I would like to ask a question about the part of 'Solve anisotropic Eliashberg equations',
nowadays I would like to use EPW to predict the Tc for CeH10 at 400Gpa, everything goes well for scf/ph/nscf calculation.
But when EPW finishes writing .ephmat files and starts solving anisotropic Eliashberg equations, the speed becomes so slow.
In my calculation, only a few iter values under one temperature value can be produced every hour, I used 80 cores for the calculation. But in this situation, I could not use epw to get one complete Tc delta value.
I wonder if there are some parameters to accelerate the speed of solving anisotropic Eliashberg equations.
I attached my epw.in here
Code: Select all
epw for LaH10
&inputepw
prefix = 'ceh'
amass(1) = 140.116
amass(2) = 1.00784
outdir = './'
dvscf_dir = './save'
ep_coupling = .true.
elph = .true.
epbwrite = .true.
epbread = .false.
! nest_fn = .true.
epwwrite = .true.
epwread = .false.
etf_mem = 1
wannierize = .true.
nbndsub = 26
num_iter = 0
dis_froz_max= 35
dis_froz_min= -10
dis_win_max = 60
dis_win_min = -10
proj(1) = 'Ce:s,p,d,f'
proj(2) = 'H:s'
wdata(1) = '#num_bands = 40'
wdata(2) = '#exclude_bands=0'
wdata(3) = 'dis_num_iter=2000'
wdata(4) = 'bands_plot = .true.'
wdata(5) = 'begin kpoint_path'
wdata(6) = 'W 0.50 0.25 0.75 L 0.50 0.50 0.50'
wdata(7) = 'L 0.50 0.50 0.50 G 0.00 0.00 0.00'
wdata(8) = 'G 0.00 0.00 0.00 X 0.50 0.00 0.50'
wdata(9) = 'X 0.50 0.00 0.50 W 0.50 0.25 0.75'
wdata(10) = 'W 0.50 0.25 0.75 K 0.375 0.375 0.750'
wdata(11) = 'end kpoint_path'
wdata(12) = 'bands_plot_format = gnuplot'
wdata(13) = 'guiding_centres = true'
wdata(14) = 'bands_num_points = 200'
iverbosity = 2
eps_acustic = 5.0 ! Lowest boundary for the
ephwrite = .true. ! Writes .ephmat files used when wliasberg = .true.
fsthick = 0.8 ! eV
degaussw = 0.2 ! eV
nsmear = 2
delta_smear = 0.05 ! eV
degaussq = 0.5 ! meV
nqstep = 500
vme = 'dipole'
eliashberg = .true.
laniso = .true.
limag = .true.
lpade = .true.
conv_thr_iaxis = 1.0d-4
wscut = 1.0 ! eV Upper limit over frequency integration/summation in the Elisashberg eq
nstemp =10
temps = 5 35 ! K
nsiter = 1000
muc = 0.13
nk1 = 6
nk2 = 6
nk3 = 6
nq1 = 6
nq2 = 6
nq3 = 6
mp_mesh_k = .true.
nkf1 = 48
nkf2 = 48
nkf3 = 48
nqf1 = 24
nqf2 = 24
nqf3 = 24
/Code: Select all
===================================================================
Solve anisotropic Eliashberg equations
===================================================================
Finish reading freq file
Fermi level (eV) = 2.5782001010E+01
DOS(states/spin/eV/Unit Cell) = 2.8954906864E-01
Electron smearing (eV) = 2.0000000000E-01
Fermi window (eV) = 8.0000000000E-01
Nr irreducible k-points within the Fermi shell = 1295 out of 2769
4 bands within the Fermi window
Finish reading egnv file
Max nr of q-points = 6298
Finish reading ikmap files
Start reading .ephmat files
Finish reading .ephmat files
Electron-phonon coupling strength = 0.4587312
Estimated Allen-Dynes Tc = 8.972622 K for muc = 0.13000
Estimated w_log in Allen-Dynes Tc = 168.158195 meV
Estimated BCS superconducting gap = 1.360833 meV
WARNING WARNING WARNING
The code may crash since tempsmin = 10.000 K is larger than Allen-Dynes Tc = 8.973 K
temp( 1) = 10.00000 K
Solve anisotropic Eliashberg equations on imaginary-axis
Total number of frequency points nsiw( 1) = 185
Cutoff frequency wscut = 1.0044
Size of required memory per pool: ~= 5.2878 Gb
akeri is calculated on the fly since its size exceedes max_memlt
iter ethr znormi deltai [meV]
1 2.462030E+00 1.440868E+00 1.403113E+00
2 1.519336E-01 1.440811E+00 1.527292E+00
3 4.576394E-02 1.440749E+00 1.641517E+00
4 5.733057E-02 1.440695E+00 1.738396E+00
5 4.605527E-02 1.440626E+00 1.824856E+00
6 3.466987E-03 1.440633E+00 1.817677E+00
7 3.845701E-02 1.440608E+00 1.883225E+00
8 7.032996E-03 1.440595E+00 1.899118E+00
9 3.200790E-04 1.440595E+00 1.900248E+00
10 6.613649E-03 1.440587E+00 1.912626E+00
11 1.176867E-02 1.440571E+00 1.936932E+00
12 7.601820E-03 1.440565E+00 1.948687E+00
13 8.452147E-03 1.440555E+00 1.964678E+00
14 1.096421E-02 1.440542E+00 1.984395E+00
15 5.127340E-03 1.440534E+00 1.995710E+00
16 7.064633E-03 1.440524E+00 2.011236E+00
17 4.706108E-03 1.440518E+00 2.020657E+00
18 4.354436E-03 1.440511E+00 2.029910E+00
19 5.426781E-03 1.440503E+00 2.041727E+00
20 6.346036E-03 1.440495E+00 2.054234E+00
21 3.024673E-03 1.440490E+00 2.060884E+00
22 4.247492E-03 1.440484E+00 2.069932E+00
23 7.965218E-03 1.440473E+00 2.085740E+00
24 4.130876E-03 1.440468E+00 2.094227E+00
25 3.027403E-03 1.440465E+00 2.099265E+00
26 2.873748E-03 1.440460E+00 2.105331E+00
27 2.320267E-03 1.440458E+00 2.109611E+00
28 3.575410E-03 1.440453E+00 2.116590E+00
29 4.026626E-03 1.440449E+00 2.122893E+00
30 2.233534E-03 1.440448E+00 2.125759E+00
31 4.062403E-03 1.440443E+00 2.133551E+00
32 5.333335E-03 1.440435E+00 2.143971E+00
33 8.471323E-03 1.440421E+00 2.164141E+00
34 5.309213E-03 1.440411E+00 2.176609E+00