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pyerrors/tests/data/sfcf_test/param/out.out
jkuhl-uni a839592ea8 first steps to testing input methods
2022-02-06 18:05:37 +01:00

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The following modules were not unloaded:
(Use "module --force purge" to unload all):
1) palma/2019a
Currently Loaded Modules:
1) palma/2019a (S)
2) GCCcore/8.2.0
3) zlib/1.2.11
4) binutils/2.31.1
5) icc/2019.1.144-GCC-8.2.0-2.31.1
6) ifort/2019.1.144-GCC-8.2.0-2.31.1
7) impi/2018.4.274
8) imkl/2019.1.144
9) intel/2019a
Where:
S: Module is Sticky, requires --force to unload or purge
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=0 f=0 b=0 c=1 dname='./output_10519905/data_c' p=0 pname='./output_10519905/parameters_c')
... creating data file './output_10519905/data_c' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.11e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 1.06e-03 1.06e-03 0.1 %
reading input 1 1.82e+00 1.82e+00 85.9 %
IO config 1 9.28e-04 9.28e-04 0.0 %
IO data 2 3.03e-03 6.06e-03 0.3 %
mem alloc 2 1.30e-03 2.60e-03 0.1 %
solver (sfcf only) 60 4.51e-03 2.70e-01 12.8 %
rr correlators 1 1.59e-02 1.59e-02 0.8 %
rs correlators 1 1.19e-06 1.19e-06 0.0 %
End.
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=0 f=0 b=0 c=0 dname='./output_10519905/data_o' p=0 pname='./output_10519905/parameters_o')
... creating data file './output_10519905/data_of_A' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
... creating data file './output_10519905/data_of_1' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
... creating data file './output_10519905/data_oF_V0' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.11e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 8.18e-04 8.18e-04 0.0 %
reading input 1 1.81e+00 1.81e+00 86.0 %
IO config 1 7.10e-04 7.10e-04 0.0 %
IO data 2 2.91e-03 5.82e-03 0.3 %
mem alloc 2 1.34e-03 2.68e-03 0.1 %
solver (sfcf only) 60 4.50e-03 2.70e-01 12.8 %
rr correlators 1 1.52e-02 1.52e-02 0.7 %
rs correlators 1 9.54e-07 9.54e-07 0.0 %
End.
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=0 f=0 b=0 c=0 dname='./output_10519905/data_a' p=0 pname='./output_10519905/parameters_a')
... creating data file './output_10519905/data_af_A' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
... creating data file './output_10519905/data_af_1' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
... creating data file './output_10519905/data_aF_V0' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7, param_md5 = d881e90d41188a33b8b0f1bd0bc53ea5)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.10e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 7.49e-04 7.49e-04 0.0 %
reading input 1 1.81e+00 1.81e+00 85.9 %
IO config 1 6.98e-04 6.98e-04 0.0 %
IO data 2 3.40e-03 6.79e-03 0.3 %
mem alloc 2 1.30e-03 2.60e-03 0.1 %
solver (sfcf only) 60 4.52e-03 2.71e-01 12.9 %
rr correlators 1 1.51e-02 1.51e-02 0.7 %
rs correlators 1 0.00e+00 0.00e+00 0.0 %
End.
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=1 f=0 b=0 c=0 dname='./output_10519905/data_a' p=0 pname='./output_10519905/parameters_a')
... checking data file './output_10519905/data_af_A' [dataio.c]
... skipped 1 run records [dataio.c]
... skipped 6 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_A' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_af_1' [dataio.c]
... skipped 1 run records [dataio.c]
... skipped 18 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_1' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_aF_V0' [dataio.c]
... skipped 1 run records [dataio.c]
... skipped 18 correlator records [dataio.c]
... appending to data file './output_10519905/data_aF_V0' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.11e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 7.90e-04 7.90e-04 0.0 %
reading input 1 1.81e+00 1.81e+00 85.8 %
IO config 1 6.84e-04 6.84e-04 0.0 %
IO data 2 2.45e-03 4.91e-03 0.2 %
mem alloc 2 1.34e-03 2.68e-03 0.1 %
solver (sfcf only) 60 4.58e-03 2.75e-01 13.0 %
rr correlators 1 1.53e-02 1.53e-02 0.7 %
rs correlators 1 1.19e-06 1.19e-06 0.0 %
End.
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=1 f=0 b=0 c=0 dname='./output_10519905/data_a' p=0 pname='./output_10519905/parameters_a')
... checking data file './output_10519905/data_af_A' [dataio.c]
... skipped 2 run records [dataio.c]
... skipped 12 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_A' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_af_1' [dataio.c]
... skipped 2 run records [dataio.c]
... skipped 36 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_1' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_aF_V0' [dataio.c]
... skipped 2 run records [dataio.c]
... skipped 36 correlator records [dataio.c]
... appending to data file './output_10519905/data_aF_V0' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.11e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 8.06e-04 8.06e-04 0.0 %
reading input 1 1.81e+00 1.81e+00 85.8 %
IO config 1 7.46e-04 7.46e-04 0.0 %
IO data 2 2.60e-03 5.20e-03 0.2 %
mem alloc 2 1.33e-03 2.66e-03 0.1 %
solver (sfcf only) 60 4.57e-03 2.74e-01 13.0 %
rr correlators 1 1.60e-02 1.60e-02 0.8 %
rs correlators 1 0.00e+00 0.00e+00 0.0 %
End.
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=1 f=0 b=0 c=0 dname='./output_10519905/data_a' p=0 pname='./output_10519905/parameters_a')
... checking data file './output_10519905/data_af_A' [dataio.c]
... skipped 3 run records [dataio.c]
... skipped 18 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_A' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_af_1' [dataio.c]
... skipped 3 run records [dataio.c]
... skipped 54 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_1' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_aF_V0' [dataio.c]
... skipped 3 run records [dataio.c]
... skipped 54 correlator records [dataio.c]
... appending to data file './output_10519905/data_aF_V0' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.11e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 8.31e-04 8.31e-04 0.0 %
reading input 1 1.81e+00 1.81e+00 85.9 %
IO config 1 9.42e-04 9.42e-04 0.0 %
IO data 2 1.73e-03 3.45e-03 0.2 %
mem alloc 2 1.62e-03 3.24e-03 0.2 %
solver (sfcf only) 60 4.54e-03 2.72e-01 12.9 %
rr correlators 1 1.52e-02 1.52e-02 0.7 %
rs correlators 1 0.00e+00 0.00e+00 0.0 %
End.
Build info
----------
Global lattice: 4 x 4 x 4 x 4
Local lattice: 4 x 4 x 4 x 4 (u: 320+0 s: 192+0)
Using single MPI process
SFCF version: 2.1
Using geometry 2 (boundary spinors mapped to dummy, u_ipt != s_ipt)
Using solvers from openQCD
Using dfl_update in DFL_SAP_GCR solver from openQCD
Using oqcd_utils2.c from SFCF
Using profiler functions also in openQCD interface
Using SSE3
Using prefetch PM
Using prefetch P4
Initialization
--------------
... initializing geometry
... allocating gauge field
... using unit gauge field
Gauge field checked (184320 B, unused links: 64 zero, 1216 unity, BF0)
Gauge checksum (MD5): 1ea28326e4090996111a320b8372811d
... reading input file ('sfcf_unity_test.in')
... finished reading input file (without hash) [input.c]
Basic parameters:
Nf = 3
beta = 3.552200000000
ct = 1.055185744046 (input)
cttilde= 0.974579134058 (input)
csw = 1.822845956831 (input)
isw = 0
WARNING: The improvement coefficients have been calculated according to old
formulae, which were used in past simulations. If you do not need
compatibility to old simulations, you can use the newest formulae by
defining the preprocessor flag USE_LATEST_IMPROVEMENT.
Solver parameters:
errsq = 1.000000e-18
nmax = 4096
oqcd_solver_select = -1
oqcd_solver_param = 0xf04
[Solver 0]
solver = DFL_SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 1]
solver = CGNE
nmx = 4096
res = 1.000000e-10
[Solver 2]
solver = SAP_GCR
nkv = 24
isolv = 1
nmr = 4
ncy = 5
nmx = 2048
res = 1.000000e-10
[Solver 3]
solver = CGNE_NO_EO
nkv = 0
isolv = 0
nmr = 0
ncy = 0
nmx = 4096
res = 1.000000e-10
[SAP]
bs = 4 4 4 4
[[Deflation subspace]
bs = 4 4 4 4
Ns = 20
[[Deflation subspace generation]
kappa = 1.371379e-01
mu = 0.000000e+00
ninv = 10
nmr = 4
ncy = 5
[[Deflation projection]
nkv = 18
nmx = 2048
res = 1.000000e-02
Source offsets: 2
offsets[0] = (0.0000000000000000e+00,0.0000000000000000e+00,0.0000000000000000e+00) = (0,0,0) sites
WARNING in safe_ftoi [utils.c]: Fractional part exceeds tolerance (|0.5|>1e-06). offsets[1] = (0.0000000000000000e+00,0.0000000000000000e+00,5.0000000000000000e-01) = (0,0,0) sites
Wave-function parameters:
sigma type = delta
Wave-function basis:
element #0: n_H = 0.000000000000 r_H = 2.666666666667
element #1: n_H = 1.000000000000 r_H = 2.666666666667
element #2: n_H = 0.000000000000 r_H = 5.333333333333
Wave-function coefficients:
element #0: coeff = { 1.000000000000, 0.000000000000, 0.000000000000,}
element #1: coeff = { 0.000000000000, 1.000000000000, 0.000000000000,}
element #2: coeff = { 0.000000000000, 0.000000000000, 1.000000000000,}
Relativistic quarks:
rel. quark #0: name = 'lquark' kappa = 0.137137900000 theta = 0.500000000000 0.500000000000 0.500000000000 persistent
Measurements for rr: 1
mrr[0] = (0, 0)
Correlators for rr: 3
crr[0] = 'f_A'
crr[1] = 'f_1'
crr[2] = 'F_V0'
Static actions (`smearings'):
Static quarks:
Measurements for rs: 0
Correlators for rs: 0
... allocating rprop (32 blocks)
... initializing dataio (a=1 f=0 b=0 c=0 dname='./output_10519905/data_a' p=0 pname='./output_10519905/parameters_a')
... checking data file './output_10519905/data_af_A' [dataio.c]
... skipped 4 run records [dataio.c]
... skipped 24 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_A' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_af_1' [dataio.c]
... skipped 4 run records [dataio.c]
... skipped 72 correlator records [dataio.c]
... appending to data file './output_10519905/data_af_1' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
... checking data file './output_10519905/data_aF_V0' [dataio.c]
... skipped 4 run records [dataio.c]
... skipped 72 correlator records [dataio.c]
... appending to data file './output_10519905/data_aF_V0' [dataio.c]
... wrote run record (param_hash = 686af5e712ee2902180f5428af94c6e7)
Plaquette:
sum: 4.09557397714092622e+03
sum (time): 2.36757397714092622e+03
sum (space): 1.72800000000000000e+03
sum (avg.): 1.01576735544169794e+00
dS/deta: 0.00000000000000000e+00
vbar: 0.00000000000000000e+00
RR Correlation Functions
------------------------
offset[0] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +0.0000000000000000e+00}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.335827e-10
True residue: |r_n|/|v| = 8.335828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.534512e-10
True residue: |r_n|/|v| = 8.534511e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802722e-10
True residue: |r_n|/|v| = 8.802722e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.802562e-10
True residue: |r_n|/|v| = 8.802562e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.801999e-10
True residue: |r_n|/|v| = 8.801999e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796995e-10
True residue: |r_n|/|v| = 8.796995e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.684873e-10
True residue: |r_n|/|v| = 6.684873e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.682003e-10
True residue: |r_n|/|v| = 6.682002e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021740e-10
True residue: |r_n|/|v| = 6.021742e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021726e-10
True residue: |r_n|/|v| = 6.021726e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
offset[1] == {+0.0000000000000000e+00, +0.0000000000000000e+00, +5.0000000000000000e-01}
computing correlations between rel. quark 0 and rel. quark 0...
wave function: 0
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 9.352828e-10
True residue: |r_n|/|v| = 9.352828e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 42 iterations
Iterated residue: |r_n|/|v| = 8.277678e-10
True residue: |r_n|/|v| = 8.277678e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.800192e-10
True residue: |r_n|/|v| = 8.800192e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.804954e-10
True residue: |r_n|/|v| = 8.804953e-10
computing f_1 ...
computing F_V0 ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.806137e-10
True residue: |r_n|/|v| = 8.806137e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 48 iterations
Iterated residue: |r_n|/|v| = 8.796464e-10
True residue: |r_n|/|v| = 8.796464e-10
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 1
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.689213e-10
True residue: |r_n|/|v| = 6.689212e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 41 iterations
Iterated residue: |r_n|/|v| = 6.695514e-10
True residue: |r_n|/|v| = 6.695515e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
wave function: 2
computing f_A ...
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021731e-10
True residue: |r_n|/|v| = 6.021731e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
... start SFCF solver CG: iv=-1 ix=196 [solver.c]
CG converged after 39 iterations
Iterated residue: |r_n|/|v| = 6.021729e-10
True residue: |r_n|/|v| = 6.021727e-10
computing f_1 ...
computing F_V0 ...
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
INFO from crr_bib [crr_contractions.c]: This routine is only exact for flat wave functions.
RS Correlation Functions
------------------------
... finalizing dataio
OK: All 197 PSDdummy are zero
Maximum memory usage (rank 0): 8.61 MB (8.61 by SFCF, 0.00 by openQCD)
Current memory usage (rank 0): 8.58 MB (8.58 by SFCF, 0.00 by openQCD)
Total execution time with solver -1 (CG): 2.11e+00 sec
section count avg sec tot sec rel cost
-----------------------------------------------------------------
main 1 7.94e-04 7.94e-04 0.0 %
reading input 1 1.81e+00 1.81e+00 86.0 %
IO config 1 7.78e-04 7.78e-04 0.0 %
IO data 2 2.04e-03 4.08e-03 0.2 %
mem alloc 2 1.56e-03 3.13e-03 0.1 %
solver (sfcf only) 60 4.50e-03 2.70e-01 12.8 %
rr correlators 1 1.54e-02 1.54e-02 0.7 %
rs correlators 1 0.00e+00 0.00e+00 0.0 %
End.
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