run  (FB-IVR)
name = surv_morseGrossman_frenkel_s05
with HK-IVR
* gamma = { 12.000000 }
* overlap = coherent
* prefactor = maslov
* hess = normal
* mc->nmcstep = 1000
* mc->seed = 8489787
* mc->generating method = frenkel
* mc->nmcsmall = 100


potential Morse Oscillator 
* dimension = 1
* masses = { 1.000000 }
* D = { 30.000000 }
* BETA = { 0.080000 }
* R0 = { 0.000000 }
integrator Manolopoulos 
* DT = 0.100000
* NT = 300
INITIAL_CONDITIONS 
* position = { 0.000000 }
* velocity = { 0.000000 }
# Morse 
# Manolopoulos
Initialization random number generator with seed 8489787.
sampling mass = 1.000000
#Starting 0 
Growing: 0.768208, Rate: 0.645000
Shrinking: 0.537746, Rate: 0.449000
Growing: 0.806618, Rate: 0.647000
Shrinking: 0.564633, Rate: 0.431000
Growing: 0.846949, Rate: 0.623000
Shrinking: 0.592864, Rate: 0.427000
Growing: 0.889297, Rate: 0.584000
Shrinking: 0.622508, Rate: 0.411000
#Starting 1 
Growing: 9.218495, Rate: 0.658000
Shrinking: 6.452947, Rate: 0.449000
Growing: 9.679420, Rate: 0.600000
Shrinking: 6.775594, Rate: 0.425000
Growing: 10.163391, Rate: 0.577000
Shrinking: 7.114374, Rate: 0.391000
Growing: 10.671560, Rate: 0.571000
Shrinking: 7.470092, Rate: 0.399000
Growing: 11.205138, Rate: 0.566000
Shrinking: 7.843597, Rate: 0.383000
#delta_q : 0.622508 
#delta_v : 7.843597 
Done with Monte Carlo : nruns = 100000 
w_to_date = 1000.000000 ; mc->nnorm = 0.000000