(************************************************************ * Result output by IMITATOR * Version : IMITATOR 2.9.2-working "Butter Incaberry" (build 2363) * Git : explorder/5c40e39 * Model : '/media/gia/Data/Example-Models/AndOr/AndOr.imi' * Generated: Fri Jun 16, 2017 12:52:33 * Command : /home/gia/Desktop/imitator/bin/imitator /media/gia/Data/Example-Models/AndOr/AndOr.imi -mode EF -explOrder queueBFSPRIOR -output-states -output-cart -output-result -output-trace-set -incl -merge -time-limit 900 -output-prefix /media/gia/Data/Example-Models/AndOr/AndOr-queueBFSPRIOR-incl-merge-EF ************************************************************) ------------------------------------------------------------ Number of IPTAs : 4 Number of clocks : 4 Has stopwatches? : false L/U subclass : L/U-PTA Number of parameters : 12 Number of discrete variables : 0 Number of actions : 9 Total number of locations : 27 Average locations per IPTA : 6.7 ------------------------------------------------------------ BEGIN CONSTRAINT dOr_l >= 0 & dA_High_l > dB_High_u + dB_Low_u & dA_Low_l >= 0 & dA_Low_u >= dA_Low_l & dAnd_l >= 0 & dB_Low_l >= 0 & dB_Low_u >= dB_Low_l & dAnd_u >= dAnd_l & dOr_u >= dOr_l & dB_High_l >= 0 & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l OR dAnd_l >= 0 & dB_Low_l >= 0 & dB_High_l > dA_High_u & dOr_l > dA_Low_u & dB_Low_u >= dAnd_l & dB_Low_u >= dB_Low_l & dAnd_u >= dAnd_l & dA_Low_l >= 0 & dA_Low_u >= dA_Low_l & dA_High_l >= 0 & dA_High_u >= dA_High_l & dOr_u >= dOr_l & dB_High_u >= dB_High_l OR dOr_l >= 0 & dA_Low_u >= dA_Low_l & dB_Low_l >= 0 & dA_Low_u >= dOr_l & dB_Low_u >= dB_Low_l & dAnd_l > dA_Low_u & dB_High_l > dA_High_u & dB_Low_u >= dAnd_l & dAnd_u >= dAnd_l & dA_High_l >= 0 & dA_High_u >= dA_High_l & dOr_u >= dAnd_l & dA_Low_l >= 0 & dB_High_u >= dB_High_l OR dAnd_l >= 0 & dOr_l > dA_Low_u & dA_High_l > dB_High_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_Low_l >= 0 & dA_Low_u >= dA_Low_l & dB_High_l >= 0 & dAnd_u >= dB_High_l & dOr_u >= dOr_l & dAnd_u >= dAnd_l & dB_Low_u >= dB_Low_l & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l OR dB_High_u + dB_Low_u >= dA_High_l & dB_Low_l >= 0 & dB_High_l > dOr_u + dAnd_u & dA_High_l > dB_High_u + dAnd_u & dAnd_l > dOr_u & dB_Low_u >= dB_Low_l & dOr_l >= 0 & dA_Low_l >= 0 & dOr_u >= dOr_l & dA_Low_u >= dOr_l & dA_Low_u >= dA_Low_l & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l OR dB_High_l > dOr_u + dAnd_u & dB_High_l + dB_Low_l + dAnd_l > dA_High_u + dA_Low_u & dA_High_l > dB_High_u + dAnd_u & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l & dA_Low_u >= dA_Low_l & dA_Low_u >= dOr_l & dA_Low_u >= dAnd_l & dB_Low_u >= dB_Low_l & dA_Low_l >= 0 & dAnd_l >= 0 & dOr_l >= 0 & dOr_u >= dOr_l & dOr_u >= dAnd_l & dAnd_u >= dAnd_l OR dA_Low_l >= 0 & dB_High_u >= dB_High_l & dB_High_l + dB_Low_l + dAnd_l > dA_High_u + dOr_u & dA_High_l > dB_High_u + dAnd_u & dB_High_l > dOr_u + dAnd_u & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dA_Low_u >= dA_Low_l & dAnd_l >= 0 & dOr_l >= 0 & dOr_u >= dOr_l & dOr_u >= dAnd_l & dA_High_u + dA_Low_u >= dB_High_l + dB_Low_l + dAnd_l & dAnd_u >= dAnd_l OR dOr_l >= 0 & dB_High_l > dA_High_u & dAnd_l > dB_Low_u & dA_Low_u >= dA_Low_l & dOr_u >= dOr_l & dB_Low_l >= 0 & dB_Low_u >= dB_Low_l & dAnd_u >= dAnd_l & dA_Low_l >= 0 & dA_High_l >= 0 & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l OR dB_Low_l >= 0 & dB_Low_u + dAnd_u >= dOr_l + dAnd_l & dAnd_l >= 0 & dA_High_l >= 0 & dB_High_u + dB_Low_u + dAnd_u > dB_High_l + dAnd_l & dB_High_l > dA_High_u & dA_Low_l > dOr_u & dB_Low_u >= dB_Low_l & dB_Low_u >= dAnd_l & dOr_l >= 0 & dA_High_u >= dA_High_l & dOr_u >= dOr_l & dB_High_u >= dB_High_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dAnd_u >= dAnd_l & dA_Low_u >= dA_Low_l OR dA_High_l >= 0 & dB_Low_l >= 0 & dB_High_l > dA_High_u & dAnd_l > dOr_u & dB_Low_u >= dB_Low_l & dB_Low_u >= dAnd_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dOr_l >= 0 & dA_Low_l >= 0 & dOr_u >= dOr_l & dA_Low_u >= dOr_l & dA_Low_u >= dA_Low_l & dOr_u >= dA_Low_l & dAnd_u >= dAnd_l & dA_High_u >= dA_High_l & dB_High_u >= dB_High_l OR dB_High_l >= 0 & dOr_l >= 0 & dA_Low_l >= 0 & dB_High_u >= dOr_l & dAnd_l > dOr_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_l > dB_High_u + dAnd_u & dA_Low_u >= dOr_l & dOr_u >= dOr_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_Low_u >= dA_Low_l & dOr_u >= dA_Low_l & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dOr_u + dAnd_u >= dB_High_l & dAnd_u >= dAnd_l OR dB_High_l >= 0 & dA_Low_l >= 0 & dOr_l > dB_High_u & dA_High_l > dB_High_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_Low_u >= dA_Low_l & dAnd_u >= dAnd_l & dAnd_l >= 0 & dB_High_u >= dB_High_l & dA_Low_u >= dOr_l & dA_High_u + dOr_u >= dB_High_l + dB_Low_l & dB_Low_u >= dB_Low_l & dA_High_u >= dA_High_l OR dB_Low_l >= 0 & dA_High_l > dB_High_u + dAnd_u & dB_High_l > dOr_u + dAnd_u & dOr_l >= 0 & dAnd_l > dA_Low_u & dB_Low_u >= dB_Low_l & dB_High_u + dB_Low_u >= dA_High_l & dA_Low_l >= 0 & dA_Low_u >= dA_Low_l & dAnd_u >= dAnd_l & dA_Low_u >= dOr_l & dOr_u >= dAnd_l & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l OR dA_High_l >= 0 & dB_Low_l >= 0 & dB_High_l > dA_High_u & dAnd_l > dOr_u & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dB_Low_u >= dB_Low_l & dB_Low_u >= dAnd_l & dA_Low_l >= 0 & dA_Low_u >= dOr_l & dOr_l >= 0 & dOr_u >= dOr_l & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l & dA_Low_u >= dA_Low_l & dA_High_u >= dA_High_l OR dA_Low_l + dB_High_l + dAnd_l > dB_Low_u + dAnd_u & dA_High_l >= 0 & dA_Low_u >= dA_Low_l & dOr_l + dAnd_l > dB_Low_u + dAnd_u & dB_High_l > dA_High_u & dA_Low_l >= 0 & dA_Low_u >= dOr_l & dAnd_l >= 0 & dB_Low_u >= dB_Low_l & dB_Low_l >= 0 & dB_Low_u >= dAnd_l & dAnd_u >= dAnd_l & dA_High_u >= dA_High_l & dB_High_u >= dB_High_l & dOr_u >= dOr_l OR dB_Low_l >= 0 & dB_Low_u >= dAnd_l & dA_Low_u >= dAnd_l & dA_Low_l >= 0 & dOr_u >= dAnd_l & dA_High_l >= 0 & dOr_l >= 0 & dOr_u >= dOr_l & dA_Low_u >= dOr_l & dAnd_l >= 0 & dB_Low_u >= dB_Low_l & dOr_u >= dA_Low_l & dA_High_u >= dA_High_l & dB_High_l > dA_High_u & dAnd_u >= dAnd_l & dOr_u >= dB_High_l & dA_Low_u >= dA_Low_l & dB_Low_u + dAnd_u >= dA_Low_l + dB_High_l + dAnd_l & dB_High_u >= dB_High_l OR dA_High_l >= 0 & dB_Low_l >= 0 & dB_Low_u >= dAnd_l & dB_Low_u + dAnd_u >= dOr_l + dAnd_l & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dB_High_l > dA_High_u & dB_Low_u >= dB_Low_l & dA_Low_u >= dAnd_l & dA_Low_l >= 0 & dA_Low_u >= dOr_l & dOr_l >= 0 & dOr_u >= dAnd_l & dOr_u >= dOr_l & dAnd_l >= 0 & dA_Low_u >= dA_Low_l & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l OR dB_Low_u + dAnd_u >= dOr_l + dAnd_l & dA_High_l >= 0 & dA_Low_u >= dAnd_l & dOr_u >= dAnd_l & dA_Low_l >= 0 & dOr_l >= 0 & dB_Low_l >= 0 & dB_Low_u >= dAnd_l & dA_Low_u >= dOr_l & dOr_u >= dOr_l & dB_Low_u >= dB_Low_l & dOr_u >= dA_Low_l & dB_High_l > dOr_u & dA_High_u >= dA_High_l & dB_High_l > dA_High_u & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_Low_u >= dA_Low_l & dAnd_l >= 0 & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l OR dB_High_l >= 0 & dB_High_u >= dOr_l & dAnd_l >= 0 & dOr_l >= 0 & dA_High_l > dB_High_u + dAnd_u & dA_Low_l > dOr_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dOr_u >= dOr_l & dB_High_u >= dB_High_l & dOr_u + dAnd_u >= dB_High_l & dAnd_u >= dAnd_l & dA_High_u >= dA_High_l & dA_Low_u >= dA_Low_l & dB_Low_u >= dB_Low_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l OR dOr_u + dAnd_u >= dB_High_l & dAnd_u >= dAnd_l & dAnd_l > dA_Low_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dB_High_l > dOr_u & dA_High_l > dB_High_u + dAnd_u & dA_Low_u >= dA_Low_l & dOr_l >= 0 & dA_Low_u >= dOr_l & dB_High_u >= dB_High_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dA_Low_l >= 0 & dOr_u >= dAnd_l OR dAnd_l >= 0 & dOr_u >= dA_Low_l & dA_Low_u >= dA_Low_l & dOr_u >= dAnd_l & dOr_l >= 0 & dOr_u >= dOr_l & dA_High_l > dB_High_u + dAnd_u & dB_High_l > dOr_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_Low_u >= dOr_l & dA_Low_l >= 0 & dB_High_u >= dB_High_l & dA_Low_u >= dAnd_l & dAnd_u >= dAnd_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dOr_u + dAnd_u >= dB_High_l OR dB_High_u >= dB_High_l & dOr_u >= dAnd_l & dA_Low_l >= 0 & dB_High_l >= 0 & dA_Low_u >= dAnd_l & dOr_l >= 0 & dA_Low_u >= dOr_l & dOr_u >= dOr_l & dB_High_l + dB_Low_l > dA_High_u + dOr_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_l > dB_High_u + dAnd_u & dAnd_l >= 0 & dAnd_u >= dAnd_l & dA_Low_u >= dA_Low_l & dOr_u >= dA_Low_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dOr_u >= dB_High_l OR dB_Low_l >= 0 & dAnd_l > dA_Low_u & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dOr_l > dA_Low_u & dA_High_l > dB_High_u + dAnd_u & dB_Low_u >= dB_Low_l & dOr_u >= dOr_l & dA_Low_l >= 0 & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l & dA_Low_u >= dA_Low_l & dA_High_u >= dA_High_l & dB_High_u + dB_Low_u >= dA_High_l OR dB_Low_l >= 0 & dAnd_l > dA_Low_u & dB_High_l > dAnd_u & dOr_l > dA_Low_u & dA_High_l > dB_High_u + dAnd_u & dB_Low_u >= dB_Low_l & dOr_u >= dOr_l & dA_Low_l >= 0 & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l & dA_Low_u >= dA_Low_l & dA_High_u >= dA_High_l & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l OR dB_Low_l >= 0 & dA_High_l >= 0 & dB_Low_u + dAnd_u >= dOr_l + dAnd_l & dA_Low_u >= dAnd_l & dB_Low_u >= dAnd_l & dOr_u >= dAnd_l & dB_High_u + 2*dB_Low_u + dOr_u + 2*dAnd_u > dA_Low_l + dB_High_l + dOr_l + 2*dAnd_l & dOr_l >= 0 & dA_Low_l >= 0 & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dAnd_l >= 0 & dOr_u >= dOr_l & dA_Low_u >= dOr_l & dB_Low_u >= dB_Low_l & dOr_u >= dA_Low_l & dA_High_u >= dA_High_l & dA_Low_l + dB_High_l + dAnd_l > dB_Low_u + dAnd_u & dB_High_l > dA_High_u & dB_High_u >= dB_High_l & dAnd_u >= dAnd_l & dOr_u >= dB_High_l & dA_Low_u >= dA_Low_l OR dA_Low_l >= 0 & dB_High_l + dB_Low_l > dA_High_u + dOr_u & dOr_l > dB_High_u & dA_High_l > dB_High_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dAnd_l > dOr_u & dA_Low_u >= dOr_l & dA_Low_u >= dA_Low_l & dB_High_l >= 0 & dB_High_u >= dB_High_l & dOr_u >= dOr_l & dAnd_u >= dAnd_l & dB_Low_u >= dB_Low_l & dA_High_u >= dA_High_l OR dAnd_u >= dB_High_l & dOr_u >= dB_High_l & dB_High_l >= 0 & dAnd_l > dA_Low_u & dB_High_l + dB_Low_l > dA_High_u + dOr_u & dA_Low_l >= 0 & dA_Low_u >= dOr_l & dA_High_l > dB_High_u + dAnd_u & dA_Low_u >= dA_Low_l & dOr_l >= 0 & dOr_u >= dAnd_l & dAnd_u >= dAnd_l & dB_High_u >= dB_High_l & dB_Low_u >= dB_Low_l & dA_High_u >= dA_High_l OR dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_High_l > dB_High_u + dAnd_u & dB_High_l > dAnd_u & dAnd_l > dA_Low_u & dOr_l >= 0 & dA_Low_u >= dA_Low_l & dA_Low_u >= dOr_l & dB_High_u >= dB_High_l & dAnd_u >= dAnd_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dOr_u >= dB_High_l & dA_Low_l >= 0 OR dB_High_u >= dOr_l & dOr_u >= dB_High_l & dOr_l >= 0 & dA_Low_l >= 0 & dA_High_l > dB_High_u + dAnd_u & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_u + dOr_u >= dB_High_l + dB_Low_l & dA_Low_u >= dOr_l & dAnd_l >= 0 & dB_High_u >= dB_High_l & dAnd_u >= dAnd_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dA_Low_u >= dA_Low_l OR dB_High_l >= 0 & dOr_u >= dAnd_l & dB_High_u >= dOr_l & dAnd_u >= dAnd_l & dA_High_l > dB_High_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dOr_l >= 0 & dA_Low_l >= 0 & dA_Low_u >= dOr_l & dA_Low_u >= dA_Low_l & dB_High_u >= dB_High_l & dOr_u >= dB_High_l & dAnd_l >= 0 & dA_High_u + dOr_u >= dB_High_l + dB_Low_l & dB_Low_u >= dB_Low_l & dAnd_u >= dB_High_l & dA_High_u >= dA_High_l OR dOr_l >= 0 & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dOr_u & dA_High_l > dB_High_u + dAnd_u & dOr_u >= dB_High_l & dOr_u >= dOr_l & dA_Low_u >= dOr_l & dB_High_u >= dB_High_l & dAnd_u >= dAnd_l & dA_High_u >= dA_High_l & dB_Low_u >= dB_Low_l & dA_Low_u >= dA_Low_l & dAnd_l >= 0 OR dA_High_l > dB_High_u + dAnd_u & dA_Low_l >= 0 & dA_Low_u >= dAnd_l & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dAnd_l >= 0 & dAnd_u >= dAnd_l & dOr_u >= dOr_l & dB_Low_u >= dB_Low_l & dB_High_u >= dB_High_l & dOr_l > dA_Low_u & dA_Low_u >= dA_Low_l & dB_High_l + dB_Low_l + dAnd_l > dA_High_u + dA_Low_u & dA_High_u >= dA_High_l OR dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_High_l > dB_High_u + dAnd_u & dA_Low_l >= 0 & dA_Low_u >= dAnd_l & dB_High_l > dAnd_u & dAnd_l >= 0 & dAnd_u >= dAnd_l & dOr_u >= dOr_l & dB_Low_u >= dB_Low_l & dB_High_u >= dB_High_l & dOr_l > dA_Low_u & dA_Low_u >= dA_Low_l & dB_High_l + dB_Low_l + dAnd_l > dA_High_u + dA_Low_u & dA_High_u >= dA_High_l OR dA_High_l > dB_High_u + dAnd_u & dA_Low_l >= 0 & dA_Low_u >= dOr_l & dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dOr_l >= 0 & dAnd_u >= dAnd_l & dAnd_l > dOr_u & dOr_u >= dOr_l & dB_Low_u >= dB_Low_l & dB_High_u >= dB_High_l & dOr_u + dAnd_u >= dB_High_l & dA_Low_u >= dA_Low_l & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_u >= dA_High_l OR dA_High_l + dA_Low_l + dB_High_l > dB_High_u + dB_Low_u + dAnd_u & dA_High_l > dB_High_u + dAnd_u & dA_Low_l >= 0 & dA_Low_u >= dAnd_l & dA_Low_u >= dOr_l & dB_High_l > dOr_u & dOr_l >= 0 & dOr_u >= dAnd_l & dAnd_l >= 0 & dAnd_u >= dAnd_l & dOr_u >= dOr_l & dB_Low_u >= dB_Low_l & dB_High_u >= dB_High_l & dOr_u + dAnd_u >= dB_High_l & dA_Low_u >= dA_Low_l & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_u >= dA_High_l OR dA_Low_l > dOr_u & dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dB_High_l >= 0 & dOr_u >= dAnd_l & dAnd_l >= 0 & dAnd_u >= dAnd_l & dOr_u >= dOr_l & dB_Low_u >= dB_Low_l & dOr_l > dB_High_u & dB_High_u >= dB_High_l & dA_Low_u >= dA_Low_l & dA_High_l > dB_High_u + dAnd_u & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_u >= dA_High_l OR dB_High_u + dB_Low_u + dAnd_u >= dA_High_l + dA_Low_l + dB_High_l & dA_High_l > dB_High_u + dAnd_u & dA_High_u + dOr_u >= dB_High_l + dB_Low_l & dA_Low_l >= 0 & dA_Low_u >= dAnd_l & dA_Low_u >= dOr_l & dB_High_l > dAnd_u & dB_High_u >= dOr_l & dOr_l >= 0 & dAnd_l >= 0 & dAnd_u >= dAnd_l & dB_Low_u >= dB_Low_l & dB_High_u >= dB_High_l & dOr_u >= dB_High_l & dA_Low_u >= dA_Low_l & dB_High_l + dB_Low_l > dA_High_u + dA_Low_u & dA_High_u >= dA_High_l END CONSTRAINT ------------------------------------------------------------ Constraint soundness : exact Termination : regular termination Constraint nature : good ------------------------------------------------------------ Number of states : 20 Number of transitions : 22 Number of computed states : 25 Total computation time : 5.305 seconds States/second in state space : 3.7 (20/5.305 seconds) Computed states/second : 4.7 (25/5.305 seconds) Estimated memory : 4.891 MiB (i.e., 641170 words of size 8) ------------------------------------------------------------ ------------------------------------------------------------ Statistics: Algorithm counters ------------------------------------------------------------ main algorithm : 5.316 seconds ------------------------------------------------------------ Statistics: Parsing counters ------------------------------------------------------------ model parsing : 0.008 second ------------------------------------------------------------ Statistics: State computation counters ------------------------------------------------------------ number of state comparisons : 21 number of constraints comparisons : 15 number of new states <= old : 3 number of new states >= old : 0 StateSpace.merging attempts : 13 StateSpace.merges : 2 StatesMerging.merging attempts : 0 StatesMerging.merges : 0 ------------------------------------------------------------ Statistics: Graphics-related counters ------------------------------------------------------------ state space drawing : 0.000 second ------------------------------------------------------------ Statistics: Global counter ------------------------------------------------------------ total : 5.558 seconds ------------------------------------------------------------