ep_extrael 0.1
ep_nspline 20
band_gap 100 # means no use
ep_keepbands 1
kptrlatt 4 0 0   0 4 0   0 0 4

# turn on calculation of the electron-phonon quantities
elphflag 1
ifltransport 1
ep_scalprod 1

#prtnest 1

# Path in reciprocal space along which the phonon linewidths
#  and band structure will be calculated
nqpath 12
qpath
  1/3 1/3 0
  0 0 0
  1/2 0 0
  1/3 1/3 0
  1/3 1/3 1/2
  0 0 1/2
  1/2 0 1/2
  1/3 1/3 1/2
  1/2 0 1/2
  1/2 0 0
  0 0 0
  0 0 1/2

# Coulomb pseudopotential parameter
mustar 0.01

# Minimalistic qpoint grid
ngqpt 2 2 2 

# Use standard set of temperatures (default for ntemper, tempermin, temperinc)

#  impose acoustic sum rule in a symmetric way
asr 2
dipdip 0
chneut 0

#  bravais lattice necessary
brav 1

# qpt grid
nqshft 1
q1shft 0.0 0.0 0.0
#
ifcflag 1
ifcana 1
ifcout 0
#  ifc for all atoms?
natifc 0
atifc 1 2 3

#  print dielectric matrix with freq dependence
dieflag 0

#  print out eigenvectors and symmetrize dyn matrix
eivec 1

# test frozen phonon displacements in supercells
freeze_displ 10

#Wavevector list number 1 (Reduced coordinates and normalization factor)
nph1l 2
qph1l
              0.00000000E+00  0.00000000E+00  0.00000000E+00 1
              0.50000000E+00  0.00000000E+00  0.00000000E+00 1

# get atomic projected phonon band structures: uses the qph1l by default
natprj_bs 2
iatprj_bs 1 2

#%%<BEGIN TEST_INFO>
#%% [setup]
#%% executable = anaddb
#%% input_gkk = t92o 
#%% input_ddb = t91.ddb.out
#%% test_chain = t90.in, t91.in, t92.in, t93.in, t94.in
#%% [files]
#%% files_to_test = 
#%%   t94.out, tolnlines = 20, tolabs = 1.1e-2, tolrel = 2.0e-1, fld_options =  -easy
#%% [paral_info]
#%% max_nprocs = 2
#%% [extra_info]
#%% authors = B. Xu
#%% keywords = 
#%% description = 
#%%   anaddb test electron phonon coupling with extra number of electons of hcp Ti
#%% topics = PhononWidth, ElPhonTransport
#%%<END TEST_INFO>