 20

3977

82s INFOG(3) Real space for factors (estimated)= 25

3978

82s INFOG(4) Integer space for factors (estim.)= 30

3979

82s Maximum frontal size (estimated) = 5

3980

82s Number of nodes in the tree = 1

3981

82s ICNTL(23) Memory allowed (value on host) = 0

3982

82s Sum over all procs = 0

3983

82s Memory provided by user, sum of LWK_USER = 0

3984

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

3985

82s

3986

82s Statistics on the scaling phase

3987

82s Elapsed time for scaling = 0.0000

3988

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

3989

82s

3990

82s Effective size of S (based on INFO(39))= 2445

3991

82s Elapsed time to reformat/distribute matrix = 0.0000

3992

82s

3993

82s

3994

82s Allocated buffers

3995

82s ------------------

3996

82s Size of reception buffer in bytes ...... = 140000

3997

82s Size of async. emission buffer (bytes).. = 140012

3998

82s Small emission buffer (bytes) .......... = 20

3999

82s

4000

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4001

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4002

82s

4003

82s Elapsed time for factorization = 0.0002

4004

82s

4005

82s Leaving factorization with ...

4006

82s RINFOG (2) Operations in node assembly = 0.000D 00

4007

82s ------ (3) Operations in node elimination = 7.000D 01

4008

82s ICNTL (8) Scaling effectively used = 7

4009

82s INFOG (9) Real space for factors = 50

4010

82s INFOG (10) Integer space for factors = 31

4011

82s INFOG (11) Maximum front size = 5

4012

82s INFOG (29) Number of entries in factors = 25

4013

82s INFOG (12) Number of off diagonal pivots = 1

4014

82s INFOG (13) Number of delayed pivots = 0

4015

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4016

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4017

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4018

82s INFOG (24) Effective value of ICNTL(12) = 1

4019

82s INFOG (14) Number of memory compress = 0

4020

82s

4021

82s Elapsed time in factorization driver = 0.0008

4022

82s

4023

82s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

4024

82s executing #MPI = 1, without OMP

4025

82s Save done successfully

4026

82s The corresponding OOC files are:

4027

82s /tmp//mumps_0_lJdAvt

4028

82s /tmp//mumps_0_DVOLgc

4029

82s

4030

82s Elapsed time in save structure driver= 0.0004

4031

82s

4032

82s Entering DMUMPS 5.7.3 with JOB = -2

4033

82s executing #MPI = 1, without OMP

4034

82s

4035

82s Entering DMUMPS 5.7.3 with JOB = 8

4036

82s executing #MPI = 1, without OMP

4037

82s The corresponding OOC files are:

4038

82s /tmp//mumps_0_lJdAvt

4039

82s /tmp//mumps_0_DVOLgc

4040

82s

4041

82s Elapsed time in restore structure driver= 0.0002

4042

82s

4043

82s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

4044

82s executing #MPI = 1, without OMP

4045

82s

4046

82s

4047

82s

4048

82s ****** SOLVE & CHECK STEP ********

4049

82s

4050

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

4051

82s Number of right-hand-sides = 1

4052

82s Blocking factor for multiple rhs = 1

4053

82s ICNTL (9) = 1

4054

82s --- (10) = 0

4055

82s --- (11) = 0

4056

82s --- (20) = 0

4057

82s --- (21) = 0

4058

82s --- (30) = 0

4059

82s --- (35) = 0

4060

82s --- (48) (effective) = 0

4061

82s ** Space in MBYTES used for solve : 0

4062

82s

4063

82s Leaving solve with ...

4064

82s Time to build/scatter RHS = 0.000068

4065

82s Time in solution step (fwd/bwd) = 0.000050

4066

82s .. Time in forward (fwd) step = 0.000033

4067

82s .. Time in backward (bwd) step = 0.000012

4068

82s Time to gather solution(cent.sol)= 0.000001

4069

82s Time for distributed solution = 0.000000

4070

82s

4071

82s Elapsed time in solve driver= 0.0003

4072

82s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

4073

82s

4074

82s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

4075

82s executing #MPI = 1, without OMP

4076

82s

4077

82s Entering DMUMPS 5.7.3 with JOB = -2

4078

82s executing #MPI = 1, without OMP

4079

82s

4080

82s

4081

82s === running 64-bit simple test: complex, single precision, serial ===

4082

82s

4083

82s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

4084

82s executing #MPI = 1, without OMP

4085

82s

4086

82s =================================================

4087

82s MUMPS compiled with option -Dpord

4088

82s =================================================

4089

82s L U Solver for unsymmetric matrices

4090

82s Type of parallelism: Working host

4091

82s

4092

82s ****** ANALYSIS STEP ********

4093

82s

4094

82s Processing a graph of size: 5

4095

82s ... Structural symmetry (in percent)= 92

4096

82s Average density of rows/columns = 2

4097

82s ... No column permutation

4098

82s Ordering based on AMF

4099

82s

4100

82s Leaving analysis phase with ...

4101

82s INFOG(1) = 0

4102

82s INFOG(2) = 0

4103

82s -- (20) Number of entries in factors (estim.) = 25

4104

82s -- (3) Real space for factors (estimated) = 25

4105

82s -- (4) Integer space for factors (estimated) = 30

4106

82s -- (5) Maximum frontal size (estimated) = 5

4107

82s -- (6) Number of nodes in the tree = 1

4108

82s -- (32) Type of analysis effectively used = 1

4109

82s -- (7) Ordering option effectively used = 2

4110

82s ICNTL (6) Maximum transversal option = 0

4111

82s ICNTL (7) Pivot order option = 7

4112

82s ICNTL(12) Ordering symmetric indef. matrices = 1

4113

82s ICNTL(13) Parallelism/splitting of root node = 0

4114

82s ICNTL(14) Percentage of memory relaxation = 20

4115

82s ICNTL(15) Analysis by block effectively used = 0

4116

82s ICNTL(18) Distributed input matrix (on if >0) = 0

4117

82s ICNTL(32) Forward elimination during facto. = 0

4118

82s ICNTL(35) BLR activation = 0

4119

82s ICNTL(48) Tree based multithreading (effective)= 0

4120

82s ICNTL(58) Symbolic factorization option = 2

4121

82s Number of level 2 nodes = 0

4122

82s Number of split nodes = 0

4123

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

4124

82s

4125

82s MEMORY ESTIMATIONS ...

4126

82s Estimations with standard Full-Rank (FR) factorization:

4127

82s Total space in MBytes, IC factorization (INFOG(17)): 0

4128

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

4129

82s

4130

82s Elapsed time in analysis driver= 0.0013

4131

82s

4132

82s

4133

82s ****** FACTORIZATION STEP ********

4134

82s

4135

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

4136

82s Number of working processes = 1

4137

82s ICNTL(22) Out-of-core option = 0

4138

82s ICNTL(35) BLR activation (eff. choice) = 0

4139

82s ICNTL(37) BLR CB compression (eff. choice) = 0

4140

82s ICNTL(49) Compact workarray S (end facto.) = 0

4141

82s ICNTL(14) Memory relaxation = 20

4142

82s INFOG(3) Real space for factors (estimated)= 25

4143

82s INFOG(4) Integer space for factors (estim.)= 30

4144

82s Maximum frontal size (estimated) = 5

4145

82s Number of nodes in the tree = 1

4146

82s ICNTL(23) Memory allowed (value on host) = 0

4147

82s Sum over all procs = 0

4148

82s Memory provided by user, sum of LWK_USER = 0

4149

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

4150

82s

4151

82s Statistics on the scaling phase

4152

82s Elapsed time for scaling = 0.0000

4153

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

4154

82s

4155

82s Effective size of S (based on INFO(39))= 2445

4156

82s Elapsed time to reformat/distribute matrix = 0.0000

4157

82s

4158

82s

4159

82s Allocated buffers

4160

82s ------------------

4161

82s Size of reception buffer in bytes ...... = 140000

4162

82s Size of async. emission buffer (bytes).. = 140012

4163

82s Small emission buffer (bytes) .......... = 20

4164

82s

4165

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4166

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4167

82s

4168

82s Elapsed time for factorization = 0.0003

4169

82s

4170

82s Leaving factorization with ...

4171

82s RINFOG (2) Operations in node assembly = 0.000D 00

4172

82s ------ (3) Operations in node elimination = 7.000D 01

4173

82s ICNTL (8) Scaling effectively used = 7

4174

82s INFOG (9) Real space for factors = 25

4175

82s INFOG (10) Integer space for factors = 30

4176

82s INFOG (11) Maximum front size = 5

4177

82s INFOG (29) Number of entries in factors = 25

4178

82s INFOG (12) Number of off diagonal pivots = 1

4179

82s INFOG (13) Number of delayed pivots = 0

4180

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4181

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4182

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4183

82s INFOG (24) Effective value of ICNTL(12) = 1

4184

82s INFOG (14) Number of memory compress = 0

4185

82s

4186

82s Elapsed time in factorization driver = 0.0019

4187

82s

4188

82s

4189

82s ****** SOLVE & CHECK STEP ********

4190

82s

4191

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

4192

82s Number of right-hand-sides = 1

4193

82s Blocking factor for multiple rhs = 1

4194

82s ICNTL (9) = 1

4195

82s --- (10) = 0

4196

82s --- (11) = 0

4197

82s --- (20) = 0

4198

82s --- (21) = 0

4199

82s --- (30) = 0

4200

82s --- (35) = 0

4201

82s --- (48) (effective) = 0

4202

82s ** Space in MBYTES used for solve : 0

4203

82s

4204

82s Leaving solve with ...

4205

82s Time to build/scatter RHS = 0.000048

4206

82s Time in solution step (fwd/bwd) = 0.000024

4207

82s .. Time in forward (fwd) step = 0.000014

4208

82s .. Time in backward (bwd) step = 0.000007

4209

82s Time to gather solution(cent.sol)= 0.000002

4210

82s Time for distributed solution = 0.000000

4211

82s

4212

82s Elapsed time in solve driver= 0.0009

4213

82s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

4214

82s

4215

82s Entering CMUMPS 5.7.3 with JOB = -2

4216

82s executing #MPI = 1, without OMP

4217

82s

4218

82s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

4219

82s executing #MPI = 1, without OMP

4220

82s

4221

82s =================================================

4222

82s MUMPS compiled with option -Dpord

4223

82s =================================================

4224

82s L U Solver for unsymmetric matrices

4225

82s Type of parallelism: Working host

4226

82s

4227

82s ****** ANALYSIS STEP ********

4228

82s

4229

82s Processing a graph of size: 5

4230

82s ... Structural symmetry (in percent)= 92

4231

82s Average density of rows/columns = 2

4232

82s ... No column permutation

4233

82s Ordering based on AMF

4234

82s

4235

82s Leaving analysis phase with ...

4236

82s INFOG(1) = 0

4237

82s INFOG(2) = 0

4238

82s -- (20) Number of entries in factors (estim.) = 25

4239

82s -- (3) Real space for factors (estimated) = 25

4240

82s -- (4) Integer space for factors (estimated) = 30

4241

82s -- (5) Maximum frontal size (estimated) = 5

4242

82s -- (6) Number of nodes in the tree = 1

4243

82s -- (32) Type of analysis effectively used = 1

4244

82s -- (7) Ordering option effectively used = 2

4245

82s ICNTL (6) Maximum transversal option = 0

4246

82s ICNTL (7) Pivot order option = 7

4247

82s ICNTL(12) Ordering symmetric indef. matrices = 1

4248

82s ICNTL(13) Parallelism/splitting of root node = 0

4249

82s ICNTL(14) Percentage of memory relaxation = 20

4250

82s ICNTL(15) Analysis by block effectively used = 0

4251

82s ICNTL(18) Distributed input matrix (on if >0) = 0

4252

82s ICNTL(32) Forward elimination during facto. = 0

4253

82s ICNTL(35) BLR activation = 0

4254

82s ICNTL(48) Tree based multithreading (effective)= 0

4255

82s ICNTL(58) Symbolic factorization option = 2

4256

82s Number of level 2 nodes = 0

4257

82s Number of split nodes = 0

4258

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

4259

82s

4260

82s MEMORY ESTIMATIONS ...

4261

82s Estimations with standard Full-Rank (FR) factorization:

4262

82s Total space in MBytes, IC factorization (INFOG(17)): 0

4263

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

4264

82s

4265

82s Elapsed time in analysis driver= 0.0002

4266

82s

4267

82s

4268

82s ****** FACTORIZATION STEP ********

4269

82s

4270

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

4271

82s Number of working processes = 1

4272

82s ICNTL(22) Out-of-core option = 1

4273

82s ICNTL(35) BLR activation (eff. choice) = 0

4274

82s ICNTL(37) BLR CB compression (eff. choice) = 0

4275

82s ICNTL(49) Compact workarray S (end facto.) = 0

4276

82s ICNTL(14) Memory relaxation = 20

4277

82s INFOG(3) Real space for factors (estimated)= 25

4278

82s INFOG(4) Integer space for factors (estim.)= 30

4279

82s Maximum frontal size (estimated) = 5

4280

82s Number of nodes in the tree = 1

4281

82s ICNTL(23) Memory allowed (value on host) = 0

4282

82s Sum over all procs = 0

4283

82s Memory provided by user, sum of LWK_USER = 0

4284

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

4285

82s

4286

82s Statistics on the scaling phase

4287

82s Elapsed time for scaling = 0.0000

4288

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

4289

82s

4290

82s Effective size of S (based on INFO(39))= 2445

4291

82s Elapsed time to reformat/distribute matrix = 0.0000

4292

82s

4293

82s

4294

82s Allocated buffers

4295

82s ------------------

4296

82s Size of reception buffer in bytes ...... = 140000

4297

82s Size of async. emission buffer (bytes).. = 140012

4298

82s Small emission buffer (bytes) .......... = 20

4299

82s

4300

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4301

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4302

82s

4303

82s Elapsed time for factorization = 0.0002

4304

82s

4305

82s Leaving factorization with ...

4306

82s RINFOG (2) Operations in node assembly = 0.000D 00

4307

82s ------ (3) Operations in node elimination = 7.000D 01

4308

82s ICNTL (8) Scaling effectively used = 7

4309

82s INFOG (9) Real space for factors = 50

4310

82s INFOG (10) Integer space for factors = 31

4311

82s INFOG (11) Maximum front size = 5

4312

82s INFOG (29) Number of entries in factors = 25

4313

82s INFOG (12) Number of off diagonal pivots = 1

4314

82s INFOG (13) Number of delayed pivots = 0

4315

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4316

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4317

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4318

82s INFOG (24) Effective value of ICNTL(12) = 1

4319

82s INFOG (14) Number of memory compress = 0

4320

82s

4321

82s Elapsed time in factorization driver = 0.0007

4322

82s

4323

82s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

4324

82s executing #MPI = 1, without OMP

4325

82s Save done successfully

4326

82s The corresponding OOC files are:

4327

82s /tmp//mumps_0_nHVLWk

4328

82s /tmp//mumps_0_JknmnR

4329

82s

4330

82s Elapsed time in save structure driver= 0.0004

4331

82s

4332

82s Entering CMUMPS 5.7.3 with JOB = -2

4333

82s executing #MPI = 1, without OMP

4334

82s

4335

82s Entering CMUMPS 5.7.3 with JOB = 8

4336

82s executing #MPI = 1, without OMP

4337

82s The corresponding OOC files are:

4338

82s /tmp//mumps_0_nHVLWk

4339

82s /tmp//mumps_0_JknmnR

4340

82s

4341

82s Elapsed time in restore structure driver= 0.0002

4342

82s

4343

82s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

4344

82s executing #MPI = 1, without OMP

4345

82s

4346

82s

4347

82s

4348

82s ****** SOLVE & CHECK STEP ********

4349

82s

4350

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

4351

82s Number of right-hand-sides = 1

4352

82s Blocking factor for multiple rhs = 1

4353

82s ICNTL (9) = 1

4354

82s --- (10) = 0

4355

82s --- (11) = 0

4356

82s --- (20) = 0

4357

82s --- (21) = 0

4358

82s --- (30) = 0

4359

82s --- (35) = 0

4360

82s --- (48) (effective) = 0

4361

82s ** Space in MBYTES used for solve : 0

4362

82s

4363

82s Leaving solve with ...

4364

82s Time to build/scatter RHS = 0.000078

4365

82s Time in solution step (fwd/bwd) = 0.000071

4366

82s .. Time in forward (fwd) step = 0.000045

4367

82s .. Time in backward (bwd) step = 0.000017

4368

82s Time to gather solution(cent.sol)= 0.000003

4369

82s Time for distributed solution = 0.000000

4370

82s

4371

82s Elapsed time in solve driver= 0.0004

4372

82s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

4373

82s

4374

82s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

4375

82s executing #MPI = 1, without OMP

4376

82s

4377

82s Entering CMUMPS 5.7.3 with JOB = -2

4378

82s executing #MPI = 1, without OMP

4379

82s

4380

82s

4381

82s === running 64-bit simple test: complex, double precision, serial ===

4382

82s

4383

82s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

4384

82s executing #MPI = 1, without OMP

4385

82s

4386

82s =================================================

4387

82s MUMPS compiled with option -Dpord

4388

82s =================================================

4389

82s L U Solver for unsymmetric matrices

4390

82s Type of parallelism: Working host

4391

82s

4392

82s ****** ANALYSIS STEP ********

4393

82s

4394

82s Processing a graph of size: 5

4395

82s ... Structural symmetry (in percent)= 92

4396

82s Average density of rows/columns = 2

4397

82s ... No column permutation

4398

82s Ordering based on AMF

4399

82s

4400

82s Leaving analysis phase with ...

4401

82s INFOG(1) = 0

4402

82s INFOG(2) = 0

4403

82s -- (20) Number of entries in factors (estim.) = 25

4404

82s -- (3) Real space for factors (estimated) = 25

4405

82s -- (4) Integer space for factors (estimated) = 30

4406

82s -- (5) Maximum frontal size (estimated) = 5

4407

82s -- (6) Number of nodes in the tree = 1

4408

82s -- (32) Type of analysis effectively used = 1

4409

82s -- (7) Ordering option effectively used = 2

4410

82s ICNTL (6) Maximum transversal option = 0

4411

82s ICNTL (7) Pivot order option = 7

4412

82s ICNTL(12) Ordering symmetric indef. matrices = 1

4413

82s ICNTL(13) Parallelism/splitting of root node = 0

4414

82s ICNTL(14) Percentage of memory relaxation = 20

4415

82s ICNTL(15) Analysis by block effectively used = 0

4416

82s ICNTL(18) Distributed input matrix (on if >0) = 0

4417

82s ICNTL(32) Forward elimination during facto. = 0

4418

82s ICNTL(35) BLR activation = 0

4419

82s ICNTL(48) Tree based multithreading (effective)= 0

4420

82s ICNTL(58) Symbolic factorization option = 2

4421

82s Number of level 2 nodes = 0

4422

82s Number of split nodes = 0

4423

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

4424

82s

4425

82s MEMORY ESTIMATIONS ...

4426

82s Estimations with standard Full-Rank (FR) factorization:

4427

82s Total space in MBytes, IC factorization (INFOG(17)): 0

4428

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

4429

82s

4430

82s Elapsed time in analysis driver= 0.0002

4431

82s

4432

82s

4433

82s ****** FACTORIZATION STEP ********

4434

82s

4435

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

4436

82s Number of working processes = 1

4437

82s ICNTL(22) Out-of-core option = 0

4438

82s ICNTL(35) BLR activation (eff. choice) = 0

4439

82s ICNTL(37) BLR CB compression (eff. choice) = 0

4440

82s ICNTL(49) Compact workarray S (end facto.) = 0

4441

82s ICNTL(14) Memory relaxation = 20

4442

82s INFOG(3) Real space for factors (estimated)= 25

4443

82s INFOG(4) Integer space for factors (estim.)= 30

4444

82s Maximum frontal size (estimated) = 5

4445

82s Number of nodes in the tree = 1

4446

82s ICNTL(23) Memory allowed (value on host) = 0

4447

82s Sum over all procs = 0

4448

82s Memory provided by user, sum of LWK_USER = 0

4449

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

4450

82s

4451

82s Statistics on the scaling phase

4452

82s Elapsed time for scaling = 0.0000

4453

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

4454

82s

4455

82s Effective size of S (based on INFO(39))= 2445

4456

82s Elapsed time to reformat/distribute matrix = 0.0000

4457

82s

4458

82s

4459

82s Allocated buffers

4460

82s ------------------

4461

82s Size of reception buffer in bytes ...... = 140000

4462

82s Size of async. emission buffer (bytes).. = 140012

4463

82s Small emission buffer (bytes) .......... = 20

4464

82s

4465

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4466

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4467

82s

4468

82s Elapsed time for factorization = 0.0001

4469

82s

4470

82s Leaving factorization with ...

4471

82s RINFOG (2) Operations in node assembly = 0.000D 00

4472

82s ------ (3) Operations in node elimination = 7.000D 01

4473

82s ICNTL (8) Scaling effectively used = 7

4474

82s INFOG (9) Real space for factors = 25

4475

82s INFOG (10) Integer space for factors = 30

4476

82s INFOG (11) Maximum front size = 5

4477

82s INFOG (29) Number of entries in factors = 25

4478

82s INFOG (12) Number of off diagonal pivots = 1

4479

82s INFOG (13) Number of delayed pivots = 0

4480

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4481

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4482

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4483

82s INFOG (24) Effective value of ICNTL(12) = 1

4484

82s INFOG (14) Number of memory compress = 0

4485

82s

4486

82s Elapsed time in factorization driver = 0.0003

4487

82s

4488

82s

4489

82s ****** SOLVE & CHECK STEP ********

4490

82s

4491

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

4492

82s Number of right-hand-sides = 1

4493

82s Blocking factor for multiple rhs = 1

4494

82s ICNTL (9) = 1

4495

82s --- (10) = 0

4496

82s --- (11) = 0

4497

82s --- (20) = 0

4498

82s --- (21) = 0

4499

82s --- (30) = 0

4500

82s --- (35) = 0

4501

82s --- (48) (effective) = 0

4502

82s ** Space in MBYTES used for solve : 0

4503

82s

4504

82s Leaving solve with ...

4505

82s Time to build/scatter RHS = 0.000039

4506

82s Time in solution step (fwd/bwd) = 0.000027

4507

82s .. Time in forward (fwd) step = 0.000013

4508

82s .. Time in backward (bwd) step = 0.000010

4509

82s Time to gather solution(cent.sol)= 0.000002

4510

82s Time for distributed solution = 0.000000

4511

82s

4512

82s Elapsed time in solve driver= 0.0002

4513

82s Solution is (1.0000000000000013,0.0000000000000000) (2.0000000000000000,0.0000000000000000) (3.0000000000000004,0.0000000000000000) (4.0000000000000000,0.0000000000000000) (4.9999999999999991,0.0000000000000000)

4514

82s

4515

82s Entering ZMUMPS 5.7.3 with JOB = -2

4516

82s executing #MPI = 1, without OMP

4517

82s

4518

82s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

4519

82s executing #MPI = 1, without OMP

4520

82s

4521

82s =================================================

4522

82s MUMPS compiled with option -Dpord

4523

82s =================================================

4524

82s L U Solver for unsymmetric matrices

4525

82s Type of parallelism: Working host

4526

82s

4527

82s ****** ANALYSIS STEP ********

4528

82s

4529

82s Processing a graph of size: 5

4530

82s ... Structural symmetry (in percent)= 92

4531

82s Average density of rows/columns = 2

4532

82s ... No column permutation

4533

82s Ordering based on AMF

4534

82s

4535

82s Leaving analysis phase with ...

4536

82s INFOG(1) = 0

4537

82s INFOG(2) = 0

4538

82s -- (20) Number of entries in factors (estim.) = 25

4539

82s -- (3) Real space for factors (estimated) = 25

4540

82s -- (4) Integer space for factors (estimated) = 30

4541

82s -- (5) Maximum frontal size (estimated) = 5

4542

82s -- (6) Number of nodes in the tree = 1

4543

82s -- (32) Type of analysis effectively used = 1

4544

82s -- (7) Ordering option effectively used = 2

4545

82s ICNTL (6) Maximum transversal option = 0

4546

82s ICNTL (7) Pivot order option = 7

4547

82s ICNTL(12) Ordering symmetric indef. matrices = 1

4548

82s ICNTL(13) Parallelism/splitting of root node = 0

4549

82s ICNTL(14) Percentage of memory relaxation = 20

4550

82s ICNTL(15) Analysis by block effectively used = 0

4551

82s ICNTL(18) Distributed input matrix (on if >0) = 0

4552

82s ICNTL(32) Forward elimination during facto. = 0

4553

82s ICNTL(35) BLR activation = 0

4554

82s ICNTL(48) Tree based multithreading (effective)= 0

4555

82s ICNTL(58) Symbolic factorization option = 2

4556

82s Number of level 2 nodes = 0

4557

82s Number of split nodes = 0

4558

82s RINFOG(1) Operations during elimination (estim)= 7.000D 01

4559

82s

4560

82s MEMORY ESTIMATIONS ...

4561

82s Estimations with standard Full-Rank (FR) factorization:

4562

82s Total space in MBytes, IC factorization (INFOG(17)): 0

4563

82s Total space in MBytes, OOC factorization (INFOG(27)): 0

4564

82s

4565

82s Elapsed time in analysis driver= 0.0002

4566

82s

4567

82s

4568

82s ****** FACTORIZATION STEP ********

4569

82s

4570

82s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

4571

82s Number of working processes = 1

4572

82s ICNTL(22) Out-of-core option = 1

4573

82s ICNTL(35) BLR activation (eff. choice) = 0

4574

82s ICNTL(37) BLR CB compression (eff. choice) = 0

4575

82s ICNTL(49) Compact workarray S (end facto.) = 0

4576

82s ICNTL(14) Memory relaxation = 20

4577

82s INFOG(3) Real space for factors (estimated)= 25

4578

82s INFOG(4) Integer space for factors (estim.)= 30

4579

82s Maximum frontal size (estimated) = 5

4580

82s Number of nodes in the tree = 1

4581

82s ICNTL(23) Memory allowed (value on host) = 0

4582

82s Sum over all procs = 0

4583

82s Memory provided by user, sum of LWK_USER = 0

4584

82s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

4585

82s

4586

82s Statistics on the scaling phase

4587

82s Elapsed time for scaling = 0.0000

4588

82s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

4589

82s

4590

82s Effective size of S (based on INFO(39))= 2445

4591

82s Elapsed time to reformat/distribute matrix = 0.0000

4592

82s

4593

82s

4863

82s Allocated buffers

4595

82s ------------------

4596

82s Size of reception buffer in bytes ...... = 140000

4597

82s Size of async. emission buffer (bytes).. = 140012

4598

82s Small emission buffer (bytes) .......... = 20

4599

82s

4600

82s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4601

82s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4602

82s

4603

82s Elapsed time for factorization = 0.0002

4604

82s

4605

82s Leaving factorization with ...

4606

82s RINFOG (2) Operations in node assembly = 0.000D 00

4607

82s ------ (3) Operations in node elimination = 7.000D 01

4608

82s ICNTL (8) Scaling effectively used = 7

4609

82s INFOG (9) Real space for factors = 50

4610

82s INFOG (10) Integer space for factors = 31

4611

82s INFOG (11) Maximum front size = 5

4612

82s INFOG (29) Number of entries in factors = 25

4613

82s INFOG (12) Number of off diagonal pivots = 1

4614

82s INFOG (13) Number of delayed pivots = 0

4615

82s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4616

82s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4617

82s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4618

82s INFOG (24) Effective value of ICNTL(12) = 1

4619

82s INFOG (14) Number of memory compress = 0

4620

82s

4621

82s Elapsed time in factorization driver = 0.0009

4622

82s

4623

82s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

4624

82s executing #MPI = 1, without OMP

4625

82s Save done successfully

4626

82s The corresponding OOC files are:

4627

82s /tmp//mumps_0_INn0dS

4628

82s /tmp//mumps_0_jgbnmR

4629

82s

4630

82s Elapsed time in save structure driver= 0.0006

4631

82s

4632

82s Entering ZMUMPS 5.7.3 with JOB = -2

4633

82s executing #MPI = 1, without OMP

4634

82s

4635

82s Entering ZMUMPS 5.7.3 with JOB = 8

4636

82s executing #MPI = 1, without OMP

4637

82s The corresponding OOC files are:

4638

82s /tmp//mumps_0_INn0dS

4639

82s /tmp//mumps_0_jgbnmR

4640

82s

4641

82s Elapsed time in restore structure driver= 0.0002

4642

82s

4643

82s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

4644

82s executing #MPI = 1, without OMP

4645

82s

4646

82s

4647

82s

4648

82s ****** SOLVE & CHECK STEP ********

4649

82s

4650

82s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

4651

82s Number of right-hand-sides = 1

4652

82s Blocking factor for multiple rhs = 1

4653

82s ICNTL (9) = 1

4654

82s --- (10) = 0

4655

82s --- (11) = 0

4656

82s --- (20) = 0

4657

82s --- (21) = 0

4658

82s --- (30) = 0

4659

82s --- (35) = 0

4660

82s --- (48) (effective) = 0

4661

82s ** Space in MBYTES used for solve : 0

4662

82s

4663

82s Leaving solve with ...

4664

82s Time to build/scatter RHS = 0.000054

4665

82s Time in solution step (fwd/bwd) = 0.000052

4666

82s .. Time in forward (fwd) step = 0.000034

4667

82s .. Time in backward (bwd) step = 0.000014

4668

82s Time to gather solution(cent.sol)= 0.000001

4669

82s Time for distributed solution = 0.000000

4670

82s

4671

82s Elapsed time in solve driver= 0.0002

4672

4673

82s

4674

82s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

4675

82s executing #MPI = 1, without OMP

4676

82s

4677

82s Entering ZMUMPS 5.7.3 with JOB = -2

4678

82s executing #MPI = 1, without OMP

4679

83s autopkgtest [07:59:09]: test mumps64-examples-serial: -----------------------]

4680

83s mumps64-examples-serial PASS

▸ ▾ test mumps64-examples-serial: test results

4681

83s autopkgtest [07:59:09]: test mumps64-examples-serial: - - - - - - - - - - results - - - - - - - - - -

▸ ▾ test mumps64-examples-mpi: preparing testbed

4682

83s autopkgtest [07:59:09]: test mumps64-examples-mpi: preparing testbed

4683

83s Reading package lists...

4684

83s Building dependency tree...

4685

83s Reading state information...

4686

84s Starting pkgProblemResolver with broken count: 0

4687

84s Starting 2 pkgProblemResolver with broken count: 0

4688

84s Done

4689

84s 0 upgraded, 0 newly installed, 0 to remove and 0 not upgraded.

▸ ▾ test mumps64-examples-mpi: test run

4690

85s autopkgtest [07:59:11]: test mumps64-examples-mpi: [-----------------------

4691

85s /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

4692

86s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest.F -o csimpletest.o

4693

86s mpifort -o csimpletest -Wl,-z,relro csimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4694

86s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c csimpletest_save_restore.F -o csimpletest_save_restore.o

4695

86s mpifort -o csimpletest_save_restore -Wl,-z,relro csimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4696

86s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest.F -o zsimpletest.o

4697

87s mpifort -o zsimpletest -Wl,-z,relro zsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4698

87s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c zsimpletest_save_restore.F -o zsimpletest_save_restore.o

4699

87s mpifort -o zsimpletest_save_restore -Wl,-z,relro zsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4700

87s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest.F -o ssimpletest.o

4701

87s mpifort -o ssimpletest -Wl,-z,relro ssimpletest.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4702

88s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c ssimpletest_save_restore.F -o ssimpletest_save_restore.o

4703

88s mpifort -o ssimpletest_save_restore -Wl,-z,relro ssimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4704

88s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest.F -o dsimpletest.o

4705

88s mpifort -o dsimpletest -Wl,-z,relro dsimpletest.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4706

88s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c dsimpletest_save_restore.F -o dsimpletest_save_restore.o

4707

89s mpifort -o dsimpletest_save_restore -Wl,-z,relro dsimpletest_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4708

89s mpicc -g -O2 -Werror=implicit-function-declaration -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Wformat -Werror=format-security -DPORD_INTSIZE64 -DAdd_ -I. -I../include -I../src -c c_example_save_restore.c -o c_example_save_restore.o

4709

89s mpifort -o c_example_save_restore -Wl,-z,relro c_example_save_restore.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4710

4711

89s mpifort -o c_example -Wl,-z,relro c_example.o -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lmpi -lblas -lpthread

4712

89s mpifort -g -O2 -ffile-prefix-map=/tmp/autopkgtest-lxc.vtusdj_t/downtmp/build.wLE/src/examples=. -fstack-protector-strong -Dintel_ -I. -I../include -I../src -c multiple_arithmetics_example.F -o multiple_arithmetics_example.o

4713

89s mpifort -o multiple_arithmetics_example -Wl,-z,relro multiple_arithmetics_example.o -L/usr/lib/powerpc64le-linux-gnu -lsmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -ldmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lcmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lzmumps_64pord -lmumps_common_64pord -L/usr/lib/powerpc64le-linux-gnu -lpord_64pord -lscalapack-openmpi -llapack -lblas -lpthread

4714

90s

4715

90s

4716

90s === running 64-bit c_example (MPI) ===

4717

90s Solution is : ( 1.00 2.00)

4718

90s Saving MUMPS instance in /tmp with prefix csave_restore.

4719

90s DONE

4720

90s

4721

90s Restoring MUMPS instance in /tmp with prefix csave_restore.

4722

90s

4723

90s Entering DMUMPS 5.7.3 from C interface with JOB = 8

4724

90s executing #MPI = 3, without OMP

4725

90s

4726

90s Elapsed time in restore structure driver= 0.0007

4727

90s DONE

4728

90s

4729

90s Calling MUMPS package (solve).

4730

90s DONE

4731

90s

4732

90s Removing save files.

4733

90s DONE

4734

90s

4735

90s Solution is : ( 1.00 2.00)

4736

90s

4737

90s

4738

90s === running 64-bit simple test: real, single precision, MPI ===

4739

90s

4740

90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

4741

90s executing #MPI = 3, without OMP

4742

90s

4743

90s =================================================

4744

90s MUMPS compiled with option -Dpord

4745

90s =================================================

4746

90s L U Solver for unsymmetric matrices

4747

90s Type of parallelism: Working host

4748

90s

4749

90s ****** ANALYSIS STEP ********

4750

90s

4751

90s Processing a graph of size: 5

4752

90s ... Structural symmetry (in percent)= 92

4753

90s Average density of rows/columns = 2

4754

90s ... No column permutation

4755

90s Ordering based on AMF

4756

90s WARNING: Largest root node of size 5 not selected for parallel execution

4757

90s

4758

90s Leaving analysis phase with ...

4759

90s INFOG(1) = 0

4760

90s INFOG(2) = 0

4761

90s -- (20) Number of entries in factors (estim.) = 25

4762

90s -- (3) Real space for factors (estimated) = 25

4763

90s -- (4) Integer space for factors (estimated) = 30

4764

90s -- (5) Maximum frontal size (estimated) = 5

4765

90s -- (6) Number of nodes in the tree = 1

4766

90s -- (32) Type of analysis effectively used = 1

4767

90s -- (7) Ordering option effectively used = 2

4768

90s ICNTL (6) Maximum transversal option = 0

4769

90s ICNTL (7) Pivot order option = 7

4770

90s ICNTL(12) Ordering symmetric indef. matrices = 1

4771

90s ICNTL(13) Parallelism/splitting of root node = 0

4772

90s ICNTL(14) Percentage of memory relaxation = 20

4773

90s ICNTL(15) Analysis by block effectively used = 0

4774

90s ICNTL(18) Distributed input matrix (on if >0) = 0

4775

90s ICNTL(32) Forward elimination during facto. = 0

4776

90s ICNTL(35) BLR activation = 0

4777

90s ICNTL(48) Tree based multithreading (effective)= 0

4778

90s ICNTL(58) Symbolic factorization option = 2

4779

90s Number of level 2 nodes = 0

4780

90s Number of split nodes = 0

4781

90s RINFOG(1) Operations during elimination (estim)= 7.000D 01

4782

90s

4783

90s MEMORY ESTIMATIONS ...

4784

90s Estimations with standard Full-Rank (FR) factorization:

4785

90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

4786

90s Total space in MBytes, IC factorization (INFOG(17)): 0

4787

90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

4788

90s Total space in MBytes, OOC factorization (INFOG(27)): 0

4789

90s

4790

90s Elapsed time in analysis driver= 0.0009

4791

90s

4792

90s

4793

90s ****** FACTORIZATION STEP ********

4794

90s

4795

90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

4796

90s Number of working processes = 3

4797

90s ICNTL(22) Out-of-core option = 0

4798

90s ICNTL(35) BLR activation (eff. choice) = 0

4799

90s ICNTL(37) BLR CB compression (eff. choice) = 0

4800

90s ICNTL(49) Compact workarray S (end facto.) = 0

4801

90s ICNTL(14) Memory relaxation = 20

4802

90s INFOG(3) Real space for factors (estimated)= 25

4803

90s INFOG(4) Integer space for factors (estim.)= 30

4804

90s Maximum frontal size (estimated) = 5

4805

90s Number of nodes in the tree = 1

4806

90s ICNTL(23) Memory allowed (value on host) = 0

4807

90s Sum over all procs = 0

4808

90s Memory provided by user, sum of LWK_USER = 0

4809

90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

4810

90s

4811

90s Statistics on the scaling phase

4812

90s Elapsed time for scaling = 0.0000

4813

90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

4814

90s

4815

90s Average Effective size of S (based on INFO(39))= 2428

4816

90s Elapsed time to reformat/distribute matrix = 0.0000

4817

90s

4818

90s

4819

90s Allocated buffers

4820

90s ------------------

4821

90s Size of reception buffer in bytes ...... = 140000

4822

90s Size of async. emission buffer (bytes).. = 140012

4823

90s Small emission buffer (bytes) .......... = 180

4824

90s ** Memory allocated, max in Mbytes (INFOG(18)): 0

4825

90s

4826

90s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4827

90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

4828

90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4829

90s

4830

90s Elapsed time for factorization = 0.0003

4831

90s

4832

90s Leaving factorization with ...

4833

90s RINFOG (2) Operations in node assembly = 0.000D 00

4834

90s ------ (3) Operations in node elimination = 7.000D 01

4835

90s ICNTL (8) Scaling effectively used = 7

4836

90s INFOG (9) Real space for factors = 25

4837

90s INFOG (10) Integer space for factors = 30

4838

90s INFOG (11) Maximum front size = 5

4839

90s INFOG (29) Number of entries in factors = 25

4840

90s INFOG (12) Number of off diagonal pivots = 1

4841

90s INFOG (13) Number of delayed pivots = 0

4842

90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4843

90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4844

90s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4845

90s INFOG (24) Effective value of ICNTL(12) = 1

4846

90s INFOG (14) Number of memory compress = 0

4847

90s

4848

90s Elapsed time in factorization driver = 0.0013

4849

90s

4850

90s

4851

90s ****** SOLVE & CHECK STEP ********

4852

90s

4853

90s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

4854

90s Number of right-hand-sides = 1

4855

90s Blocking factor for multiple rhs = 1

4856

90s ICNTL (9) = 1

4857

90s --- (10) = 0

4858

90s --- (11) = 0

4859

90s --- (20) = 0

4860

90s --- (21) = 0

4861

90s --- (30) = 0

4862

90s --- (35) = 0

4863

90s --- (48) (effective) = 0

4864

90s ** Rank of processor needing largest memory in solve : 0

4865

90s ** Space in MBYTES used by this processor for solve : 0

4866

90s ** Avg. Space in MBYTES per working proc during solve : 0

4867

90s

4868

90s Leaving solve with ...

4869

90s Time to build/scatter RHS = 0.000078

4870

90s Time in solution step (fwd/bwd) = 0.000068

4871

90s .. Time in forward (fwd) step = 0.000038

4872

90s .. Time in backward (bwd) step = 0.000021

4873

90s Time to gather solution(cent.sol)= 0.000007

4874

90s Time for distributed solution = 0.000000

4875

90s

4876

90s Elapsed time in solve driver= 0.0006

4877

90s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

4878

90s

4879

90s Entering SMUMPS 5.7.3 with JOB = -2

4880

90s executing #MPI = 3, without OMP

4881

90s

4882

90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

4883

90s executing #MPI = 3, without OMP

4884

90s

4885

90s =================================================

4886

90s MUMPS compiled with option -Dpord

4887

90s =================================================

4888

90s L U Solver for unsymmetric matrices

4889

90s Type of parallelism: Working host

4890

90s

4891

90s ****** ANALYSIS STEP ********

4892

90s

4893

90s Processing a graph of size: 5

4894

90s ... Structural symmetry (in percent)= 92

4895

90s Average density of rows/columns = 2

4896

90s ... No column permutation

4897

90s Ordering based on AMF

4898

90s WARNING: Largest root node of size 5 not selected for parallel execution

4899

90s

4900

90s Leaving analysis phase with ...

4901

90s INFOG(1) = 0

4902

90s INFOG(2) = 0

4903

90s -- (20) Number of entries in factors (estim.) = 25

4904

90s -- (3) Real space for factors (estimated) = 25

4905

90s -- (4) Integer space for factors (estimated) = 30

4906

90s -- (5) Maximum frontal size (estimated) = 5

4907

90s -- (6) Number of nodes in the tree = 1

4908

90s -- (32) Type of analysis effectively used = 1

4909

90s -- (7) Ordering option effectively used = 2

4910

90s ICNTL (6) Maximum transversal option = 0

4911

90s ICNTL (7) Pivot order option = 7

4912

90s ICNTL(12) Ordering symmetric indef. matrices = 1

4913

90s ICNTL(13) Parallelism/splitting of root node = 0

4914

90s ICNTL(14) Percentage of memory relaxation = 20

4915

90s ICNTL(15) Analysis by block effectively used = 0

4916

90s ICNTL(18) Distributed input matrix (on if >0) = 0

4917

90s ICNTL(32) Forward elimination during facto. = 0

4918

90s ICNTL(35) BLR activation = 0

4919

90s ICNTL(48) Tree based multithreading (effective)= 0

4920

90s ICNTL(58) Symbolic factorization option = 2

4921

90s Number of level 2 nodes = 0

4922

90s Number of split nodes = 0

4923

90s RINFOG(1) Operations during elimination (estim)= 7.000D 01

4924

90s

4925

90s MEMORY ESTIMATIONS ...

4926

90s Estimations with standard Full-Rank (FR) factorization:

4927

90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

4928

90s Total space in MBytes, IC factorization (INFOG(17)): 0

4929

90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

4930

90s Total space in MBytes, OOC factorization (INFOG(27)): 0

4931

90s

4932

90s Elapsed time in analysis driver= 0.0006

4933

90s

4934

90s

4935

90s ****** FACTORIZATION STEP ********

4936

90s

4937

90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

4938

90s Number of working processes = 3

4939

90s ICNTL(22) Out-of-core option = 1

4940

90s ICNTL(35) BLR activation (eff. choice) = 0

4941

90s ICNTL(37) BLR CB compression (eff. choice) = 0

4942

90s ICNTL(49) Compact workarray S (end facto.) = 0

4943

90s ICNTL(14) Memory relaxation = 20

4944

90s INFOG(3) Real space for factors (estimated)= 25

4945

90s INFOG(4) Integer space for factors (estim.)= 30

4946

90s Maximum frontal size (estimated) = 5

4947

90s Number of nodes in the tree = 1

4948

90s ICNTL(23) Memory allowed (value on host) = 0

4949

90s Sum over all procs = 0

4950

90s Memory provided by user, sum of LWK_USER = 0

4951

90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

4952

90s

4953

90s Statistics on the scaling phase

4954

90s Elapsed time for scaling = 0.0000

4955

90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

4956

90s

4957

90s Average Effective size of S (based on INFO(39))= 2428

4958

90s Elapsed time to reformat/distribute matrix = 0.0000

4959

90s

4960

90s

4961

90s Allocated buffers

4962

90s ------------------

4963

90s Size of reception buffer in bytes ...... = 140000

4964

90s Size of async. emission buffer (bytes).. = 140012

4965

90s Small emission buffer (bytes) .......... = 180

4966

90s ** Memory allocated, max in Mbytes (INFOG(18)): 0

4967

90s

4968

90s ** Memory allocated, total in Mbytes (INFOG(19)): 0

4969

90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

4970

90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

4971

90s

4972

90s Elapsed time for factorization = 0.0003

4973

90s

4974

90s Leaving factorization with ...

4975

90s RINFOG (2) Operations in node assembly = 0.000D 00

4976

90s ------ (3) Operations in node elimination = 7.000D 01

4977

90s ICNTL (8) Scaling effectively used = 7

4978

90s INFOG (9) Real space for factors = 50

4979

90s INFOG (10) Integer space for factors = 31

4980

90s INFOG (11) Maximum front size = 5

4981

90s INFOG (29) Number of entries in factors = 25

4982

90s INFOG (12) Number of off diagonal pivots = 1

4983

90s INFOG (13) Number of delayed pivots = 0

4984

90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

4985

90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

4986

90s RINFOG(21) Largest pivot in absolute value = 5.281D 00

4987

90s INFOG (24) Effective value of ICNTL(12) = 1

4988

90s INFOG (14) Number of memory compress = 0

4989

90s

4990

90s Elapsed time in factorization driver = 0.0017

4991

90s

4992

90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

4993

90s executing #MPI = 3, without OMP

4994

90s Save done successfully

4995

90s The corresponding OOC files are:

4996

90s /tmp//mumps_0_mqwvDQ

4997

90s /tmp//mumps_0_HfXrYO

4998

90s

4999

90s Elapsed time in save structure driver= 0.0009

5000

90s

5001

90s Entering SMUMPS 5.7.3 with JOB = -2

5002

90s executing #MPI = 3, without OMP

5003

90s

5004

90s Entering SMUMPS 5.7.3 with JOB = 8

5005

90s executing #MPI = 3, without OMP

5006

90s The corresponding OOC files are:

5007

90s /tmp//mumps_0_mqwvDQ

5008

90s /tmp//mumps_0_HfXrYO

5009

90s

5010

90s Elapsed time in restore structure driver= 0.0010

5011

90s

5012

90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

5013

90s executing #MPI = 3, without OMP

5014

90s

5015

90s

5016

90s

5017

90s ****** SOLVE & CHECK STEP ********

5018

90s

5019

90s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5020

90s Number of right-hand-sides = 1

5021

90s Blocking factor for multiple rhs = 1

5022

90s ICNTL (9) = 1

5023

90s --- (10) = 0

5024

90s --- (11) = 0

5025

90s --- (20) = 0

5026

90s --- (21) = 0

5027

90s --- (30) = 0

5028

90s --- (35) = 0

5029

90s --- (48) (effective) = 0

5030

90s ** Rank of processor needing largest memory in solve : 0

5031

90s ** Space in MBYTES used by this processor for solve : 0

5032

90s ** Avg. Space in MBYTES per working proc during solve : 0

5033

90s

5034

90s Leaving solve with ...

5035

90s Time to build/scatter RHS = 0.000086

5036

90s Time in solution step (fwd/bwd) = 0.000098

5037

90s .. Time in forward (fwd) step = 0.000059

5038

90s .. Time in backward (bwd) step = 0.000027

5039

90s Time to gather solution(cent.sol)= 0.000006

5040

90s Time for distributed solution = 0.000000

5041

90s

5042

90s Elapsed time in solve driver= 0.0005

5043

90s Solution is 0.999998450 1.99999976 3.00000000 3.99999976 5.00000095

5044

90s

5045

90s Entering SMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

5046

90s executing #MPI = 3, without OMP

5047

90s

5048

90s Entering SMUMPS 5.7.3 with JOB = -2

5049

90s executing #MPI = 3, without OMP

5050

90s

5051

90s

5052

90s === running 64-bit simple test: real, double precision, MPI ===

5053

90s

5054

90s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

5055

90s executing #MPI = 3, without OMP

5056

90s

5057

90s =================================================

5058

90s MUMPS compiled with option -Dpord

5059

90s =================================================

5060

90s L U Solver for unsymmetric matrices

5061

90s Type of parallelism: Working host

5062

90s

5063

90s ****** ANALYSIS STEP ********

5064

90s

5065

90s Processing a graph of size: 5

5066

90s ... Structural symmetry (in percent)= 92

5067

90s Average density of rows/columns = 2

5068

90s ... No column permutation

5069

90s Ordering based on AMF

5070

90s WARNING: Largest root node of size 5 not selected for parallel execution

5071

90s

5072

90s Leaving analysis phase with ...

5073

90s INFOG(1) = 0

5074

90s INFOG(2) = 0

5075

90s -- (20) Number of entries in factors (estim.) = 25

5076

90s -- (3) Real space for factors (estimated) = 25

5077

90s -- (4) Integer space for factors (estimated) = 30

5078

90s -- (5) Maximum frontal size (estimated) = 5

5079

90s -- (6) Number of nodes in the tree = 1

5080

90s -- (32) Type of analysis effectively used = 1

5081

90s -- (7) Ordering option effectively used = 2

5082

90s ICNTL (6) Maximum transversal option = 0

5083

90s ICNTL (7) Pivot order option = 7

5084

90s ICNTL(12) Ordering symmetric indef. matrices = 1

5085

90s ICNTL(13) Parallelism/splitting of root node = 0

5086

90s ICNTL(14) Percentage of memory relaxation = 20

5087

90s ICNTL(15) Analysis by block effectively used = 0

5088

90s ICNTL(18) Distributed input matrix (on if >0) = 0

5089

90s ICNTL(32) Forward elimination during facto. = 0

5090

90s ICNTL(35) BLR activation = 0

5091

90s ICNTL(48) Tree based multithreading (effective)= 0

5092

90s ICNTL(58) Symbolic factorization option = 2

5093

90s Number of level 2 nodes = 0

5094

90s Number of split nodes = 0

5095

90s RINFOG(1) Operations during elimination (estim)= 7.000D 01

5096

90s

5097

90s MEMORY ESTIMATIONS ...

5098

90s Estimations with standard Full-Rank (FR) factorization:

5099

90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

5100

90s Total space in MBytes, IC factorization (INFOG(17)): 0

5101

90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

5102

90s Total space in MBytes, OOC factorization (INFOG(27)): 0

5103

90s

5104

90s Elapsed time in analysis driver= 0.0018

5105

90s

5106

90s

5107

90s ****** FACTORIZATION STEP ********

5108

90s

5109

90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

5110

90s Number of working processes = 3

5111

90s ICNTL(22) Out-of-core option = 0

5112

90s ICNTL(35) BLR activation (eff. choice) = 0

5113

90s ICNTL(37) BLR CB compression (eff. choice) = 0

5114

90s ICNTL(49) Compact workarray S (end facto.) = 0

5115

90s ICNTL(14) Memory relaxation = 20

5116

90s INFOG(3) Real space for factors (estimated)= 25

5117

90s INFOG(4) Integer space for factors (estim.)= 30

5118

90s Maximum frontal size (estimated) = 5

5119

90s Number of nodes in the tree = 1

5120

90s ICNTL(23) Memory allowed (value on host) = 0

5121

90s Sum over all procs = 0

5122

90s Memory provided by user, sum of LWK_USER = 0

5123

90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

5124

90s

5125

90s Statistics on the scaling phase

5126

90s Elapsed time for scaling = 0.0001

5127

90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

5128

90s

5129

90s Average Effective size of S (based on INFO(39))= 2428

5130

90s Elapsed time to reformat/distribute matrix = 0.0000

5131

90s

5132

90s

5133

90s Allocated buffers

5134

90s ------------------

5135

90s Size of reception buffer in bytes ...... = 140000

5136

90s Size of async. emission buffer (bytes).. = 140012

5137

90s Small emission buffer (bytes) .......... = 180

5138

90s ** Memory allocated, max in Mbytes (INFOG(18)): 0

5139

90s

5140

90s ** Memory allocated, total in Mbytes (INFOG(19)): 0

5141

90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

5142

90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

5143

90s

5144

90s Elapsed time for factorization = 0.0003

5145

90s

5146

90s Leaving factorization with ...

5147

90s RINFOG (2) Operations in node assembly = 0.000D 00

5148

90s ------ (3) Operations in node elimination = 7.000D 01

5149

90s ICNTL (8) Scaling effectively used = 7

5150

90s INFOG (9) Real space for factors = 25

5151

90s INFOG (10) Integer space for factors = 30

5152

90s INFOG (11) Maximum front size = 5

5153

90s INFOG (29) Number of entries in factors = 25

5154

90s INFOG (12) Number of off diagonal pivots = 1

5155

90s INFOG (13) Number of delayed pivots = 0

5156

90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

5157

90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

5158

90s RINFOG(21) Largest pivot in absolute value = 5.281D 00

5159

90s INFOG (24) Effective value of ICNTL(12) = 1

5160

90s INFOG (14) Number of memory compress = 0

5161

90s

5162

90s Elapsed time in factorization driver = 0.0011

5163

90s

5164

90s

5165

90s ****** SOLVE & CHECK STEP ********

5166

90s

5167

90s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5168

90s Number of right-hand-sides = 1

5169

90s Blocking factor for multiple rhs = 1

5170

90s ICNTL (9) = 1

5171

90s --- (10) = 0

5172

90s --- (11) = 0

5173

90s --- (20) = 0

5174

90s --- (21) = 0

5175

90s --- (30) = 0

5176

90s --- (35) = 0

5177

90s --- (48) (effective) = 0

5178

90s ** Rank of processor needing largest memory in solve : 0

5179

90s ** Space in MBYTES used by this processor for solve : 0

5180

90s ** Avg. Space in MBYTES per working proc during solve : 0

5181

90s

5182

90s Leaving solve with ...

5183

90s Time to build/scatter RHS = 0.000076

5184

90s Time in solution step (fwd/bwd) = 0.000066

5185

90s .. Time in forward (fwd) step = 0.000036

5186

90s .. Time in backward (bwd) step = 0.000021

5187

90s Time to gather solution(cent.sol)= 0.000008

5188

90s Time for distributed solution = 0.000000

5189

90s

5190

90s Elapsed time in solve driver= 0.0004

5191

90s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

5192

90s

5193

90s Entering DMUMPS 5.7.3 with JOB = -2

5194

90s executing #MPI = 3, without OMP

5195

90s

5196

90s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

5197

90s executing #MPI = 3, without OMP

5198

90s

5199

90s =================================================

5200

90s MUMPS compiled with option -Dpord

5201

90s =================================================

5202

90s L U Solver for unsymmetric matrices

5203

90s Type of parallelism: Working host

5204

90s

5205

90s ****** ANALYSIS STEP ********

5206

90s

5207

90s Processing a graph of size: 5

5208

90s ... Structural symmetry (in percent)= 92

5209

90s Average density of rows/columns = 2

5210

90s ... No column permutation

5211

90s Ordering based on AMF

5212

90s WARNING: Largest root node of size 5 not selected for parallel execution

5213

90s

5214

90s Leaving analysis phase with ...

5215

90s INFOG(1) = 0

5216

90s INFOG(2) = 0

5217

90s -- (20) Number of entries in factors (estim.) = 25

5218

90s -- (3) Real space for factors (estimated) = 25

5219

90s -- (4) Integer space for factors (estimated) = 30

5220

90s -- (5) Maximum frontal size (estimated) = 5

5221

90s -- (6) Number of nodes in the tree = 1

5222

90s -- (32) Type of analysis effectively used = 1

5223

90s -- (7) Ordering option effectively used = 2

5224

90s ICNTL (6) Maximum transversal option = 0

5225

90s ICNTL (7) Pivot order option = 7

5226

90s ICNTL(12) Ordering symmetric indef. matrices = 1

5227

90s ICNTL(13) Parallelism/splitting of root node = 0

5228

90s ICNTL(14) Percentage of memory relaxation = 20

5229

90s ICNTL(15) Analysis by block effectively used = 0

5230

90s ICNTL(18) Distributed input matrix (on if >0) = 0

5231

90s ICNTL(32) Forward elimination during facto. = 0

5232

90s ICNTL(35) BLR activation = 0

5233

90s ICNTL(48) Tree based multithreading (effective)= 0

5234

90s ICNTL(58) Symbolic factorization option = 2

5235

90s Number of level 2 nodes = 0

5236

90s Number of split nodes = 0

5237

90s RINFOG(1) Operations during elimination (estim)= 7.000D 01

5238

90s

5239

90s MEMORY ESTIMATIONS ...

5240

90s Estimations with standard Full-Rank (FR) factorization:

5241

90s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

5242

90s Total space in MBytes, IC factorization (INFOG(17)): 0

5243

90s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

5244

90s Total space in MBytes, OOC factorization (INFOG(27)): 0

5245

90s

5246

90s Elapsed time in analysis driver= 0.0006

5247

90s

5248

90s

5249

90s ****** FACTORIZATION STEP ********

5250

90s

5251

90s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

5252

90s Number of working processes = 3

5253

90s ICNTL(22) Out-of-core option = 1

5254

90s ICNTL(35) BLR activation (eff. choice) = 0

5255

90s ICNTL(37) BLR CB compression (eff. choice) = 0

5256

90s ICNTL(49) Compact workarray S (end facto.) = 0

5257

90s ICNTL(14) Memory relaxation = 20

5258

90s INFOG(3) Real space for factors (estimated)= 25

5259

90s INFOG(4) Integer space for factors (estim.)= 30

5260

90s Maximum frontal size (estimated) = 5

5261

90s Number of nodes in the tree = 1

5262

90s ICNTL(23) Memory allowed (value on host) = 0

5263

90s Sum over all procs = 0

5264

90s Memory provided by user, sum of LWK_USER = 0

5265

90s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

5266

90s

5267

90s Statistics on the scaling phase

5268

90s Elapsed time for scaling = 0.0000

5269

90s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

5270

90s

5271

90s Average Effective size of S (based on INFO(39))= 2428

5272

90s Elapsed time to reformat/distribute matrix = 0.0000

5273

90s

5274

90s

5275

90s Allocated buffers

5276

90s ------------------

5277

90s Size of reception buffer in bytes ...... = 140000

5278

90s Size of async. emission buffer (bytes).. = 140012

5279

90s Small emission buffer (bytes) .......... = 180

5280

90s ** Memory allocated, max in Mbytes (INFOG(18)): 0

5281

90s

5282

90s ** Memory allocated, total in Mbytes (INFOG(19)): 0

5283

90s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

5284

90s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

5285

90s

5286

90s Elapsed time for factorization = 0.0060

5287

90s

5288

90s Leaving factorization with ...

5289

90s RINFOG (2) Operations in node assembly = 0.000D 00

5290

90s ------ (3) Operations in node elimination = 7.000D 01

5291

90s ICNTL (8) Scaling effectively used = 7

5292

90s INFOG (9) Real space for factors = 50

5293

90s INFOG (10) Integer space for factors = 31

5294

90s INFOG (11) Maximum front size = 5

5295

90s INFOG (29) Number of entries in factors = 25

5296

90s INFOG (12) Number of off diagonal pivots = 1

5297

90s INFOG (13) Number of delayed pivots = 0

5298

90s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

5299

90s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

5300

90s RINFOG(21) Largest pivot in absolute value = 5.281D 00

5301

90s INFOG (24) Effective value of ICNTL(12) = 1

5302

90s INFOG (14) Number of memory compress = 0

5303

90s

5304

90s Elapsed time in factorization driver = 0.0090

5305

90s

5306

90s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

5307

90s executing #MPI = 3, without OMP

5308

90s Save done successfully

5309

90s The corresponding OOC files are:

5310

90s /tmp//mumps_0_RgbFhU

5311

90s /tmp//mumps_0_Pdkx9l

5312

90s

5313

90s Elapsed time in save structure driver= 0.0011

5314

90s

5315

90s Entering DMUMPS 5.7.3 with JOB = -2

5316

90s executing #MPI = 3, without OMP

5317

90s

5318

90s Entering DMUMPS 5.7.3 with JOB = 8

5319

90s executing #MPI = 3, without OMP

5320

90s The corresponding OOC files are:

5321

90s /tmp//mumps_0_RgbFhU

5322

90s /tmp//mumps_0_Pdkx9l

5323

90s

5324

90s Elapsed time in restore structure driver= 0.0008

5325

90s

5326

90s Entering DMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

5327

90s executing #MPI = 3, without OMP

5328

90s

5329

90s

5330

90s

5331

90s ****** SOLVE & CHECK STEP ********

5332

90s

5333

90s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5334

90s Number of right-hand-sides = 1

5335

90s Blocking factor for multiple rhs = 1

5336

90s ICNTL (9) = 1

5337

90s --- (10) = 0

5338

90s --- (11) = 0

5339

90s --- (20) = 0

5340

90s --- (21) = 0

5341

90s --- (30) = 0

5342

90s --- (35) = 0

5343

90s --- (48) (effective) = 0

5344

90s ** Rank of processor needing largest memory in solve : 0

5345

90s ** Space in MBYTES used by this processor for solve : 0

5346

90s ** Avg. Space in MBYTES per working proc during solve : 0

5347

90s

5348

90s Leaving solve with ...

5349

90s Time to build/scatter RHS = 0.000082

5350

90s Time in solution step (fwd/bwd) = 0.000093

5351

90s .. Time in forward (fwd) step = 0.000055

5352

90s .. Time in backward (bwd) step = 0.000025

5353

90s Time to gather solution(cent.sol)= 0.000005

5354

90s Time for distributed solution = 0.000000

5355

90s

5356

90s Elapsed time in solve driver= 0.0004

5357

90s Solution is 0.99999999999999978 2.0000000000000004 3.0000000000000004 4.0000000000000000 4.9999999999999991

5358

90s

5359

90s Entering DMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

5360

90s executing #MPI = 3, without OMP

5361

90s

5362

90s Entering DMUMPS 5.7.3 with JOB = -2

5363

90s executing #MPI = 3, without OMP

5364

91s

5365

91s

5366

91s === running 64-bit simple test: complex, single precision, MPI ===

5367

91s

5368

91s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

5369

91s executing #MPI = 3, without OMP

5370

91s

5371

91s =================================================

5372

91s MUMPS compiled with option -Dpord

5373

91s =================================================

5374

91s L U Solver for unsymmetric matrices

5375

91s Type of parallelism: Working host

5376

91s

5377

91s ****** ANALYSIS STEP ********

5378

91s

5379

91s Processing a graph of size: 5

5380

91s ... Structural symmetry (in percent)= 92

5381

91s Average density of rows/columns = 2

5382

91s ... No column permutation

5383

91s Ordering based on AMF

5384

91s WARNING: Largest root node of size 5 not selected for parallel execution

5385

91s

5386

91s Leaving analysis phase with ...

5387

91s INFOG(1) = 0

5388

91s INFOG(2) = 0

5389

91s -- (20) Number of entries in factors (estim.) = 25

5390

91s -- (3) Real space for factors (estimated) = 25

5391

91s -- (4) Integer space for factors (estimated) = 30

5392

91s -- (5) Maximum frontal size (estimated) = 5

5393

91s -- (6) Number of nodes in the tree = 1

5394

91s -- (32) Type of analysis effectively used = 1

5395

91s -- (7) Ordering option effectively used = 2

5396

91s ICNTL (6) Maximum transversal option = 0

5397

91s ICNTL (7) Pivot order option = 7

5398

91s ICNTL(12) Ordering symmetric indef. matrices = 1

5399

91s ICNTL(13) Parallelism/splitting of root node = 0

5400

91s ICNTL(14) Percentage of memory relaxation = 20

5401

91s ICNTL(15) Analysis by block effectively used = 0

5402

91s ICNTL(18) Distributed input matrix (on if >0) = 0

5403

91s ICNTL(32) Forward elimination during facto. = 0

5404

91s ICNTL(35) BLR activation = 0

5405

91s ICNTL(48) Tree based multithreading (effective)= 0

5406

91s ICNTL(58) Symbolic factorization option = 2

5407

91s Number of level 2 nodes = 0

5408

91s Number of split nodes = 0

5409

91s RINFOG(1) Operations during elimination (estim)= 7.000D 01

5410

91s

5411

91s MEMORY ESTIMATIONS ...

5412

91s Estimations with standard Full-Rank (FR) factorization:

5413

91s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

5414

91s Total space in MBytes, IC factorization (INFOG(17)): 0

5415

91s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

5416

91s Total space in MBytes, OOC factorization (INFOG(27)): 0

5417

91s

5418

91s Elapsed time in analysis driver= 0.0014

5419

91s

5420

91s

5421

91s ****** FACTORIZATION STEP ********

5422

91s

5423

91s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

5424

91s Number of working processes = 3

5425

91s ICNTL(22) Out-of-core option = 0

5426

91s ICNTL(35) BLR activation (eff. choice) = 0

5427

91s ICNTL(37) BLR CB compression (eff. choice) = 0

5428

91s ICNTL(49) Compact workarray S (end facto.) = 0

5429

91s ICNTL(14) Memory relaxation = 20

5430

91s INFOG(3) Real space for factors (estimated)= 25

5431

91s INFOG(4) Integer space for factors (estim.)= 30

5432

91s Maximum frontal size (estimated) = 5

5433

91s Number of nodes in the tree = 1

5434

91s ICNTL(23) Memory allowed (value on host) = 0

5435

91s Sum over all procs = 0

5436

91s Memory provided by user, sum of LWK_USER = 0

5437

91s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

5438

91s

5439

91s Statistics on the scaling phase

5440

91s Elapsed time for scaling = 0.0001

5441

91s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

5442

91s

5443

91s Average Effective size of S (based on INFO(39))= 2428

5444

91s Elapsed time to reformat/distribute matrix = 0.0000

5445

91s

5446

91s

5447

91s Allocated buffers

5448

91s ------------------

5449

91s Size of reception buffer in bytes ...... = 140000

5450

91s Size of async. emission buffer (bytes).. = 140012

5451

91s Small emission buffer (bytes) .......... = 180

5452

91s ** Memory allocated, max in Mbytes (INFOG(18)): 0

5453

91s

5454

91s ** Memory allocated, total in Mbytes (INFOG(19)): 0

5455

91s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

5456

91s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

5457

91s

5458

91s Elapsed time for factorization = 0.0004

5459

91s

5460

91s Leaving factorization with ...

5461

91s RINFOG (2) Operations in node assembly = 0.000D 00

5462

91s ------ (3) Operations in node elimination = 7.000D 01

5463

91s ICNTL (8) Scaling effectively used = 7

5464

91s INFOG (9) Real space for factors = 25

5465

91s INFOG (10) Integer space for factors = 30

5466

91s INFOG (11) Maximum front size = 5

5467

91s INFOG (29) Number of entries in factors = 25

5468

91s INFOG (12) Number of off diagonal pivots = 1

5469

91s INFOG (13) Number of delayed pivots = 0

5470

91s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

5471

91s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

5472

91s RINFOG(21) Largest pivot in absolute value = 5.281D 00

5473

91s INFOG (24) Effective value of ICNTL(12) = 1

5474

91s INFOG (14) Number of memory compress = 0

5475

91s

5476

91s Elapsed time in factorization driver = 0.0024

5477

91s

5478

91s

5479

91s ****** SOLVE & CHECK STEP ********

5480

91s

5481

91s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5482

91s Number of right-hand-sides = 1

5483

91s Blocking factor for multiple rhs = 1

5484

91s ICNTL (9) = 1

5485

91s --- (10) = 0

5486

91s --- (11) = 0

5487

91s --- (20) = 0

5488

91s --- (21) = 0

5489

91s --- (30) = 0

5490

91s --- (35) = 0

5491

91s --- (48) (effective) = 0

5492

91s ** Rank of processor needing largest memory in solve : 0

5493

91s ** Space in MBYTES used by this processor for solve : 0

5494

91s ** Avg. Space in MBYTES per working proc during solve : 0

5495

91s

5496

91s Leaving solve with ...

5497

91s Time to build/scatter RHS = 0.000109

5498

91s Time in solution step (fwd/bwd) = 0.000081

5499

91s .. Time in forward (fwd) step = 0.000045

5500

91s .. Time in backward (bwd) step = 0.000026

5501

91s Time to gather solution(cent.sol)= 0.000007

5502

91s Time for distributed solution = 0.000000

5503

91s

5504

91s Elapsed time in solve driver= 0.0009

5505

91s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

5506

91s

5507

91s Entering CMUMPS 5.7.3 with JOB = -2

5508

91s executing #MPI = 3, without OMP

5509

91s

5510

91s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

5511

91s executing #MPI = 3, without OMP

5512

91s

5513

91s =================================================

5514

91s MUMPS compiled with option -Dpord

5515

91s =================================================

5516

91s L U Solver for unsymmetric matrices

5517

91s Type of parallelism: Working host

5518

91s

5519

91s ****** ANALYSIS STEP ********

5520

91s

5521

91s Processing a graph of size: 5

5522

91s ... Structural symmetry (in percent)= 92

5523

91s Average density of rows/columns = 2

5524

91s ... No column permutation

5525

91s Ordering based on AMF

5526

91s WARNING: Largest root node of size 5 not selected for parallel execution

5527

91s

5528

91s Leaving analysis phase with ...

5529

91s INFOG(1) = 0

5530

91s INFOG(2) = 0

5531

91s -- (20) Number of entries in factors (estim.) = 25

5532

91s -- (3) Real space for factors (estimated) = 25

5533

91s -- (4) Integer space for factors (estimated) = 30

5534

91s -- (5) Maximum frontal size (estimated) = 5

5535

91s -- (6) Number of nodes in the tree = 1

5536

91s -- (32) Type of analysis effectively used = 1

5537

91s -- (7) Ordering option effectively used = 2

5538

91s ICNTL (6) Maximum transversal option = 0

5539

91s ICNTL (7) Pivot order option = 7

5540

91s ICNTL(12) Ordering symmetric indef. matrices = 1

5541

91s ICNTL(13) Parallelism/splitting of root node = 0

5542

91s ICNTL(14) Percentage of memory relaxation = 20

5543

91s ICNTL(15) Analysis by block effectively used = 0

5544

91s ICNTL(18) Distributed input matrix (on if >0) = 0

5545

91s ICNTL(32) Forward elimination during facto. = 0

5546

91s ICNTL(35) BLR activation = 0

5547

91s ICNTL(48) Tree based multithreading (effective)= 0

5548

91s ICNTL(58) Symbolic factorization option = 2

5549

91s Number of level 2 nodes = 0

5550

91s Number of split nodes = 0

5551

91s RINFOG(1) Operations during elimination (estim)= 7.000D 01

5552

91s

5553

91s MEMORY ESTIMATIONS ...

5554

91s Estimations with standard Full-Rank (FR) factorization:

5555

91s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

5556

91s Total space in MBytes, IC factorization (INFOG(17)): 0

5557

91s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

5558

91s Total space in MBytes, OOC factorization (INFOG(27)): 0

5559

91s

5560

91s Elapsed time in analysis driver= 0.0006

5561

91s

5562

91s

5563

91s ****** FACTORIZATION STEP ********

5564

91s

5565

91s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

5566

91s Number of working processes = 3

5567

91s ICNTL(22) Out-of-core option = 1

5568

91s ICNTL(35) BLR activation (eff. choice) = 0

5569

91s ICNTL(37) BLR CB compression (eff. choice) = 0

5570

91s ICNTL(49) Compact workarray S (end facto.) = 0

5571

91s ICNTL(14) Memory relaxation = 20

5572

91s INFOG(3) Real space for factors (estimated)= 25

5573

91s INFOG(4) Integer space for factors (estim.)= 30

5574

91s Maximum frontal size (estimated) = 5

5575

91s Number of nodes in the tree = 1

5576

91s ICNTL(23) Memory allowed (value on host) = 0

5577

91s Sum over all procs = 0

5578

91s Memory provided by user, sum of LWK_USER = 0

5579

91s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

5580

91s

5581

91s Statistics on the scaling phase

5582

91s Elapsed time for scaling = 0.0001

5583

91s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

5584

91s

5585

91s Average Effective size of S (based on INFO(39))= 2428

5586

91s Elapsed time to reformat/distribute matrix = 0.0000

5587

91s

5588

91s

5589

91s Allocated buffers

5590

91s ------------------

5591

91s Size of reception buffer in bytes ...... = 140000

5592

91s Size of async. emission buffer (bytes).. = 140012

5593

91s Small emission buffer (bytes) .......... = 180

5863

91s ** Memory allocated, max in Mbytes (INFOG(18)): 0

5595

91s

5596

91s ** Memory allocated, total in Mbytes (INFOG(19)): 0

5597

91s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

5598

91s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

5599

91s

5600

91s Elapsed time for factorization = 0.0012

5601

91s

5602

91s Leaving factorization with ...

5603

91s RINFOG (2) Operations in node assembly = 0.000D 00

5604

91s ------ (3) Operations in node elimination = 7.000D 01

5605

91s ICNTL (8) Scaling effectively used = 7

5606

91s INFOG (9) Real space for factors = 50

5607

91s INFOG (10) Integer space for factors = 31

5608

91s INFOG (11) Maximum front size = 5

5609

91s INFOG (29) Number of entries in factors = 25

5610

91s INFOG (12) Number of off diagonal pivots = 1

5611

91s INFOG (13) Number of delayed pivots = 0

5612

91s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

5613

91s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

5614

91s RINFOG(21) Largest pivot in absolute value = 5.281D 00

5615

91s INFOG (24) Effective value of ICNTL(12) = 1

5616

91s INFOG (14) Number of memory compress = 0

5617

91s

5618

91s Elapsed time in factorization driver = 0.0035

5619

91s

5620

91s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

5621

91s executing #MPI = 3, without OMP

5622

91s Save done successfully

5623

91s The corresponding OOC files are:

5624

91s /tmp//mumps_0_KIuK5S

5625

91s /tmp//mumps_0_gBZYOk

5626

91s

5627

91s Elapsed time in save structure driver= 0.0009

5628

91s

5629

91s Entering CMUMPS 5.7.3 with JOB = -2

5630

91s executing #MPI = 3, without OMP

5631

91s

5632

91s Entering CMUMPS 5.7.3 with JOB = 8

5633

91s executing #MPI = 3, without OMP

5634

91s The corresponding OOC files are:

5635

91s /tmp//mumps_0_KIuK5S

5636

91s /tmp//mumps_0_gBZYOk

5637

91s

5638

91s Elapsed time in restore structure driver= 0.0008

5639

91s

5640

91s Entering CMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

5641

91s executing #MPI = 3, without OMP

5642

91s

5643

91s

5644

91s

5645

91s ****** SOLVE & CHECK STEP ********

5646

91s

5647

91s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5648

91s Number of right-hand-sides = 1

5649

91s Blocking factor for multiple rhs = 1

5650

91s ICNTL (9) = 1

5651

91s --- (10) = 0

5652

91s --- (11) = 0

5653

91s --- (20) = 0

5654

91s --- (21) = 0

5655

91s --- (30) = 0

5656

91s --- (35) = 0

5657

91s --- (48) (effective) = 0

5658

91s ** Rank of processor needing largest memory in solve : 0

5659

91s ** Space in MBYTES used by this processor for solve : 0

5660

91s ** Avg. Space in MBYTES per working proc during solve : 0

5661

91s

5662

91s Leaving solve with ...

5663

91s Time to build/scatter RHS = 0.000077

5664

91s Time in solution step (fwd/bwd) = 0.000097

5665

91s .. Time in forward (fwd) step = 0.000060

5666

91s .. Time in backward (bwd) step = 0.000024

5667

91s Time to gather solution(cent.sol)= 0.000005

5668

91s Time for distributed solution = 0.000000

5669

91s

5670

91s Elapsed time in solve driver= 0.0005

5671

91s Solution is (0.999998868,0.00000000) (1.99999976,0.00000000) (3.00000000,0.00000000) (3.99999976,0.00000000) (5.00000000,0.00000000)

5672

91s

5673

91s Entering CMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

5674

91s executing #MPI = 3, without OMP

5675

91s

5676

91s Entering CMUMPS 5.7.3 with JOB = -2

5677

91s executing #MPI = 3, without OMP

5678

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5679

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5680

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5681

91s

5682

91s

5683

91s === running 64-bit simple test: complex, double precision, MPI ===

5684

91s

5685

91s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 6 5 12

5686

91s executing #MPI = 3, without OMP

5687

91s

5688

91s =================================================

5689

91s MUMPS compiled with option -Dpord

5690

91s =================================================

5691

91s L U Solver for unsymmetric matrices

5692

91s Type of parallelism: Working host

5693

91s

5694

91s ****** ANALYSIS STEP ********

5695

91s

5696

91s Processing a graph of size: 5

5697

91s ... Structural symmetry (in percent)= 92

5698

91s Average density of rows/columns = 2

5699

91s ... No column permutation

5700

91s Ordering based on AMF

5701

91s WARNING: Largest root node of size 5 not selected for parallel execution

5702

91s

5703

91s Leaving analysis phase with ...

5704

91s INFOG(1) = 0

5705

91s INFOG(2) = 0

5706

91s -- (20) Number of entries in factors (estim.) = 25

5707

91s -- (3) Real space for factors (estimated) = 25

5708

91s -- (4) Integer space for factors (estimated) = 30

5709

91s -- (5) Maximum frontal size (estimated) = 5

5710

91s -- (6) Number of nodes in the tree = 1

5711

91s -- (32) Type of analysis effectively used = 1

5712

91s -- (7) Ordering option effectively used = 2

5713

91s ICNTL (6) Maximum transversal option = 0

5714

91s ICNTL (7) Pivot order option = 7

5715

91s ICNTL(12) Ordering symmetric indef. matrices = 1

5716

91s ICNTL(13) Parallelism/splitting of root node = 0

5717

91s ICNTL(14) Percentage of memory relaxation = 20

5718

91s ICNTL(15) Analysis by block effectively used = 0

5719

91s ICNTL(18) Distributed input matrix (on if >0) = 0

5720

91s ICNTL(32) Forward elimination during facto. = 0

5721

91s ICNTL(35) BLR activation = 0

5722

91s ICNTL(48) Tree based multithreading (effective)= 0

5723

91s ICNTL(58) Symbolic factorization option = 2

5724

91s Number of level 2 nodes = 0

5725

91s Number of split nodes = 0

5726

91s RINFOG(1) Operations during elimination (estim)= 7.000D 01

5727

91s

5728

91s MEMORY ESTIMATIONS ...

5729

91s Estimations with standard Full-Rank (FR) factorization:

5730

91s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

5731

91s Total space in MBytes, IC factorization (INFOG(17)): 0

5732

91s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

5733

91s Total space in MBytes, OOC factorization (INFOG(27)): 0

5734

91s

5735

91s Elapsed time in analysis driver= 0.0007

5736

91s

5737

91s

5738

91s ****** FACTORIZATION STEP ********

5739

91s

5740

91s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

5741

91s Number of working processes = 3

5742

91s ICNTL(22) Out-of-core option = 0

5743

91s ICNTL(35) BLR activation (eff. choice) = 0

5744

91s ICNTL(37) BLR CB compression (eff. choice) = 0

5745

91s ICNTL(49) Compact workarray S (end facto.) = 0

5746

91s ICNTL(14) Memory relaxation = 20

5747

91s INFOG(3) Real space for factors (estimated)= 25

5748

91s INFOG(4) Integer space for factors (estim.)= 30

5749

91s Maximum frontal size (estimated) = 5

5750

91s Number of nodes in the tree = 1

5751

91s ICNTL(23) Memory allowed (value on host) = 0

5752

91s Sum over all procs = 0

5753

91s Memory provided by user, sum of LWK_USER = 0

5754

91s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

5755

91s

5756

91s Statistics on the scaling phase

5757

91s Elapsed time for scaling = 0.0001

5758

91s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

5759

91s

5760

91s Average Effective size of S (based on INFO(39))= 2428

5761

91s Elapsed time to reformat/distribute matrix = 0.0000

5762

91s

5763

91s

5764

91s Allocated buffers

5765

91s ------------------

5766

91s Size of reception buffer in bytes ...... = 140000

5767

91s Size of async. emission buffer (bytes).. = 140012

5768

91s Small emission buffer (bytes) .......... = 180

5769

91s ** Memory allocated, max in Mbytes (INFOG(18)): 0

5770

91s

5771

91s ** Memory allocated, total in Mbytes (INFOG(19)): 0

5772

91s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

5773

91s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

5774

91s

5775

91s Elapsed time for factorization = 0.0004

5776

91s

5777

91s Leaving factorization with ...

5778

91s RINFOG (2) Operations in node assembly = 0.000D 00

5779

91s ------ (3) Operations in node elimination = 7.000D 01

5780

91s ICNTL (8) Scaling effectively used = 7

5781

91s INFOG (9) Real space for factors = 25

5782

91s INFOG (10) Integer space for factors = 30

5783

91s INFOG (11) Maximum front size = 5

5784

91s INFOG (29) Number of entries in factors = 25

5785

91s INFOG (12) Number of off diagonal pivots = 1

5786

91s INFOG (13) Number of delayed pivots = 0

5787

91s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

5788

91s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

5789

91s RINFOG(21) Largest pivot in absolute value = 5.281D 00

5790

91s INFOG (24) Effective value of ICNTL(12) = 1

5791

91s INFOG (14) Number of memory compress = 0

5792

91s

5793

91s Elapsed time in factorization driver = 0.0008

5794

91s

5795

91s

5796

91s ****** SOLVE & CHECK STEP ********

5797

91s

5798

91s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5799

91s Number of right-hand-sides = 1

5800

91s Blocking factor for multiple rhs = 1

5801

91s ICNTL (9) = 1

5802

91s --- (10) = 0

5803

91s --- (11) = 0

5804

91s --- (20) = 0

5805

91s --- (21) = 0

5806

91s --- (30) = 0

5807

91s --- (35) = 0

5808

91s --- (48) (effective) = 0

5809

91s ** Rank of processor needing largest memory in solve : 0

5810

91s ** Space in MBYTES used by this processor for solve : 0

5811

91s ** Avg. Space in MBYTES per working proc during solve : 0

5812

91s

5813

91s Leaving solve with ...

5814

91s Time to build/scatter RHS = 0.000157

5815

91s Time in solution step (fwd/bwd) = 0.000070

5816

91s .. Time in forward (fwd) step = 0.000039

5817

91s .. Time in backward (bwd) step = 0.000021

5818

91s Time to gather solution(cent.sol)= 0.000006

5819

91s Time for distributed solution = 0.000000

5820

91s

5821

91s Elapsed time in solve driver= 0.0004

5822

91s Solution is (1.0000000000000013,0.0000000000000000) (2.0000000000000000,0.0000000000000000) (3.0000000000000004,0.0000000000000000) (4.0000000000000000,0.0000000000000000) (4.9999999999999991,0.0000000000000000)

5823

91s

5824

91s Entering ZMUMPS 5.7.3 with JOB = -2

5825

91s executing #MPI = 3, without OMP

5826

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5827

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5828

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5829

91s

5830

91s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 4 5 12

5831

91s executing #MPI = 3, without OMP

5832

91s

5833

91s =================================================

5834

91s MUMPS compiled with option -Dpord

5835

91s =================================================

5836

91s L U Solver for unsymmetric matrices

5837

91s Type of parallelism: Working host

5838

91s

5839

91s ****** ANALYSIS STEP ********

5840

91s

5841

91s Processing a graph of size: 5

5842

91s ... Structural symmetry (in percent)= 92

5843

91s Average density of rows/columns = 2

5844

91s ... No column permutation

5845

91s Ordering based on AMF

5846

91s WARNING: Largest root node of size 5 not selected for parallel execution

5847

91s

5848

91s Leaving analysis phase with ...

5849

91s INFOG(1) = 0

5850

91s INFOG(2) = 0

5851

91s -- (20) Number of entries in factors (estim.) = 25

5852

91s -- (3) Real space for factors (estimated) = 25

5853

91s -- (4) Integer space for factors (estimated) = 30

5854

91s -- (5) Maximum frontal size (estimated) = 5

5855

91s -- (6) Number of nodes in the tree = 1

5856

91s -- (32) Type of analysis effectively used = 1

5857

91s -- (7) Ordering option effectively used = 2

5858

91s ICNTL (6) Maximum transversal option = 0

5859

91s ICNTL (7) Pivot order option = 7

5860

91s ICNTL(12) Ordering symmetric indef. matrices = 1

5861

91s ICNTL(13) Parallelism/splitting of root node = 0

5862

91s ICNTL(14) Percentage of memory relaxation = 20

5863

91s ICNTL(15) Analysis by block effectively used = 0

5864

91s ICNTL(18) Distributed input matrix (on if >0) = 0

5865

91s ICNTL(32) Forward elimination during facto. = 0

5866

91s ICNTL(35) BLR activation = 0

5867

91s ICNTL(48) Tree based multithreading (effective)= 0

5868

91s ICNTL(58) Symbolic factorization option = 2

5869

91s Number of level 2 nodes = 0

5870

91s Number of split nodes = 0

5871

91s RINFOG(1) Operations during elimination (estim)= 7.000D 01

5872

91s

5873

91s MEMORY ESTIMATIONS ...

5874

91s Estimations with standard Full-Rank (FR) factorization:

5875

91s Maximum estim. space in Mbytes, IC facto. (INFOG(16)): 0

5876

91s Total space in MBytes, IC factorization (INFOG(17)): 0

5877

91s Maximum estim. space in Mbytes, OOC facto. (INFOG(26)): 0

5878

91s Total space in MBytes, OOC factorization (INFOG(27)): 0

5879

91s

5880

91s Elapsed time in analysis driver= 0.0005

5881

91s

5882

91s

5883

91s ****** FACTORIZATION STEP ********

5884

91s

5885

91s GLOBAL STATISTICS PRIOR NUMERICAL FACTORIZATION ...

5886

91s Number of working processes = 3

5887

91s ICNTL(22) Out-of-core option = 1

5888

91s ICNTL(35) BLR activation (eff. choice) = 0

5889

91s ICNTL(37) BLR CB compression (eff. choice) = 0

5890

91s ICNTL(49) Compact workarray S (end facto.) = 0

5891

91s ICNTL(14) Memory relaxation = 20

5892

91s INFOG(3) Real space for factors (estimated)= 25

5893

91s INFOG(4) Integer space for factors (estim.)= 30

5894

91s Maximum frontal size (estimated) = 5

5895

91s Number of nodes in the tree = 1

5896

91s ICNTL(23) Memory allowed (value on host) = 0

5897

91s Sum over all procs = 0

5898

91s Memory provided by user, sum of LWK_USER = 0

5899

91s Effective threshold for pivoting, CNTL(1) = 0.1000D-01

5900

91s

5901

91s Statistics on the scaling phase

5902

91s Elapsed time for scaling = 0.0001

5903

91s Max difference from 1 after scaling the entries for ONE-NORM (option 7/8) = 0.38D 00

5904

91s

5905

91s Average Effective size of S (based on INFO(39))= 2428

5906

91s Elapsed time to reformat/distribute matrix = 0.0000

5907

91s

5908

91s

5909

91s Allocated buffers

5910

91s ------------------

5911

91s Size of reception buffer in bytes ...... = 140000

5912

91s Size of async. emission buffer (bytes).. = 140012

5913

91s Small emission buffer (bytes) .......... = 180

5914

91s ** Memory allocated, max in Mbytes (INFOG(18)): 0

5915

91s

5916

91s ** Memory allocated, total in Mbytes (INFOG(19)): 0

5917

91s ** Memory effectively used, max in Mbytes (INFOG(21)): 0

5918

91s ** Memory effectively used, total in Mbytes (INFOG(22)): 0

5919

91s

5920

91s Elapsed time for factorization = 0.0003

5921

91s

5922

91s Leaving factorization with ...

5923

91s RINFOG (2) Operations in node assembly = 0.000D 00

5924

91s ------ (3) Operations in node elimination = 7.000D 01

5925

91s ICNTL (8) Scaling effectively used = 7

5926

91s INFOG (9) Real space for factors = 50

5927

91s INFOG (10) Integer space for factors = 31

5928

91s INFOG (11) Maximum front size = 5

5929

91s INFOG (29) Number of entries in factors = 25

5930

91s INFOG (12) Number of off diagonal pivots = 1

5931

91s INFOG (13) Number of delayed pivots = 0

5932

91s RINFOG(19) Smallest pivot WITH perturbed pivots = 1.129D-01

5933

91s RINFOG(20) Smallest pivot WITHOUT perturbed pivots = 1.129D-01

5934

91s RINFOG(21) Largest pivot in absolute value = 5.281D 00

5935

91s INFOG (24) Effective value of ICNTL(12) = 1

5936

91s INFOG (14) Number of memory compress = 0

5937

91s

5938

91s Elapsed time in factorization driver = 0.0021

5939

91s

8630

91s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 7 5 12

8631

91s executing #MPI = 3, without OMP

8632

91s Save done successfully

8633

91s The corresponding OOC files are:

8634

91s /tmp//mumps_0_jKIL3G

8635

91s /tmp//mumps_0_LeBLRZ

8636

91s

8637

91s Elapsed time in save structure driver= 0.0025

8638

91s

8639

91s Entering ZMUMPS 5.7.3 with JOB = -2

5950

91s executing #MPI = 3, without OMP

5951

91s

5952

91s Entering ZMUMPS 5.7.3 with JOB = 8

5953

91s executing #MPI = 3, without OMP

5954

91s The corresponding OOC files are:

5955

91s /tmp//mumps_0_jKIL3G

5956

91s /tmp//mumps_0_LeBLRZ

5957

91s

5958

91s Elapsed time in restore structure driver= 0.0019

5959

91s

5960

91s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = 3 5 12

5961

91s executing #MPI = 3, without OMP

5962

91s

5963

91s

5964

91s

5965

91s ****** SOLVE & CHECK STEP ********

5966

91s

5967

91s GLOBAL STATISTICS PRIOR SOLVE PHASE ...........

5968

91s Number of right-hand-sides = 1

5969

91s Blocking factor for multiple rhs = 1

5970

91s ICNTL (9) = 1

5971

91s --- (10) = 0

5972

91s --- (11) = 0

5973

91s --- (20) = 0

5974

91s --- (21) = 0

5975

91s --- (30) = 0

5976

91s --- (35) = 0

5977

91s --- (48) (effective) = 0

5978

91s ** Rank of processor needing largest memory in solve : 0

5979

91s ** Space in MBYTES used by this processor for solve : 0

5980

91s ** Avg. Space in MBYTES per working proc during solve : 0

5981

91s

5982

91s Leaving solve with ...

5983

91s Time to build/scatter RHS = 0.000097

5984

91s Time in solution step (fwd/bwd) = 0.000111

5985

91s .. Time in forward (fwd) step = 0.000070

5986

91s .. Time in backward (bwd) step = 0.000026

5987

91s Time to gather solution(cent.sol)= 0.000006

5988

91s Time for distributed solution = 0.000000

5989

91s

5990

91s Elapsed time in solve driver= 0.0009

5991

5992

91s

5993

91s Entering ZMUMPS 5.7.3 with JOB, N, NNZ = -3 5 12

5994

91s executing #MPI = 3, without OMP

5995

91s

5996

91s Entering ZMUMPS 5.7.3 with JOB = -2

5997

91s executing #MPI = 3, without OMP

5998

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

5999

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

6000

91s Note: The following floating-point exceptions are signalling: IEEE_INVALID_FLAG IEEE_DIVIDE_BY_ZERO

6001

92s autopkgtest [07:59:18]: test mumps64-examples-mpi: -----------------------]

6002

92s mumps64-examples-mpi PASS

▸ ▾ test mumps64-examples-mpi: test results

6003

92s autopkgtest [07:59:18]: test mumps64-examples-mpi: - - - - - - - - - - results - - - - - - - - - -

▸ ▾ Closing: summary

6004

92s autopkgtest [07:59:18]: @@@@@@@@@@@@@@@@@@@@ summary

6005

92s mumps-examples-serial PASS

6006

92s mumps-examples-mpi PASS

6007

92s mumps64-examples-serial PASS

6008

92s mumps64-examples-mpi PASS