Generated by ADDA v.1.4.0
The program was run on: 64 processors (cores)
command: './adda_mpi -size 1905.0 -grid 256 -lambda 3000 -eps 3 -ntheta 360 -m 2.3024 0.008339 -orient avg avg_params.dat -shape read PP_por40_amax1000_grid256_size2540.txt '
lambda: 3000
shape: specified by file PP_por40_amax1000_grid256_size2540.txt - ADDA text format (multi-domain); size along x-axis: 1905
box dimensions: 256x241x240
refractive index: 2.3024+0.008339i
Dipole size: 7.44141 (cubical)
Dipoles/lambda: 403.15
Required relative residual norm: 0.001
Total number of occupied dipoles: 4290194
Volume-equivalent size parameter: 1.571000786

---In laboratory reference frame:---
Incident beam: plane wave
Incident propagation vector: (0,0,1)
Incident polarization Y(par): (0,1,0)
Incident polarization X(per): (1,0,0)

Particle orientation - averaged
alpha: from 0 to 360 in 32 steps
beta: from 0 to 180 in (up to) 17 steps (equally spaced in cosine values)
gamma: from 0 to 360 in (up to) 16 steps
see file 'log_orient_avg' for details

Calculating only Mueller scattering matrix
Polarizability relation: 'Lattice Dispersion Relation' (averaged over incident polarization)
Scattering quantities formulae: 'by Draine'
Interaction term prescription: 'as Point dipoles'
FFT algorithm: FFTW3
Iterative Method: QMR (complex symmetric)
Symmetries: none
Optimization is done for maximum speed
The FFT grid is: 512x486x512
Memory usage for MatVec matrices (per processor): 92.2 MB
Total memory usage: 7647.0 MB
Maximum memory usage of single processor: 138.1 MB

ORIENTATION STEP beta=180 gamma=0

ORIENTATION STEP beta=0 gamma=0

ORIENTATION STEP beta=90 gamma=0

ORIENTATION STEP beta=90 gamma=180

ORIENTATION STEP beta=90 gamma=90

ORIENTATION STEP beta=90 gamma=270

ORIENTATION STEP beta=90 gamma=45

ORIENTATION STEP beta=90 gamma=135

ORIENTATION STEP beta=90 gamma=225

ORIENTATION STEP beta=90 gamma=315

ORIENTATION STEP beta=90 gamma=22.5

ORIENTATION STEP beta=90 gamma=67.5

ORIENTATION STEP beta=90 gamma=112.5

ORIENTATION STEP beta=90 gamma=157.5

ORIENTATION STEP beta=90 gamma=202.5

ORIENTATION STEP beta=90 gamma=247.5

ORIENTATION STEP beta=90 gamma=292.5

ORIENTATION STEP beta=90 gamma=337.5

ORIENTATION STEP beta=120 gamma=0

ORIENTATION STEP beta=120 gamma=180

ORIENTATION STEP beta=120 gamma=90

ORIENTATION STEP beta=120 gamma=270

ORIENTATION STEP beta=120 gamma=45

ORIENTATION STEP beta=120 gamma=135

ORIENTATION STEP beta=120 gamma=225

ORIENTATION STEP beta=120 gamma=315

ORIENTATION STEP beta=60 gamma=0

ORIENTATION STEP beta=60 gamma=180

ORIENTATION STEP beta=60 gamma=90

ORIENTATION STEP beta=60 gamma=270

ORIENTATION STEP beta=60 gamma=45

ORIENTATION STEP beta=60 gamma=135

ORIENTATION STEP beta=60 gamma=225

ORIENTATION STEP beta=60 gamma=315

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
                Timing Results             
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Total number of single particle evaluations: 34
Total number of iterations: 1369
Total number of matrix-vector products: 1437
Total planes of E field calculation (each 361 points): 2176

Total wall time:     2726.0429
--Everything below is also wall times--
Time since MPI_Init: 2723.0433
  Initialization time: 6.6004
    init interaction:    0.0000
    init Dmatrix:        1.8031
      communication:       0.2511
    FFT setup:           0.6091
    make particle:       3.1005
  Internal fields:     1646.7008
    one solution:        23.6328
      communication:       3.7922
      matvec products:     22.2930
        communication:       3.7297
      incident beam:       0.0002
      init solver:         1.0756
        communication:       0.1849
      one iteration:       1.1329
        communication:       0.1976
        matvec products:     1.0704
          communication:       0.1872
  Scattered fields:    1069.2481
    one plane:           0.4527
      communication:       0.0146
  Other sc.quantities: 0.4178
    communication:       0.0653
File I/O:            2.9146
Integration:         0.0156
