[Debian-astro-maintainers] Bug#980650: gyoto: FTBFS: dh_auto_test: error: make -j4 check VERBOSE=1 check-lorene returned exit code 2
Lucas Nussbaum
lucas at debian.org
Wed Jan 20 20:46:17 GMT 2021
Source: gyoto
Version: 1.4.4-3
Severity: serious
Justification: FTBFS on amd64
Tags: bullseye sid ftbfs
Usertags: ftbfs-20210120 ftbfs-bullseye
Hi,
During a rebuild of all packages in sid, your package failed to build
on amd64.
Relevant part (hopefully):
> make[4]: Entering directory '/<<PKGBUILDDIR>>/bin/.check-lorene'
> In gyoto.C: Error initializing libgyoto: Converters.C:56 in void Gyoto::Units::Init(): error initializing arcsec unit
> make[3]: *** [Makefile:906: example-complex-astrobj.fits] Error 2
> make[3]: *** Waiting for unfinished jobs....
> In gyoto.C: Error initializing libgyoto: Converters.C:56 in void Gyoto::Units::Init(): error initializing arcsec unit
> In gyoto.C: Error initializing libgyoto: Converters.C:56 in void Gyoto::Units::Init(): error initializing arcsec unit
> make[3]: *** [Makefile:906: example-fixed-star-KS.fits] Error 2
> make[3]: *** [Makefile:906: example-fixed-star-RZ.fits] Error 2
> make[3]: Leaving directory '/<<PKGBUILDDIR>>/bin'
> make[2]: *** [Makefile:532: check-recursive] Error 1
> make[2]: *** Waiting for unfinished jobs....
> g++ -c -g -ffile-prefix-map=/<<PKGBUILDDIR>>/bin/.check-lorene=. -fstack-protector-strong -Wformat -Werror=format-security -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/lib/x86_64-linux-gnu/lorene/C++/Include nrotstar.C
> g++ -o nrotstar -g -ffile-prefix-map=/<<PKGBUILDDIR>>/bin/.check-lorene=. -fstack-protector-strong -Wformat -Werror=format-security -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC nrotstar.o -L/usr/lib/x86_64-linux-gnu/lorene/Lib -llorene_g -llorenef77_g -llapack -lblas \
> -lgsl -lgslcblas -lcpgplot -lpgplot -lX11 -lfftw3 -lgfortran -lstdc++ -lm
> make[4]: Leaving directory '/<<PKGBUILDDIR>>/bin/.check-lorene'
> cd .check-lorene && ./nrotstar
> sh: 1: ident: not found
>
> ==========================================================
> Physical parameters
> ==========================================================
>
>
> Equation of state :
> =================
> Star EOS
> EOS of class Eos_poly (relativistic polytrope) :
> Adiabatic index gamma : 2
> Pressure coefficient kappa : 0.04 rho_nuc c^2 / n_nuc^gamma
> Mean particle mass : 1 m_B
> Relativistic chemical potential at zero pressure : 1 m_B c^2
>
> Central enthalpy : 0.3 c^2
> Rotation frequency : 700 Hz
>
> ==========================================================
> Computational parameters
> ==========================================================
>
> Maximum number of steps in the main iteration : 100
> Relaxation factor in the main iteration : 0.5
> Threshold on the enthalpy relative change for ending the computation : 1e-06
> Maximum number of steps in Map_et::poisson : 4
> Relaxation factor in Map_et::poisson : 1.5
> Step from which the baryon mass is forced to converge : 2000
> Exponent for the increase factor of the central enthalpy : 0.5
> Threshold on |dH/dr|_eq / |dH/dr|_pole for the adaptation of the mapping
> 0.3
>
> Multi-grid :
> ==========
> Number of domains: 3
> Domain #0: nr = 33, RARE; nt = 17, SYM; np = 1, SYM; Collocation points type : Chebyshev
> Domain #1: nr = 33, FIN; nt = 17, SYM; np = 1, SYM; Collocation points type : Chebyshev
> Domain #2: nr = 33, UNSURR; nt = 17, SYM; np = 1, SYM; Collocation points type : Chebyshev
>
>
> Mapping :
> =======
> Absolute coordinates of the mapping origin:
> X_0, Y_0, Z_0 : 0 0 0
> Rotation angle between the x-axis and X-axis : 0
> Radial mapping of form r = xi + A(xi)F(t,p) + B(xi)G(t,p) (class Map_et)
> Domain #0 : alpha_l = 1 , beta_l = 0
> Domain #1 : alpha_l = 0.5 , beta_l = 1.5
> Domain #2 : alpha_l = -0.25 , beta_l = 0.25
>
> Function F(theta', phi') :
> -------------------------
> *** Valeur
> state: ZERO
>
> Function G(theta', phi') :
> -------------------------
> *** Valeur
> state: ZERO
>
> Values of r at the outer boundary of each domain [km] :
> ------------------------------------------------------
> 1/ for theta = Pi/2 and phi = 0 :
> val_r : 10 20 inf
> Coord r : 10 20 inf
> 2/ for theta = Pi/2 and phi = Pi/2 :
> val_r : 10 20 inf
> Coord r : 10 20 inf
> 3/ for theta = Pi/2 and phi = Pi :
> val_r : 10 20 inf
> 4/ for theta = 0 :
> val_r : 10 20 inf
> Coord r : 10 20 inf
>
> ========================
> Relativistic computation
> ========================
>
> Initial star :
> ============
>
> Number of domains occupied by the star : 1
> Equation of state :
> Star EOS
> EOS of class Eos_poly (relativistic polytrope) :
> Adiabatic index gamma : 2
> Pressure coefficient kappa : 0.04 rho_nuc c^2 / n_nuc^gamma
> Mean particle mass : 1 m_B
> Relativistic chemical potential at zero pressure : 1 m_B c^2
>
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
>
> Central lapse N : 1
>
> Coordinate equatorial radius (phi=0) a1 = 10 km
> Coordinate equatorial radius (phi=pi/2) a2 = 10 km
> Coordinate equatorial radius (phi=pi): 10 km
> Coordinate polar radius a3 = 10 km
> Axis ratio a2/a1 = 1 a3/a1 = 1
>
> Baryon mass : 0.572648 M_sol
> Gravitational mass : 0.793521 M_sol
>
> Uniformly rotating star
> -----------------------
> Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
> Relativistic star
> Compactness G M_g /(c^2 R_circ) : 0.11717
> Central N^phi : 0
> Error on the virial identity GRV2 : INTEGRALE2D: Integ(l=0): 3.66007425E-02 + 0.00000000 = 3.66007425E-02
> INTEGRALE2D: Integ(l=0): 0.00000000 + 0.00000000 = 0.00000000
> 1
> Star_rot::grv3 : gravitational term : 0
> Star_rot::grv3 : matter term : 0.307377
> Error on the virial identity GRV3 : 1
> Quadrupole moment Q : -3.85211e-17 10^38 kg m^2
> Q / (M R_circ^2) : -2.44126e-17
> c^4 Q / (G^2 M^3) : -1.77821e-15
> Angular momentum J : 0 G M_sol^2 / c
> c J / (G M^2) : 0
> Moment of inertia: -nan 10^38 kg m^2
> Ratio T/W : -0
> Circumferential equatorial radius R_circ : 10 km
> Surface area : 1256.64 km^2
> Mean radius : 10 km
> Coordinate equatorial radius r_eq : 10 km
> Flattening r_pole/r_eq : 1
> Equatorial value of the velocity U: 0 c
> Redshift at the equator (forward) : 0
> Redshift at the equator (backward): 0
> Redshift at the pole : 0
> Central value of log(N) : 0
> Central value of dzeta=log(AN) : 0
> Central N^phi : 0
> ... w_shift (NB: components in the star Cartesian frame) [c] :
> 0 0 0
> Central value of khi_shift [km c] : 0
> Central value of B^2 : 1
> Relative discrepancy in each domain between the metric coef. A^2 and B^2 :
> 0 0 0
>
> Innermost stable circular orbit (ISCO) :
> circumferential radius r_isco = 10 km
> (approx. 6M + 1st order in j : 7.03019 km)
> (approx. 6M : 7.03019 km)
> orbital frequency f_isco = 0 Hz
> (approx. 1st order in j : 2770.75 Hz)
>
> -----------------------------------------------
> step: 0
> diff_ent = �[1m1�[0m
> err_grv2 = 1
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.16761 1.083 1.02929
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 1.15141 0 0
> Abs. error : 2.44249e-13 7.8903e-12 8.21082e-13
> Rel. error : 2.12131e-13 6.85274e-12 7.13111e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.60176
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.01495 1.00997 1.00352
> step 1 : 0 0 0
> GRV2: -1
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.600617
> Central lapse N : 0.548473
> Central value of dzeta=log(AN) : -0.15388
> Central value of A^2 : 2.4436
> Central value of B^2 : 2.94587
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 16.0176 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 1
> diff_ent = �[1m0.137289�[0m
> err_grv2 = -1
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.96249 2.76998 2.76998
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.81359 0 0
> Abs. error : 5.60441e-13 1.15938e-11 7.94187e-12
> Rel. error : 1.99191e-13 4.12066e-12 2.82269e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.989496 0.993345 0.997497
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0102017 0.00332547 0.0108298
> Abs. error : 2.12551e-13 2.08083e-13 1.44748e-11
> Rel. error : 2.08349e-11 2.0397e-11 1.33658e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 0.738751
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0972532 0.025069 0.025069
> step 1 : 0 0 0
> GRV2: 0.104775
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.532246
> Central lapse N : 0.587284
> Central value of dzeta=log(AN) : -0.108549
> Central value of A^2 : 2.33356
> Central value of B^2 : 2.31495
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 11.833 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 2
> diff_ent = �[1m0.0749424�[0m
> err_grv2 = 0.104775
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.563413 0.570092 0.570092
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.68688 0 0
> Abs. error : 2.75335e-13 9.13317e-12 1.86335e-12
> Rel. error : 1.02474e-13 3.39917e-12 6.93499e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.491372 0.391059 0.371365
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0394193 0.00664813 0.00633481
> Abs. error : 2.02733e-13 5.52702e-13 1.51999e-11
> Rel. error : 5.14299e-12 1.40211e-11 2.39943e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.09188
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.376566 0.390768 0.390768
> step 1 : 0 0 0
> GRV2: -0.19961
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.513945
> Central lapse N : 0.598131
> Central value of dzeta=log(AN) : -0.0760498
> Central value of A^2 : 2.40077
> Central value of B^2 : 2.4392
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 12.9203 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 3
> diff_ent = �[1m0.0303212�[0m
> err_grv2 = -0.19961
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.139265 0.132983 0.132983
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.76427 0 0
> Abs. error : 6.39933e-13 8.67985e-12 2.51692e-12
> Rel. error : 2.31502e-13 3.14002e-12 9.10519e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.437941 0.449967 0.451772
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0210967 0.00284726 0.00387249
> Abs. error : 4.70643e-13 2.57433e-13 8.59833e-12
> Rel. error : 2.23089e-11 1.22025e-11 2.22036e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00786
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0471915 0.0363173 0.0363173
> step 1 : 0 0 0
> GRV2: -0.0317699
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.511677
> Central lapse N : 0.599489
> Central value of dzeta=log(AN) : -0.0741835
> Central value of A^2 : 2.39885
> Central value of B^2 : 2.4003
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.0219 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 4
> diff_ent = �[1m0.00868812�[0m
> err_grv2 = -0.0317699
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0064404 0.00767536 0.00767536
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.76205 0 0
> Abs. error : 3.3662e-13 8.47879e-12 2.53703e-12
> Rel. error : 1.21873e-13 3.06975e-12 9.1853e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0498019 0.0407558 0.0397298
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0230511 0.0028331 0.00400561
> Abs. error : 1.02199e-13 2.6446e-13 5.43892e-12
> Rel. error : 4.43359e-12 1.14728e-11 1.35782e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00901
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00984562 0.0115908 0.0115908
> step 1 : 0 0 0
> GRV2: -0.0223401
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.510205
> Central lapse N : 0.600373
> Central value of dzeta=log(AN) : -0.0736414
> Central value of A^2 : 2.39439
> Central value of B^2 : 2.39718
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.1391 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 5
> diff_ent = �[1m0.00321109�[0m
> err_grv2 = -0.0223401
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0085466 0.00815106 0.00815106
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.75692 0 0
> Abs. error : 2.20712e-13 4.45438e-11 2.60399e-12
> Rel. error : 8.00577e-14 1.61571e-11 9.44528e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0194401 0.0214424 0.0217017
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0225138 0.00270679 0.00396676
> Abs. error : 7.86075e-14 1.35521e-12 1.56256e-11
> Rel. error : 3.49153e-12 6.01945e-11 3.93913e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00376
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00350063 0.00280953 0.00280953
> step 1 : 0 0 0
> GRV2: -0.00852253
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.509854
> Central lapse N : 0.600583
> Central value of dzeta=log(AN) : -0.0734662
> Central value of A^2 : 2.39355
> Central value of B^2 : 2.39442
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.1885 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 6
> diff_ent = �[1m0.000968456�[0m
> err_grv2 = -0.00852253
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00482964 0.00471867 0.00471867
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.75595 0 0
> Abs. error : 7.77156e-14 5.40319e-11 2.63597e-12
> Rel. error : 2.81992e-14 1.96055e-11 9.56466e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000532114 0.000742551 0.0008241
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0224528 0.002679 0.00398628
> Abs. error : 6.54948e-13 1.64829e-12 2.11574e-11
> Rel. error : 2.917e-11 7.34111e-11 5.30755e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00111
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00198072 0.00180803 0.00180803
> step 1 : 0 0 0
> GRV2: -0.00260223
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.509733
> Central lapse N : 0.600656
> Central value of dzeta=log(AN) : -0.0734691
> Central value of A^2 : 2.39295
> Central value of B^2 : 2.39321
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.2031 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 7
> diff_ent = �[1m0.00030937�[0m
> err_grv2 = -0.00260223
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00123237 0.00120063 0.00120063
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.75526 0 0
> Abs. error : 1.84575e-14 3.60685e-11 2.64498e-12
> Rel. error : 6.69898e-15 1.30907e-11 9.59973e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000884841 0.000681118 0.000656658
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0224535 0.00267339 0.0039956
> Abs. error : 7.51155e-13 1.09186e-12 5.0544e-12
> Rel. error : 3.34539e-11 4.86279e-11 1.26499e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00043
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000525527 0.00047694 0.00047694
> step 1 : 0 0 0
> GRV2: -0.000951671
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.509693
> Central lapse N : 0.60068
> Central value of dzeta=log(AN) : -0.0734639
> Central value of A^2 : 2.39279
> Central value of B^2 : 2.39288
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.2087 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 8
> diff_ent = �[1m9.77565e-05�[0m
> err_grv2 = -0.000951671
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000550424 0.000540588 0.000540588
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.75507 0 0
> Abs. error : 2.35367e-14 3.37306e-11 2.64866e-12
> Rel. error : 8.54305e-15 1.22431e-11 9.61376e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 8.7938e-05 2.75679e-05 2.03083e-05
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0224453 0.00267076 0.00399845
> Abs. error : 3.90456e-13 1.10064e-12 2.47541e-12
> Rel. error : 1.73959e-11 4.90366e-11 6.19092e-10
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00013
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000247345 0.000231814 0.000231814
> step 1 : 0 0 0
> GRV2: -0.000290074
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.509681
> Central lapse N : 0.600687
> Central value of dzeta=log(AN) : -0.0734645
> Central value of A^2 : 2.39273
> Central value of B^2 : 2.39276
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.2104 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 9
> diff_ent = �[1m3.00175e-05�[0m
> err_grv2 = -0.000290074
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000161946 0.000159039 0.000159039
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.75501 0 0
> Abs. error : 4.70735e-13 5.55735e-11 2.64976e-12
> Rel. error : 1.70865e-13 2.01718e-11 9.618e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000118482 9.9372e-05 9.71022e-05
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.022445 0.0026702 0.00399967
> Abs. error : 2.47439e-13 1.67651e-12 6.57005e-12
> Rel. error : 1.10243e-11 7.46944e-11 1.64265e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.00004
> | dH/dr_eq / dH/dr_pole | = 1
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.20825e-05 6.77488e-05 6.77488e-05
> step 1 : 0 0 0
> GRV2: -9.39151e-05
> Central Omega : 0 rad/s f : 0 Hz
> Rotation period : inf ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.509678
> Central lapse N : 0.600689
> Central value of dzeta=log(AN) : -0.0734647
> Central value of A^2 : 2.39271
> Central value of B^2 : 2.39272
> Central N^phi : 0
> Equatorial value of the velocity U: 0 c
>
> Coordinate equatorial radius r_eq = 13.211 km
> Flattening r_pole/r_eq : 1
> -----------------------------------------------
> step: 10
> diff_ent = �[1m9.43854e-06�[0m
> err_grv2 = -9.39151e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.35844e-05 5.2683e-05 5.2683e-05
> step 1 : 0 0 0
> Test of the Poisson equation for nuf :
> Max. source : 2.75498 0 0
> Abs. error : 2.33591e-13 3.37268e-11 2.65013e-12
> Rel. error : 8.47885e-14 1.22421e-11 9.61939e-13
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.8863e-05 2.31716e-05 2.24817e-05
> step 1 : 0 0 0
> Test of the Poisson equation for nuq :
> Max. source : 0.0224446 0.00266999 0.00400003
> Abs. error : 3.47344e-13 1.02363e-12 2.58643e-11
> Rel. error : 1.54756e-11 4.56068e-11 6.46603e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> alpha_r = 1.04337
> | dH/dr_eq / dH/dr_pole | = 0.855847
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0458331 0.0521929 0.0682395
> step 1 : 0.0276693 0.0256867 0.0244778
> step 2 : 0.000715056 0.000725829 0.000792899
> step 3 : 0.00327872 0.0032801 0.00323082
> GRV2: -0.0722584
> Central Omega : 3455.75 rad/s f : 550 Hz
> Rotation period : 1.81818 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.532752
> Central lapse N : 0.586987
> Central value of dzeta=log(AN) : -0.0717605
> Central value of A^2 : 2.51427
> Central value of B^2 : 2.5065
> Central N^phi/Omega : 0
> Equatorial value of the velocity U: 0.23903 c
>
> Coordinate equatorial radius r_eq = 13.7839 km
> Flattening r_pole/r_eq : 0.894455
> -----------------------------------------------
> step: 11
> diff_ent = �[1m0.0365246�[0m
> err_grv2 = -0.0722584
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0862316 0.0808927 0.0568361
> step 1 : 0.0262029 0.0141917 0.00899431
> step 2 : 0.00668233 0.00970132 0.0106073
> step 3 : 0.00418768 0.00396368 0.00368971
> Test of the Poisson equation for nuf :
> Max. source : 2.89495 0 0
> Abs. error : 0.00398868 0.000484339 5.16079e-12
> Rel. error : 0.00137781 0.000167304 1.78268e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0138478 0.0245799 0.0339266
> step 1 : 0.00817097 0.00353482 0.0059036
> step 2 : 0.00164414 0.00194117 0.00169171
> step 3 : 0.00103199 0.000339607 0.000156088
> Test of the Poisson equation for nuq :
> Max. source : 0.0260522 0.00302992 0.00417441
> Abs. error : 5.50922e-05 6.75452e-06 2.01448e-11
> Rel. error : 0.00211468 0.000259268 4.82577e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.989668 0.995791 0.999253
> step 1 : 0.223095 0.196116 0.164013
> step 2 : 0.036165 0.0512806 0.0630016
> step 3 : 0.032003 0.036133 0.0369061
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.283874 0 0
> Abs. error : 0.00289087 0.000224073 1.18044e-11
> Rel. error : 0.0101836 0.00078934 4.15833e-11
> alpha_r = 0.995841
> | dH/dr_eq / dH/dr_pole | = 0.703395
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0406123 0.0448467 0.0399689
> step 1 : 0.0357626 0.0351276 0.0339614
> step 2 : 0.00202673 0.00392892 0.00490487
> step 3 : 0.00524173 0.00604552 0.00621897
> GRV2: 0.092709
> Central Omega : 3550 rad/s f : 565 Hz
> Rotation period : 1.76991 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.540635
> Central lapse N : 0.582379
> Central value of dzeta=log(AN) : -0.0739096
> Central value of A^2 : 2.54327
> Central value of B^2 : 2.52183
> Central N^phi/Omega : 0.648633
> Equatorial value of the velocity U: 0.228602 c
>
> Coordinate equatorial radius r_eq = 13.7266 km
> Flattening r_pole/r_eq : 0.863472
> -----------------------------------------------
> step: 12
> diff_ent = �[1m0.0120445�[0m
> err_grv2 = 0.092709
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0711435 0.0826789 0.0929407
> step 1 : 0.00126651 0.00105489 0.000384303
> step 2 : 0.00269536 0.0043373 0.00511101
> step 3 : 0.00106469 0.00182257 0.00196361
> Test of the Poisson equation for nuf :
> Max. source : 2.92834 0 0
> Abs. error : 0.00135447 0.000145754 5.04679e-12
> Rel. error : 0.000462537 4.97737e-05 1.72343e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0789079 0.088278 0.0965413
> step 1 : 0.0107274 0.0142653 0.0139668
> step 2 : 0.00149309 0.00203446 0.00287621
> step 3 : 0.00284026 0.00357623 0.00377416
> Test of the Poisson equation for nuq :
> Max. source : 0.0286967 0.0038752 0.00428063
> Abs. error : 8.40333e-05 1.00333e-05 1.46794e-11
> Rel. error : 0.00292832 0.000349631 3.42925e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.12437 0.34535 0.583583
> step 1 : 0.0269501 0.0427597 0.0380627
> step 2 : 0.00490349 0.003131 0.00409564
> step 3 : 0.0020021 0.00304443 0.00328799
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.202446 0.0183142 0.0320565
> Abs. error : 0.00129753 2.9849e-05 1.68583e-11
> Rel. error : 0.00640929 0.000147442 5.25892e-10
> alpha_r = 1.0214
> | dH/dr_eq / dH/dr_pole | = 0.659473
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0188521 0.0239818 0.0263818
> step 1 : 0.0136416 0.0161109 0.01631
> step 2 : 0.000458605 0.000971349 0.00142929
> step 3 : 0.00203187 0.00263877 0.00279164
> GRV2: -0.0196821
> Central Omega : 3644.25 rad/s f : 580 Hz
> Rotation period : 1.72414 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.540737
> Central lapse N : 0.582319
> Central value of dzeta=log(AN) : -0.0747362
> Central value of A^2 : 2.53959
> Central value of B^2 : 2.53457
> Central N^phi/Omega : 0.46857
> Equatorial value of the velocity U: 0.235221 c
>
> Coordinate equatorial radius r_eq = 14.0202 km
> Flattening r_pole/r_eq : 0.853311
> -----------------------------------------------
> step: 13
> diff_ent = �[1m0.00891776�[0m
> err_grv2 = -0.0196821
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0212975 0.0203984 0.0183667
> step 1 : 0.00422104 0.00769945 0.00911694
> step 2 : 0.00105624 0.00164338 0.00171514
> step 3 : 0.000215361 0.000449068 0.000586837
> Test of the Poisson equation for nuf :
> Max. source : 2.9241 0 0
> Abs. error : 0.000908224 4.77472e-05 5.46046e-12
> Rel. error : 0.000310599 1.63289e-05 1.8674e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00543728 0.0169536 0.0271319
> step 1 : 0.00177584 0.00248839 0.00340139
> step 2 : 0.000277971 0.000245789 0.000140861
> step 3 : 0.00116254 0.00102038 0.0009705
> Test of the Poisson equation for nuq :
> Max. source : 0.0269153 0.00378595 0.00410958
> Abs. error : 6.04441e-05 4.90221e-06 1.10355e-11
> Rel. error : 0.00224571 0.000182135 2.68532e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0443138 0.0784891 0.134351
> step 1 : 0.00246103 0.00138176 0.000827601
> step 2 : 0.00163114 0.00235762 0.00283249
> step 3 : 0.000220446 0.000177928 0.000167591
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.205264 0.0188875 0.0488229
> Abs. error : 0.000190867 1.2822e-05 1.94518e-11
> Rel. error : 0.000929862 6.2466e-05 3.98417e-10
> alpha_r = 1.01316
> | dH/dr_eq / dH/dr_pole | = 0.629802
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00290744 0.0016198 0.0019507
> step 1 : 0.00101095 0.00154137 0.00195799
> step 2 : 0.000261136 0.000479506 0.000499322
> step 3 : 0.000149074 4.85442e-05 1.81445e-05
> GRV2: -0.01814
> Central Omega : 3738.5 rad/s f : 595 Hz
> Rotation period : 1.68067 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.541217
> Central lapse N : 0.582039
> Central value of dzeta=log(AN) : -0.0754555
> Central value of A^2 : 2.53837
> Central value of B^2 : 2.53445
> Central N^phi/Omega : 0.497405
> Equatorial value of the velocity U: 0.242855 c
>
> Coordinate equatorial radius r_eq = 14.2048 km
> Flattening r_pole/r_eq : 0.841923
> -----------------------------------------------
> step: 14
> diff_ent = �[1m0.00199836�[0m
> err_grv2 = -0.01814
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0112667 0.0110478 0.00857886
> step 1 : 0.000892407 0.00310944 0.00420294
> step 2 : 0.000802812 0.00146854 0.00162105
> step 3 : 0.000208038 0.000107628 2.39494e-05
> Test of the Poisson equation for nuf :
> Max. source : 2.92271 0 0
> Abs. error : 0.00095085 6.06837e-05 5.81402e-12
> Rel. error : 0.000325332 2.07628e-05 1.98926e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00273659 0.00752618 0.0126968
> step 1 : 0.00321554 0.00538478 0.00605595
> step 2 : 9.99815e-05 0.000164176 2.85999e-05
> step 3 : 0.00033783 0.00055746 0.000657107
> Test of the Poisson equation for nuq :
> Max. source : 0.0269259 0.00384798 0.00407262
> Abs. error : 1.81292e-05 1.50001e-06 1.97013e-11
> Rel. error : 0.0006733 5.57087e-05 4.83749e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0322859 0.0351923 0.0422288
> step 1 : 0.00953111 0.00609538 0.00391889
> step 2 : 0.000384039 0.0010487 0.00147144
> step 3 : 0.00171102 0.00155149 0.00134725
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.212818 0.0184512 0.0536784
> Abs. error : 0.000497918 2.24678e-05 2.18646e-11
> Rel. error : 0.00233964 0.000105573 4.07326e-10
> alpha_r = 1.0097
> | dH/dr_eq / dH/dr_pole | = 0.601647
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00278981 0.00181189 6.36311e-05
> step 1 : 0.00230136 0.00120754 0.000828742
> step 2 : 0.000155272 0.000374864 0.000468118
> step 3 : 0.000412737 0.000432421 0.000431467
> GRV2: -0.0122984
> Central Omega : 3832.74 rad/s f : 610 Hz
> Rotation period : 1.63934 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.542196
> Central lapse N : 0.58147
> Central value of dzeta=log(AN) : -0.0759616
> Central value of A^2 : 2.54078
> Central value of B^2 : 2.53766
> Central N^phi/Omega : 0.502041
> Equatorial value of the velocity U: 0.250243 c
>
> Coordinate equatorial radius r_eq = 14.3426 km
> Flattening r_pole/r_eq : 0.831779
> -----------------------------------------------
> step: 15
> diff_ent = �[1m0.00118816�[0m
> err_grv2 = -0.0122984
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00765269 0.00749536 0.00519587
> step 1 : 0.000962575 0.00176068 0.0026931
> step 2 : 0.00067767 0.00133895 0.00151604
> step 3 : 0.000301094 0.00025518 0.000191561
> Test of the Poisson equation for nuf :
> Max. source : 2.92547 0 0
> Abs. error : 0.000943017 7.5331e-05 6.06328e-12
> Rel. error : 0.000322347 2.57501e-05 2.07259e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00556993 0.00981273 0.0139078
> step 1 : 0.00311705 0.00533542 0.00589835
> step 2 : 0.000222648 0.0003374 0.000184107
> step 3 : 0.000368464 0.000615659 0.00072829
> Test of the Poisson equation for nuq :
> Max. source : 0.026993 0.00393784 0.0040648
> Abs. error : 2.6836e-05 1.53507e-06 2.43349e-11
> Rel. error : 0.000994181 5.6869e-05 5.98674e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0268012 0.0301287 0.0291889
> step 1 : 0.00991683 0.00722454 0.00473557
> step 2 : 0.000409026 0.000681281 0.001129
> step 3 : 0.00157733 0.0015241 0.00134156
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.21786 0.0187275 0.056196
> Abs. error : 0.000484455 2.45996e-05 2.00553e-11
> Rel. error : 0.0022237 0.000112915 3.56881e-10
> alpha_r = 1.00785
> | dH/dr_eq / dH/dr_pole | = 0.576282
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00139482 0.00155592 0.00169613
> step 1 : 0.00309257 0.00221742 0.0018964
> step 2 : 0.000212234 0.000233855 0.000305664
> step 3 : 0.00048095 0.000541806 0.000557167
> GRV2: -0.00847757
> Central Omega : 3926.99 rad/s f : 625 Hz
> Rotation period : 1.6 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.543547
> Central lapse N : 0.580685
> Central value of dzeta=log(AN) : -0.0763163
> Central value of A^2 : 2.54584
> Central value of B^2 : 2.54296
> Central N^phi/Omega : 0.504998
> Equatorial value of the velocity U: 0.257606 c
>
> Coordinate equatorial radius r_eq = 14.4552 km
> Flattening r_pole/r_eq : 0.822164
> -----------------------------------------------
> step: 16
> diff_ent = �[1m0.00127026�[0m
> err_grv2 = -0.00847757
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00524466 0.0050529 0.00276846
> step 1 : 0.00125656 0.0011028 0.00182882
> step 2 : 0.000572976 0.00124077 0.00143637
> step 3 : 0.000359428 0.00035313 0.000305251
> Test of the Poisson equation for nuf :
> Max. source : 2.93131 0 0
> Abs. error : 0.000987173 8.81964e-05 6.3141e-12
> Rel. error : 0.000336769 3.00878e-05 2.15402e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0049487 0.00898972 0.0128989
> step 1 : 0.00200966 0.00427687 0.00488635
> step 2 : 0.000304798 0.000533571 0.000429694
> step 3 : 0.000184747 0.000400382 0.000511053
> Test of the Poisson equation for nuq :
> Max. source : 0.02716 0.00403093 0.00406213
> Abs. error : 2.76237e-05 1.57917e-06 1.71666e-11
> Rel. error : 0.00101707 5.81434e-05 4.22601e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0224558 0.026267 0.025492
> step 1 : 0.00997126 0.00747334 0.00510197
> step 2 : 0.000587261 0.000543321 0.000935369
> step 3 : 0.00147873 0.0014644 0.00132225
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.223115 0.0191579 0.0586264
> Abs. error : 0.000512509 2.56799e-05 4.67958e-11
> Rel. error : 0.00229707 0.000115097 7.98203e-10
> alpha_r = 1.00709
> | dH/dr_eq / dH/dr_pole | = 0.552347
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00141967 0.00229098 0.00356663
> step 1 : 0.00343072 0.00265538 0.0023697
> step 2 : 0.000315805 0.000143064 0.000132294
> step 3 : 0.000485691 0.00056741 0.000593338
> GRV2: -0.00663122
> Central Omega : 4021.24 rad/s f : 640 Hz
> Rotation period : 1.5625 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.545169
> Central lapse N : 0.579744
> Central value of dzeta=log(AN) : -0.0765822
> Central value of A^2 : 2.55276
> Central value of B^2 : 2.54994
> Central N^phi/Omega : 0.50745
> Equatorial value of the velocity U: 0.265203 c
>
> Coordinate equatorial radius r_eq = 14.5576 km
> Flattening r_pole/r_eq : 0.812605
> -----------------------------------------------
> step: 17
> diff_ent = �[1m0.00133786�[0m
> err_grv2 = -0.00663122
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00402817 0.00385259 0.00151301
> step 1 : 0.00153256 0.000861596 0.00139459
> step 2 : 0.000520398 0.00123519 0.00145892
> step 3 : 0.00041288 0.000443381 0.000407081
> Test of the Poisson equation for nuf :
> Max. source : 2.93926 0 0
> Abs. error : 0.00108881 0.000102865 6.48679e-12
> Rel. error : 0.000370436 3.49969e-05 2.20694e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00541706 0.00929732 0.0132197
> step 1 : 0.00180705 0.00413194 0.00477891
> step 2 : 0.0003576 0.000637802 0.000544607
> step 3 : 0.000160617 0.000375568 0.00049589
> Test of the Poisson equation for nuq :
> Max. source : 0.0273802 0.00412334 0.0040599
> Abs. error : 2.96866e-05 1.63846e-06 2.22607e-11
> Rel. error : 0.00108424 5.98411e-05 5.48306e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0197675 0.0233457 0.0227169
> step 1 : 0.0102646 0.00773349 0.00537612
> step 2 : 0.000874026 0.000490933 0.000740287
> step 3 : 0.00142743 0.00144645 0.00133652
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.228643 0.0195852 0.0610259
> Abs. error : 0.000568744 2.81159e-05 4.19883e-11
> Rel. error : 0.00248748 0.000122969 6.88041e-10
> alpha_r = 1.0069
> | dH/dr_eq / dH/dr_pole | = 0.528799
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00217882 0.00305653 0.00483117
> step 1 : 0.00373583 0.00299881 0.00272482
> step 2 : 0.00044134 0.000135414 8.59448e-06
> step 3 : 0.000491723 0.000596802 0.000633858
> GRV2: -0.00603684
> Central Omega : 4115.49 rad/s f : 655 Hz
> Rotation period : 1.52672 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.547001
> Central lapse N : 0.578683
> Central value of dzeta=log(AN) : -0.0768018
> Central value of A^2 : 2.561
> Central value of B^2 : 2.55816
> Central N^phi/Omega : 0.509716
> Equatorial value of the velocity U: 0.273062 c
>
> Coordinate equatorial radius r_eq = 14.658 km
> Flattening r_pole/r_eq : 0.802844
> -----------------------------------------------
> step: 18
> diff_ent = �[1m0.00140709�[0m
> err_grv2 = -0.00603684
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0034226 0.00329759 0.000865468
> step 1 : 0.001759 0.000797505 0.00120563
> step 2 : 0.000502647 0.00129613 0.00155746
> step 3 : 0.000467042 0.00053696 0.000510889
> Test of the Poisson equation for nuf :
> Max. source : 2.94876 0 0
> Abs. error : 0.00123639 0.000121213 6.76671e-12
> Rel. error : 0.000419293 4.11065e-05 2.29477e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00592291 0.00981578 0.0138679
> step 1 : 0.0018697 0.00434938 0.00505807
> step 2 : 0.000442133 0.000783698 0.000693906
> step 3 : 0.000157411 0.000381937 0.000519087
> Test of the Poisson equation for nuq :
> Max. source : 0.0276404 0.00421725 0.00405828
> Abs. error : 3.33886e-05 1.74606e-06 1.02923e-11
> Rel. error : 0.00120797 6.31705e-05 2.53612e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0179234 0.021449 0.0207468
> step 1 : 0.0105524 0.00797341 0.00557573
> step 2 : 0.0011985 0.000536172 0.00056296
> step 3 : 0.00136373 0.00142356 0.00134763
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.234276 0.0200698 0.0634155
> Abs. error : 0.000627736 3.08342e-05 2.38095e-11
> Rel. error : 0.00267948 0.000131615 3.75452e-10
> alpha_r = 1.00703
> | dH/dr_eq / dH/dr_pole | = 0.505053
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00280808 0.00370475 0.00578022
> step 1 : 0.00400635 0.00326888 0.0029929
> step 2 : 0.000578979 0.000244679 0.000110447
> step 3 : 0.000494456 0.000626261 0.000675529
> GRV2: -0.0058983
> Central Omega : 4209.73 rad/s f : 670 Hz
> Rotation period : 1.49254 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.549002
> Central lapse N : 0.577526
> Central value of dzeta=log(AN) : -0.0769981
> Central value of A^2 : 2.57026
> Central value of B^2 : 2.56732
> Central N^phi/Omega : 0.511877
> Equatorial value of the velocity U: 0.281185 c
>
> Coordinate equatorial radius r_eq = 14.7611 km
> Flattening r_pole/r_eq : 0.792759
> -----------------------------------------------
> step: 19
> diff_ent = �[1m0.00147445�[0m
> err_grv2 = -0.0058983
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00314337 0.00309609 0.000555495
> step 1 : 0.00194269 0.000810394 0.0011588
> step 2 : 0.000507628 0.00140406 0.00171201
> step 3 : 0.000524408 0.000640298 0.000625297
> Test of the Poisson equation for nuf :
> Max. source : 2.95942 0 0
> Abs. error : 0.00141547 0.000142059 6.97194e-12
> Rel. error : 0.000478294 4.80022e-05 2.35584e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00629366 0.0102921 0.0145554
> step 1 : 0.00201777 0.00471509 0.00550995
> step 2 : 0.000556075 0.000978853 0.000894805
> step 3 : 0.00014637 0.00038063 0.000538735
> Test of the Poisson equation for nuq :
> Max. source : 0.0279311 0.00431427 0.00405701
> Abs. error : 3.83664e-05 1.87965e-06 3.02508e-11
> Rel. error : 0.00137361 6.7296e-05 7.45642e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0164864 0.0200798 0.0192844
> step 1 : 0.0107936 0.00815783 0.00570536
> step 2 : 0.0015257 0.000643584 0.000399936
> step 3 : 0.00127985 0.00138695 0.00134992
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.239972 0.0205643 0.0658505
> Abs. error : 0.000696571 3.35751e-05 2.41613e-11
> Rel. error : 0.00290272 0.000139912 3.66912e-10
> alpha_r = 1.00735
> | dH/dr_eq / dH/dr_pole | = 0.480787
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00334377 0.00428213 0.00659463
> step 1 : 0.00424716 0.00348622 0.00320051
> step 2 : 0.000720467 0.000354286 0.000205565
> step 3 : 0.00049123 0.000653867 0.000716928
> GRV2: -0.00609782
> Central Omega : 4303.98 rad/s f : 685 Hz
> Rotation period : 1.45985 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.55115
> Central lapse N : 0.576287
> Central value of dzeta=log(AN) : -0.0771842
> Central value of A^2 : 2.58037
> Central value of B^2 : 2.57729
> Central N^phi/Omega : 0.514011
> Equatorial value of the velocity U: 0.289582 c
>
> Coordinate equatorial radius r_eq = 14.8696 km
> Flattening r_pole/r_eq : 0.782282
> -----------------------------------------------
> step: 20
> diff_ent = �[1m0.00154295�[0m
> err_grv2 = -0.00609782
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00304349 0.00309639 0.000438173
> step 1 : 0.00209772 0.000859943 0.00119708
> step 2 : 0.000529373 0.00154982 0.00191389
> step 3 : 0.000587504 0.000758969 0.000757531
> Test of the Poisson equation for nuf :
> Max. source : 2.97105 0 0
> Abs. error : 0.00165386 0.000165462 7.19674e-12
> Rel. error : 0.000556656 5.56914e-05 2.42229e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00658677 0.0107377 0.0152673
> step 1 : 0.00222833 0.00518777 0.00608953
> step 2 : 0.000701012 0.00122502 0.00115069
> step 3 : 0.000125356 0.000367388 0.000550291
> Test of the Poisson equation for nuq :
> Max. source : 0.028247 0.00441541 0.00405564
> Abs. error : 4.45423e-05 2.02552e-06 1.32161e-11
> Rel. error : 0.00157689 7.17075e-05 3.2587e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0152546 0.0189463 0.0180365
> step 1 : 0.0109958 0.00829091 0.00577568
> step 2 : 0.00185916 0.000794237 0.000243388
> step 3 : 0.00117416 0.00133482 0.00134229
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.245719 0.0210873 0.0683623
> Abs. error : 0.000765093 3.62891e-05 2.5956e-11
> Rel. error : 0.00311369 0.000147685 3.79684e-10
> alpha_r = 1.0078
> | dH/dr_eq / dH/dr_pole | = 0.4558
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00383604 0.00483528 0.00736688
> step 1 : 0.00446426 0.00366548 0.00336504
> step 2 : 0.000864169 0.000458639 0.000293365
> step 3 : 0.000480907 0.000679371 0.000758253
> GRV2: -0.00659057
> Central Omega : 4398.23 rad/s f : 700 Hz
> Rotation period : 1.42857 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.553432
> Central lapse N : 0.574973
> Central value of dzeta=log(AN) : -0.0773682
> Central value of A^2 : 2.59122
> Central value of B^2 : 2.58799
> Central N^phi/Omega : 0.516162
> Equatorial value of the velocity U: 0.29827 c
>
> Coordinate equatorial radius r_eq = 14.9856 km
> Flattening r_pole/r_eq : 0.771367
> -----------------------------------------------
> step: 21
> diff_ent = �[1m0.00161545�[0m
> err_grv2 = -0.00659057
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00304889 0.00322106 0.000437294
> step 1 : 0.00223559 0.000930639 0.00128961
> step 2 : 0.000565725 0.00173052 0.00216129
> step 3 : 0.000659073 0.000898613 0.000914754
> Test of the Poisson equation for nuf :
> Max. source : 2.98355 0 0
> Abs. error : 0.00194565 0.000191822 7.4182e-12
> Rel. error : 0.000652126 6.42933e-05 2.48637e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00683564 0.011171 0.016011
> step 1 : 0.0024885 0.00574925 0.00677811
> step 2 : 0.000880669 0.00152828 0.0014694
> step 3 : 9.03302e-05 0.000336265 0.000547759
> Test of the Poisson equation for nuq :
> Max. source : 0.0285849 0.00452135 0.0040538
> Abs. error : 5.21327e-05 2.18727e-06 2.04686e-11
> Rel. error : 0.00182379 7.65183e-05 5.04923e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0141299 0.0179216 0.0168594
> step 1 : 0.0111609 0.00837468 0.0057897
> step 2 : 0.00219947 0.000987321 0.000170009
> step 3 : 0.00104482 0.00126548 0.00132346
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.25151 0.0216739 0.0709661
> Abs. error : 0.000844401 3.89207e-05 2.6468e-11
> Rel. error : 0.00335733 0.000154748 3.72966e-10
> alpha_r = 1.00498
> | dH/dr_eq / dH/dr_pole | = 0.440432
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00187734 0.0014481 0.000428484
> step 1 : 0.00163407 0.000879597 0.000596044
> step 2 : 0.000239534 0.000376365 0.00050259
> step 3 : 0.000321051 0.000463523 0.000498685
> GRV2: -0.00318601
> Central Omega : 4398.23 rad/s f : 700 Hz
> Rotation period : 1.42857 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.553957
> Central lapse N : 0.574671
> Central value of dzeta=log(AN) : -0.0776995
> Central value of A^2 : 2.59222
> Central value of B^2 : 2.58939
> Central N^phi/Omega : 0.52669
> Equatorial value of the velocity U: 0.298995 c
>
> Coordinate equatorial radius r_eq = 15.0603 km
> Flattening r_pole/r_eq : 0.766518
> -----------------------------------------------
> step: 22
> diff_ent = �[1m0.00203372�[0m
> err_grv2 = -0.00318601
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000567881 0.00117351 0.00179349
> step 1 : 0.000936365 0.002198 0.00268633
> step 2 : 0.000379207 0.000704725 0.000754589
> step 3 : 1.73466e-05 9.12079e-05 0.000164222
> Test of the Poisson equation for nuf :
> Max. source : 2.98471 0 0
> Abs. error : 0.000865614 3.51075e-05 7.44237e-12
> Rel. error : 0.000290017 1.17625e-05 2.4935e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00678646 0.010636 0.013829
> step 1 : 0.00343597 0.00534183 0.00581352
> step 2 : 0.000584595 0.000764554 0.000560122
> step 3 : 0.000316021 0.000568857 0.000749411
> Test of the Poisson equation for nuq :
> Max. source : 0.028613 0.00459752 0.00404788
> Abs. error : 3.37097e-05 1.50947e-06 2.2893e-11
> Rel. error : 0.00117813 5.27548e-05 5.65556e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0031881 0.00736546 0.00886528
> step 1 : 0.000796504 0.000871605 0.000404646
> step 2 : 0.000348277 0.000223338 0.000146982
> step 3 : 0.000154286 5.36253e-05 1.41748e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.248911 0.0222832 0.0729045
> Abs. error : 7.79449e-05 7.61505e-06 2.7996e-11
> Rel. error : 0.000313144 3.05935e-05 3.84009e-10
> alpha_r = 1.00622
> | dH/dr_eq / dH/dr_pole | = 0.427419
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00160462 0.0024635 0.00378088
> step 1 : 0.000442261 0.000563603 0.000773432
> step 2 : 0.000174241 0.000158515 0.000167431
> step 3 : 5.76931e-05 8.23663e-05 7.69965e-05
> GRV2: -0.00879117
> Central Omega : 4442.21 rad/s f : 707 Hz
> Rotation period : 1.41443 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.554704
> Central lapse N : 0.574242
> Central value of dzeta=log(AN) : -0.0778838
> Central value of A^2 : 2.59514
> Central value of B^2 : 2.5935
> Central N^phi/Omega : 0.518385
> Equatorial value of the velocity U: 0.303648 c
>
> Coordinate equatorial radius r_eq = 15.1539 km
> Flattening r_pole/r_eq : 0.760833
> -----------------------------------------------
> step: 23
> diff_ent = �[1m0.000708156�[0m
> err_grv2 = -0.00879117
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00550306 0.00615015 0.00497568
> step 1 : 0.000836251 0.00100224 0.00169162
> step 2 : 0.000594941 0.00145466 0.00178711
> step 3 : 0.000437957 0.000639728 0.000654536
> Test of the Poisson equation for nuf :
> Max. source : 2.98806 0 0
> Abs. error : 0.001234 0.000117004 7.71475e-12
> Rel. error : 0.000412977 3.9157e-05 2.58185e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00143933 0.00170919 0.00269336
> step 1 : 0.000671003 0.00233586 0.00302032
> step 2 : 0.00035281 0.000813627 0.00090717
> step 3 : 0.000136138 0.000119604 5.82378e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0286079 0.00462273 0.00403419
> Abs. error : 2.28692e-05 1.59283e-06 1.38419e-11
> Rel. error : 0.0007994 5.56778e-05 3.43115e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00977118 0.00901872 0.00744531
> step 1 : 0.00513032 0.00290502 0.00156329
> step 2 : 0.000969029 0.000358603 0.000244011
> step 3 : 0.000586654 0.000668166 0.000672824
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.253025 0.0222152 0.0741302
> Abs. error : 0.000509373 2.77067e-05 2.51838e-11
> Rel. error : 0.00201314 0.000109502 3.39724e-10
> alpha_r = 1.00505
> | dH/dr_eq / dH/dr_pole | = 0.412905
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00108801 0.00161331 0.00267978
> step 1 : 0.00245211 0.00192307 0.00171924
> step 2 : 0.000478489 0.000165325 3.66656e-05
> step 3 : 0.000281258 0.000438576 0.000498145
> GRV2: -0.00588347
> Central Omega : 4486.63 rad/s f : 714.07 Hz
> Rotation period : 1.40042 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.555759
> Central lapse N : 0.573637
> Central value of dzeta=log(AN) : -0.0780482
> Central value of A^2 : 2.59977
> Central value of B^2 : 2.59793
> Central N^phi/Omega : 0.523656
> Equatorial value of the velocity U: 0.307977 c
>
> Coordinate equatorial radius r_eq = 15.2304 km
> Flattening r_pole/r_eq : 0.754811
> -----------------------------------------------
> step: 24
> diff_ent = �[1m0.000915793�[0m
> err_grv2 = -0.00588347
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00245223 0.00278603 0.00133471
> step 1 : 0.00103948 0.000703872 0.00115901
> step 2 : 0.000427432 0.00120306 0.00149575
> step 3 : 0.000398839 0.000584334 0.000602544
> Test of the Poisson equation for nuf :
> Max. source : 2.99339 0 0
> Abs. error : 0.00126174 0.000118009 7.8426e-12
> Rel. error : 0.000421508 3.94232e-05 2.61997e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00440594 0.00690268 0.00969706
> step 1 : 0.00256781 0.00459151 0.00522657
> step 2 : 0.000802797 0.00119575 0.00111968
> step 3 : 0.000144203 0.000344486 0.000521049
> Test of the Poisson equation for nuq :
> Max. source : 0.0287826 0.00468487 0.00403426
> Abs. error : 3.6545e-05 1.38431e-06 1.99142e-11
> Rel. error : 0.00126969 4.80955e-05 4.93628e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00687582 0.00877367 0.00747116
> step 1 : 0.00552936 0.00402716 0.00260232
> step 2 : 0.00135837 0.000638646 0.000114004
> step 3 : 0.000390205 0.000558971 0.000623473
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.255521 0.0225057 0.0753732
> Abs. error : 0.000470272 2.12129e-05 3.18361e-11
> Rel. error : 0.00184044 8.30183e-05 4.22379e-10
> alpha_r = 1.00498
> | dH/dr_eq / dH/dr_pole | = 0.398721
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00167416 0.00224183 0.00364304
> step 1 : 0.00222305 0.00168452 0.00148176
> step 2 : 0.000488323 0.000184162 6.88101e-05
> step 3 : 0.000233613 0.000386158 0.000442138
> GRV2: -0.00541133
> Central Omega : 4531.5 rad/s f : 721.211 Hz
> Rotation period : 1.38656 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.556903
> Central lapse N : 0.572981
> Central value of dzeta=log(AN) : -0.0781795
> Central value of A^2 : 2.60504
> Central value of B^2 : 2.60322
> Central N^phi/Omega : 0.524146
> Equatorial value of the velocity U: 0.31245 c
>
> Coordinate equatorial radius r_eq = 15.3063 km
> Flattening r_pole/r_eq : 0.748819
> -----------------------------------------------
> step: 25
> diff_ent = �[1m0.000874168�[0m
> err_grv2 = -0.00541133
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00224641 0.00254635 0.00105428
> step 1 : 0.00107413 0.000689619 0.001127
> step 2 : 0.000423158 0.00122001 0.00152941
> step 3 : 0.000419222 0.000628825 0.000656221
> Test of the Poisson equation for nuf :
> Max. source : 2.99946 0 0
> Abs. error : 0.00138167 0.000128262 7.99673e-12
> Rel. error : 0.000460638 4.27616e-05 2.66605e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00333748 0.00591005 0.00882154
> step 1 : 0.00176021 0.00384362 0.00454356
> step 2 : 0.000716655 0.00122446 0.00122094
> step 3 : 3.01339e-05 0.000103691 0.000234386
> Test of the Poisson equation for nuq :
> Max. source : 0.028938 0.00474492 0.00403212
> Abs. error : 3.66965e-05 1.28621e-06 3.12702e-11
> Rel. error : 0.00126811 4.44472e-05 7.75529e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00634463 0.00831906 0.00737693
> step 1 : 0.00536045 0.0038638 0.002498
> step 2 : 0.00136676 0.000639586 0.000109611
> step 3 : 0.000342979 0.000518708 0.00059767
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.258149 0.0228079 0.0767903
> Abs. error : 0.000487844 2.05688e-05 2.66368e-11
> Rel. error : 0.00188978 7.96779e-05 3.46877e-10
> alpha_r = 1.00505
> | dH/dr_eq / dH/dr_pole | = 0.384491
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00206087 0.00269758 0.00425827
> step 1 : 0.00229505 0.00175374 0.00155184
> step 2 : 0.000545347 0.00024111 0.000126435
> step 3 : 0.000221964 0.00038563 0.000447475
> GRV2: -0.00544878
> Central Omega : 4576.82 rad/s f : 728.423 Hz
> Rotation period : 1.37283 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.558118
> Central lapse N : 0.572285
> Central value of dzeta=log(AN) : -0.078297
> Central value of A^2 : 2.61076
> Central value of B^2 : 2.60892
> Central N^phi/Omega : 0.525283
> Equatorial value of the velocity U: 0.317104 c
>
> Coordinate equatorial radius r_eq = 15.3835 km
> Flattening r_pole/r_eq : 0.742669
> -----------------------------------------------
> step: 26
> diff_ent = �[1m0.000901532�[0m
> err_grv2 = -0.00544878
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00205186 0.00235526 0.000792122
> step 1 : 0.00114517 0.000682722 0.00109576
> step 2 : 0.000421873 0.0012607 0.00159367
> step 3 : 0.000447827 0.000688015 0.000726461
> Test of the Poisson equation for nuf :
> Max. source : 3.00606 0 0
> Abs. error : 0.00153193 0.000140138 8.09156e-12
> Rel. error : 0.000509613 4.66186e-05 2.69175e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00339869 0.00594182 0.00894176
> step 1 : 0.00179434 0.0039501 0.0046972
> step 2 : 0.000791017 0.00134599 0.00135804
> step 3 : 5.29255e-05 9.76418e-05 0.00021084
> Test of the Poisson equation for nuq :
> Max. source : 0.0291106 0.00480536 0.00402904
> Abs. error : 4.03086e-05 1.3267e-06 2.25433e-11
> Rel. error : 0.00138467 4.55744e-05 5.59521e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00588433 0.00774471 0.0067369
> step 1 : 0.00547227 0.00390536 0.00251362
> step 2 : 0.00149102 0.000720258 0.000138249
> step 3 : 0.000296567 0.0004919 0.000588857
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.260942 0.023099 0.0782186
> Abs. error : 0.000537674 2.15831e-05 2.65983e-11
> Rel. error : 0.00206051 8.27122e-05 3.4005e-10
> alpha_r = 1.00523
> | dH/dr_eq / dH/dr_pole | = 0.369981
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00233913 0.00302353 0.0046922
> step 1 : 0.00236073 0.00180818 0.00159995
> step 2 : 0.000599232 0.000284196 0.000165011
> step 3 : 0.00021104 0.000390048 0.000458709
> GRV2: -0.00562041
> Central Omega : 4622.58 rad/s f : 735.707 Hz
> Rotation period : 1.35924 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.559395
> Central lapse N : 0.571555
> Central value of dzeta=log(AN) : -0.0784075
> Central value of A^2 : 2.61686
> Central value of B^2 : 2.61499
> Central N^phi/Omega : 0.526388
> Equatorial value of the velocity U: 0.321932 c
>
> Coordinate equatorial radius r_eq = 15.464 km
> Flattening r_pole/r_eq : 0.736321
> -----------------------------------------------
> step: 27
> diff_ent = �[1m0.000935026�[0m
> err_grv2 = -0.00562041
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00201872 0.00235185 0.000721087
> step 1 : 0.00120272 0.000704186 0.00112132
> step 2 : 0.000440547 0.00133922 0.00170366
> step 3 : 0.000484448 0.000761637 0.000812426
> Test of the Poisson equation for nuf :
> Max. source : 3.01307 0 0
> Abs. error : 0.00170629 0.000154075 8.25655e-12
> Rel. error : 0.000566296 5.11356e-05 2.74024e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00354637 0.00615673 0.00928726
> step 1 : 0.00191566 0.00419335 0.00499794
> step 2 : 0.000886245 0.00150001 0.0015246
> step 3 : 8.07993e-05 0.000100792 0.000189977
> Test of the Poisson equation for nuq :
> Max. source : 0.0292931 0.00486706 0.00402542
> Abs. error : 4.50235e-05 1.55778e-06 1.55709e-11
> Rel. error : 0.001537 5.31793e-05 3.86813e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00558337 0.00743098 0.00628557
> step 1 : 0.00555059 0.00392949 0.00249446
> step 2 : 0.0016047 0.000794117 0.000170454
> step 3 : 0.000243745 0.000460583 0.000576278
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.263781 0.0234264 0.0796595
> Abs. error : 0.000580692 2.25317e-05 4.22176e-11
> Rel. error : 0.00220142 8.54185e-05 5.29976e-10
> alpha_r = 1.00549
> | dH/dr_eq / dH/dr_pole | = 0.355067
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00255176 0.00328507 0.00506243
> step 1 : 0.00243761 0.00186518 0.00164729
> step 2 : 0.000652467 0.000318525 0.000191841
> step 3 : 0.00020319 0.000401974 0.000478992
> GRV2: -0.00602539
> Central Omega : 4668.81 rad/s f : 743.064 Hz
> Rotation period : 1.34578 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.560731
> Central lapse N : 0.570792
> Central value of dzeta=log(AN) : -0.0785156
> Central value of A^2 : 2.62329
> Central value of B^2 : 2.62138
> Central N^phi/Omega : 0.527494
> Equatorial value of the velocity U: 0.326939 c
>
> Coordinate equatorial radius r_eq = 15.5489 km
> Flattening r_pole/r_eq : 0.729743
> -----------------------------------------------
> step: 28
> diff_ent = �[1m0.000973561�[0m
> err_grv2 = -0.00602539
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00204466 0.00242015 0.000718396
> step 1 : 0.00125695 0.000737361 0.00117139
> step 2 : 0.000469487 0.00143953 0.00184126
> step 3 : 0.000527767 0.000848278 0.000913544
> Test of the Poisson equation for nuf :
> Max. source : 3.02048 0 0
> Abs. error : 0.00190945 0.000169871 8.36623e-12
> Rel. error : 0.000632166 5.62398e-05 2.76983e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00359666 0.00628767 0.00957096
> step 1 : 0.00201592 0.004437 0.00531117
> step 2 : 0.000992493 0.00168248 0.00172743
> step 3 : 0.000125646 0.000114076 0.000144246
> Test of the Poisson equation for nuq :
> Max. source : 0.0294857 0.00493066 0.00402133
> Abs. error : 5.02709e-05 1.88135e-06 1.20402e-11
> Rel. error : 0.00170492 6.38056e-05 2.99409e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00532608 0.00719494 0.00591991
> step 1 : 0.00561828 0.00393899 0.00245731
> step 2 : 0.00171745 0.000864392 0.000202113
> step 3 : 0.000201319 0.000432207 0.000563393
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.266662 0.0237766 0.0811343
> Abs. error : 0.000626937 2.47783e-05 2.85511e-11
> Rel. error : 0.00235105 9.29202e-05 3.519e-10
> alpha_r = 1.00579
> | dH/dr_eq / dH/dr_pole | = 0.339669
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00275281 0.00354216 0.00544013
> step 1 : 0.00250868 0.00191028 0.00168046
> step 2 : 0.000704724 0.000347361 0.000211996
> step 3 : 0.000194992 0.000416386 0.000502677
> GRV2: -0.00652071
> Central Omega : 4715.5 rad/s f : 750.495 Hz
> Rotation period : 1.33245 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.562125
> Central lapse N : 0.569997
> Central value of dzeta=log(AN) : -0.0786232
> Central value of A^2 : 2.63005
> Central value of B^2 : 2.62809
> Central N^phi/Omega : 0.528617
> Equatorial value of the velocity U: 0.332137 c
>
> Coordinate equatorial radius r_eq = 15.6389 km
> Flattening r_pole/r_eq : 0.722907
> -----------------------------------------------
> step: 29
> diff_ent = �[1m0.00101593�[0m
> err_grv2 = -0.00652071
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00210517 0.00253016 0.000751662
> step 1 : 0.00130925 0.000778394 0.00123847
> step 2 : 0.000506631 0.00155772 0.0020023
> step 3 : 0.000578026 0.000948703 0.00103115
> Test of the Poisson equation for nuf :
> Max. source : 3.02826 0 0
> Abs. error : 0.00217412 0.000209836 8.52018e-12
> Rel. error : 0.000717942 6.92924e-05 2.81355e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00363618 0.00641885 0.00987554
> step 1 : 0.00213318 0.00471339 0.005666
> step 2 : 0.00111411 0.00189133 0.00196091
> step 3 : 0.000179515 0.000143689 8.62568e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0296879 0.00499643 0.00401661
> Abs. error : 5.64424e-05 2.26328e-06 2.24507e-11
> Rel. error : 0.00190119 7.62358e-05 5.58946e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00508506 0.00697582 0.00555804
> step 1 : 0.00567839 0.00393218 0.00239843
> step 2 : 0.00183191 0.00093373 0.000233638
> step 3 : 0.000183614 0.000409313 0.000549052
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.269588 0.0241377 0.0826512
> Abs. error : 0.000676822 2.74246e-05 3.20846e-11
> Rel. error : 0.00251058 0.000101728 3.88193e-10
> alpha_r = 1.00614
> | dH/dr_eq / dH/dr_pole | = 0.323716
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00295392 0.00380899 0.00584288
> step 1 : 0.00257614 0.00194727 0.00170342
> step 2 : 0.00075769 0.0003732 0.000227931
> step 3 : 0.000186393 0.000433253 0.000529912
> GRV2: -0.00709063
> Central Omega : 4762.65 rad/s f : 758 Hz
> Rotation period : 1.31926 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.56358
> Central lapse N : 0.569168
> Central value of dzeta=log(AN) : -0.0787309
> Central value of A^2 : 2.63715
> Central value of B^2 : 2.63513
> Central N^phi/Omega : 0.529762
> Equatorial value of the velocity U: 0.337541 c
>
> Coordinate equatorial radius r_eq = 15.7349 km
> Flattening r_pole/r_eq : 0.71579
> -----------------------------------------------
> step: 30
> diff_ent = �[1m0.00106233�[0m
> err_grv2 = -0.00709063
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00218861 0.00266728 0.000803989
> step 1 : 0.00136096 0.000825624 0.00131898
> step 2 : 0.000551535 0.0016931 0.00218641
> step 3 : 0.000636242 0.0010649 0.00116787
> Test of the Poisson equation for nuf :
> Max. source : 3.03644 0 0
> Abs. error : 0.00248435 0.000262752 8.67341e-12
> Rel. error : 0.000818181 8.65329e-05 2.85644e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00366191 0.0065458 0.0101954
> step 1 : 0.00226053 0.00501533 0.00605562
> step 2 : 0.00125135 0.00212826 0.00222797
> step 3 : 0.000245067 0.000201753 3.70078e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0298995 0.00506462 0.00401111
> Abs. error : 6.42694e-05 2.88636e-06 2.6142e-11
> Rel. error : 0.00214952 9.65355e-05 6.51739e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00484595 0.00675236 0.00516645
> step 1 : 0.00572904 0.00390615 0.00231363
> step 2 : 0.00194757 0.00100176 0.000264032
> step 3 : 0.000190054 0.000391902 0.000532587
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.272557 0.0245102 0.084213
> Abs. error : 0.000744665 3.06806e-05 3.07026e-11
> Rel. error : 0.00273215 0.000112566 3.64583e-10
> alpha_r = 1.00653
> | dH/dr_eq / dH/dr_pole | = 0.307142
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00316406 0.00409761 0.00628657
> step 1 : 0.00264006 0.00197643 0.00171636
> step 2 : 0.000812136 0.000397078 0.000240241
> step 3 : 0.000180293 0.00045287 0.000561134
> GRV2: -0.00781618
> Central Omega : 4810.28 rad/s f : 765.58 Hz
> Rotation period : 1.3062 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.5651
> Central lapse N : 0.568303
> Central value of dzeta=log(AN) : -0.0788396
> Central value of A^2 : 2.6446
> Central value of B^2 : 2.64254
> Central N^phi/Omega : 0.530931
> Equatorial value of the velocity U: 0.343172 c
>
> Coordinate equatorial radius r_eq = 15.8376 km
> Flattening r_pole/r_eq : 0.708366
> -----------------------------------------------
> step: 31
> diff_ent = �[1m0.00111318�[0m
> err_grv2 = -0.00781618
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00228723 0.00282165 0.000862915
> step 1 : 0.00141213 0.000878534 0.00141214
> step 2 : 0.000604475 0.00184611 0.00239457
> step 3 : 0.000703636 0.00119918 0.00132674
> Test of the Poisson equation for nuf :
> Max. source : 3.04502 0 0
> Abs. error : 0.00284962 0.000333132 8.81715e-12
> Rel. error : 0.000935831 0.000109402 2.8956e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00367058 0.00666428 0.0105272
> step 1 : 0.00239391 0.00533881 0.00647675
> step 2 : 0.00140522 0.00239585 0.00253257
> step 3 : 0.000324865 0.000294067 8.64347e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0301208 0.00513538 0.00400465
> Abs. error : 7.33508e-05 4.16348e-06 2.6488e-11
> Rel. error : 0.00243522 0.000138226 6.6143e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00459948 0.00651116 0.00472472
> step 1 : 0.00576826 0.00385733 0.0021982
> step 2 : 0.00206367 0.00106744 0.000291076
> step 3 : 0.000214744 0.000380179 0.000513773
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.27557 0.0248944 0.0858205
> Abs. error : 0.000832633 3.80513e-05 4.57155e-11
> Rel. error : 0.0030215 0.000138082 5.32687e-10
> alpha_r = 1.00698
> | dH/dr_eq / dH/dr_pole | = 0.289879
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0160179 0.0171385 0.0180432
> step 1 : 0.00139046 0.00246033 0.00313516
> step 2 : 0.00130383 0.00216402 0.00255926
> step 3 : 0.00053502 0.000854917 0.000905186
> GRV2: -0.00265652
> Central Omega : 4858.38 rad/s f : 773.235 Hz
> Rotation period : 1.29327 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.566689
> Central lapse N : 0.567401
> Central value of dzeta=log(AN) : -0.0794263
> Central value of A^2 : 2.64991
> Central value of B^2 : 2.64792
> Central N^phi/Omega : 0.526291
> Equatorial value of the velocity U: 0.349055 c
>
> Coordinate equatorial radius r_eq = 15.9481 km
> Flattening r_pole/r_eq : 0.700603
> -----------------------------------------------
> step: 32
> diff_ent = �[1m0.0121812�[0m
> err_grv2 = -0.00265652
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00522042 0.00326886 0.00345267
> step 1 : 0.00478623 0.00604178 0.00641638
> step 2 : 0.00113916 0.00104091 0.000819324
> step 3 : 0.000204199 0.000569004 0.00082044
> Test of the Poisson equation for nuf :
> Max. source : 3.05113 0 0
> Abs. error : 0.00119977 0.000134681 8.87164e-12
> Rel. error : 0.000393223 4.41415e-05 2.90766e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00925446 0.00904962 0.00898705
> step 1 : 0.00362077 0.00487235 0.00555516
> step 2 : 0.00127234 0.0017626 0.00188029
> step 3 : 0.000110201 0.000107556 1.92555e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0299227 0.0051668 0.00406691
> Abs. error : 2.06243e-05 2.04907e-06 2.03988e-11
> Rel. error : 0.000689253 6.84789e-05 5.0158e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0145064 0.0136975 0.0140855
> step 1 : 0.0012275 0.00205957 0.00239507
> step 2 : 0.000930072 0.00138404 0.00155366
> step 3 : 0.000478307 0.000564346 0.000514043
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.278632 0.0251846 0.087427
> Abs. error : 0.000284678 5.3873e-05 3.13161e-11
> Rel. error : 0.0010217 0.000193348 3.58197e-10
> alpha_r = 1.00706
> | dH/dr_eq / dH/dr_pole | = 0.27526
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00714631 0.00519707 0.005443
> step 1 : 0.00592196 0.00768877 0.00811317
> step 2 : 0.00218573 0.00257284 0.00249666
> step 3 : 0.000189179 0.000132829 0.000141229
> GRV2: -0.00442074
> Central Omega : 4906.97 rad/s f : 780.968 Hz
> Rotation period : 1.28046 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.568356
> Central lapse N : 0.566456
> Central value of dzeta=log(AN) : -0.0801631
> Central value of A^2 : 2.65484
> Central value of B^2 : 2.656
> Central N^phi/Omega : 0.527915
> Equatorial value of the velocity U: 0.354962 c
>
> Coordinate equatorial radius r_eq = 16.0606 km
> Flattening r_pole/r_eq : 0.692616
> -----------------------------------------------
> step: 33
> diff_ent = �[1m0.0122931�[0m
> err_grv2 = -0.00442074
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00490527 0.00283775 0.00285735
> step 1 : 0.00498731 0.00628362 0.00671375
> step 2 : 0.00112852 0.000990508 0.000753586
> step 3 : 0.000251387 0.000651198 0.000918352
> Test of the Poisson equation for nuf :
> Max. source : 3.05681 0 0
> Abs. error : 0.00138662 0.000143264 9.15147e-12
> Rel. error : 0.000453618 4.68672e-05 2.9938e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00285195 0.00818179 0.0105357
> step 1 : 0.00869882 0.0109681 0.0115095
> step 2 : 0.00175715 0.00134069 0.00069525
> step 3 : 0.000693771 0.00152619 0.00208105
> Test of the Poisson equation for nuq :
> Max. source : 0.0299259 0.00504943 0.0040629
> Abs. error : 4.878e-05 4.18984e-06 1.3341e-11
> Rel. error : 0.00163003 0.000140007 3.28362e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0149811 0.0131235 0.0136298
> step 1 : 0.0010508 0.00194929 0.00230869
> step 2 : 0.000775626 0.00121508 0.00135966
> step 3 : 0.000519671 0.000590849 0.000534374
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.281912 0.0250467 0.0893144
> Abs. error : 0.000308934 6.17504e-05 3.08919e-11
> Rel. error : 0.00109585 0.000219041 3.45878e-10
> alpha_r = 1.00739
> | dH/dr_eq / dH/dr_pole | = 0.260647
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00782718 0.00598302 0.00623126
> step 1 : 0.00598184 0.00773313 0.00819284
> step 2 : 0.00220936 0.00258351 0.00251643
> step 3 : 0.000188269 0.000133854 0.000154403
> GRV2: -0.00581199
> Central Omega : 4956.04 rad/s f : 788.778 Hz
> Rotation period : 1.26778 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.570154
> Central lapse N : 0.565439
> Central value of dzeta=log(AN) : -0.0808022
> Central value of A^2 : 2.661
> Central value of B^2 : 2.6647
> Central N^phi/Omega : 0.529384
> Equatorial value of the velocity U: 0.361096 c
>
> Coordinate equatorial radius r_eq = 16.1793 km
> Flattening r_pole/r_eq : 0.68457
> -----------------------------------------------
> step: 34
> diff_ent = �[1m0.0128294�[0m
> err_grv2 = -0.00581199
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00503162 0.00283837 0.00283551
> step 1 : 0.00531233 0.00671184 0.00716985
> step 2 : 0.00118699 0.00103373 0.00077326
> step 3 : 0.00028796 0.000729847 0.00102025
> Test of the Poisson equation for nuf :
> Max. source : 3.0639 0 0
> Abs. error : 0.00182645 0.000150909 9.19602e-12
> Rel. error : 0.000596119 4.92538e-05 3.00141e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00312659 0.00886548 0.0114126
> step 1 : 0.00906605 0.0116307 0.0122429
> step 2 : 0.00190967 0.00149591 0.000818524
> step 3 : 0.000663305 0.00155355 0.00214741
> Test of the Poisson equation for nuq :
> Max. source : 0.0300125 0.00491069 0.004062
> Abs. error : 4.95705e-05 3.94205e-06 3.45322e-11
> Rel. error : 0.00165166 0.000131347 8.50129e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0149623 0.0128423 0.0131988
> step 1 : 0.00126449 0.0024894 0.00282849
> step 2 : 0.000903977 0.0012919 0.00137414
> step 3 : 0.000503244 0.000533492 0.000447065
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.284966 0.0248886 0.0912943
> Abs. error : 0.000359981 6.1554e-05 3.27103e-11
> Rel. error : 0.00126325 0.000216005 3.58296e-10
> alpha_r = 1.00782
> | dH/dr_eq / dH/dr_pole | = 0.245354
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0084245 0.00653171 0.00680321
> step 1 : 0.00625764 0.00811086 0.00860296
> step 2 : 0.00231735 0.00272231 0.00265794
> step 3 : 0.000196777 0.000140164 0.000162578
> GRV2: -0.00689563
> Central Omega : 5005.6 rad/s f : 796.665 Hz
> Rotation period : 1.25523 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.57208
> Central lapse N : 0.56435
> Central value of dzeta=log(AN) : -0.0813369
> Central value of A^2 : 2.66842
> Central value of B^2 : 2.67399
> Central N^phi/Omega : 0.530472
> Equatorial value of the velocity U: 0.367544 c
>
> Coordinate equatorial radius r_eq = 16.3058 km
> Flattening r_pole/r_eq : 0.676145
> -----------------------------------------------
> step: 35
> diff_ent = �[1m0.0139552�[0m
> err_grv2 = -0.00689563
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00496333 0.00250512 0.0024422
> step 1 : 0.00583478 0.00738738 0.00787645
> step 2 : 0.00127874 0.00109007 0.00078365
> step 3 : 0.000348515 0.000861513 0.00119146
> Test of the Poisson equation for nuf :
> Max. source : 3.07244 0 0
> Abs. error : 0.00262051 0.000165115 9.45716e-12
> Rel. error : 0.000852906 5.37406e-05 3.07806e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00312028 0.00833163 0.0108922
> step 1 : 0.00920876 0.0119966 0.0126763
> step 2 : 0.00203059 0.0016654 0.000998454
> step 3 : 0.00060927 0.00151428 0.00212287
> Test of the Poisson equation for nuq :
> Max. source : 0.0301442 0.00475976 0.00406269
> Abs. error : 4.94605e-05 3.63098e-06 1.48277e-11
> Rel. error : 0.0016408 0.000120454 3.64973e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0148994 0.0122846 0.012479
> step 1 : 0.0017272 0.00321006 0.00347881
> step 2 : 0.00107978 0.00143403 0.00143188
> step 3 : 0.000508921 0.000497639 0.000374963
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.288054 0.0246598 0.0933259
> Abs. error : 0.000638835 6.34122e-05 3.49868e-11
> Rel. error : 0.00221776 0.00022014 3.74888e-10
> alpha_r = 1.00843
> | dH/dr_eq / dH/dr_pole | = 0.228834
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00887828 0.0067987 0.00706853
> step 1 : 0.00687346 0.00891208 0.0094474
> step 2 : 0.00252696 0.00296688 0.00288851
> step 3 : 0.000198901 0.000158806 0.000216617
> GRV2: -0.00819725
> Central Omega : 5055.65 rad/s f : 804.632 Hz
> Rotation period : 1.2428 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.574109
> Central lapse N : 0.563207
> Central value of dzeta=log(AN) : -0.0818056
> Central value of A^2 : 2.67676
> Central value of B^2 : 2.68384
> Central N^phi/Omega : 0.531415
> Equatorial value of the velocity U: 0.374399 c
>
> Coordinate equatorial radius r_eq = 16.4432 km
> Flattening r_pole/r_eq : 0.667221
> -----------------------------------------------
> step: 36
> diff_ent = �[1m0.0153597�[0m
> err_grv2 = -0.00819725
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00502208 0.00227909 0.00215434
> step 1 : 0.00651518 0.0082622 0.00880143
> step 2 : 0.00141246 0.00118966 0.000831994
> step 3 : 0.000422096 0.00102229 0.00140228
> Test of the Poisson equation for nuf :
> Max. source : 3.08204 0 0
> Abs. error : 0.00333484 0.000182291 9.50617e-12
> Rel. error : 0.00108202 5.91462e-05 3.08437e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00331662 0.00841505 0.0110612
> step 1 : 0.00979186 0.0128222 0.0135678
> step 2 : 0.00219017 0.00180296 0.00109678
> step 3 : 0.000639226 0.00162206 0.00227841
> Test of the Poisson equation for nuq :
> Max. source : 0.0302922 0.00459645 0.00406155
> Abs. error : 5.12399e-05 3.85342e-06 3.62613e-11
> Rel. error : 0.00169152 0.000127208 8.92795e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0151199 0.0118824 0.0117753
> step 1 : 0.0023596 0.00406728 0.00428299
> step 2 : 0.00130015 0.00163565 0.00154324
> step 3 : 0.00052578 0.000472377 0.000305531
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291205 0.0243471 0.0953628
> Abs. error : 0.000390671 6.67361e-05 5.47509e-11
> Rel. error : 0.00134157 0.000229172 5.74133e-10
> alpha_r = 1.00922
> | dH/dr_eq / dH/dr_pole | = 0.210685
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00949336 0.00719549 0.00746549
> step 1 : 0.00767097 0.0099422 0.0105358
> step 2 : 0.00280226 0.00328834 0.00319383
> step 3 : 0.000204772 0.000187478 0.00028526
> GRV2: -0.0097355
> Central Omega : 5106.21 rad/s f : 812.678 Hz
> Rotation period : 1.2305 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576233
> Central lapse N : 0.562012
> Central value of dzeta=log(AN) : -0.0822417
> Central value of A^2 : 2.68581
> Central value of B^2 : 2.69426
> Central N^phi/Omega : 0.532246
> Equatorial value of the velocity U: 0.381715 c
>
> Coordinate equatorial radius r_eq = 16.5949 km
> Flattening r_pole/r_eq : 0.657728
> -----------------------------------------------
> step: 37
> diff_ent = �[1m0.0169544�[0m
> err_grv2 = -0.0097355
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00530278 0.00227233 0.00209367
> step 1 : 0.0073185 0.00930541 0.00991614
> step 2 : 0.00158973 0.00134611 0.000938215
> step 3 : 0.000498996 0.00119492 0.00163211
> Test of the Poisson equation for nuf :
> Max. source : 3.09246 0 0
> Abs. error : 0.0029496 0.000198959 9.64974e-12
> Rel. error : 0.000953804 6.43367e-05 3.12041e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00359924 0.00875767 0.0115426
> step 1 : 0.0106262 0.0139474 0.0147718
> step 2 : 0.00237616 0.00193731 0.00116616
> step 3 : 0.00070802 0.00180365 0.00252727
> Test of the Poisson equation for nuq :
> Max. source : 0.0305486 0.00442111 0.00405795
> Abs. error : 5.35972e-05 4.23118e-06 2.1586e-11
> Rel. error : 0.00175449 0.000138507 5.31943e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.01562 0.0117103 0.0112378
> step 1 : 0.00312774 0.00506438 0.005236
> step 2 : 0.00157518 0.0019026 0.00171435
> step 3 : 0.000553004 0.000456431 0.000238136
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.29439 0.0239532 0.0974058
> Abs. error : 0.000966773 7.08859e-05 3.67311e-11
> Rel. error : 0.00328399 0.000240789 3.77093e-10
> alpha_r = 1.01017
> | dH/dr_eq / dH/dr_pole | = 0.190449
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0103195 0.00779252 0.00807116
> step 1 : 0.00857151 0.0111131 0.0117783
> step 2 : 0.00312198 0.00366865 0.00355992
> step 3 : 0.000216345 0.000222322 0.000356748
> GRV2: -0.0114954
> Central Omega : 5157.27 rad/s f : 820.805 Hz
> Rotation period : 1.21832 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.578463
> Central lapse N : 0.56076
> Central value of dzeta=log(AN) : -0.0826715
> Central value of A^2 : 2.6955
> Central value of B^2 : 2.70527
> Central N^phi/Omega : 0.532994
> Equatorial value of the velocity U: 0.38955 c
>
> Coordinate equatorial radius r_eq = 16.7636 km
> Flattening r_pole/r_eq : 0.64761
> -----------------------------------------------
> step: 38
> diff_ent = �[1m0.0187763�[0m
> err_grv2 = -0.0114954
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00567218 0.00231397 0.00208122
> step 1 : 0.00825481 0.0105217 0.0112173
> step 2 : 0.00180313 0.00153936 0.00107535
> step 3 : 0.000586153 0.00139275 0.00189653
> Test of the Poisson equation for nuf :
> Max. source : 3.10362 0 0
> Abs. error : 0.00445008 0.000217726 9.87071e-12
> Rel. error : 0.00143384 7.01525e-05 3.18039e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00392209 0.00909634 0.0120411
> step 1 : 0.0116013 0.0152619 0.0161834
> step 2 : 0.00258938 0.0020917 0.0012454
> step 3 : 0.000792747 0.00202172 0.00282483
> Test of the Poisson equation for nuq :
> Max. source : 0.0308175 0.00423496 0.00405204
> Abs. error : 5.64456e-05 4.66164e-06 2.31815e-11
> Rel. error : 0.00183161 0.000151266 5.72095e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0162876 0.0116685 0.0108036
> step 1 : 0.00402915 0.00621893 0.0063451
> step 2 : 0.00191212 0.00223808 0.00194332
> step 3 : 0.00058871 0.000445984 0.000167699
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.297576 0.0234821 0.0994662
> Abs. error : 0.00113266 7.53623e-05 3.77375e-11
> Rel. error : 0.00380629 0.000253254 3.794e-10
> alpha_r = 1.01128
> | dH/dr_eq / dH/dr_pole | = 0.167684
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0113276 0.00854499 0.00883685
> step 1 : 0.00961154 0.0124714 0.0132224
> step 2 : 0.00349523 0.00411746 0.00399433
> step 3 : 0.00023186 0.000264509 0.0004387
> GRV2: -0.0134472
> Central Omega : 5208.84 rad/s f : 829.013 Hz
> Rotation period : 1.20625 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.580817
> Central lapse N : 0.559441
> Central value of dzeta=log(AN) : -0.0831148
> Central value of A^2 : 2.70582
> Central value of B^2 : 2.71696
> Central N^phi/Omega : 0.533643
> Equatorial value of the velocity U: 0.397981 c
>
> Coordinate equatorial radius r_eq = 16.9528 km
> Flattening r_pole/r_eq : 0.636754
> -----------------------------------------------
> step: 39
> diff_ent = �[1m0.0209111�[0m
> err_grv2 = -0.0134472
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00612037 0.00238532 0.00209124
> step 1 : 0.00935413 0.0119539 0.0127516
> step 2 : 0.00206014 0.00177759 0.00124939
> step 3 : 0.00068751 0.00162498 0.00220782
> Test of the Poisson equation for nuf :
> Max. source : 3.1155 0 0
> Abs. error : 0.00464022 0.000238066 9.94715e-12
> Rel. error : 0.0014894 7.64134e-05 3.19279e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00429329 0.00936915 0.0124857
> step 1 : 0.0127045 0.0167539 0.0177907
> step 2 : 0.00282699 0.00226145 0.00133043
> step 3 : 0.000892614 0.00227683 0.00317156
> Test of the Poisson equation for nuq :
> Max. source : 0.031088 0.0040381 0.00404371
> Abs. error : 5.94595e-05 5.19987e-06 4.60385e-11
> Rel. error : 0.00191262 0.000167263 1.13852e-08
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0171048 0.0116955 0.0103935
> step 1 : 0.00509912 0.00758569 0.00766311
> step 2 : 0.00232594 0.00265926 0.00224017
> step 3 : 0.000635269 0.00044243 9.59008e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.300737 0.0229291 0.101551
> Abs. error : 0.000840407 8.02127e-05 4.02637e-11
> Rel. error : 0.00279449 0.00026672 3.9649e-10
> alpha_r = 1.01259
> | dH/dr_eq / dH/dr_pole | = 0.141833
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.012532 0.00945324 0.0097618
> step 1 : 0.0108289 0.0140664 0.0149196
> step 2 : 0.00393342 0.00464735 0.00450818
> step 3 : 0.000250909 0.00031746 0.000537559
> GRV2: -0.0156701
> Central Omega : 5260.93 rad/s f : 837.303 Hz
> Rotation period : 1.19431 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.583322
> Central lapse N : 0.558042
> Central value of dzeta=log(AN) : -0.0835884
> Central value of A^2 : 2.71683
> Central value of B^2 : 2.72948
> Central N^phi/Omega : 0.534175
> Equatorial value of the velocity U: 0.407115 c
>
> Coordinate equatorial radius r_eq = 17.1662 km
> Flattening r_pole/r_eq : 0.625038
> -----------------------------------------------
> step: 40
> diff_ent = �[1m0.0234442�[0m
> err_grv2 = -0.0156701
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00663957 0.00245697 0.00208216
> step 1 : 0.0106771 0.0136928 0.0146186
> step 2 : 0.00237678 0.00208132 0.00147704
> step 3 : 0.000810134 0.00190792 0.00258829
> Test of the Poisson equation for nuf :
> Max. source : 3.12818 0 0
> Abs. error : 0.00547475 0.000260657 1.00905e-11
> Rel. error : 0.00175014 8.33253e-05 3.22567e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00473239 0.00953571 0.012827
> step 1 : 0.0139575 0.0184522 0.0196248
> step 2 : 0.00309298 0.00244593 0.00141826
> step 3 : 0.00101132 0.00257893 0.00358005
> Test of the Poisson equation for nuq :
> Max. source : 0.0313543 0.0038301 0.0040327
> Abs. error : 6.24829e-05 5.86318e-06 1.92675e-11
> Rel. error : 0.0019928 0.000186998 4.7778e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0179987 0.0116403 0.00983592
> step 1 : 0.00642339 0.00928408 0.00929537
> step 2 : 0.00284298 0.00319505 0.0026193
> step 3 : 0.000692708 0.000454081 7.02331e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.304691 0.0222836 0.103657
> Abs. error : 0.00167275 8.53838e-05 3.88201e-11
> Rel. error : 0.00548999 0.000280231 3.74506e-10
> alpha_r = 1.01416
> | dH/dr_eq / dH/dr_pole | = 0.112115
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0139664 0.0105348 0.0108622
> step 1 : 0.0122797 0.0159728 0.0169491
> step 2 : 0.00445505 0.00528051 0.00512226
> step 3 : 0.000274657 0.000385936 0.00066218
> GRV2: -0.0183448
> Central Omega : 5313.54 rad/s f : 845.676 Hz
> Rotation period : 1.18249 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.586007
> Central lapse N : 0.556545
> Central value of dzeta=log(AN) : -0.0841099
> Central value of A^2 : 2.72861
> Central value of B^2 : 2.74298
> Central N^phi/Omega : 0.534514
> Equatorial value of the velocity U: 0.417102 c
>
> Coordinate equatorial radius r_eq = 17.4093 km
> Flattening r_pole/r_eq : 0.612338
> -----------------------------------------------
> step: 41
> diff_ent = �[1m0.0264835�[0m
> err_grv2 = -0.0183448
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00720398 0.00246486 0.00198475
> step 1 : 0.0122852 0.0158087 0.0168868
> step 2 : 0.00276342 0.00244922 0.00174889
> step 3 : 0.000962584 0.00226236 0.00306393
> Test of the Poisson equation for nuf :
> Max. source : 3.14175 0 0
> Abs. error : 0.00613597 0.00029809 1.01994e-11
> Rel. error : 0.00195304 9.48802e-05 3.24642e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00525491 0.00939948 0.0128333
> step 1 : 0.0153637 0.0203554 0.0216863
> step 2 : 0.00339086 0.00264648 0.00151268
> step 3 : 0.0011498 0.00293192 0.00405448
> Test of the Poisson equation for nuq :
> Max. source : 0.0316108 0.00361038 0.00401849
> Abs. error : 6.5692e-05 6.61127e-06 2.03289e-11
> Rel. error : 0.00207815 0.000209146 5.05884e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0190193 0.011496 0.00907075
> step 1 : 0.00804695 0.0113612 0.0112928
> step 2 : 0.00349278 0.00386924 0.00309971
> step 3 : 0.000770271 0.000489972 0.000126339
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.308772 0.0215345 0.105754
> Abs. error : 0.00206253 9.10323e-05 4.20693e-11
> Rel. error : 0.00667979 0.000294821 3.97804e-10
> alpha_r = 1.01607
> | dH/dr_eq / dH/dr_pole | = 0.0775584
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0157093 0.0118471 0.0121952
> step 1 : 0.0140555 0.0183119 0.0194406
> step 2 : 0.00509118 0.00605496 0.00587304
> step 3 : 0.000303856 0.000477226 0.000826146
> GRV2: -0.0215726
> Central Omega : 5366.68 rad/s f : 854.133 Hz
> Rotation period : 1.17078 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.588914
> Central lapse N : 0.554929
> Central value of dzeta=log(AN) : -0.0846987
> Central value of A^2 : 2.7413
> Central value of B^2 : 2.75772
> Central N^phi/Omega : 0.534586
> Equatorial value of the velocity U: 0.428137 c
>
> Coordinate equatorial radius r_eq = 17.6891 km
> Flattening r_pole/r_eq : 0.598494
> -----------------------------------------------
> step: 42
> diff_ent = �[1m0.0302205�[0m
> err_grv2 = -0.0215726
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00778008 0.00229814 0.0016734
> step 1 : 0.0142912 0.0184529 0.0197161
> step 2 : 0.00324036 0.00289414 0.00206744
> step 3 : 0.00115855 0.0027203 0.00367699
> Test of the Poisson equation for nuf :
> Max. source : 3.15635 0 0
> Abs. error : 0.00926075 0.000353221 1.01849e-11
> Rel. error : 0.002934 0.000111908 3.22679e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00592216 0.00895761 0.0125071
> step 1 : 0.0169856 0.0225412 0.0240567
> step 2 : 0.00372159 0.00285004 0.00159243
> step 3 : 0.0013208 0.00336248 0.00462742
> Test of the Poisson equation for nuq :
> Max. source : 0.0318479 0.00337826 0.00400041
> Abs. error : 6.96048e-05 7.48122e-06 2.46305e-11
> Rel. error : 0.00218554 0.000234905 6.15699e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0201523 0.0111636 0.00798137
> step 1 : 0.0101216 0.0140182 0.0138455
> step 2 : 0.00433246 0.00474707 0.00372687
> step 3 : 0.000872174 0.000557601 0.000267887
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.312924 0.0206671 0.107813
> Abs. error : 0.00206049 9.69933e-05 4.51986e-11
> Rel. error : 0.00658464 0.000309958 4.19233e-10
> alpha_r = 1.01847
> | dH/dr_eq / dH/dr_pole | = 0.0367622
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0179035 0.0135068 0.0138808
> step 1 : 0.0162598 0.0212244 0.0225445
> step 2 : 0.0058779 0.00701506 0.00680351
> step 3 : 0.000341427 0.000602802 0.00104511
> GRV2: -0.025598
> Central Omega : 5420.34 rad/s f : 862.674 Hz
> Rotation period : 1.15919 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.5921
> Central lapse N : 0.553164
> Central value of dzeta=log(AN) : -0.0853824
> Central value of A^2 : 2.75505
> Central value of B^2 : 2.77397
> Central N^phi/Omega : 0.534265
> Equatorial value of the velocity U: 0.440503 c
>
> Coordinate equatorial radius r_eq = 18.0157 km
> Flattening r_pole/r_eq : 0.583196
> -----------------------------------------------
> step: 43
> diff_ent = �[1m0.0349992�[0m
> err_grv2 = -0.025598
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00840727 0.00195798 0.00113264
> step 1 : 0.0168603 0.0218547 0.0233575
> step 2 : 0.0038536 0.00346702 0.00247451
> step 3 : 0.00141691 0.00332765 0.00448917
> Test of the Poisson equation for nuf :
> Max. source : 3.17219 0 0
> Abs. error : 0.00766462 0.000422832 1.01755e-11
> Rel. error : 0.00241619 0.000133294 3.20774e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00683337 0.0078319 0.0114142
> step 1 : 0.0188354 0.0250169 0.0267485
> step 2 : 0.00408926 0.00305562 0.00166068
> step 3 : 0.00152745 0.00387952 0.00530792
> Test of the Poisson equation for nuq :
> Max. source : 0.0320528 0.00313219 0.00397767
> Abs. error : 7.33377e-05 8.46456e-06 1.54278e-11
> Rel. error : 0.00228803 0.000264082 3.8786e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0214509 0.0105598 0.00639848
> step 1 : 0.012837 0.0175129 0.0172083
> step 2 : 0.00545294 0.00593241 0.00457907
> step 3 : 0.00101253 0.000667901 0.000457675
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.317122 0.0196562 0.109777
> Abs. error : 0.00125972 0.000103469 4.22223e-11
> Rel. error : 0.00397234 0.000326275 3.84621e-10
> alpha_r = 1.02154
> ent < 0 for l, i : 0 29 ent = -1.13973e-05
> ent < 0 for l, i : 0 30 ent = -9.67986e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 862.674 Hz
> alpha_r = 1.01832
> **** New fact_omega : 1.00499
> | dH/dr_eq / dH/dr_pole | = 0.00103879
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0132943 0.00748694 0.0074449
> step 1 : 0.0187253 0.0243183 0.0256263
> step 2 : 0.00646157 0.00749633 0.00706824
> step 3 : 0.000372715 0.00101465 0.00172274
> GRV2: -0.0313158
> Central Omega : 5420.34 rad/s f : 862.674 Hz
> Rotation period : 1.15919 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.593731
> Central lapse N : 0.552263
> Central value of dzeta=log(AN) : -0.0859696
> Central value of A^2 : 2.7608
> Central value of B^2 : 2.78302
> Central N^phi/Omega : 0.540392
> Equatorial value of the velocity U: 0.448194 c
>
> Coordinate equatorial radius r_eq = 18.3458 km
> Flattening r_pole/r_eq : 0.570328
> -----------------------------------------------
> step: 44
> diff_ent = �[1m0.0319768�[0m
> err_grv2 = -0.0313158
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0056631 0.00124031 0.00242983
> step 1 : 0.0182535 0.0233881 0.0249099
> step 2 : 0.00394672 0.00326885 0.00206193
> step 3 : 0.00181986 0.00410638 0.00543673
> Test of the Poisson equation for nuf :
> Max. source : 3.17881 0 0
> Abs. error : 0.0108537 0.000532717 1.01461e-11
> Rel. error : 0.00341438 0.000167584 3.19179e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00766447 0.0173346 0.0220541
> step 1 : 0.0213715 0.0280103 0.0295914
> step 2 : 0.00400519 0.00215391 0.00031107
> step 3 : 0.00220584 0.00531384 0.00708309
> Test of the Poisson equation for nuq :
> Max. source : 0.032213 0.00286986 0.00389976
> Abs. error : 8.26861e-05 1.18371e-05 1.75675e-11
> Rel. error : 0.00256686 0.000367466 4.50477e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0140415 0.00329201 0.00242545
> step 1 : 0.0169877 0.0210763 0.0202889
> step 2 : 0.00655749 0.00649916 0.00460831
> step 3 : 0.000708471 0.000707841 0.00124557
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.315849 0.0185381 0.110498
> Abs. error : 0.00297585 6.87624e-05 4.34392e-11
> Rel. error : 0.00942174 0.000217707 3.93122e-10
> alpha_r = 1.02175
> ent < 0 for l, i : 0 26 ent = -0.0001084
> ent < 0 for l, i : 0 27 ent = -0.000153719
> ent < 0 for l, i : 0 28 ent = -0.000134395
> ent < 0 for l, i : 0 29 ent = -8.95638e-05
> ent < 0 for l, i : 0 30 ent = -4.38107e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 862.674 Hz
> alpha_r = 1.0201
> ent < 0 for l, i : 0 26 ent = -4.76825e-05
> ent < 0 for l, i : 0 27 ent = -0.00011217
> ent < 0 for l, i : 0 28 ent = -0.000108197
> ent < 0 for l, i : 0 29 ent = -7.50243e-05
> ent < 0 for l, i : 0 30 ent = -3.74175e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 858.393 Hz
> alpha_r = 1.01847
> ent < 0 for l, i : 0 27 ent = -7.12686e-05
> ent < 0 for l, i : 0 28 ent = -8.24072e-05
> ent < 0 for l, i : 0 29 ent = -6.07122e-05
> ent < 0 for l, i : 0 30 ent = -3.11244e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 854.133 Hz
> alpha_r = 1.01686
> ent < 0 for l, i : 0 27 ent = -3.1e-05
> ent < 0 for l, i : 0 28 ent = -5.70182e-05
> ent < 0 for l, i : 0 29 ent = -4.66229e-05
> ent < 0 for l, i : 0 30 ent = -2.49294e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 849.894 Hz
> alpha_r = 1.01527
> ent < 0 for l, i : 0 28 ent = -3.20214e-05
> ent < 0 for l, i : 0 29 ent = -3.27517e-05
> ent < 0 for l, i : 0 30 ent = -1.88305e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 845.676 Hz
> alpha_r = 1.0137
> ent < 0 for l, i : 0 28 ent = -7.40886e-06
> ent < 0 for l, i : 0 29 ent = -1.90942e-05
> ent < 0 for l, i : 0 30 ent = -1.28257e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 841.479 Hz
> alpha_r = 1.01214
> ent < 0 for l, i : 0 29 ent = -5.64605e-06
> ent < 0 for l, i : 0 30 ent = -6.91306e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 837.303 Hz
> alpha_r = 1.0106
> ent < 0 for l, i : 0 30 ent = -1.09071e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 833.148 Hz
> alpha_r = 1.00908
> **** New fact_omega : 1.00249
> | dH/dr_eq / dH/dr_pole | = 0.00122435
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.010907 0.0177375 0.0192411
> step 1 : 0.0187436 0.0234751 0.0240331
> step 2 : 0.00532284 0.00521085 0.00415927
> step 3 : 0.000877268 0.0024189 0.00336968
> GRV2: -0.0413173
> Central Omega : 5234.82 rad/s f : 833.148 Hz
> Rotation period : 1.20027 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.588055
> Central lapse N : 0.555406
> Central value of dzeta=log(AN) : -0.085524
> Central value of A^2 : 2.73208
> Central value of B^2 : 2.75734
> Central N^phi/Omega : 0.562229
> Equatorial value of the velocity U: 0.434361 c
>
> Coordinate equatorial radius r_eq = 18.5123 km
> Flattening r_pole/r_eq : 0.573245
> -----------------------------------------------
> step: 45
> diff_ent = �[1m0.0111137�[0m
> err_grv2 = -0.0413173
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00133219 0.00342575 0.00448757
> step 1 : 0.0109773 0.0128365 0.0135851
> step 2 : 0.00173647 0.00079017 0.000206255
> step 3 : 0.00173176 0.00341026 0.00427318
> Test of the Poisson equation for nuf :
> Max. source : 3.14574 0 0
> Abs. error : 0.0086751 0.000494861 1.01709e-11
> Rel. error : 0.00275773 0.000157312 3.23322e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.021459 0.0383588 0.0445496
> step 1 : 0.0173112 0.0209473 0.0208127
> step 2 : 0.00137475 0.00331161 0.00620108
> step 3 : 0.0030962 0.00668186 0.00837706
> Test of the Poisson equation for nuq :
> Max. source : 0.0323698 0.00261596 0.00366328
> Abs. error : 6.99925e-05 1.53396e-05 2.21845e-11
> Rel. error : 0.00216228 0.000473888 6.0559e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0129567 0.0196774 0.0273338
> step 1 : 0.0189735 0.0186075 0.0170785
> step 2 : 0.00535235 0.00328272 0.00101811
> step 3 : 0.000831366 0.00205169 0.00302969
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.298226 0.0173852 0.106507
> Abs. error : 0.00208932 6.33494e-05 4.11778e-11
> Rel. error : 0.00700584 0.000212421 3.86619e-10
> alpha_r = 1.01433
> ent < 0 for l, i : 0 29 ent = -3.02935e-06
> ent < 0 for l, i : 0 30 ent = -5.74135e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 833.148 Hz
> alpha_r = 1.01356
> ent < 0 for l, i : 0 30 ent = -2.84186e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 831.078 Hz
> alpha_r = 1.01281
> **** New fact_omega : 1.00124
> | dH/dr_eq / dH/dr_pole | = 0.00326075
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0124609 0.012294 0.0126083
> step 1 : 0.0105606 0.0125924 0.0135493
> step 2 : 0.00320062 0.00345332 0.00333164
> step 3 : 0.000431691 0.00104193 0.00145534
> GRV2: -0.0456463
> Central Omega : 5221.82 rad/s f : 831.078 Hz
> Rotation period : 1.20326 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.584663
> Central lapse N : 0.557294
> Central value of dzeta=log(AN) : -0.0843321
> Central value of A^2 : 2.72008
> Central value of B^2 : 2.74129
> Central N^phi/Omega : 0.534545
> Equatorial value of the velocity U: 0.435956 c
>
> Coordinate equatorial radius r_eq = 18.7493 km
> Flattening r_pole/r_eq : 0.572847
> -----------------------------------------------
> step: 46
> diff_ent = �[1m0.00308268�[0m
> err_grv2 = -0.0456463
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0209342 0.0233299 0.024831
> step 1 : 0.00466612 0.00654119 0.00793798
> step 2 : 0.00209163 0.00330575 0.00384082
> step 3 : 0.000338864 0.000547295 0.00046102
> Test of the Poisson equation for nuf :
> Max. source : 3.13192 0 0
> Abs. error : 0.0094144 0.000129956 1.05804e-11
> Rel. error : 0.00300595 4.14939e-05 3.37825e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0380846 0.0510966 0.0581148
> step 1 : 0.00750886 0.0112465 0.0112364
> step 2 : 0.00252945 0.00256408 0.00129269
> step 3 : 0.000823664 0.00222598 0.00328353
> Test of the Poisson equation for nuq :
> Max. source : 0.0317734 0.00247959 0.00363702
> Abs. error : 7.85456e-05 6.37147e-06 2.91845e-11
> Rel. error : 0.00247205 0.000200528 8.02427e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0167276 0.00448122 0.00951379
> step 1 : 0.00645724 0.0116809 0.0125347
> step 2 : 0.00298772 0.00333987 0.0024578
> step 3 : 0.000905228 0.000553648 0.000274865
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.302277 0.0161047 0.102951
> Abs. error : 0.00249786 8.83472e-05 4.05043e-11
> Rel. error : 0.0082635 0.000292273 3.93435e-10
> alpha_r = 1.00766
> ent < 0 for l, i : 0 28 ent = -2.56814e-05
> ent < 0 for l, i : 0 29 ent = -2.91715e-05
> ent < 0 for l, i : 0 30 ent = -1.72416e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 831.078 Hz
> alpha_r = 1.00728
> ent < 0 for l, i : 0 28 ent = -1.95908e-05
> ent < 0 for l, i : 0 29 ent = -2.57922e-05
> ent < 0 for l, i : 0 30 ent = -1.57559e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 830.045 Hz
> alpha_r = 1.0069
> ent < 0 for l, i : 0 28 ent = -1.35233e-05
> ent < 0 for l, i : 0 29 ent = -2.24258e-05
> ent < 0 for l, i : 0 30 ent = -1.42759e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 829.013 Hz
> alpha_r = 1.00652
> ent < 0 for l, i : 0 28 ent = -7.47895e-06
> ent < 0 for l, i : 0 29 ent = -1.90722e-05
> ent < 0 for l, i : 0 30 ent = -1.28016e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 827.983 Hz
> alpha_r = 1.00614
> ent < 0 for l, i : 0 28 ent = -1.45757e-06
> ent < 0 for l, i : 0 29 ent = -1.57315e-05
> ent < 0 for l, i : 0 30 ent = -1.13329e-05
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 826.953 Hz
> alpha_r = 1.00576
> ent < 0 for l, i : 0 29 ent = -1.24034e-05
> ent < 0 for l, i : 0 30 ent = -9.86983e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 825.926 Hz
> alpha_r = 1.00539
> ent < 0 for l, i : 0 29 ent = -9.08802e-06
> ent < 0 for l, i : 0 30 ent = -8.4123e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 824.899 Hz
> alpha_r = 1.00501
> ent < 0 for l, i : 0 29 ent = -5.7852e-06
> ent < 0 for l, i : 0 30 ent = -6.96032e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 823.874 Hz
> alpha_r = 1.00464
> ent < 0 for l, i : 0 29 ent = -2.4949e-06
> ent < 0 for l, i : 0 30 ent = -5.51385e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 822.849 Hz
> alpha_r = 1.00426
> ent < 0 for l, i : 0 30 ent = -4.07287e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 821.827 Hz
> alpha_r = 1.00389
> ent < 0 for l, i : 0 30 ent = -2.63734e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 820.805 Hz
> alpha_r = 1.00352
> ent < 0 for l, i : 0 30 ent = -1.20725e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 819.785 Hz
> alpha_r = 1.00315
> **** New fact_omega : 1.00062
> | dH/dr_eq / dH/dr_pole | = 0.00311832
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00532386 0.00519484 0.00547364
> step 1 : 0.00175004 0.00246225 0.00272389
> step 2 : 0.000854055 0.00113702 0.00120192
> step 3 : 0.000132312 0.000114682 6.26825e-05
> GRV2: -0.0229064
> Central Omega : 5150.86 rad/s f : 819.785 Hz
> Rotation period : 1.21983 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.581503
> Central lapse N : 0.559058
> Central value of dzeta=log(AN) : -0.0833029
> Central value of A^2 : 2.70851
> Central value of B^2 : 2.72237
> Central N^phi/Omega : 0.558014
> Equatorial value of the velocity U: 0.428634 c
>
> Coordinate equatorial radius r_eq = 18.8084 km
> Flattening r_pole/r_eq : 0.575109
> -----------------------------------------------
> step: 47
> diff_ent = �[1m0.00398232�[0m
> err_grv2 = -0.0229064
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000989767 0.00087548 0.000823778
> step 1 : 0.00347692 0.00413408 0.00442717
> step 2 : 0.000760342 0.000629317 0.000433182
> step 3 : 0.00045699 0.000913657 0.00117361
> Test of the Poisson equation for nuf :
> Max. source : 3.1186 0 0
> Abs. error : 0.00745736 0.000133941 1.04637e-11
> Rel. error : 0.00239125 4.2949e-05 3.35526e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0136093 0.0202625 0.0221684
> step 1 : 0.0118414 0.0146545 0.0149239
> step 2 : 0.00219073 0.00111097 0.000520766
> step 3 : 0.00170928 0.00372312 0.0048464
> Test of the Poisson equation for nuq :
> Max. source : 0.0318681 0.00243496 0.00360856
> Abs. error : 4.9746e-05 9.69489e-06 3.01588e-11
> Rel. error : 0.001561 0.000304219 8.35757e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00543341 0.00700849 0.0118451
> step 1 : 0.00698975 0.00630458 0.0060411
> step 2 : 0.00178767 0.000947309 0.000209689
> step 3 : 0.000470373 0.000887549 0.00123497
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.29353 0.0158381 0.100323
> Abs. error : 0.00204488 2.85187e-05 4.15661e-11
> Rel. error : 0.00696651 9.71576e-05 4.14322e-10
> alpha_r = 1.00414
> ent < 0 for l, i : 0 30 ent = -2.59725e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 819.785 Hz
> alpha_r = 1.00395
> ent < 0 for l, i : 0 30 ent = -1.88264e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 819.275 Hz
> alpha_r = 1.00377
> ent < 0 for l, i : 0 30 ent = -1.16939e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 818.766 Hz
> alpha_r = 1.00358
> ent < 0 for l, i : 0 30 ent = -4.57479e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 818.257 Hz
> alpha_r = 1.0034
> **** New fact_omega : 1.00031
> | dH/dr_eq / dH/dr_pole | = 0.00306944
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00415506 0.00450907 0.00468525
> step 1 : 0.00250109 0.00301555 0.00331341
> step 2 : 0.000838319 0.00100944 0.00103498
> step 3 : 8.24279e-05 0.000178807 0.000266035
> GRV2: -0.0197928
> Central Omega : 5141.26 rad/s f : 818.257 Hz
> Rotation period : 1.22211 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.579466
> Central lapse N : 0.560198
> Central value of dzeta=log(AN) : -0.0823405
> Central value of A^2 : 2.7027
> Central value of B^2 : 2.71199
> Central N^phi/Omega : 0.544223
> Equatorial value of the velocity U: 0.427744 c
>
> Coordinate equatorial radius r_eq = 18.8723 km
> Flattening r_pole/r_eq : 0.576375
> -----------------------------------------------
> step: 48
> diff_ent = �[1m0.00195663�[0m
> err_grv2 = -0.0197928
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00686016 0.00814909 0.00873736
> step 1 : 0.00081547 0.00125918 0.00169967
> step 2 : 0.000618242 0.00111719 0.00137081
> step 3 : 0.000206903 0.00038136 0.000403377
> Test of the Poisson equation for nuf :
> Max. source : 3.11191 0 0
> Abs. error : 0.00780647 6.42861e-05 1.05695e-11
> Rel. error : 0.00250858 2.06581e-05 3.39648e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0161238 0.0218589 0.0246896
> step 1 : 0.00568556 0.00755099 0.00762671
> step 2 : 0.00141594 0.0010656 0.000298821
> step 3 : 0.000774463 0.00176933 0.00241198
> Test of the Poisson equation for nuq :
> Max. source : 0.0316064 0.00240244 0.00359848
> Abs. error : 3.75712e-05 4.92688e-06 2.91061e-11
> Rel. error : 0.00118872 0.000155882 8.08844e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00365538 0.00160606 0.00502899
> step 1 : 0.00221981 0.00373548 0.00396784
> step 2 : 0.000981904 0.0010195 0.000703447
> step 3 : 0.000243844 0.000151817 0.000168701
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.294031 0.015459 0.0987992
> Abs. error : 0.00189879 2.10298e-05 4.17569e-11
> Rel. error : 0.00645778 7.15226e-05 4.22644e-10
> alpha_r = 1.00154
> ent < 0 for l, i : 0 30 ent = -2.99055e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 818.257 Hz
> alpha_r = 1.00145
> ent < 0 for l, i : 0 30 ent = -2.63285e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 818.002 Hz
> alpha_r = 1.00136
> ent < 0 for l, i : 0 30 ent = -2.27548e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 817.748 Hz
> alpha_r = 1.00127
> ent < 0 for l, i : 0 30 ent = -1.91845e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 817.494 Hz
> alpha_r = 1.00118
> ent < 0 for l, i : 0 30 ent = -1.56176e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 817.24 Hz
> alpha_r = 1.00108
> ent < 0 for l, i : 0 30 ent = -1.2054e-06
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.986 Hz
> alpha_r = 1.00099
> ent < 0 for l, i : 0 30 ent = -8.49376e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.732 Hz
> alpha_r = 1.0009
> ent < 0 for l, i : 0 30 ent = -4.9369e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.478 Hz
> alpha_r = 1.00081
> ent < 0 for l, i : 0 30 ent = -1.38338e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.224 Hz
> alpha_r = 1.00072
> **** New fact_omega : 1.00016
> | dH/dr_eq / dH/dr_pole | = 0.00311404
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00263122 0.00310181 0.00329504
> step 1 : 0.000237664 0.000171235 7.31642e-05
> step 2 : 0.00012097 0.000285572 0.000377403
> step 3 : 0.000106196 0.000188161 0.000212249
> GRV2: -0.00943669
> Central Omega : 5128.49 rad/s f : 816.224 Hz
> Rotation period : 1.22515 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.578235
> Central lapse N : 0.560887
> Central value of dzeta=log(AN) : -0.0817046
> Central value of A^2 : 2.69949
> Central value of B^2 : 2.70458
> Central N^phi/Omega : 0.55011
> Equatorial value of the velocity U: 0.425936 c
>
> Coordinate equatorial radius r_eq = 18.8859 km
> Flattening r_pole/r_eq : 0.577299
> -----------------------------------------------
> step: 49
> diff_ent = �[1m0.00150289�[0m
> err_grv2 = -0.00943669
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000816868 0.0010342 0.00111841
> step 1 : 0.00062902 0.000783614 0.000876544
> step 2 : 0.000223929 0.000283804 0.000287162
> step 3 : 4.49968e-05 9.67263e-05 0.00013853
> Test of the Poisson equation for nuf :
> Max. source : 3.10821 0 0
> Abs. error : 0.00835988 1.56842e-05 1.05318e-11
> Rel. error : 0.00268961 5.04606e-06 3.38838e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00170369 0.00201703 0.00187969
> step 1 : 0.00223946 0.00260316 0.00264091
> step 2 : 0.000467941 0.000252469 4.05429e-05
> step 3 : 0.000336011 0.000694879 0.000892211
> Test of the Poisson equation for nuq :
> Max. source : 0.0315756 0.00239912 0.00359773
> Abs. error : 9.80659e-06 2.03806e-06 1.61397e-11
> Rel. error : 0.000310575 6.45455e-05 4.48608e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00123124 0.00228236 0.00409288
> step 1 : 0.00151595 0.00156419 0.00156582
> step 2 : 0.000398121 0.000240189 5.69739e-05
> step 3 : 8.05035e-05 0.000178464 0.00027388
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292337 0.0153612 0.0977707
> Abs. error : 0.00176243 4.96781e-06 9.00112e-11
> Rel. error : 0.00602876 1.69934e-05 9.20635e-10
> alpha_r = 1.00065
> ent < 0 for l, i : 0 30 ent = -2.51863e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.224 Hz
> alpha_r = 1.00061
> ent < 0 for l, i : 0 30 ent = -7.43034e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.097 Hz
> alpha_r = 1.00056
> **** New fact_omega : 1.00008
> | dH/dr_eq / dH/dr_pole | = 0.00321978
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.0010723 0.00128201 0.00134931
> step 1 : 0.000300036 0.000388102 0.000457663
> step 2 : 0.000155597 0.000232976 0.000261627
> step 3 : 1.7017e-05 1.822e-05 9.49164e-06
> GRV2: -0.00619841
> Central Omega : 5127.69 rad/s f : 816.097 Hz
> Rotation period : 1.22534 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.577523
> Central lapse N : 0.561287
> Central value of dzeta=log(AN) : -0.0812811
> Central value of A^2 : 2.69793
> Central value of B^2 : 2.7008
> Central N^phi/Omega : 0.547162
> Equatorial value of the velocity U: 0.425595 c
>
> Coordinate equatorial radius r_eq = 18.8965 km
> Flattening r_pole/r_eq : 0.577808
> -----------------------------------------------
> step: 50
> diff_ent = �[1m0.000846651�[0m
> err_grv2 = -0.00619841
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00131058 0.00161862 0.00174214
> step 1 : 0.000138762 0.000233331 0.000325663
> step 2 : 0.000146716 0.000267713 0.00032562
> step 3 : 4.87752e-05 8.74838e-05 9.09104e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10642 0 0
> Abs. error : 0.00860918 1.28494e-05 1.04868e-11
> Rel. error : 0.00277142 4.13641e-06 3.37585e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.00311871 0.00446219 0.00511804
> step 1 : 0.00116373 0.00159081 0.00162214
> step 2 : 0.000289811 0.00022298 6.74177e-05
> step 3 : 0.000146504 0.000344579 0.00047452
> Test of the Poisson equation for nuq :
> Max. source : 0.03149 0.00239575 0.00359567
> Abs. error : 7.59997e-06 8.93131e-07 3.30224e-11
> Rel. error : 0.000241345 2.83623e-05 9.18393e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000495915 0.000859785 0.00194615
> step 1 : 0.000504466 0.000852143 0.000909274
> step 2 : 0.000215837 0.000222491 0.000140534
> step 3 : 4.62069e-05 3.50039e-05 5.40095e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292335 0.0152788 0.0972242
> Abs. error : 0.00170619 3.78624e-06 4.18512e-11
> Rel. error : 0.00583644 1.29517e-05 4.30461e-10
> alpha_r = 1.00018
> ent < 0 for l, i : 0 30 ent = -3.42822e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.097 Hz
> alpha_r = 1.00016
> ent < 0 for l, i : 0 30 ent = -2.5402e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.033 Hz
> alpha_r = 1.00013
> ent < 0 for l, i : 0 30 ent = -1.65238e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 815.97 Hz
> alpha_r = 1.00011
> ent < 0 for l, i : 0 30 ent = -7.64773e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 815.907 Hz
> alpha_r = 1.00009
> **** New fact_omega : 1.00004
> | dH/dr_eq / dH/dr_pole | = 0.00330897
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000529579 0.000664163 0.00070585
> step 1 : 6.9319e-05 4.76839e-05 2.09761e-05
> step 2 : 3.91827e-05 9.21271e-05 0.000117262
> step 3 : 2.78593e-05 5.02465e-05 5.50636e-05
> GRV2: -0.00307831
> Central Omega : 5126.49 rad/s f : 815.907 Hz
> Rotation period : 1.22563 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.577123
> Central lapse N : 0.561512
> Central value of dzeta=log(AN) : -0.0810362
> Central value of A^2 : 2.69709
> Central value of B^2 : 2.69852
> Central N^phi/Omega : 0.547994
> Equatorial value of the velocity U: 0.425245 c
>
> Coordinate equatorial radius r_eq = 18.8982 km
> Flattening r_pole/r_eq : 0.578114
> -----------------------------------------------
> step: 51
> diff_ent = �[1m0.000522782�[0m
> err_grv2 = -0.00307831
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000163681 0.000239335 0.000260644
> step 1 : 0.000105298 0.000140235 0.000163058
> step 2 : 5.80589e-05 8.45955e-05 9.11861e-05
> step 3 : 4.30354e-06 9.57272e-06 1.63191e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10545 0 0
> Abs. error : 0.00838486 2.77052e-06 1.04617e-11
> Rel. error : 0.00270005 8.92146e-07 3.36881e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000186231 6.24092e-05 8.8092e-05
> step 1 : 0.000292926 0.000280105 0.000271029
> step 2 : 4.68057e-05 2.5079e-05 3.11628e-05
> step 3 : 6.21808e-05 0.000115472 0.000140702
> Test of the Poisson equation for nuq :
> Max. source : 0.0314573 0.00239658 0.00359486
> Abs. error : 7.93524e-06 3.80487e-07 3.11075e-11
> Rel. error : 0.000252254 1.20953e-05 8.65333e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000358982 0.000755722 0.00129753
> step 1 : 0.000294116 0.000363093 0.00037339
> step 2 : 8.6413e-05 6.62494e-05 2.13396e-05
> step 3 : 1.029e-05 2.94853e-05 5.45533e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292067 0.0152521 0.0968931
> Abs. error : 0.00168319 8.85872e-07 4.00219e-11
> Rel. error : 0.005763 3.03311e-06 4.13052e-10
> alpha_r = 1.00006
> ent < 0 for l, i : 0 30 ent = -2.56839e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 815.907 Hz
> alpha_r = 1.00005
> **** New fact_omega : 1.00002
> | dH/dr_eq / dH/dr_pole | = 0.00327784
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000120548 0.00016929 0.000177812
> step 1 : 5.57721e-05 7.50294e-05 8.97548e-05
> step 2 : 3.80103e-05 6.03617e-05 6.70263e-05
> step 3 : 5.95936e-06 5.48886e-06 2.43197e-06
> GRV2: -0.00182475
> Central Omega : 5126.49 rad/s f : 815.907 Hz
> Rotation period : 1.22563 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576886
> Central lapse N : 0.561645
> Central value of dzeta=log(AN) : -0.0808946
> Central value of A^2 : 2.69658
> Central value of B^2 : 2.6973
> Central N^phi/Omega : 0.547493
> Equatorial value of the velocity U: 0.425121 c
>
> Coordinate equatorial radius r_eq = 18.899 km
> Flattening r_pole/r_eq : 0.578319
> -----------------------------------------------
> step: 52
> diff_ent = �[1m0.000363187�[0m
> err_grv2 = -0.00182475
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000199544 0.000280935 0.000303839
> step 1 : 1.34706e-05 2.24488e-05 3.76669e-05
> step 2 : 3.07913e-05 5.84855e-05 7.15993e-05
> step 3 : 1.03209e-05 1.8785e-05 1.94643e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10486 0 0
> Abs. error : 0.00823605 2.04055e-06 1.04609e-11
> Rel. error : 0.00265263 6.57211e-07 3.36922e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000366872 0.000647307 0.000772819
> step 1 : 0.000176124 0.000280438 0.000297783
> step 2 : 6.52104e-05 7.5807e-05 5.89186e-05
> step 3 : 5.55824e-06 2.76013e-05 4.62359e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0314247 0.00239684 0.0035936
> Abs. error : 7.50554e-06 6.16556e-08 2.51153e-11
> Rel. error : 0.000238842 1.96201e-06 6.98891e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0.000110675 0.000390286 0.000700814
> step 1 : 0.000104353 0.000180639 0.000194567
> step 2 : 4.18695e-05 4.25004e-05 2.14506e-05
> step 3 : 6.54516e-06 8.51179e-06 1.71548e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.29203 0.0152338 0.0967068
> Abs. error : 0.00169321 4.93386e-07 6.6498e-11
> Rel. error : 0.00579809 1.68951e-06 6.87625e-10
> alpha_r = 0.999985
> | dH/dr_eq / dH/dr_pole | = 0.00324357
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.96109e-05 0.000119867 0.000127187
> step 1 : 2.46009e-05 2.24622e-05 1.59072e-05
> step 2 : 8.99295e-06 2.27919e-05 2.92402e-05
> step 3 : 5.63451e-06 1.04977e-05 1.12664e-05
> GRV2: -0.000931669
> Central Omega : 5126.59 rad/s f : 815.922 Hz
> Rotation period : 1.22561 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576756
> Central lapse N : 0.561718
> Central value of dzeta=log(AN) : -0.0808177
> Central value of A^2 : 2.69629
> Central value of B^2 : 2.6966
> Central N^phi/Omega : 0.547514
> Equatorial value of the velocity U: 0.425045 c
>
> Coordinate equatorial radius r_eq = 18.8988 km
> Flattening r_pole/r_eq : 0.578444
> -----------------------------------------------
> step: 53
> diff_ent = �[1m0.000230466�[0m
> err_grv2 = -0.000931669
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.33542e-05 0.000109333 0.000120637
> step 1 : 1.45031e-05 1.31641e-05 7.27478e-06
> step 2 : 1.24071e-05 2.66061e-05 3.35806e-05
> step 3 : 6.15066e-06 1.15531e-05 1.26071e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10453 0 0
> Abs. error : 0.00814438 1.14028e-06 1.04586e-11
> Rel. error : 0.00262338 3.67294e-07 3.36883e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.20855e-05 9.4206e-05 0.000141721
> step 1 : 1.85719e-05 3.37775e-05 4.21968e-05
> step 2 : 1.31542e-05 2.65487e-05 2.9046e-05
> step 3 : 1.38282e-05 1.90969e-05 1.94557e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0314058 0.00239773 0.00359329
> Abs. error : 7.51216e-06 7.90213e-08 2.32119e-11
> Rel. error : 0.000239197 2.51614e-06 6.45978e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 9.45747e-05 0.000217899 0.000379522
> step 1 : 2.95742e-05 5.70565e-05 6.61306e-05
> step 2 : 1.07713e-05 1.14522e-05 3.63583e-06
> step 3 : 2.16367e-06 3.64385e-06 7.70133e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291996 0.0152273 0.0966007
> Abs. error : 0.00170098 1.90129e-07 4.11025e-11
> Rel. error : 0.00582536 6.51137e-07 4.25489e-10
> alpha_r = 0.999965
> | dH/dr_eq / dH/dr_pole | = 0.00318683
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.60645e-05 3.3521e-05 3.61707e-05
> step 1 : 2.76996e-05 3.17537e-05 2.97291e-05
> step 2 : 1.63339e-06 6.57133e-06 1.00912e-05
> step 3 : 3.01451e-06 5.79539e-06 6.61017e-06
> GRV2: -0.000460041
> Central Omega : 5126.69 rad/s f : 815.938 Hz
> Rotation period : 1.22558 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576684
> Central lapse N : 0.561758
> Central value of dzeta=log(AN) : -0.0807774
> Central value of A^2 : 2.69612
> Central value of B^2 : 2.69623
> Central N^phi/Omega : 0.547453
> Equatorial value of the velocity U: 0.424999 c
>
> Coordinate equatorial radius r_eq = 18.8981 km
> Flattening r_pole/r_eq : 0.578531
> -----------------------------------------------
> step: 54
> diff_ent = �[1m0.000169015�[0m
> err_grv2 = -0.000460041
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.86987e-05 5.88346e-05 6.6172e-05
> step 1 : 3.09242e-05 3.60462e-05 3.44572e-05
> step 2 : 2.78132e-06 1.19889e-05 1.74421e-05
> step 3 : 5.84152e-06 1.16216e-05 1.37357e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10433 0 0
> Abs. error : 0.0080783 1.2208e-06 1.0475e-11
> Rel. error : 0.00260227 3.93256e-07 3.37431e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.78735e-05 6.92798e-05 9.646e-05
> step 1 : 3.53112e-05 6.49951e-05 7.15688e-05
> step 2 : 1.59968e-05 2.07324e-05 1.92964e-05
> step 3 : 3.6518e-06 2.06633e-06 1.31402e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313932 0.00239857 0.00359315
> Abs. error : 7.40873e-06 2.03219e-08 2.88344e-11
> Rel. error : 0.000235998 6.47335e-07 8.02481e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.06632e-05 0.00011786 0.000193543
> step 1 : 7.82134e-06 6.84944e-06 8.90753e-06
> step 2 : 1.48003e-06 1.16722e-06 1.94344e-06
> step 3 : 1.12861e-06 1.08323e-06 2.07973e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291978 0.0152256 0.0965451
> Abs. error : 0.00170834 1.40018e-07 4.0106e-11
> Rel. error : 0.00585092 4.79552e-07 4.15412e-10
> alpha_r = 0.999957
> | dH/dr_eq / dH/dr_pole | = 0.00311919
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.78338e-05 9.73407e-06 9.443e-06
> step 1 : 3.73014e-05 4.54773e-05 4.57655e-05
> step 2 : 6.60829e-06 3.739e-06 1.32629e-06
> step 3 : 2.20505e-06 4.94823e-06 6.24898e-06
> GRV2: -0.000194402
> Central Omega : 5126.79 rad/s f : 815.954 Hz
> Rotation period : 1.22556 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576645
> Central lapse N : 0.56178
> Central value of dzeta=log(AN) : -0.0807572
> Central value of A^2 : 2.69602
> Central value of B^2 : 2.69602
> Central N^phi/Omega : 0.547425
> Equatorial value of the velocity U: 0.42497 c
>
> Coordinate equatorial radius r_eq = 18.8973 km
> Flattening r_pole/r_eq : 0.578592
> -----------------------------------------------
> step: 55
> diff_ent = �[1m0.000126808�[0m
> err_grv2 = -0.000194402
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.80605e-05 2.95301e-05 3.47412e-05
> step 1 : 3.79795e-05 4.64113e-05 4.73536e-05
> step 2 : 2.89012e-06 4.02825e-06 7.7114e-06
> step 3 : 5.32788e-06 1.09978e-05 1.35767e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10422 0 0
> Abs. error : 0.00803028 1.22564e-06 1.04937e-11
> Rel. error : 0.00258689 3.94831e-07 3.38047e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.11905e-05 4.09228e-05 5.81818e-05
> step 1 : 3.78426e-05 5.97239e-05 6.44974e-05
> step 2 : 1.18457e-05 1.23328e-05 9.97365e-06
> step 3 : 9.18422e-07 3.28163e-06 6.02948e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313853 0.00239936 0.0035932
> Abs. error : 7.35236e-06 7.10671e-09 2.30989e-11
> Rel. error : 0.000234261 2.26434e-07 6.42851e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.38967e-05 6.21535e-05 9.26779e-05
> step 1 : 2.60793e-05 2.62798e-05 2.25714e-05
> step 2 : 8.77224e-06 7.49446e-06 5.89598e-06
> step 3 : 9.12151e-07 4.61092e-07 1.03076e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291972 0.0152262 0.0965163
> Abs. error : 0.00171507 9.18125e-08 4.18231e-11
> Rel. error : 0.00587411 3.14457e-07 4.33326e-10
> alpha_r = 0.999955
> | dH/dr_eq / dH/dr_pole | = 0.00305086
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.60486e-05 6.62446e-06 4.00155e-06
> step 1 : 4.13476e-05 5.15672e-05 5.31304e-05
> step 2 : 1.00575e-05 8.93637e-06 6.96054e-06
> step 3 : 1.72828e-06 4.33535e-06 5.88672e-06
> GRV2: -4.73572e-05
> Central Omega : 5126.89 rad/s f : 815.97 Hz
> Rotation period : 1.22554 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576626
> Central lapse N : 0.561791
> Central value of dzeta=log(AN) : -0.080748
> Central value of A^2 : 2.69596
> Central value of B^2 : 2.69592
> Central N^phi/Omega : 0.547407
> Equatorial value of the velocity U: 0.424951 c
>
> Coordinate equatorial radius r_eq = 18.8964 km
> Flattening r_pole/r_eq : 0.578635
> -----------------------------------------------
> step: 56
> diff_ent = �[1m9.71539e-05�[0m
> err_grv2 = -4.73572e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.44016e-05 1.16798e-05 1.53969e-05
> step 1 : 3.94891e-05 4.91352e-05 5.13727e-05
> step 2 : 5.26392e-06 2.5523e-06 2.09575e-06
> step 3 : 4.74892e-06 1.0019e-05 1.26871e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10416 0 0
> Abs. error : 0.00799465 1.15544e-06 1.05121e-11
> Rel. error : 0.00257547 3.72225e-07 3.38645e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.58948e-05 2.18786e-05 3.28559e-05
> step 1 : 3.69236e-05 5.30526e-05 5.66237e-05
> step 2 : 8.83637e-06 6.96964e-06 4.29327e-06
> step 3 : 1.45828e-06 5.73634e-06 8.32702e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313804 0.00240009 0.00359334
> Abs. error : 7.30929e-06 8.38529e-09 3.21113e-11
> Rel. error : 0.000232925 2.67214e-07 8.93634e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.24806e-05 2.95185e-05 3.52855e-05
> step 1 : 3.50003e-05 4.0499e-05 3.78669e-05
> step 2 : 1.22015e-05 1.10012e-05 7.7212e-06
> step 3 : 1.09354e-06 1.18827e-06 2.53818e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291971 0.0152279 0.096503
> Abs. error : 0.00172106 1.13792e-07 4.41435e-11
> Rel. error : 0.00589461 3.89737e-07 4.57431e-10
> alpha_r = 0.999957
> | dH/dr_eq / dH/dr_pole | = 0.00298713
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.5922e-05 1.04869e-05 9.94342e-06
> step 1 : 4.12213e-05 5.1886e-05 5.40305e-05
> step 2 : 1.13089e-05 1.13101e-05 9.75211e-06
> step 3 : 1.4228e-06 3.82011e-06 5.42287e-06
> GRV2: 3.03937e-05
> Central Omega : 5126.99 rad/s f : 815.986 Hz
> Rotation period : 1.22551 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576618
> Central lapse N : 0.561795
> Central value of dzeta=log(AN) : -0.0807446
> Central value of A^2 : 2.69594
> Central value of B^2 : 2.69588
> Central N^phi/Omega : 0.547396
> Equatorial value of the velocity U: 0.42494 c
>
> Coordinate equatorial radius r_eq = 18.8956 km
> Flattening r_pole/r_eq : 0.578667
> -----------------------------------------------
> step: 57
> diff_ent = �[1m7.51086e-05�[0m
> err_grv2 = 3.03937e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.49023e-05 1.95351e-06 3.17584e-06
> step 1 : 3.77526e-05 4.74275e-05 5.02447e-05
> step 2 : 6.38022e-06 3.85036e-06 1.12205e-06
> step 3 : 4.11306e-06 8.80453e-06 1.13387e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10413 0 0
> Abs. error : 0.00796795 1.03546e-06 1.05222e-11
> Rel. error : 0.00256689 3.33576e-07 3.38975e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.14836e-05 1.28049e-05 2.01007e-05
> step 1 : 3.54765e-05 4.77965e-05 5.05544e-05
> step 2 : 6.90559e-06 3.86581e-06 1.10698e-06
> step 3 : 2.59428e-06 7.12944e-06 9.59943e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313774 0.00240074 0.00359352
> Abs. error : 7.27585e-06 1.17513e-08 3.20658e-11
> Rel. error : 0.000231882 3.74515e-07 8.92323e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.43766e-05 1.15464e-05 4.24805e-06
> step 1 : 3.75306e-05 4.53651e-05 4.35168e-05
> step 2 : 1.325e-05 1.21625e-05 8.23436e-06
> step 3 : 1.15156e-06 1.49888e-06 3.16474e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291974 0.0152303 0.0964984
> Abs. error : 0.0017262 1.17953e-07 4.16511e-11
> Rel. error : 0.00591218 4.03984e-07 4.31624e-10
> alpha_r = 0.99996
> | dH/dr_eq / dH/dr_pole | = 0.00293097
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.55538e-05 1.31676e-05 1.28435e-05
> step 1 : 3.83353e-05 4.84884e-05 5.07934e-05
> step 2 : 1.11877e-05 1.177e-05 1.0539e-05
> step 3 : 1.17353e-06 3.29382e-06 4.81328e-06
> GRV2: 6.76574e-05
> Central Omega : 5127.09 rad/s f : 816.002 Hz
> Rotation period : 1.22549 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576616
> Central lapse N : 0.561796
> Central value of dzeta=log(AN) : -0.0807441
> Central value of A^2 : 2.69593
> Central value of B^2 : 2.69587
> Central N^phi/Omega : 0.547388
> Equatorial value of the velocity U: 0.424933 c
>
> Coordinate equatorial radius r_eq = 18.8949 km
> Flattening r_pole/r_eq : 0.57869
> -----------------------------------------------
> step: 58
> diff_ent = �[1m5.77874e-05�[0m
> err_grv2 = 6.76574e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.77316e-05 5.9528e-06 4.15962e-06
> step 1 : 3.41209e-05 4.31052e-05 4.60463e-05
> step 2 : 6.52426e-06 4.93175e-06 2.7945e-06
> step 3 : 3.47006e-06 7.50172e-06 9.77623e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10412 0 0
> Abs. error : 0.00794804 8.93079e-07 1.04871e-11
> Rel. error : 0.00256048 2.87708e-07 3.37845e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.817e-05 7.15333e-06 1.19893e-05
> step 1 : 3.22306e-05 4.17513e-05 4.39159e-05
> step 2 : 5.41608e-06 2.41899e-06 8.7436e-07
> step 3 : 2.98801e-06 7.32575e-06 9.55613e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313757 0.00240129 0.0035937
> Abs. error : 7.25119e-06 1.39035e-08 1.7703e-11
> Rel. error : 0.000231108 4.4313e-07 4.92612e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.77407e-05 6.42658e-06 1.22646e-05
> step 1 : 3.64259e-05 4.4784e-05 4.34715e-05
> step 2 : 1.29167e-05 1.19232e-05 7.93218e-06
> step 3 : 1.10365e-06 1.57308e-06 3.30728e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291979 0.0152327 0.0964987
> Abs. error : 0.0017305 1.09605e-07 3.94731e-11
> Rel. error : 0.00592677 3.75387e-07 4.09054e-10
> alpha_r = 0.999965
> | dH/dr_eq / dH/dr_pole | = 0.00288436
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.33748e-05 1.33512e-05 1.31548e-05
> step 1 : 3.38948e-05 4.29752e-05 4.51775e-05
> step 2 : 1.02469e-05 1.10654e-05 1.00922e-05
> step 3 : 9.64838e-07 2.78907e-06 4.15001e-06
> GRV2: 8.16456e-05
> Central Omega : 5127.19 rad/s f : 816.018 Hz
> Rotation period : 1.22546 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576618
> Central lapse N : 0.561795
> Central value of dzeta=log(AN) : -0.080745
> Central value of A^2 : 2.69594
> Central value of B^2 : 2.69588
> Central N^phi/Omega : 0.547382
> Equatorial value of the velocity U: 0.42493 c
>
> Coordinate equatorial radius r_eq = 18.8942 km
> Flattening r_pole/r_eq : 0.578706
> -----------------------------------------------
> step: 59
> diff_ent = �[1m4.33517e-05�[0m
> err_grv2 = 8.16456e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.81409e-05 9.42417e-06 8.25383e-06
> step 1 : 2.93957e-05 3.72469e-05 4.00269e-05
> step 2 : 6.06133e-06 5.10274e-06 3.46699e-06
> step 3 : 2.84478e-06 6.18537e-06 8.12993e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10412 0 0
> Abs. error : 0.00793365 7.42663e-07 1.04904e-11
> Rel. error : 0.00255584 2.3925e-07 3.3795e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.5595e-05 4.38486e-06 6.46198e-06
> step 1 : 2.77958e-05 3.50475e-05 3.67178e-05
> step 2 : 4.14816e-06 1.77349e-06 1.7491e-06
> step 3 : 2.93649e-06 6.80113e-06 8.71104e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313748 0.00240176 0.00359388
> Abs. error : 7.23326e-06 1.37726e-08 3.06268e-11
> Rel. error : 0.000230544 4.38971e-07 8.52195e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.17375e-05 6.95296e-06 2.00509e-05
> step 1 : 3.31952e-05 4.10363e-05 4.00883e-05
> step 2 : 1.17491e-05 1.08169e-05 7.09005e-06
> step 3 : 9.79406e-07 1.51381e-06 3.18236e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291986 0.015235 0.0965015
> Abs. error : 0.00173391 9.39987e-08 4.1815e-11
> Rel. error : 0.00593833 3.21929e-07 4.33309e-10
> alpha_r = 0.999971
> | dH/dr_eq / dH/dr_pole | = 0.00284866
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.98124e-05 1.19126e-05 1.17797e-05
> step 1 : 2.85757e-05 3.62416e-05 3.81789e-05
> step 2 : 8.81018e-06 9.64118e-06 8.87636e-06
> step 3 : 7.89131e-07 2.31786e-06 3.47781e-06
> GRV2: 8.24437e-05
> Central Omega : 5127.29 rad/s f : 816.033 Hz
> Rotation period : 1.22544 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576621
> Central lapse N : 0.561793
> Central value of dzeta=log(AN) : -0.0807466
> Central value of A^2 : 2.69595
> Central value of B^2 : 2.6959
> Central N^phi/Omega : 0.547377
> Equatorial value of the velocity U: 0.42493 c
>
> Coordinate equatorial radius r_eq = 18.8937 km
> Flattening r_pole/r_eq : 0.578717
> -----------------------------------------------
> step: 60
> diff_ent = �[1m3.06472e-05�[0m
> err_grv2 = 8.24437e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.70773e-05 1.1036e-05 1.03625e-05
> step 1 : 2.40333e-05 3.04824e-05 3.29293e-05
> step 2 : 5.2264e-06 4.70957e-06 3.51742e-06
> step 3 : 2.23726e-06 4.87283e-06 6.44649e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10414 0 0
> Abs. error : 0.007924 5.88844e-07 1.04712e-11
> Rel. error : 0.00255272 1.89697e-07 3.3733e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.30403e-05 3.33398e-06 2.96044e-06
> step 1 : 2.27144e-05 2.80035e-05 2.92245e-05
> step 2 : 3.0122e-06 1.46519e-06 2.20596e-06
> step 3 : 2.638e-06 5.8835e-06 7.43053e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313744 0.00240214 0.00359404
> Abs. error : 7.22077e-06 1.2377e-08 2.59094e-11
> Rel. error : 0.000230149 3.94493e-07 7.20899e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.61077e-05 7.9109e-06 2.31478e-05
> step 1 : 2.87135e-05 3.5439e-05 3.47552e-05
> step 2 : 1.00772e-05 9.17487e-06 5.89923e-06
> step 3 : 8.06423e-07 1.38124e-06 2.90924e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.291993 0.015237 0.0965055
> Abs. error : 0.00173643 7.43025e-08 3.84463e-11
> Rel. error : 0.00594681 2.54466e-07 3.98385e-10
> alpha_r = 0.999977
> | dH/dr_eq / dH/dr_pole | = 0.00282472
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.54164e-05 9.4955e-06 9.38634e-06
> step 1 : 2.27322e-05 2.87714e-05 3.03445e-05
> step 2 : 7.06841e-06 7.77026e-06 7.18256e-06
> step 3 : 6.34878e-07 1.87253e-06 2.80587e-06
> GRV2: 7.58046e-05
> Central Omega : 5127.39 rad/s f : 816.049 Hz
> Rotation period : 1.22542 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576626
> Central lapse N : 0.561791
> Central value of dzeta=log(AN) : -0.0807485
> Central value of A^2 : 2.69596
> Central value of B^2 : 2.69592
> Central N^phi/Omega : 0.547373
> Equatorial value of the velocity U: 0.424933 c
>
> Coordinate equatorial radius r_eq = 18.8933 km
> Flattening r_pole/r_eq : 0.578723
> -----------------------------------------------
> step: 61
> diff_ent = �[1m1.89798e-05�[0m
> err_grv2 = 7.58046e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.51246e-05 1.15206e-05 1.12659e-05
> step 1 : 1.82972e-05 2.31818e-05 2.51916e-05
> step 2 : 4.16492e-06 3.97023e-06 3.18508e-06
> step 3 : 1.64338e-06 3.56758e-06 4.74624e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10415 0 0
> Abs. error : 0.00791866 4.33538e-07 1.05058e-11
> Rel. error : 0.00255099 1.39664e-07 3.38444e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.04241e-05 2.97944e-06 1.75007e-06
> step 1 : 1.72698e-05 2.07801e-05 2.15727e-05
> step 2 : 1.98628e-06 1.32688e-06 2.41576e-06
> step 3 : 2.19787e-06 4.74374e-06 5.90462e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313743 0.00240244 0.00359418
> Abs. error : 7.21305e-06 1.02525e-08 3.42682e-11
> Rel. error : 0.000229903 3.2678e-07 9.53438e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.08374e-05 8.96843e-06 2.35953e-05
> step 1 : 2.35003e-05 2.87578e-05 2.8279e-05
> step 2 : 8.10279e-06 7.20447e-06 4.48781e-06
> step 3 : 6.08203e-07 1.21691e-06 2.55444e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292001 0.0152388 0.09651
> Abs. error : 0.00173804 5.21697e-08 4.73465e-11
> Rel. error : 0.00595216 1.78662e-07 4.90587e-10
> alpha_r = 0.999984
> | dH/dr_eq / dH/dr_pole | = 0.00281309
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.05152e-05 6.48499e-06 6.37535e-06
> step 1 : 1.65715e-05 2.08524e-05 2.20006e-05
> step 2 : 5.13871e-06 5.62297e-06 5.19284e-06
> step 3 : 4.96822e-07 1.44491e-06 2.13605e-06
> GRV2: 6.4987e-05
> Central Omega : 5127.49 rad/s f : 816.065 Hz
> Rotation period : 1.22539 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576632
> Central lapse N : 0.561788
> Central value of dzeta=log(AN) : -0.0807505
> Central value of A^2 : 2.69598
> Central value of B^2 : 2.69595
> Central N^phi/Omega : 0.547369
> Equatorial value of the velocity U: 0.424938 c
>
> Coordinate equatorial radius r_eq = 18.8929 km
> Flattening r_pole/r_eq : 0.578724
> -----------------------------------------------
> step: 62
> diff_ent = �[1m8.6482e-06�[0m
> err_grv2 = 6.4987e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.26259e-05 1.13113e-05 1.14265e-05
> step 1 : 1.23408e-05 1.55621e-05 1.70718e-05
> step 2 : 2.96499e-06 3.01763e-06 2.61618e-06
> step 3 : 1.05962e-06 2.27003e-06 3.03957e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10417 0 0
> Abs. error : 0.00791737 2.7778e-07 1.04887e-11
> Rel. error : 0.00255056 8.9486e-08 3.3789e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.74637e-06 2.85268e-06 2.2247e-06
> step 1 : 1.16039e-05 1.34416e-05 1.38146e-05
> step 2 : 1.05023e-06 1.37522e-06 2.49186e-06
> step 3 : 1.67398e-06 3.47322e-06 4.23365e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313743 0.00240267 0.0035943
> Abs. error : 7.20972e-06 7.69402e-09 2.03794e-11
> Rel. error : 0.000229797 2.45233e-07 5.66992e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.36754e-06 1.00064e-05 2.25492e-05
> step 1 : 1.78604e-05 2.14408e-05 2.11302e-05
> step 2 : 5.94718e-06 5.03292e-06 2.93699e-06
> step 3 : 4.11892e-07 1.05593e-06 2.15512e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292009 0.0152401 0.0965146
> Abs. error : 0.00173873 2.99328e-08 4.02673e-11
> Rel. error : 0.00595436 1.02506e-07 4.17215e-10
> alpha_r = 0.999991
> | dH/dr_eq / dH/dr_pole | = 0.0028141
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.3007e-06 3.10652e-06 2.98101e-06
> step 1 : 1.02199e-05 1.26615e-05 1.33474e-05
> step 2 : 3.09349e-06 3.30488e-06 3.01994e-06
> step 3 : 3.76326e-07 1.02963e-06 1.46915e-06
> GRV2: 5.18343e-05
> Central Omega : 5127.59 rad/s f : 816.081 Hz
> Rotation period : 1.22537 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576637
> Central lapse N : 0.561784
> Central value of dzeta=log(AN) : -0.0807525
> Central value of A^2 : 2.696
> Central value of B^2 : 2.69598
> Central N^phi/Omega : 0.547365
> Equatorial value of the velocity U: 0.424946 c
>
> Coordinate equatorial radius r_eq = 18.8928 km
> Flattening r_pole/r_eq : 0.578721
> -----------------------------------------------
> step: 63
> diff_ent = �[1m6.4431e-06�[0m
> err_grv2 = 5.18343e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 9.79006e-06 1.06739e-05 1.11284e-05
> step 1 : 6.25294e-06 7.75036e-06 8.72112e-06
> step 2 : 1.68003e-06 1.93324e-06 1.90075e-06
> step 3 : 4.8304e-07 9.78902e-07 1.33095e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.1042 0 0
> Abs. error : 0.00791997 1.21955e-07 1.05822e-11
> Rel. error : 0.00255138 3.9287e-08 3.40901e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.01559e-06 2.99734e-06 3.43831e-06
> step 1 : 5.80137e-06 6.02573e-06 5.98154e-06
> step 2 : 4.93403e-07 1.80029e-06 2.49813e-06
> step 3 : 1.10099e-06 2.1262e-06 2.4773e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313745 0.00240281 0.00359439
> Abs. error : 7.21058e-06 4.87848e-09 3.6437e-11
> Rel. error : 0.000229823 1.55492e-07 1.01372e-08
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.61267e-06 1.06382e-05 2.06689e-05
> step 1 : 1.19701e-05 1.37497e-05 1.35844e-05
> step 2 : 3.68226e-06 2.7375e-06 1.2976e-06
> step 3 : 2.73573e-07 9.54937e-07 1.73167e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292017 0.0152411 0.096519
> Abs. error : 0.00173849 1.8332e-08 4.43105e-11
> Rel. error : 0.00595337 6.2777e-08 4.59086e-10
> alpha_r = 0.999997
> | dH/dr_eq / dH/dr_pole | = 0.00282799
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.32802e-07 5.09958e-07 6.52548e-07
> step 1 : 3.75225e-06 4.30408e-06 4.50452e-06
> step 2 : 9.76878e-07 8.80762e-07 7.33196e-07
> step 3 : 2.9107e-07 6.22791e-07 8.04997e-07
> GRV2: 3.73825e-05
> Central Omega : 5127.69 rad/s f : 816.097 Hz
> Rotation period : 1.22534 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576643
> Central lapse N : 0.561781
> Central value of dzeta=log(AN) : -0.0807545
> Central value of A^2 : 2.69602
> Central value of B^2 : 2.69601
> Central N^phi/Omega : 0.547362
> Equatorial value of the velocity U: 0.424957 c
>
> Coordinate equatorial radius r_eq = 18.8927 km
> Flattening r_pole/r_eq : 0.578713
> -----------------------------------------------
> step: 64
> diff_ent = �[1m1.32266e-05�[0m
> err_grv2 = 3.73825e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.74678e-06 9.77439e-06 1.05494e-05
> step 1 : 4.96099e-07 3.05829e-07 2.28348e-07
> step 2 : 3.42531e-07 7.67353e-07 1.09475e-06
> step 3 : 9.59743e-08 3.07868e-07 3.78455e-07
> Test of the Poisson equation for nuf :
> Max. source : 3.10422 0 0
> Abs. error : 0.00792638 3.38244e-08 1.04721e-11
> Rel. error : 0.00255342 1.08963e-08 3.37352e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.25088e-06 3.4999e-06 4.66687e-06
> step 1 : 5.5383e-07 1.44141e-06 1.90317e-06
> step 2 : 1.1551e-06 2.2366e-06 2.46949e-06
> step 3 : 4.99646e-07 7.35061e-07 6.71411e-07
> Test of the Poisson equation for nuq :
> Max. source : 0.0313748 0.00240287 0.00359446
> Abs. error : 7.2155e-06 1.91353e-09 3.20411e-11
> Rel. error : 0.000229977 6.09895e-08 8.914e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.14594e-06 1.10512e-05 1.83247e-05
> step 1 : 5.9306e-06 5.83586e-06 5.80184e-06
> step 2 : 1.35062e-06 5.42394e-07 3.98363e-07
> step 3 : 4.35883e-07 9.43366e-07 1.2951e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292025 0.0152417 0.0965232
> Abs. error : 0.00173731 2.59753e-08 3.97994e-11
> Rel. error : 0.00594919 8.89489e-08 4.12329e-10
> alpha_r = 1
> | dH/dr_eq / dH/dr_pole | = 0.00285492
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.64461e-06 4.25227e-06 4.43519e-06
> step 1 : 2.7882e-06 4.1583e-06 4.45759e-06
> step 2 : 1.18453e-06 1.60986e-06 1.62488e-06
> step 3 : 2.21219e-07 2.21457e-07 1.42788e-07
> GRV2: 2.2208e-05
> Central Omega : 5127.79 rad/s f : 816.113 Hz
> Rotation period : 1.22532 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576649
> Central lapse N : 0.561778
> Central value of dzeta=log(AN) : -0.0807565
> Central value of A^2 : 2.69604
> Central value of B^2 : 2.69604
> Central N^phi/Omega : 0.547359
> Equatorial value of the velocity U: 0.42497 c
>
> Coordinate equatorial radius r_eq = 18.8928 km
> Flattening r_pole/r_eq : 0.578702
> -----------------------------------------------
> step: 65
> diff_ent = �[1m2.35713e-05�[0m
> err_grv2 = 2.2208e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.01289e-06 8.71581e-06 9.79995e-06
> step 1 : 6.13576e-06 8.18591e-06 8.35497e-06
> step 2 : 1.02778e-06 5.65086e-07 2.32773e-07
> step 3 : 6.57902e-07 1.59234e-06 2.08888e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10425 0 0
> Abs. error : 0.00793653 1.89626e-07 1.0483e-11
> Rel. error : 0.00255667 6.10861e-08 3.377e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.22717e-06 3.90426e-06 5.71995e-06
> step 1 : 6.02307e-06 8.94357e-06 9.82436e-06
> step 2 : 2.17033e-06 2.65981e-06 2.42415e-06
> step 3 : 1.18115e-07 6.81656e-07 1.16343e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313752 0.00240286 0.00359452
> Abs. error : 7.22441e-06 1.74195e-09 4.21687e-11
> Rel. error : 0.000230259 5.55199e-08 1.17314e-08
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.16573e-05 1.13459e-05 1.57215e-05
> step 1 : 2.22575e-06 2.21386e-06 2.12483e-06
> step 2 : 1.05456e-06 2.05594e-06 2.13082e-06
> step 3 : 7.37352e-07 9.35032e-07 8.51254e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292033 0.0152419 0.096527
> Abs. error : 0.0017352 4.65198e-08 4.36714e-11
> Rel. error : 0.00594179 1.59296e-07 4.52427e-10
> alpha_r = 1.00001
> | dH/dr_eq / dH/dr_pole | = 0.00289498
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.12585e-05 8.09296e-06 8.31146e-06
> step 1 : 9.37672e-06 1.26898e-05 1.34979e-05
> step 2 : 3.37473e-06 4.14296e-06 4.02835e-06
> step 3 : 2.13263e-07 3.04307e-07 5.18399e-07
> GRV2: 6.62806e-06
> Central Omega : 5127.89 rad/s f : 816.129 Hz
> Rotation period : 1.2253 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576655
> Central lapse N : 0.561774
> Central value of dzeta=log(AN) : -0.0807585
> Central value of A^2 : 2.69607
> Central value of B^2 : 2.69607
> Central N^phi/Omega : 0.547355
> Equatorial value of the velocity U: 0.424986 c
>
> Coordinate equatorial radius r_eq = 18.893 km
> Flattening r_pole/r_eq : 0.578686
> -----------------------------------------------
> step: 66
> diff_ent = �[1m3.38613e-05�[0m
> err_grv2 = 6.62806e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.68277e-06 7.56137e-06 8.94804e-06
> step 1 : 1.23915e-05 1.62436e-05 1.69992e-05
> step 2 : 2.41903e-06 1.69727e-06 6.63902e-07
> step 3 : 1.22561e-06 2.87623e-06 3.80105e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10427 0 0
> Abs. error : 0.00795042 3.45473e-07 1.05e-11
> Rel. error : 0.00256112 1.1129e-07 3.38243e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.64554e-06 4.21485e-06 6.66112e-06
> step 1 : 1.19958e-05 1.64716e-05 1.77732e-05
> step 2 : 3.18582e-06 3.07747e-06 2.37126e-06
> step 3 : 7.45537e-07 2.11367e-06 3.01579e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313756 0.00240278 0.00359454
> Abs. error : 7.23728e-06 4.24229e-09 2.61138e-11
> Rel. error : 0.000230666 1.3521e-07 7.26484e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.71813e-05 1.15761e-05 1.29716e-05
> step 1 : 6.42334e-06 1.03499e-05 1.01427e-05
> step 2 : 3.42263e-06 4.50859e-06 3.88735e-06
> step 3 : 1.04313e-06 9.28464e-07 4.03138e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292041 0.0152417 0.0965303
> Abs. error : 0.00173215 7.2185e-08 4.1902e-11
> Rel. error : 0.00593118 2.47174e-07 4.34081e-10
> alpha_r = 1.00002
> | dH/dr_eq / dH/dr_pole | = 0.00294825
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.69252e-05 1.19914e-05 1.22479e-05
> step 1 : 1.59993e-05 2.12698e-05 2.25926e-05
> step 2 : 5.5842e-06 6.70403e-06 6.4615e-06
> step 3 : 3.12611e-07 6.80177e-07 1.17936e-06
> GRV2: -9.1851e-06
> Central Omega : 5127.99 rad/s f : 816.144 Hz
> Rotation period : 1.22527 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576661
> Central lapse N : 0.561771
> Central value of dzeta=log(AN) : -0.0807605
> Central value of A^2 : 2.69609
> Central value of B^2 : 2.6961
> Central N^phi/Omega : 0.547352
> Equatorial value of the velocity U: 0.425004 c
>
> Coordinate equatorial radius r_eq = 18.8934 km
> Flattening r_pole/r_eq : 0.578667
> -----------------------------------------------
> step: 67
> diff_ent = �[1m4.41244e-05�[0m
> err_grv2 = -9.1851e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.29728e-06 6.34981e-06 8.03541e-06
> step 1 : 1.8674e-05 2.43395e-05 2.56877e-05
> step 2 : 3.82415e-06 2.96567e-06 1.58229e-06
> step 3 : 1.79297e-06 4.16092e-06 5.51581e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.1043 0 0
> Abs. error : 0.00796803 5.01544e-07 1.05549e-11
> Rel. error : 0.00256677 1.61564e-07 3.40009e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.21854e-06 4.46383e-06 7.52997e-06
> step 1 : 1.79931e-05 2.40206e-05 2.57446e-05
> step 2 : 4.20271e-06 3.4933e-06 2.3153e-06
> step 3 : 1.37891e-06 3.55534e-06 4.8794e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.031376 0.00240262 0.00359455
> Abs. error : 7.2541e-06 7.37818e-09 2.66765e-11
> Rel. error : 0.000231199 2.35154e-07 7.42139e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.27182e-05 1.17698e-05 1.0136e-05
> step 1 : 1.26187e-05 1.85446e-05 1.82218e-05
> step 2 : 5.84099e-06 6.98277e-06 5.66034e-06
> step 3 : 1.35184e-06 9.63501e-07 1.32782e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292049 0.015241 0.0965333
> Abs. error : 0.00172815 9.80104e-08 4.0459e-11
> Rel. error : 0.00591732 3.35596e-07 4.1912e-10
> alpha_r = 1.00002
> | dH/dr_eq / dH/dr_pole | = 0.0030148
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.26292e-05 1.59286e-05 1.62244e-05
> step 1 : 2.26482e-05 2.98868e-05 3.17284e-05
> step 2 : 7.80733e-06 9.28443e-06 8.91491e-06
> step 3 : 4.35031e-07 1.07551e-06 1.84074e-06
> GRV2: -2.51393e-05
> Central Omega : 5128.09 rad/s f : 816.16 Hz
> Rotation period : 1.22525 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576667
> Central lapse N : 0.561767
> Central value of dzeta=log(AN) : -0.0807624
> Central value of A^2 : 2.69611
> Central value of B^2 : 2.69613
> Central N^phi/Omega : 0.547349
> Equatorial value of the velocity U: 0.425025 c
>
> Coordinate equatorial radius r_eq = 18.8938 km
> Flattening r_pole/r_eq : 0.578643
> -----------------------------------------------
> step: 68
> diff_ent = �[1m5.43822e-05�[0m
> err_grv2 = -2.51393e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 8.30633e-06 5.10494e-06 7.08781e-06
> step 1 : 2.49789e-05 3.24667e-05 3.44117e-05
> step 2 : 5.23898e-06 4.24743e-06 2.51451e-06
> step 3 : 2.36074e-06 5.44751e-06 7.23403e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10432 0 0
> Abs. error : 0.00798934 6.57862e-07 1.04618e-11
> Rel. error : 0.00257362 2.11918e-07 3.37009e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 9.87072e-06 4.67105e-06 8.35068e-06
> step 1 : 2.40095e-05 3.1588e-05 3.3736e-05
> step 2 : 5.22155e-06 3.90903e-06 2.25833e-06
> step 3 : 2.01616e-06 5.00364e-06 6.75091e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313764 0.00240238 0.00359453
> Abs. error : 7.27485e-06 1.05342e-08 1.43715e-11
> Rel. error : 0.000231857 3.35737e-07 3.99815e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.8267e-05 1.19414e-05 7.24696e-06
> step 1 : 1.88786e-05 2.6783e-05 2.6346e-05
> step 2 : 8.27289e-06 9.47266e-06 7.44526e-06
> step 3 : 1.66263e-06 1.1259e-06 5.00706e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292056 0.01524 0.0965358
> Abs. error : 0.0017232 1.23945e-07 4.23444e-11
> Rel. error : 0.00590023 4.24388e-07 4.3864e-10
> alpha_r = 1.00003
> | dH/dr_eq / dH/dr_pole | = 0.00309468
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.83617e-05 1.98933e-05 2.02295e-05
> step 1 : 2.93197e-05 3.85348e-05 4.08983e-05
> step 2 : 1.00409e-05 1.18792e-05 1.13831e-05
> step 3 : 5.63879e-07 1.47755e-06 2.50307e-06
> GRV2: -4.11867e-05
> Central Omega : 5128.19 rad/s f : 816.176 Hz
> Rotation period : 1.22523 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576674
> Central lapse N : 0.561764
> Central value of dzeta=log(AN) : -0.0807644
> Central value of A^2 : 2.69613
> Central value of B^2 : 2.69616
> Central N^phi/Omega : 0.547345
> Equatorial value of the velocity U: 0.425048 c
>
> Coordinate equatorial radius r_eq = 18.8944 km
> Flattening r_pole/r_eq : 0.578616
> -----------------------------------------------
> step: 69
> diff_ent = �[1m6.46486e-05�[0m
> err_grv2 = -4.11867e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.0573e-05 3.84145e-06 6.12119e-06
> step 1 : 3.13045e-05 4.06221e-05 4.31669e-05
> step 2 : 6.66115e-06 5.53846e-06 3.45578e-06
> step 3 : 2.92948e-06 6.73691e-06 8.95651e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10435 0 0
> Abs. error : 0.00801438 8.14529e-07 1.04501e-11
> Rel. error : 0.00258166 2.62383e-07 3.36627e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.25864e-05 4.84847e-06 9.13772e-06
> step 1 : 3.00425e-05 3.9173e-05 4.17465e-05
> step 2 : 6.24264e-06 4.32544e-06 2.20121e-06
> step 3 : 2.65621e-06 6.45705e-06 8.62861e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313769 0.00240207 0.00359449
> Abs. error : 7.29956e-06 1.37048e-08 5.04208e-11
> Rel. error : 0.000232641 4.36779e-07 1.40272e-08
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.38273e-05 1.20978e-05 4.45817e-06
> step 1 : 2.51642e-05 3.50576e-05 3.45068e-05
> step 2 : 1.07158e-05 1.19751e-05 9.23952e-06
> step 3 : 1.97503e-06 1.35314e-06 9.55506e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292064 0.0152386 0.0965378
> Abs. error : 0.0017173 1.49969e-07 4.13383e-11
> Rel. error : 0.00587987 5.13478e-07 4.28208e-10
> alpha_r = 1.00004
> | dH/dr_eq / dH/dr_pole | = 0.00318794
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.41181e-05 2.38793e-05 2.42566e-05
> step 1 : 3.60122e-05 4.72112e-05 5.00989e-05
> step 2 : 1.22834e-05 1.44854e-05 1.3863e-05
> step 3 : 6.96547e-07 1.88164e-06 3.16679e-06
> GRV2: -5.73035e-05
> Central Omega : 5128.29 rad/s f : 816.192 Hz
> Rotation period : 1.2252 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.57668
> Central lapse N : 0.56176
> Central value of dzeta=log(AN) : -0.0807663
> Central value of A^2 : 2.69616
> Central value of B^2 : 2.6962
> Central N^phi/Omega : 0.547342
> Equatorial value of the velocity U: 0.425074 c
>
> Coordinate equatorial radius r_eq = 18.8952 km
> Flattening r_pole/r_eq : 0.578584
> -----------------------------------------------
> step: 70
> diff_ent = �[1m7.49334e-05�[0m
> err_grv2 = -5.73035e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.31987e-05 2.61815e-06 5.14557e-06
> step 1 : 3.76505e-05 4.88049e-05 5.19521e-05
> step 2 : 8.08941e-06 6.83642e-06 4.40326e-06
> step 3 : 3.49965e-06 8.0299e-06 1.06841e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10438 0 0
> Abs. error : 0.00804314 9.7162e-07 1.04441e-11
> Rel. error : 0.0025909 3.12984e-07 3.36432e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.53624e-05 5.00305e-06 9.89946e-06
> step 1 : 3.60911e-05 4.67756e-05 4.9776e-05
> step 2 : 7.26613e-06 4.74283e-06 2.14423e-06
> step 3 : 3.29853e-06 7.91488e-06 1.05118e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0313774 0.00240168 0.00359443
> Abs. error : 7.32821e-06 1.68867e-08 2.54647e-11
> Rel. error : 0.000233551 5.38181e-07 7.0845e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.93985e-05 1.22416e-05 2.8063e-06
> step 1 : 3.14739e-05 4.33655e-05 4.27008e-05
> step 2 : 1.31687e-05 1.44885e-05 1.10417e-05
> step 3 : 2.28876e-06 1.60127e-06 1.41213e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292071 0.0152367 0.0965393
> Abs. error : 0.00171044 1.76069e-07 4.22592e-11
> Rel. error : 0.00585625 6.02827e-07 4.3774e-10
> alpha_r = 1.00005
> | dH/dr_eq / dH/dr_pole | = 0.00329463
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.98964e-05 2.78834e-05 2.83021e-05
> step 1 : 4.27256e-05 5.59157e-05 5.93298e-05
> step 2 : 1.45339e-05 1.71019e-05 1.6353e-05
> step 3 : 8.31185e-07 2.28779e-06 3.83226e-06
> GRV2: -7.34793e-05
> Central Omega : 5128.39 rad/s f : 816.208 Hz
> Rotation period : 1.22518 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576686
> Central lapse N : 0.561757
> Central value of dzeta=log(AN) : -0.0807683
> Central value of A^2 : 2.69618
> Central value of B^2 : 2.69623
> Central N^phi/Omega : 0.547339
> Equatorial value of the velocity U: 0.425102 c
>
> Coordinate equatorial radius r_eq = 18.896 km
> Flattening r_pole/r_eq : 0.578548
> -----------------------------------------------
> step: 71
> diff_ent = �[1m8.52436e-05�[0m
> err_grv2 = -7.34793e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.64447e-05 2.21951e-06 4.16734e-06
> step 1 : 4.4018e-05 5.7016e-05 6.07678e-05
> step 2 : 9.52316e-06 8.14001e-06 5.35531e-06
> step 3 : 4.07165e-06 9.3272e-06 1.24175e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.1044 0 0
> Abs. error : 0.00807562 1.12921e-06 1.04624e-11
> Rel. error : 0.00260135 3.63744e-07 3.37019e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.82141e-05 5.17427e-06 1.06405e-05
> step 1 : 4.21556e-05 5.43967e-05 5.78255e-05
> step 2 : 8.2922e-06 5.1613e-06 2.08741e-06
> step 3 : 3.94292e-06 9.37696e-06 1.24003e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0313779 0.00240122 0.00359434
> Abs. error : 7.36083e-06 2.00786e-08 2.29642e-11
> Rel. error : 0.000234587 6.39899e-07 6.389e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.49808e-05 1.23781e-05 2.7926e-06
> step 1 : 3.78078e-05 5.17064e-05 5.09273e-05
> step 2 : 1.56312e-05 1.70122e-05 1.28513e-05
> step 3 : 2.60368e-06 1.85962e-06 1.8707e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292079 0.0152344 0.0965404
> Abs. error : 0.00170263 2.0224e-07 4.02255e-11
> Rel. error : 0.00582936 6.92416e-07 4.1667e-10
> alpha_r = 1.00005
> ent < 0 for l, i : 0 30 ent = -1.00158e-07
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.208 Hz
> alpha_r = 1.00005
> ent < 0 for l, i : 0 30 ent = -7.79673e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.192 Hz
> alpha_r = 1.00004
> ent < 0 for l, i : 0 30 ent = -5.57782e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.176 Hz
> alpha_r = 1.00004
> ent < 0 for l, i : 0 30 ent = -3.35905e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.16 Hz
> alpha_r = 1.00003
> ent < 0 for l, i : 0 30 ent = -1.1404e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.144 Hz
> alpha_r = 1.00002
> **** New fact_omega : 1.00001
> | dH/dr_eq / dH/dr_pole | = 0.00330585
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.49529e-05 4.06129e-05 4.418e-05
> step 1 : 4.61057e-05 5.84044e-05 5.98537e-05
> step 2 : 1.30968e-05 1.30637e-05 1.06105e-05
> step 3 : 1.96127e-06 5.54297e-06 7.79307e-06
> GRV2: -9.44828e-05
> Central Omega : 5127.99 rad/s f : 816.144 Hz
> Rotation period : 1.22527 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576675
> Central lapse N : 0.561763
> Central value of dzeta=log(AN) : -0.0807683
> Central value of A^2 : 2.69612
> Central value of B^2 : 2.69618
> Central N^phi/Omega : 0.547404
> Equatorial value of the velocity U: 0.425076 c
>
> Coordinate equatorial radius r_eq = 18.8965 km
> Flattening r_pole/r_eq : 0.57855
> -----------------------------------------------
> step: 72
> diff_ent = �[1m2.57807e-05�[0m
> err_grv2 = -9.44828e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.02268e-06 1.42865e-05 1.75604e-05
> step 1 : 3.04201e-05 3.60939e-05 3.79474e-05
> step 2 : 4.71882e-06 2.18737e-06 8.13316e-07
> step 3 : 4.63489e-06 9.26282e-06 1.16409e-05
> Test of the Poisson equation for nuf :
> Max. source : 3.10434 0 0
> Abs. error : 0.00807354 1.29715e-06 1.04616e-11
> Rel. error : 0.00260073 4.17851e-07 3.36999e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.12882e-05 0.000107423 0.000124036
> step 1 : 5.09242e-05 6.19183e-05 6.18776e-05
> step 2 : 5.44388e-06 6.07931e-06 1.17429e-05
> step 3 : 8.13435e-06 1.74237e-05 2.20089e-05
> Test of the Poisson equation for nuq :
> Max. source : 0.0313783 0.00240068 0.00359383
> Abs. error : 7.4088e-06 4.1547e-08 3.30255e-11
> Rel. error : 0.000236112 1.32407e-06 9.18952e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.88807e-05 4.46177e-05 6.23126e-05
> step 1 : 4.81304e-05 4.79589e-05 4.43247e-05
> step 2 : 1.36634e-05 9.15832e-06 3.59248e-06
> step 3 : 1.8965e-06 4.84717e-06 7.41934e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.29204 0.0152321 0.0965327
> Abs. error : 0.00170255 1.41322e-07 4.19734e-11
> Rel. error : 0.00582987 4.83915e-07 4.34811e-10
> alpha_r = 1.00004
> ent < 0 for l, i : 0 30 ent = -2.94612e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.144 Hz
> alpha_r = 1.00004
> ent < 0 for l, i : 0 30 ent = -1.83682e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.137 Hz
> alpha_r = 1.00003
> ent < 0 for l, i : 0 30 ent = -7.27552e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.129 Hz
> alpha_r = 1.00003
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331267
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.92923e-05 1.50443e-05 1.48177e-05
> step 1 : 3.10075e-05 3.73578e-05 3.95816e-05
> step 2 : 8.86925e-06 9.16571e-06 8.36464e-06
> step 3 : 1.46161e-06 3.5214e-06 4.82829e-06
> GRV2: -0.000113681
> Central Omega : 5127.89 rad/s f : 816.129 Hz
> Rotation period : 1.2253 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576666
> Central lapse N : 0.561768
> Central value of dzeta=log(AN) : -0.0807661
> Central value of A^2 : 2.69608
> Central value of B^2 : 2.69614
> Central N^phi/Omega : 0.547346
> Equatorial value of the velocity U: 0.425074 c
>
> Coordinate equatorial radius r_eq = 18.8971 km
> Flattening r_pole/r_eq : 0.57855
> -----------------------------------------------
> step: 73
> diff_ent = �[1m9.16623e-06�[0m
> err_grv2 = -0.000113681
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.43785e-05 4.89337e-05 5.17754e-05
> step 1 : 1.36415e-05 1.82888e-05 2.16256e-05
> step 2 : 5.00915e-06 7.28216e-06 8.16703e-06
> step 3 : 1.99147e-07 4.07418e-07 3.97383e-07
> Test of the Poisson equation for nuf :
> Max. source : 3.10429 0 0
> Abs. error : 0.00807317 1.68439e-07 1.04957e-11
> Rel. error : 0.00260065 5.426e-08 3.38104e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 6.85754e-05 8.56531e-05 9.54744e-05
> step 1 : 9.17003e-06 1.53337e-05 1.5225e-05
> step 2 : 5.15148e-06 6.68338e-06 5.02278e-06
> step 3 : 6.34094e-07 2.39666e-06 4.05124e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.031377 0.00240032 0.00359367
> Abs. error : 7.37426e-06 8.8716e-09 1.76114e-11
> Rel. error : 0.000235021 2.82742e-07 4.90066e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.16128e-05 1.01703e-05 2.8661e-05
> step 1 : 2.05056e-05 3.1527e-05 3.29365e-05
> step 2 : 8.33114e-06 8.4074e-06 5.80225e-06
> step 3 : 1.6756e-06 1.1456e-06 1.57897e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292042 0.0152292 0.0965242
> Abs. error : 0.00170194 1.60586e-07 4.09956e-11
> Rel. error : 0.00582773 5.49874e-07 4.24718e-10
> alpha_r = 1.00002
> ent < 0 for l, i : 0 30 ent = -3.68761e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.129 Hz
> alpha_r = 1.00002
> ent < 0 for l, i : 0 30 ent = -3.13295e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.125 Hz
> alpha_r = 1.00002
> ent < 0 for l, i : 0 30 ent = -2.57831e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.121 Hz
> alpha_r = 1.00002
> ent < 0 for l, i : 0 30 ent = -2.02367e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.117 Hz
> alpha_r = 1.00002
> ent < 0 for l, i : 0 30 ent = -1.46903e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.113 Hz
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -9.14411e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.109 Hz
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -3.59796e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.105 Hz
> alpha_r = 1.00001
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331459
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.72083e-05 1.7198e-05 1.79952e-05
> step 1 : 7.30074e-06 9.49652e-06 1.04478e-05
> step 2 : 2.91405e-06 3.63226e-06 3.77024e-06
> step 3 : 1.91142e-07 2.29354e-07 3.084e-07
> GRV2: -6.53847e-05
> Central Omega : 5127.74 rad/s f : 816.105 Hz
> Rotation period : 1.22533 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576659
> Central lapse N : 0.561772
> Central value of dzeta=log(AN) : -0.0807638
> Central value of A^2 : 2.69606
> Central value of B^2 : 2.6961
> Central N^phi/Omega : 0.547387
> Equatorial value of the velocity U: 0.42506 c
>
> Coordinate equatorial radius r_eq = 18.8973 km
> Flattening r_pole/r_eq : 0.578555
> -----------------------------------------------
> step: 74
> diff_ent = �[1m7.87044e-06�[0m
> err_grv2 = -6.53847e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.09922e-05 1.18363e-05 1.2423e-05
> step 1 : 8.84718e-06 1.09525e-05 1.21338e-05
> step 2 : 2.38825e-06 2.66067e-06 2.51098e-06
> step 3 : 7.46867e-07 1.54357e-06 2.08576e-06
> Test of the Poisson equation for nuf :
> Max. source : 3.10426 0 0
> Abs. error : 0.00806982 2.04777e-07 1.04616e-11
> Rel. error : 0.00259959 6.59665e-08 3.37008e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.55093e-05 2.56371e-05 2.76506e-05
> step 1 : 2.25914e-05 2.71326e-05 2.76888e-05
> step 2 : 3.73526e-06 1.77346e-06 1.35047e-06
> step 3 : 3.27453e-06 6.87153e-06 8.78099e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313769 0.00240018 0.00359361
> Abs. error : 7.39003e-06 1.80791e-08 2.65439e-11
> Rel. error : 0.000235524 5.76192e-07 7.3864e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.71368e-06 1.22893e-05 2.58196e-05
> step 1 : 1.67604e-05 1.72739e-05 1.71402e-05
> step 2 : 4.79318e-06 3.26856e-06 1.48336e-06
> step 3 : 6.09079e-07 1.61589e-06 2.58448e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292026 0.0152283 0.096518
> Abs. error : 0.00170222 3.92115e-08 4.17749e-11
> Rel. error : 0.005829 1.34274e-07 4.32819e-10
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -1.17461e-08
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.105 Hz
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -8.97303e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.103 Hz
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -6.19996e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.101 Hz
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -3.42692e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.099 Hz
> alpha_r = 1.00001
> ent < 0 for l, i : 0 30 ent = -6.5389e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.097 Hz
> alpha_r = 1.00001
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331441
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.0562e-05 1.12323e-05 1.17096e-05
> step 1 : 5.68282e-06 7.01029e-06 7.71777e-06
> step 2 : 2.01284e-06 2.47706e-06 2.55883e-06
> step 3 : 1.42369e-07 3.20328e-07 4.94453e-07
> GRV2: -4.87439e-05
> Central Omega : 5127.69 rad/s f : 816.097 Hz
> Rotation period : 1.22534 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576654
> Central lapse N : 0.561775
> Central value of dzeta=log(AN) : -0.0807616
> Central value of A^2 : 2.69604
> Central value of B^2 : 2.69607
> Central N^phi/Omega : 0.547368
> Equatorial value of the velocity U: 0.425055 c
>
> Coordinate equatorial radius r_eq = 18.8974 km
> Flattening r_pole/r_eq : 0.578558
> -----------------------------------------------
> step: 75
> diff_ent = �[1m5.33794e-06�[0m
> err_grv2 = -4.87439e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.42069e-05 1.67644e-05 1.79381e-05
> step 1 : 2.99859e-06 4.15021e-06 5.15713e-06
> step 2 : 1.5405e-06 2.49832e-06 2.93666e-06
> step 3 : 2.40513e-07 4.1769e-07 3.62696e-07
> Test of the Poisson equation for nuf :
> Max. source : 3.10424 0 0
> Abs. error : 0.00806725 7.8028e-08 1.04886e-11
> Rel. error : 0.00259878 2.51359e-08 3.37879e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.57451e-05 3.34712e-05 3.77747e-05
> step 1 : 6.32946e-06 8.72538e-06 8.73228e-06
> step 2 : 1.88839e-06 1.6785e-06 6.99165e-07
> step 3 : 8.842e-07 2.0773e-06 2.90777e-06
> Test of the Poisson equation for nuq :
> Max. source : 0.0313765 0.0024001 0.00359359
> Abs. error : 7.36894e-06 6.06161e-09 2.12139e-11
> Rel. error : 0.000234856 1.9319e-07 5.90326e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.23875e-06 4.87017e-06 1.38719e-05
> step 1 : 7.3355e-06 9.96967e-06 1.03129e-05
> step 2 : 2.70742e-06 2.44007e-06 1.52722e-06
> step 3 : 2.90037e-07 3.90156e-07 8.3532e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292023 0.0152275 0.0965142
> Abs. error : 0.00170234 2.87954e-08 4.18222e-11
> Rel. error : 0.00582946 9.86067e-08 4.33327e-10
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -5.92948e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.097 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -4.54296e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.096 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -3.15644e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.095 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -1.76992e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.094 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -3.83417e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.093 Hz
> alpha_r = 1
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331551
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.66317e-06 8.83836e-06 9.34337e-06
> step 1 : 5.47091e-07 8.86497e-07 1.22683e-06
> step 2 : 6.05441e-07 1.03625e-06 1.25006e-06
> step 3 : 2.01648e-07 3.43936e-07 3.61765e-07
> GRV2: -2.64978e-05
> Central Omega : 5127.66 rad/s f : 816.093 Hz
> Rotation period : 1.22535 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576651
> Central lapse N : 0.561777
> Central value of dzeta=log(AN) : -0.08076
> Central value of A^2 : 2.69603
> Central value of B^2 : 2.69605
> Central N^phi/Omega : 0.547373
> Equatorial value of the velocity U: 0.425052 c
>
> Coordinate equatorial radius r_eq = 18.8975 km
> Flattening r_pole/r_eq : 0.57856
> -----------------------------------------------
> step: 76
> diff_ent = �[1m2.99023e-06�[0m
> err_grv2 = -2.64978e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.7095e-06 5.57e-06 5.9873e-06
> step 1 : 1.74819e-06 2.31933e-06 2.7079e-06
> step 2 : 7.51829e-07 1.09144e-06 1.20018e-06
> step 3 : 3.54071e-08 7.88864e-08 1.20205e-07
> Test of the Poisson equation for nuf :
> Max. source : 3.10424 0 0
> Abs. error : 0.00806596 1.96245e-08 1.05173e-11
> Rel. error : 0.00259837 6.32185e-09 3.38805e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 3.96125e-06 5.73739e-06 7.15668e-06
> step 1 : 2.08411e-06 2.09691e-06 2.19149e-06
> step 2 : 4.01581e-07 1.97495e-07 1.38235e-07
> step 3 : 3.00039e-07 5.59246e-07 6.70991e-07
> Test of the Poisson equation for nuq :
> Max. source : 0.0313763 0.00240009 0.00359359
> Abs. error : 7.37243e-06 1.76885e-09 3.14233e-11
> Rel. error : 0.000234968 5.63755e-08 8.74426e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 9.11012e-07 4.2671e-06 9.18524e-06
> step 1 : 3.86261e-06 4.70041e-06 4.81884e-06
> step 2 : 1.23193e-06 9.95391e-07 5.17397e-07
> step 3 : 9.48531e-08 2.79374e-07 5.55188e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.29202 0.0152271 0.0965118
> Abs. error : 0.00170237 7.41379e-09 4.05004e-11
> Rel. error : 0.00582962 2.53879e-08 4.19642e-10
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -2.31506e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.093 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -1.62181e-09
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.092 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -9.28556e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.092 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -2.35304e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331604
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.96169e-06 3.40214e-06 3.589e-06
> step 1 : 6.9862e-07 9.77212e-07 1.15476e-06
> step 2 : 4.1929e-07 6.42865e-07 7.22293e-07
> step 3 : 6.44725e-08 9.39621e-08 7.63952e-08
> GRV2: -1.58292e-05
> Central Omega : 5127.65 rad/s f : 816.091 Hz
> Rotation period : 1.22535 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576649
> Central lapse N : 0.561778
> Central value of dzeta=log(AN) : -0.080759
> Central value of A^2 : 2.69603
> Central value of B^2 : 2.69604
> Central N^phi/Omega : 0.547371
> Equatorial value of the velocity U: 0.42505 c
>
> Coordinate equatorial radius r_eq = 18.8975 km
> Flattening r_pole/r_eq : 0.578561
> -----------------------------------------------
> step: 77
> diff_ent = �[1m2.07473e-06�[0m
> err_grv2 = -1.58292e-05
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 2.49838e-06 3.03378e-06 3.25105e-06
> step 1 : 7.74475e-07 1.06084e-06 1.27486e-06
> step 2 : 3.97143e-07 6.09489e-07 6.87629e-07
> step 3 : 2.7801e-08 3.83651e-08 8.84132e-09
> Test of the Poisson equation for nuf :
> Max. source : 3.10423 0 0
> Abs. error : 0.00806508 7.89531e-09 1.05392e-11
> Rel. error : 0.00259809 2.5434e-09 3.3951e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.25847e-06 6.09345e-06 7.14839e-06
> step 1 : 7.10024e-07 1.19985e-06 1.23355e-06
> step 2 : 2.56466e-07 2.85753e-07 1.52963e-07
> step 3 : 6.38525e-08 1.9428e-07 3.04347e-07
> Test of the Poisson equation for nuq :
> Max. source : 0.0313761 0.00240008 0.00359358
> Abs. error : 7.36973e-06 5.08072e-10 1.76967e-11
> Rel. error : 0.000234883 1.6193e-08 4.92454e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 7.46966e-07 2.84226e-06 5.60288e-06
> step 1 : 1.9351e-06 2.55335e-06 2.61763e-06
> step 2 : 6.69027e-07 5.82099e-07 3.14648e-07
> step 3 : 5.50317e-08 1.29092e-07 2.70631e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292019 0.0152269 0.0965104
> Abs. error : 0.00170239 4.32431e-09 7.51622e-11
> Rel. error : 0.00582972 1.48083e-08 7.78799e-10
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -9.25199e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -5.78572e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -2.31947e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331637
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.46643e-06 1.72896e-06 1.82185e-06
> step 1 : 3.08844e-07 4.53298e-07 5.49361e-07
> step 2 : 2.24872e-07 3.56971e-07 4.04136e-07
> step 3 : 4.18792e-08 6.27317e-08 5.40061e-08
> GRV2: -9.07508e-06
> Central Omega : 5127.65 rad/s f : 816.091 Hz
> Rotation period : 1.22535 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576648
> Central lapse N : 0.561778
> Central value of dzeta=log(AN) : -0.0807584
> Central value of A^2 : 2.69603
> Central value of B^2 : 2.69604
> Central N^phi/Omega : 0.547371
> Equatorial value of the velocity U: 0.42505 c
>
> Coordinate equatorial radius r_eq = 18.8975 km
> Flattening r_pole/r_eq : 0.578562
> -----------------------------------------------
> step: 78
> diff_ent = �[1m1.24928e-06�[0m
> err_grv2 = -9.07508e-06
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.13644e-06 1.41381e-06 1.51703e-06
> step 1 : 3.87261e-07 5.33386e-07 6.39481e-07
> step 2 : 2.09221e-07 3.20133e-07 3.58637e-07
> step 3 : 1.31974e-08 1.91296e-08 1.05011e-08
> Test of the Poisson equation for nuf :
> Max. source : 3.10423 0 0
> Abs. error : 0.00806457 4.42058e-09 1.05255e-11
> Rel. error : 0.00259793 1.42405e-09 3.39071e-12
> Triaxial part of nuf : 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1.51181e-06 2.48788e-06 3.02918e-06
> step 1 : 1.21689e-07 3.09339e-07 3.40433e-07
> step 2 : 9.21671e-08 1.65156e-07 1.39852e-07
> step 3 : 4.57946e-08 4.40626e-08 2.04831e-08
> Test of the Poisson equation for nuq :
> Max. source : 0.031376 0.00240007 0.00359357
> Abs. error : 7.36972e-06 2.38796e-10 1.91696e-11
> Rel. error : 0.000234884 7.61079e-09 5.33442e-09
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 4.38573e-07 1.79706e-06 3.39853e-06
> step 1 : 9.30759e-07 1.29675e-06 1.34347e-06
> step 2 : 3.23848e-07 2.925e-07 1.52104e-07
> step 3 : 3.0191e-08 6.33746e-08 1.3521e-07
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 1 1 1
> step 1 : 0 0 0
> Map_et::poisson : relat. diff. u^J <-> u^{J-1} :
> step 0 : 0 0 0
> Test of the Poisson equation for shift_x :
> Max. source : 0 0 0
> Abs. error : 0 0 0
> Rel. error : -nan -nan -nan
> Test of the Poisson equation for shift_y :
> Max. source : 0.292019 0.0152268 0.0965095
> Abs. error : 0.0017024 2.42448e-09 4.26728e-11
> Rel. error : 0.00582977 8.30248e-09 4.42161e-10
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -4.85822e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -3.12508e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> ent < 0 for l, i : 0 30 ent = -1.39196e-10
> **** KEPLERIAN VELOCITY REACHED ****
> New rotation frequency : 816.091 Hz
> alpha_r = 1
> **** New fact_omega : 1
> | dH/dr_eq / dH/dr_pole | = 0.00331645
> ******* FROZEN MAPPING *********
> Map_et::poisson2d : relat. diff. u^J <-> u^{J-1} :
> step 0 : 5.75334e-07 7.03245e-07 7.39515e-07
> step 1 : 1.83444e-07 2.61824e-07 3.10323e-07
> step 2 : 1.25289e-07 1.94498e-07 2.1603e-07
> step 3 : 1.91704e-08 2.34362e-08 1.59094e-08
> GRV2: -5.16882e-06
> Central Omega : 5127.65 rad/s f : 816.091 Hz
> Rotation period : 1.22535 ms
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.37324 x 0.1 fm^-3
> Central proper energy density : 5.13824 rho_nuc c^2
> Central pressure : 0.765007 rho_nuc c^2
> Central value of log(N) : -0.576647
> Central lapse N : 0.561779
> Central value of dzeta=log(AN) : -0.080758
> Central value of A^2 : 2.69603
> Central value of B^2 : 2.69603
> Central N^phi/Omega : 0.547371
> Equatorial value of the velocity U: 0.425049 c
>
> Coordinate equatorial radius r_eq = 18.8975 km
> Flattening r_pole/r_eq : 0.578562
>
> Final star :
> ==========
>
> Number of domains occupied by the star : 1
> Equation of state :
> Star EOS
> EOS of class Eos_poly (relativistic polytrope) :
> Adiabatic index gamma : 2
> Pressure coefficient kappa : 0.04 rho_nuc c^2 / n_nuc^gamma
> Mean particle mass : 1 m_B
> Relativistic chemical potential at zero pressure : 1 m_B c^2
>
>
> Central enthalpy : 0.3 c^2
> Central proper baryon density : 4.373235095 x 0.1 fm^-3
> Central proper energy density : 5.138242502 rho_nuc c^2
> Central pressure : 0.7650074077 rho_nuc c^2
>
> Central lapse N : 0.561778687
>
> Coordinate equatorial radius (phi=0) a1 = 18.89754661 km
> Coordinate equatorial radius (phi=pi/2) a2 = 18.89754661 km
> Coordinate equatorial radius (phi=pi): 18.89754661 km
> Coordinate polar radius a3 = 10.9334081 km
> Axis ratio a2/a1 = 1 a3/a1 = 0.5785623034
>
> Baryon mass : 2.418872984 M_sol
> Gravitational mass : 2.218800837 M_sol
>
> Uniformly rotating star
> -----------------------
> Omega : 5127.649103 rad/s f : 816.0907012 Hz
> Rotation period : 1.225353994 ms
> Relativistic star
> Compactness G M_g /(c^2 R_circ) : 0.1461521221
> Central N^phi/Omega : 0.5473705596
> Error on the virial identity GRV2 : INTEGRALE2D: Integ(l=0): 8.78383219E-02 + 0.00000000 = 8.78383219E-02
> INTEGRALE2D: Integ(l=0): -8.41559544E-02 + -3.68264224E-03 = -8.78385976E-02
> 3.16607375e-06
> Star_rot::grv3 : gravitational term : -1.160359916
> Star_rot::grv3 : matter term : 1.160342903
> Error on the virial identity GRV3 : -1.466212242e-05
> Quadrupole moment Q : 0.6099120669 10^38 kg m^2
> Q / (M R_circ^2) : 0.02750946628
> c^4 Q / (G^2 M^3) : 1.287869663
> Angular momentum J : 2.976666681 G M_sol^2 / c
> c J / (G M^2) : 0.604635391
> Moment of inertia: 5.109937448 10^38 kg m^2
> Ratio T/W : 0.08897734893
> Circumferential equatorial radius R_circ : 22.41664284 km
> Surface area : 4524.147453 km^2
> Mean radius : 18.97419867 km
> Coordinate equatorial radius r_eq : 18.89754661 km
> Flattening r_pole/r_eq : 0.5785623034
> Equatorial value of the velocity U: 0.4250492602 c
> Redshift at the equator (forward) : -0.2657577189
> Redshift at the equator (backward): 0.9425663865
> Redshift at the pole : 0.3187007622
> Central value of log(N) : -0.5766473021
> Central value of dzeta=log(AN) : -0.08075800901
> Central N^phi/Omega : 0.5473705596
> ... w_shift (NB: components in the star Cartesian frame) [c] :
> 0 0 0
> Central value of khi_shift [km c] : 0
> Central value of B^2 : 2.696034361
> Relative discrepancy in each domain between the metric coef. A^2 and B^2 :
> 0.003051301576 0.001578817665 0.0002743947301
>
> Innermost stable circular orbit (ISCO) :
> circumferential radius r_isco = 22.41664284 km
> (approx. 6M + 1st order in j : 13.18774727 km)
> (approx. 6M : 19.65743954 km)
> orbital frequency f_isco = 814.280269 Hz
> (approx. 1st order in j : 1439.352312 Hz)
>
> r_p/r_eq :0.5785623034
> Omega rho0^{-1/2} : 0.6796265888
> M rho0^{1/2} : 0.08245232979
> M_B rho0^{1/2} : 0.08988716323
> R_circ rho0^{1/2} : 0.5641541743
> J rho0 : 0.004110545193
> Z_p : 0.3187007622
> Z_eq^f : -0.2657577189
> Z_eq^b : 0.9425663865
> GRV2: 3.16607375e-06
> GRV3: -1.466212242e-05
> sh: 1: ident: not found
> LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 -pstdplug,lorene -T0 ../doc/examples/example-fixedstar-rotstar3_1.xml \!example-fixedstar-rotstar3_1.fits
> LD_LIBRARY_PATH=../lib/.libs/: ./gyoto -pstdplug -r32 -T8 -P0 -pstdplug,lorene -T0 ../doc/examples/example-movingstar-rotstar3_1.xml \!example-movingstar-rotstar3_1.fits
> In gyoto.C: Error initializing libgyoto: In gyoto.C: Error initializing libgyoto: Converters.C:56 in void Gyoto::Units::Init(): error initializing arcsec unit
> Converters.C:56 in void Gyoto::Units::Init(): error initializing arcsec unit
> make[3]: *** [Makefile:942: example-movingstar-rotstar3_1.fits] Error 2
> make[3]: *** Waiting for unfinished jobs....
> make[3]: *** [Makefile:942: example-fixedstar-rotstar3_1.fits] Error 2
> make[3]: Leaving directory '/<<PKGBUILDDIR>>/bin'
> make[2]: *** [Makefile:969: check-lorene] Error 2
> make[2]: Leaving directory '/<<PKGBUILDDIR>>'
> dh_auto_test: error: make -j4 check VERBOSE=1 check-lorene returned exit code 2
The full build log is available from:
http://qa-logs.debian.net/2021/01/20/gyoto_1.4.4-3_unstable.log
A list of current common problems and possible solutions is available at
http://wiki.debian.org/qa.debian.org/FTBFS . You're welcome to contribute!
If you reassign this bug to another package, please marking it as 'affects'-ing
this package. See https://www.debian.org/Bugs/server-control#affects
If you fail to reproduce this, please provide a build log and diff it with me
so that we can identify if something relevant changed in the meantime.
About the archive rebuild: The rebuild was done on EC2 VM instances from
Amazon Web Services, using a clean, minimal and up-to-date chroot. Every
failed build was retried once to eliminate random failures.
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