About the Execution of ITS-Tools for ParamProductionCell-PT-3
| Execution Summary | |||||
| Max Memory Used (MB) |
Time wait (ms) | CPU Usage (ms) | I/O Wait (ms) | Computed Result | Execution Status |
| 455.464 | 20615.00 | 32239.00 | 322.00 | T | normal |
Execution Chart
We display below the execution chart for this examination (boot time has been removed).
Trace from the execution
Formatting '/data/fkordon/mcc2021-input.r147-tall-162089138000244.qcow2', fmt=qcow2 size=4294967296 backing_file='/data/fkordon/mcc2021-input.qcow2' encryption=off cluster_size=65536 lazy_refcounts=off
Waiting for the VM to be ready (probing ssh)
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=====================================================================
Generated by BenchKit 2-4028
Executing tool itstools
Input is ParamProductionCell-PT-3, examination is Liveness
Time confinement is 1800 seconds
Memory confinement is 16384 MBytes
Number of cores is 4
Run identifier is r147-tall-162089138000244
=====================================================================
--------------------
preparation of the directory to be used:
/home/mcc/execution
total 520K
-rw-r--r-- 1 mcc users 16K May 5 16:58 CTLCardinality.txt
-rw-r--r-- 1 mcc users 94K May 10 09:43 CTLCardinality.xml
-rw-r--r-- 1 mcc users 15K May 5 16:58 CTLFireability.txt
-rw-r--r-- 1 mcc users 84K May 10 09:43 CTLFireability.xml
-rw-r--r-- 1 mcc users 4.2K May 6 14:48 GenericPropertiesDefinition.xml
-rw-r--r-- 1 mcc users 3.7K Mar 28 16:23 LTLCardinality.txt
-rw-r--r-- 1 mcc users 23K Mar 28 16:23 LTLCardinality.xml
-rw-r--r-- 1 mcc users 2.7K Mar 28 16:23 LTLFireability.txt
-rw-r--r-- 1 mcc users 18K Mar 28 16:23 LTLFireability.xml
-rw-r--r-- 1 mcc users 4.5K Mar 27 06:35 ReachabilityCardinality.txt
-rw-r--r-- 1 mcc users 21K Mar 27 06:35 ReachabilityCardinality.xml
-rw-r--r-- 1 mcc users 3.3K Mar 25 07:55 ReachabilityFireability.txt
-rw-r--r-- 1 mcc users 16K Mar 25 07:55 ReachabilityFireability.xml
-rw-r--r-- 1 mcc users 1.9K Mar 22 09:15 UpperBounds.txt
-rw-r--r-- 1 mcc users 3.9K Mar 22 09:15 UpperBounds.xml
-rw-r--r-- 1 mcc users 6 May 5 16:51 equiv_col
-rw-r--r-- 1 mcc users 2 May 5 16:51 instance
-rw-r--r-- 1 mcc users 6 May 5 16:51 iscolored
-rw-r--r-- 1 mcc users 174K May 5 16:51 model.pnml
--------------------
content from stdout:
=== Data for post analysis generated by BenchKit (invocation template)
The expected result is a vector of booleans
BOOL_VECTOR
FORMULA_NAME Liveness
=== Now, execution of the tool begins
BK_START 1620947998060
Running Version 0
[2021-05-13 23:19:59] [INFO ] Running its-tools with arguments : [-pnfolder, /home/mcc/execution, -examination, Liveness, -spotpath, /home/mcc/BenchKit/bin//..//ltlfilt, -z3path, /home/mcc/BenchKit/bin//..//z3/bin/z3, -yices2path, /home/mcc/BenchKit/bin//..//yices/bin/yices, -its, -ltsmin, -greatspnpath, /home/mcc/BenchKit/bin//..//greatspn/, -order, META, -manyOrder, -smt, -timeout, 1800]
[2021-05-13 23:19:59] [INFO ] Parsing pnml file : /home/mcc/execution/model.pnml
[2021-05-13 23:19:59] [INFO ] Load time of PNML (sax parser for PT used): 87 ms
[2021-05-13 23:19:59] [INFO ] Transformed 231 places.
[2021-05-13 23:20:00] [INFO ] Transformed 202 transitions.
[2021-05-13 23:20:00] [INFO ] Found NUPN structural information;
[2021-05-13 23:20:00] [INFO ] Parsed PT model containing 231 places and 202 transitions in 162 ms.
Built sparse matrix representations for Structural reductions in 5 ms.19084KB memory used
Starting structural reductions, iteration 0 : 231/231 places, 202/202 transitions.
Applied a total of 0 rules in 25 ms. Remains 231 /231 variables (removed 0) and now considering 202/202 (removed 0) transitions.
Finished structural reductions, in 1 iterations. Remains : 231/231 places, 202/202 transitions.
Starting structural reductions, iteration 0 : 231/231 places, 202/202 transitions.
Applied a total of 0 rules in 16 ms. Remains 231 /231 variables (removed 0) and now considering 202/202 (removed 0) transitions.
// Phase 1: matrix 202 rows 231 cols
[2021-05-13 23:20:00] [INFO ] Computed 59 place invariants in 21 ms
[2021-05-13 23:20:00] [INFO ] Implicit Places using invariants in 219 ms returned []
// Phase 1: matrix 202 rows 231 cols
[2021-05-13 23:20:00] [INFO ] Computed 59 place invariants in 5 ms
[2021-05-13 23:20:00] [INFO ] State equation strengthened by 68 read => feed constraints.
[2021-05-13 23:20:00] [INFO ] Implicit Places using invariants and state equation in 210 ms returned []
Implicit Place search using SMT with State Equation took 481 ms to find 0 implicit places.
[2021-05-13 23:20:00] [INFO ] Redundant transitions in 7 ms returned []
// Phase 1: matrix 202 rows 231 cols
[2021-05-13 23:20:00] [INFO ] Computed 59 place invariants in 5 ms
[2021-05-13 23:20:00] [INFO ] Dead Transitions using invariants and state equation in 214 ms returned []
Finished structural reductions, in 1 iterations. Remains : 231/231 places, 202/202 transitions.
Random walk for 1250000 steps, including 0 resets, run took 3000 ms (no deadlock found). (steps per millisecond=416 )
Random directed walk for 1250003 steps, including 0 resets, run took 1863 ms (no deadlock found). (steps per millisecond=670 )
// Phase 1: matrix 202 rows 231 cols
[2021-05-13 23:20:05] [INFO ] Computed 59 place invariants in 5 ms
[2021-05-13 23:20:05] [INFO ] [Real]Absence check using 35 positive place invariants in 30 ms returned sat
[2021-05-13 23:20:05] [INFO ] [Real]Absence check using 35 positive and 24 generalized place invariants in 68 ms returned sat
[2021-05-13 23:20:05] [INFO ] [Real]Adding state equation constraints to refine reachable states.
[2021-05-13 23:20:06] [INFO ] [Real]Absence check using state equation in 857 ms returned sat
[2021-05-13 23:20:06] [INFO ] Solution in real domain found non-integer solution.
[2021-05-13 23:20:06] [INFO ] [Nat]Absence check using 35 positive place invariants in 12 ms returned sat
[2021-05-13 23:20:06] [INFO ] [Nat]Absence check using 35 positive and 24 generalized place invariants in 20 ms returned sat
[2021-05-13 23:20:06] [INFO ] [Nat]Adding state equation constraints to refine reachable states.
[2021-05-13 23:20:07] [INFO ] [Nat]Absence check using state equation in 736 ms returned sat
[2021-05-13 23:20:07] [INFO ] State equation strengthened by 68 read => feed constraints.
[2021-05-13 23:20:07] [INFO ] [Nat]Added 68 Read/Feed constraints in 18 ms returned sat
[2021-05-13 23:20:07] [INFO ] Deduced a trap composed of 10 places in 131 ms of which 2 ms to minimize.
[2021-05-13 23:20:07] [INFO ] Deduced a trap composed of 7 places in 80 ms of which 1 ms to minimize.
[2021-05-13 23:20:07] [INFO ] Deduced a trap composed of 5 places in 48 ms of which 2 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 7 places in 50 ms of which 2 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 9 places in 70 ms of which 1 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 24 places in 65 ms of which 1 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 7 places in 57 ms of which 1 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 8 places in 72 ms of which 1 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 11 places in 49 ms of which 0 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 35 places in 37 ms of which 0 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 39 places in 40 ms of which 1 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 7 places in 53 ms of which 0 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 7 places in 52 ms of which 0 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 14 places in 46 ms of which 1 ms to minimize.
[2021-05-13 23:20:08] [INFO ] Deduced a trap composed of 21 places in 46 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 7 places in 48 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 7 places in 28 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 40 places in 59 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 21 places in 53 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 32 places in 42 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 26 places in 54 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 46 places in 43 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 39 places in 37 ms of which 1 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 7 places in 51 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 14 places in 64 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 47 places in 50 ms of which 1 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 50 places in 55 ms of which 0 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 40 places in 25 ms of which 1 ms to minimize.
[2021-05-13 23:20:09] [INFO ] Deduced a trap composed of 25 places in 36 ms of which 0 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 25 places in 22 ms of which 1 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 24 places in 31 ms of which 0 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 29 places in 34 ms of which 1 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 36 places in 36 ms of which 0 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 10 places in 49 ms of which 0 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 28 places in 54 ms of which 0 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 10 places in 35 ms of which 1 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Deduced a trap composed of 31 places in 34 ms of which 1 ms to minimize.
[2021-05-13 23:20:10] [INFO ] Trap strengthening procedure managed to obtain unsat after adding 37 trap constraints in 2930 ms
Starting structural reductions, iteration 0 : 231/231 places, 202/202 transitions.
Performed 14 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 0 with 14 Pre rules applied. Total rules applied 0 place count 231 transition count 188
Deduced a syphon composed of 14 places in 1 ms
Reduce places removed 14 places and 0 transitions.
Iterating global reduction 0 with 28 rules applied. Total rules applied 28 place count 217 transition count 188
Discarding 6 places :
Symmetric choice reduction at 0 with 6 rule applications. Total rules 34 place count 211 transition count 182
Iterating global reduction 0 with 6 rules applied. Total rules applied 40 place count 211 transition count 182
Performed 18 Post agglomeration using F-continuation condition.Transition count delta: 18
Deduced a syphon composed of 18 places in 1 ms
Reduce places removed 18 places and 0 transitions.
Iterating global reduction 0 with 36 rules applied. Total rules applied 76 place count 193 transition count 164
Applied a total of 76 rules in 43 ms. Remains 193 /231 variables (removed 38) and now considering 164/202 (removed 38) transitions.
// Phase 1: matrix 164 rows 193 cols
[2021-05-13 23:20:10] [INFO ] Computed 59 place invariants in 3 ms
[2021-05-13 23:20:10] [INFO ] Implicit Places using invariants in 166 ms returned [15, 16, 17, 18, 22, 28, 31, 32, 35, 36, 40, 41, 51, 54, 55, 61, 64, 65, 77, 78, 80, 92, 93, 95, 97, 98, 132, 133, 135, 137, 138, 162, 163, 166, 167, 172, 173, 175, 184]
Discarding 39 places :
Implicit Place search using SMT only with invariants took 168 ms to find 39 implicit places.
// Phase 1: matrix 164 rows 154 cols
[2021-05-13 23:20:10] [INFO ] Computed 20 place invariants in 13 ms
[2021-05-13 23:20:10] [INFO ] Dead Transitions using invariants and state equation in 92 ms returned []
Starting structural reductions, iteration 1 : 154/231 places, 164/202 transitions.
Drop transitions removed 21 transitions
Trivial Post-agglo rules discarded 21 transitions
Performed 21 trivial Post agglomeration. Transition count delta: 21
Iterating post reduction 0 with 21 rules applied. Total rules applied 21 place count 154 transition count 143
Reduce places removed 21 places and 0 transitions.
Iterating post reduction 1 with 21 rules applied. Total rules applied 42 place count 133 transition count 143
Performed 5 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 2 with 5 Pre rules applied. Total rules applied 42 place count 133 transition count 138
Deduced a syphon composed of 5 places in 1 ms
Reduce places removed 5 places and 0 transitions.
Iterating global reduction 2 with 10 rules applied. Total rules applied 52 place count 128 transition count 138
Discarding 2 places :
Symmetric choice reduction at 2 with 2 rule applications. Total rules 54 place count 126 transition count 136
Iterating global reduction 2 with 2 rules applied. Total rules applied 56 place count 126 transition count 136
Performed 41 Post agglomeration using F-continuation condition.Transition count delta: 41
Deduced a syphon composed of 41 places in 0 ms
Reduce places removed 41 places and 0 transitions.
Iterating global reduction 2 with 82 rules applied. Total rules applied 138 place count 85 transition count 95
Performed 1 Post agglomeration using F-continuation condition.Transition count delta: 1
Deduced a syphon composed of 1 places in 0 ms
Reduce places removed 1 places and 0 transitions.
Iterating global reduction 2 with 2 rules applied. Total rules applied 140 place count 84 transition count 94
Applied a total of 140 rules in 16 ms. Remains 84 /154 variables (removed 70) and now considering 94/164 (removed 70) transitions.
// Phase 1: matrix 94 rows 84 cols
[2021-05-13 23:20:10] [INFO ] Computed 20 place invariants in 1 ms
[2021-05-13 23:20:10] [INFO ] Implicit Places using invariants in 55 ms returned []
// Phase 1: matrix 94 rows 84 cols
[2021-05-13 23:20:10] [INFO ] Computed 20 place invariants in 1 ms
[2021-05-13 23:20:10] [INFO ] State equation strengthened by 67 read => feed constraints.
[2021-05-13 23:20:11] [INFO ] Implicit Places using invariants and state equation in 85 ms returned []
Implicit Place search using SMT with State Equation took 141 ms to find 0 implicit places.
Finished structural reductions, in 2 iterations. Remains : 84/231 places, 94/202 transitions.
[2021-05-13 23:20:11] [INFO ] Initial state test concluded for 2 properties.
Finished random walk after 2290 steps, including 0 resets, run visited all 92 properties in 14 ms. (steps per millisecond=163 )
Able to resolve query QuasiLiveness after proving 94 properties.
Starting structural reductions, iteration 0 : 231/231 places, 202/202 transitions.
Performed 14 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 0 with 14 Pre rules applied. Total rules applied 0 place count 231 transition count 188
Deduced a syphon composed of 14 places in 0 ms
Reduce places removed 14 places and 0 transitions.
Iterating global reduction 0 with 28 rules applied. Total rules applied 28 place count 217 transition count 188
Discarding 6 places :
Symmetric choice reduction at 0 with 6 rule applications. Total rules 34 place count 211 transition count 182
Iterating global reduction 0 with 6 rules applied. Total rules applied 40 place count 211 transition count 182
Performed 18 Post agglomeration using F-continuation condition.Transition count delta: 18
Deduced a syphon composed of 18 places in 0 ms
Reduce places removed 18 places and 0 transitions.
Iterating global reduction 0 with 36 rules applied. Total rules applied 76 place count 193 transition count 164
Applied a total of 76 rules in 15 ms. Remains 193 /231 variables (removed 38) and now considering 164/202 (removed 38) transitions.
// Phase 1: matrix 164 rows 193 cols
[2021-05-13 23:20:11] [INFO ] Computed 59 place invariants in 2 ms
[2021-05-13 23:20:11] [INFO ] Implicit Places using invariants in 146 ms returned [15, 16, 17, 18, 22, 28, 31, 32, 35, 36, 40, 41, 51, 54, 55, 61, 64, 65, 77, 78, 80, 92, 93, 95, 97, 98, 132, 133, 135, 137, 138, 162, 163, 166, 167, 172, 173, 175, 184]
Discarding 39 places :
Implicit Place search using SMT only with invariants took 147 ms to find 39 implicit places.
// Phase 1: matrix 164 rows 154 cols
[2021-05-13 23:20:11] [INFO ] Computed 20 place invariants in 1 ms
[2021-05-13 23:20:11] [INFO ] Dead Transitions using invariants and state equation in 82 ms returned []
Starting structural reductions, iteration 1 : 154/231 places, 164/202 transitions.
Drop transitions removed 21 transitions
Trivial Post-agglo rules discarded 21 transitions
Performed 21 trivial Post agglomeration. Transition count delta: 21
Iterating post reduction 0 with 21 rules applied. Total rules applied 21 place count 154 transition count 143
Reduce places removed 21 places and 0 transitions.
Iterating post reduction 1 with 21 rules applied. Total rules applied 42 place count 133 transition count 143
Performed 5 Pre agglomeration using Quasi-Persistent + Divergent Free condition..
Pre-agglomeration after 2 with 5 Pre rules applied. Total rules applied 42 place count 133 transition count 138
Deduced a syphon composed of 5 places in 0 ms
Reduce places removed 5 places and 0 transitions.
Iterating global reduction 2 with 10 rules applied. Total rules applied 52 place count 128 transition count 138
Discarding 2 places :
Symmetric choice reduction at 2 with 2 rule applications. Total rules 54 place count 126 transition count 136
Iterating global reduction 2 with 2 rules applied. Total rules applied 56 place count 126 transition count 136
Performed 41 Post agglomeration using F-continuation condition.Transition count delta: 41
Deduced a syphon composed of 41 places in 0 ms
Reduce places removed 41 places and 0 transitions.
Iterating global reduction 2 with 82 rules applied. Total rules applied 138 place count 85 transition count 95
Performed 1 Post agglomeration using F-continuation condition.Transition count delta: 1
Deduced a syphon composed of 1 places in 1 ms
Reduce places removed 1 places and 0 transitions.
Iterating global reduction 2 with 2 rules applied. Total rules applied 140 place count 84 transition count 94
Applied a total of 140 rules in 12 ms. Remains 84 /154 variables (removed 70) and now considering 94/164 (removed 70) transitions.
// Phase 1: matrix 94 rows 84 cols
[2021-05-13 23:20:11] [INFO ] Computed 20 place invariants in 1 ms
[2021-05-13 23:20:11] [INFO ] Implicit Places using invariants in 62 ms returned []
// Phase 1: matrix 94 rows 84 cols
[2021-05-13 23:20:11] [INFO ] Computed 20 place invariants in 1 ms
[2021-05-13 23:20:11] [INFO ] State equation strengthened by 67 read => feed constraints.
[2021-05-13 23:20:11] [INFO ] Implicit Places using invariants and state equation in 85 ms returned []
Implicit Place search using SMT with State Equation took 148 ms to find 0 implicit places.
Finished structural reductions, in 2 iterations. Remains : 84/231 places, 94/202 transitions.
[2021-05-13 23:20:11] [INFO ] Flatten gal took : 34 ms
[2021-05-13 23:20:11] [INFO ] Flatten gal took : 12 ms
[2021-05-13 23:20:11] [INFO ] Time to serialize gal into /tmp/CTLFireability12207028868474378592.gal : 6 ms
[2021-05-13 23:20:11] [INFO ] Time to serialize properties into /tmp/CTLFireability14101392358714896088.ctl : 3 ms
Invoking ITS tools like this :CommandLine [args=[/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.202104292328/bin/its-ctl-linux64, --gc-threshold, 2000000, --quiet, -i, /tmp/CTLFireability12207028868474378592.gal, -t, CGAL, -ctl, /tmp/CTLFireability14101392358714896088.ctl, --gen-order, FOLLOW], workingDir=/home/mcc/execution]
its-ctl command run as :
/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.202104292328/bin/its-ctl-linux64 --gc-threshold 2000000 --quiet -i /tmp/CTLFireability12207028868474378592.gal -t CGAL -ctl /tmp/CTLFireability14101392358714896088.ctl --gen-order FOLLOW
No direction supplied, using forward translation only.
Parsed 94 CTL formulae.
Model ,|S| ,Time ,Mem(kb) ,fin. SDD ,fin. DDD ,peak SDD ,peak DDD ,SDD Hom ,SDD cache peak ,DDD Hom ,DDD cachepeak ,SHom cache
reachable,36112,0.066121,6800,2,1815,5,9797,6,0,433,8324,0
Converting to forward existential form...Done !
original formula: AG(EF(((press_at_lower_pos>=1)&&(PU_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((press_at_lower_pos>=1)&&(PU_lower_run>=1)))))] = FALSE
Reverse transition relation is NOT exact ! Due to transitions deposit_belt_lock_input_area.deposit_belt_lock_output_area.DB_trans_Pstart, crane_lock_output_area.CU_lower_Pstart, crane_lock_input_area.CL_lower_Pstart, TL_lower_Pstop.table_unlock_input_area.feed_belt_lock_input_area.feed_belt_lock_output_area.FB_trans_Pstart, TL_rot_Cstop.TL_rot_Pstop.TL_lower_Pstart, TU_rot_Cstop.TU_rot_Pstop.TU_lift_Pstart, A2U_rot1_Cstop.A2U_rot1_Pstop.A2U_ext_Pstart, A2U_rot2_Cstop.A2U_rot1_Pstop.A2U_ext_Pstart, A2U_rot3_Cstop.A2U_rot1_Pstop.A2U_ext_Pstart, A2U_ret_Cstop.A2U_ret_Pstop.arm2_unlock_output_area.arm2_unlock_swivel_2, A2L_rot1_Cstop.A2L_rot1_Pstop.A2L_ext_Pstart, A2L_rot2_Cstop.A2L_rot1_Pstop.A2L_ext_Pstart, A2L_rot3_Cstop.A2L_rot1_Pstop.A2L_ext_Pstart, A2L_ret_Cstop.A2L_ret_Pstop.arm2_unlock_input_area.arm2_unlock_swivel_1.press_lock_output_area.PL_lower_Pstart, A1L_rot1_Cstop.A1L_rot1_Pstop.A1L_ext_Pstart, A1L_rot2_Cstop.A1L_rot1_Pstop.A1L_ext_Pstart, A1L_rot3_Cstop.A1L_rot1_Pstop.A1L_ext_Pstart, A1L_ret_Cstop.A1L_ret_Pstop.arm1_unlock_input_area.arm1_unlock_swivel_1.table_lock_output_area.TL_rot_Pstart, A1U_rot1_Cstop.A1U_rot1_Pstop.A1U_ext_Pstart, A1U_rot2_Cstop.A1U_rot1_Pstop.A1U_ext_Pstart, A1U_rot3_Cstop.A1U_rot1_Pstop.A1U_ext_Pstart, A1U_ret_Cstop.A1U_ret_Pstop.arm1_unlock_output_area.arm1_unlock_swivel_2.press_lock_input_area.forge_Pstart, CU_lift_Cstop.CU_lift_Pstop.CU_trans_Pstart, CL_lift_Cstop.CL_lift_Pstop.CL_trans_Pstart, FB_deliver_Cstop.FB_deliver_Pstop.feed_belt_unlock_input_area.feed_belt_unlock_output_area.table_lock_input_area.TU_rot_Pstart, Intersection with reachable at each step enabled. (destroyed/reverse/intersect/total) :0/69/25/94
(forward)formula 0,1,0.900991,37708,1,0,227,208613,209,129,2654,132274,281
Formula is TRUE !
***************************************
original formula: AG(EF(((press_at_upper_pos>=1)&&(PU_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((press_at_upper_pos>=1)&&(PU_lower_run>=1)))))] = FALSE
(forward)formula 1,1,1.23182,50240,1,0,279,283879,210,162,2654,187947,367
Formula is TRUE !
***************************************
original formula: AG(EF(((press_at_middle_pos>=1)&&(forge_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((press_at_middle_pos>=1)&&(forge_run>=1)))))] = FALSE
(forward)formula 2,1,1.64203,60272,1,0,331,361550,211,196,2654,246600,453
Formula is TRUE !
***************************************
original formula: AG(EF(((press_at_lower_pos>=1)&&(PL_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((press_at_lower_pos>=1)&&(PL_lower_run>=1)))))] = FALSE
(forward)formula 3,1,2.08798,73472,1,0,383,455807,212,230,2654,314317,539
Formula is TRUE !
***************************************
original formula: AG(EF(((table_unload_angle>=1)&&(TL_rot_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((table_unload_angle>=1)&&(TL_rot_run>=1)))))] = FALSE
(forward)formula 4,1,2.22928,79016,1,0,437,492637,213,264,2654,342827,625
Formula is TRUE !
***************************************
original formula: AG(EF(((table_bottom_pos>=1)&&(TL_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((table_bottom_pos>=1)&&(TL_lower_run>=1)))))] = FALSE
(forward)formula 5,1,2.2414,79280,1,0,491,494089,214,297,2654,345894,711
Formula is TRUE !
***************************************
original formula: AG(EF(((table_top_pos>=1)&&(TL_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((table_top_pos>=1)&&(TL_lower_run>=1)))))] = FALSE
(forward)formula 6,1,2.24449,79544,1,0,545,494181,215,331,2654,346235,797
Formula is TRUE !
***************************************
original formula: AG(EF(((table_top_pos>=1)&&(TU_lift_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((table_top_pos>=1)&&(TU_lift_run>=1)))))] = FALSE
(forward)formula 7,1,2.27885,80336,1,0,599,502319,216,364,2654,353301,883
Formula is TRUE !
***************************************
original formula: AG(EF(((table_bottom_pos>=1)&&(TU_lift_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((table_bottom_pos>=1)&&(TU_lift_run>=1)))))] = FALSE
(forward)formula 8,1,2.29773,80864,1,0,653,506091,217,398,2654,356424,969
Formula is TRUE !
***************************************
original formula: AG(EF(((table_load_angle>=1)&&(TU_rot_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((table_load_angle>=1)&&(TU_rot_run>=1)))))] = FALSE
(forward)formula 9,1,2.31439,81392,1,0,707,509008,218,432,2654,359363,1055
Formula is TRUE !
***************************************
original formula: AG(EF(((belt2_light_barrier_false>=1)&&(DB_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((belt2_light_barrier_false>=1)&&(DB_trans_run>=1)))))] = FALSE
(forward)formula 10,1,2.63975,93500,1,0,760,586956,219,466,2654,415980,1141
Formula is TRUE !
***************************************
original formula: AG(EF(((belt2_light_barrier_true>=1)&&(DB_deliver_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((belt2_light_barrier_true>=1)&&(DB_deliver_run>=1)))))] = FALSE
(forward)formula 11,1,2.96235,101684,1,0,813,641091,220,499,2654,454903,1227
Formula is TRUE !
***************************************
original formula: AG(EF(((belt1_light_barrier_false>=1)&&(FB_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((belt1_light_barrier_false>=1)&&(FB_trans_run>=1)))))] = FALSE
(forward)formula 12,1,2.99619,104784,1,0,869,648493,221,533,2654,460575,1313
Formula is TRUE !
Detected timeout of ITS tools.
[2021-05-13 23:20:14] [INFO ] Flatten gal took : 9 ms
[2021-05-13 23:20:14] [INFO ] Applying decomposition
[2021-05-13 23:20:14] [INFO ] Flatten gal took : 8 ms
Converted graph to binary with : CommandLine [args=[/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.louvain.binaries_1.0.0.202104292328/bin/convert-linux64, -i, /tmp/graph17855724126514668176.txt, -o, /tmp/graph17855724126514668176.bin, -w, /tmp/graph17855724126514668176.weights], workingDir=null]
Built communities with : CommandLine [args=[/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.louvain.binaries_1.0.0.202104292328/bin/louvain-linux64, /tmp/graph17855724126514668176.bin, -l, -1, -v, -w, /tmp/graph17855724126514668176.weights, -q, 0, -e, 0.001], workingDir=null]
[2021-05-13 23:20:14] [INFO ] Decomposing Gal with order
[2021-05-13 23:20:14] [INFO ] Rewriting arrays to variables to allow decomposition.
[2021-05-13 23:20:14] [INFO ] Removed a total of 18 redundant transitions.
[2021-05-13 23:20:14] [INFO ] Flatten gal took : 38 ms
[2021-05-13 23:20:14] [INFO ] Fuse similar labels procedure discarded/fused a total of 0 labels/synchronizations in 2 ms.
[2021-05-13 23:20:14] [INFO ] Time to serialize gal into /tmp/CTLFireability14435385977163776973.gal : 3 ms
[2021-05-13 23:20:14] [INFO ] Time to serialize properties into /tmp/CTLFireability16054369787792386471.ctl : 2 ms
Invoking ITS tools like this :CommandLine [args=[/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.202104292328/bin/its-ctl-linux64, --gc-threshold, 2000000, --quiet, -i, /tmp/CTLFireability14435385977163776973.gal, -t, CGAL, -ctl, /tmp/CTLFireability16054369787792386471.ctl], workingDir=/home/mcc/execution]
its-ctl command run as :
/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.202104292328/bin/its-ctl-linux64 --gc-threshold 2000000 --quiet -i /tmp/CTLFireability14435385977163776973.gal -t CGAL -ctl /tmp/CTLFireability16054369787792386471.ctl
No direction supplied, using forward translation only.
Parsed 81 CTL formulae.
Model ,|S| ,Time ,Mem(kb) ,fin. SDD ,fin. DDD ,peak SDD ,peak DDD ,SDD Hom ,SDD cache peak ,DDD Hom ,DDD cachepeak ,SHom cache
reachable,36112,0.041614,6056,288,115,2624,400,336,2468,101,1231,0
Converting to forward existential form...Done !
original formula: AG(EF(((i1.i1.u8.belt1_light_barrier_true>=1)&&(i1.i1.u8.FB_deliver_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i1.i1.u8.belt1_light_barrier_true>=1)&&(i1.i1.u8.FB_deliver_run>=1)))))] = FALSE
Reverse transition relation is NOT exact ! Due to transitions A2U_ret_Cstop_A2U_ret_Pstop_arm2_unlock_output_area_arm2_unlock_swivel_2, A2L_ret_Cstop_A2L_ret_Pstop_arm2_unlock_input_area_arm2_unlock_swivel_1_press_lock_output_area_PL_lower_Pstart, A1L_ret_Cstop_A1L_ret_Pstop_arm1_unlock_input_area_arm1_unlock_swivel_1_table_lock_output_area_TL_rot_Pstart, A1U_ret_Cstop_A1U_ret_Pstop_arm1_unlock_output_area_arm1_unlock_swivel_2_press_lock_input_area_forge_Pstart, FB_deliver_Cstop_FB_deliver_Pstop_feed_belt_unlock_input_area_feed_belt_unlock_output_area_table_lock_input_area_TU_rot_Pstart, u9.A2U_rot1_Cstop.A2U_rot1_Pstop.A2U_ext_Pstart, u9.A2U_rot2_Cstop.A2U_rot1_Pstop.A2U_ext_Pstart, u9.A2U_rot3_Cstop.A2U_rot1_Pstop.A2U_ext_Pstart, u10.A1L_rot1_Cstop.A1L_rot1_Pstop.A1L_ext_Pstart, u10.A1L_rot2_Cstop.A1L_rot1_Pstop.A1L_ext_Pstart, u10.A1L_rot3_Cstop.A1L_rot1_Pstop.A1L_ext_Pstart, u11.A2L_rot1_Cstop.A2L_rot1_Pstop.A2L_ext_Pstart, u11.A2L_rot2_Cstop.A2L_rot1_Pstop.A2L_ext_Pstart, u11.A2L_rot3_Cstop.A2L_rot1_Pstop.A2L_ext_Pstart, u14.A1U_rot1_Cstop.A1U_rot1_Pstop.A1U_ext_Pstart, u14.A1U_rot2_Cstop.A1U_rot1_Pstop.A1U_ext_Pstart, u14.A1U_rot3_Cstop.A1U_rot1_Pstop.A1U_ext_Pstart, i1.i0.u3.TL_rot_Cstop.TL_rot_Pstop.TL_lower_Pstart, i1.i0.u5.TU_rot_Cstop.TU_rot_Pstop.TU_lift_Pstart, i1.i1.u0.TL_lower_Pstop.table_unlock_input_area.feed_belt_lock_input_area.feed_belt_lock_output_area.FB_trans_Pstart, i2.u7.deposit_belt_lock_input_area.deposit_belt_lock_output_area.DB_trans_Pstart, i9.u16.crane_lock_output_area.CU_lower_Pstart, i9.u17.CU_lift_Cstop.CU_lift_Pstop.CU_trans_Pstart, i9.u17.CL_lift_Cstop.CL_lift_Pstop.CL_trans_Pstart, i9.u18.crane_lock_input_area.CL_lower_Pstart, Intersection with reachable at each step enabled. (destroyed/reverse/intersect/total) :0/69/25/94
(forward)formula 0,1,0.16637,12776,1,0,20425,984,1281,17317,477,2558,50595
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u9.A2U_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u9.A2U_rot1_run>=1)))))] = FALSE
(forward)formula 1,1,0.230596,15944,1,0,28596,1007,1284,24449,477,2639,72639
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u9.A2U_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u9.A2U_rot2_run>=1)))))] = FALSE
(forward)formula 2,1,0.268036,17792,1,0,33053,1012,1287,28564,477,2648,85113
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u9.A2U_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u9.A2U_rot3_run>=1)))))] = FALSE
(forward)formula 3,1,0.287821,18584,1,0,35177,1012,1291,30845,477,2664,91236
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_retract_ext>=1)&&(u9.A2U_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_retract_ext>=1)&&(u9.A2U_ext_run>=1)))))] = FALSE
(forward)formula 4,1,0.298985,19112,1,0,36054,1012,1294,32048,477,2664,94089
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_release_ext>=1)&&(u12.A2U_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_release_ext>=1)&&(u12.A2U_ret_run>=1)))))] = FALSE
(forward)formula 5,1,0.308482,19640,1,0,36670,1012,1300,32925,479,2664,96360
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u11.A2L_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u11.A2L_rot1_run>=1)))))] = FALSE
(forward)formula 6,1,0.354262,21752,1,0,41858,1017,1303,37755,479,2694,111375
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u11.A2L_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u11.A2L_rot2_run>=1)))))] = FALSE
(forward)formula 7,1,0.377266,23072,1,0,44867,1017,1306,40902,479,2697,120011
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u11.A2L_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u11.A2L_rot3_run>=1)))))] = FALSE
(forward)formula 8,1,0.38706,23600,1,0,45629,1017,1309,41961,479,2697,122746
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_retract_ext>=1)&&(u11.A2L_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_retract_ext>=1)&&(u11.A2L_ext_run>=1)))))] = FALSE
(forward)formula 9,1,0.397161,23864,1,0,46449,1024,1311,43117,479,2710,125462
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_pick_up_ext>=1)&&(u12.A2L_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_pick_up_ext>=1)&&(u12.A2L_ret_run>=1)))))] = FALSE
(forward)formula 10,1,0.405604,24392,1,0,47013,1024,1317,43916,481,2710,127648
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u10.A1L_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u10.A1L_rot1_run>=1)))))] = FALSE
(forward)formula 11,1,0.429254,25448,1,0,49650,1024,1320,46658,481,2714,135318
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u10.A1L_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u10.A1L_rot2_run>=1)))))] = FALSE
(forward)formula 12,1,0.473074,26768,1,0,52614,1024,1323,49617,481,2715,144364
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u10.A1L_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u10.A1L_rot3_run>=1)))))] = FALSE
(forward)formula 13,1,0.511734,28352,1,0,55849,1024,1326,52740,481,2716,153538
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_retract_ext>=1)&&(u10.A1L_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_retract_ext>=1)&&(u10.A1L_ext_run>=1)))))] = FALSE
(forward)formula 14,1,0.528665,29144,1,0,57612,1027,1329,54952,481,2717,158524
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_pick_up_ext>=1)&&(u13.A1L_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_pick_up_ext>=1)&&(u13.A1L_ret_run>=1)))))] = FALSE
(forward)formula 15,1,0.540721,29672,1,0,58535,1032,1332,56133,481,2718,161729
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u14.A1U_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u14.A1U_rot1_run>=1)))))] = FALSE
(forward)formula 16,1,0.556806,30464,1,0,60047,1032,1335,58064,481,2732,166219
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u14.A1U_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u14.A1U_rot2_run>=1)))))] = FALSE
(forward)formula 17,1,0.575113,31256,1,0,61880,1032,1338,60270,481,2741,171903
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u14.A1U_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u14.A1U_rot3_run>=1)))))] = FALSE
(forward)formula 18,1,0.597255,32576,1,0,64346,1032,1341,63106,481,2743,178953
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_retract_ext>=1)&&(u14.A1U_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_retract_ext>=1)&&(u14.A1U_ext_run>=1)))))] = FALSE
(forward)formula 19,1,0.610097,33104,1,0,65590,1049,1343,64750,481,2759,182476
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_release_ext>=1)&&(u13.A1U_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_release_ext>=1)&&(u13.A1U_ret_run>=1)))))] = FALSE
(forward)formula 20,1,0.617227,33632,1,0,66220,1052,1349,65486,483,2760,184698
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_release_height>=1)&&(i9.u17.CU_lift_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_release_height>=1)&&(i9.u17.CU_lift_run>=1)))))] = FALSE
(forward)formula 21,1,0.708307,37856,1,0,76474,1055,1360,74110,484,2771,211742
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u15.crane_above_feed_belt>=1)&&(i9.u17.CU_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u15.crane_above_feed_belt>=1)&&(i9.u17.CU_trans_run>=1)))))] = FALSE
(forward)formula 22,1,0.772522,41024,1,0,86444,1066,1365,82505,484,2790,237802
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_transport_height>=1)&&(i9.u16.CU_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_transport_height>=1)&&(i9.u16.CU_lower_run>=1)))))] = FALSE
(forward)formula 23,1,0.843963,44984,1,0,96931,1066,1372,91250,484,2793,264892
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_transport_height>=1)&&(i9.u18.CL_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_transport_height>=1)&&(i9.u18.CL_lower_run>=1)))))] = FALSE
(forward)formula 24,1,0.949442,48416,1,0,105923,1067,1377,98867,484,2793,288152
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u15.crane_above_deposit_belt>=1)&&(i9.u17.CL_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u15.crane_above_deposit_belt>=1)&&(i9.u17.CL_trans_run>=1)))))] = FALSE
(forward)formula 25,1,1.03642,51848,1,0,114240,1077,1382,105980,484,2807,310038
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_pick_up_height>=1)&&(i9.u17.CL_lift_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_pick_up_height>=1)&&(i9.u17.CL_lift_run>=1)))))] = FALSE
(forward)formula 26,1,1.09396,55016,1,0,122726,1080,1392,113286,486,2811,333126
Formula is TRUE !
***************************************
original formula: AG(EF(((i2.u7.ch_DC_free>=1)&&(i2.u7.ch_A2D_full>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i2.u7.ch_DC_free>=1)&&(i2.u7.ch_A2D_full>=1)))))] = FALSE
(forward)formula 27,1,1.13084,56864,1,0,127667,1080,1400,117806,487,2811,346365
Formula is TRUE !
***************************************
original formula: AG(EF((((i2.u6.ch_A2D_free>=1)&&(u13.swivel>=1))&&(u12.arm2_storing>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U (((i2.u6.ch_A2D_free>=1)&&(u13.swivel>=1))&&(u12.arm2_storing>=1)))))] = FALSE
(forward)formula 28,1,1.14064,57392,1,0,128398,1080,1408,118694,487,2811,349194
Formula is TRUE !
***************************************
original formula: AG(EF((((i0.u2.ch_A1P_free>=1)&&(u13.swivel>=1))&&(u13.arm1_storing>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U (((i0.u2.ch_A1P_free>=1)&&(u13.swivel>=1))&&(u13.arm1_storing>=1)))))] = FALSE
(forward)formula 29,1,1.14808,57656,1,0,128970,1080,1418,119430,489,2811,351236
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u16.ch_CF_free>=1)&&(i9.u16.crane_storing>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u16.ch_CF_free>=1)&&(i9.u16.crane_storing>=1)))))] = FALSE
(forward)formula 30,1,1.21436,61352,1,0,138670,1080,1421,127367,489,2811,376058
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u18.ch_DC_full>=1)&&(i9.u18.crane_store_free>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u18.ch_DC_full>=1)&&(i9.u18.crane_store_free>=1)))))] = FALSE
(forward)formula 31,1,1.27294,64520,1,0,146851,1080,1427,134095,489,2811,396966
Formula is TRUE !
***************************************
original formula: AG(EF((((u13.swivel>=1)&&(i1.i0.u4.TU_lift_rs>=1))&&(u13.arm1_store_free>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U (((u13.swivel>=1)&&(i1.i0.u4.TU_lift_rs>=1))&&(u13.arm1_store_free>=1)))))] = FALSE
(forward)formula 32,1,1.28702,65048,1,0,148132,1080,1434,135462,489,2811,401271
Formula is TRUE !
***************************************
original formula: AG(EF(((i1.i1.u0.ch_CF_full>=1)&&(i1.i1.u0.TL_lower_rs>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i1.i1.u0.ch_CF_full>=1)&&(i1.i1.u0.TL_lower_rs>=1)))))] = FALSE
(forward)formula 33,1,1.39358,69536,1,0,157531,1080,1444,143021,489,2811,426177
Formula is TRUE !
***************************************
original formula: AG(EF((((u13.swivel>=1)&&(i0.u1.PU_lower_rs>=1))&&(u12.arm2_store_free>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U (((u13.swivel>=1)&&(i0.u1.PU_lower_rs>=1))&&(u12.arm2_store_free>=1)))))] = FALSE
(forward)formula 34,1,1.39976,69800,1,0,157910,1080,1450,143590,489,2811,427743
Formula is TRUE !
***************************************
original formula: AG(EF(((i0.u1.press_at_upper_pos>=1)&&(i0.u1.forge_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i0.u1.press_at_upper_pos>=1)&&(i0.u1.forge_run>=1)))))] = FALSE
(forward)formula 35,1,1.41814,70328,1,0,159948,1080,1458,145784,489,2821,432935
Formula is TRUE !
***************************************
original formula: AG(EF(((i0.u2.press_at_middle_pos>=1)&&(i0.u2.PL_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i0.u2.press_at_middle_pos>=1)&&(i0.u2.PL_lower_run>=1)))))] = FALSE
(forward)formula 36,1,1.43484,70856,1,0,161748,1080,1464,147823,489,2821,437741
Formula is TRUE !
***************************************
original formula: AG(EF(((i1.i0.u3.table_load_angle>=1)&&(i1.i0.u3.TL_rot_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i1.i0.u3.table_load_angle>=1)&&(i1.i0.u3.TL_rot_run>=1)))))] = FALSE
(forward)formula 37,1,1.48761,73760,1,0,169539,1080,1471,154516,489,2821,458306
Formula is TRUE !
***************************************
original formula: AG(EF(((i1.i0.u5.table_unload_angle>=1)&&(i1.i0.u5.TU_rot_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i1.i0.u5.table_unload_angle>=1)&&(i1.i0.u5.TU_rot_run>=1)))))] = FALSE
(forward)formula 38,1,1.54685,76928,1,0,178435,1080,1475,161576,489,2821,482682
Formula is TRUE !
***************************************
original formula: AG(EF(((i2.u6.belt2_light_barrier_true>=1)&&(i2.u7.DB_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i2.u6.belt2_light_barrier_true>=1)&&(i2.u7.DB_trans_run>=1)))))] = FALSE
(forward)formula 39,1,1.58748,79040,1,0,183667,1080,1481,166290,489,2821,497594
Formula is TRUE !
***************************************
original formula: AG(EF(((i2.u6.belt2_light_barrier_false>=1)&&(i2.u6.DB_deliver_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i2.u6.belt2_light_barrier_false>=1)&&(i2.u6.DB_deliver_run>=1)))))] = FALSE
(forward)formula 40,1,1.62811,81152,1,0,188843,1080,1489,170948,491,2821,512392
Formula is TRUE !
***************************************
original formula: AG(EF(((i1.i1.u8.belt1_light_barrier_true>=1)&&(i1.i1.u0.FB_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i1.i1.u8.belt1_light_barrier_true>=1)&&(i1.i1.u0.FB_trans_run>=1)))))] = FALSE
(forward)formula 41,1,1.69785,84848,1,0,198098,1080,1497,178517,491,2821,539457
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.A2U_in>=1)&&(u10.arm1_pick_up_angle>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.A2U_in>=1)&&(u10.arm1_pick_up_angle>=1)))))] = FALSE
(forward)formula 42,1,1.70801,85112,1,0,198705,1080,1500,179345,491,2821,541792
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.A2U_in>=1)&&(u14.arm1_release_angle>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.A2U_in>=1)&&(u14.arm1_release_angle>=1)))))] = FALSE
(forward)formula 43,1,1.71333,85376,1,0,199083,1080,1502,179760,491,2821,543249
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.A2U_in>=1)&&(u11.arm2_pick_up_angle>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.A2U_in>=1)&&(u11.arm2_pick_up_angle>=1)))))] = FALSE
(forward)formula 44,1,1.72036,85640,1,0,199530,1080,1504,180329,491,2821,545014
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u9.A2U_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u9.A2U_rot1_run>=1)))))] = FALSE
(forward)formula 45,1,1.73157,86168,1,0,200237,1080,1508,181355,492,2821,547432
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u9.A2U_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u9.A2U_rot2_run>=1)))))] = FALSE
(forward)formula 46,1,1.74012,86432,1,0,200775,1080,1512,182133,493,2821,549208
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u9.A2U_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u9.A2U_rot3_run>=1)))))] = FALSE
(forward)formula 47,1,1.7497,86960,1,0,201379,1080,1516,183026,494,2821,551211
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_release_ext>=1)&&(u9.A2U_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_release_ext>=1)&&(u9.A2U_ext_run>=1)))))] = FALSE
(forward)formula 48,1,1.75892,87224,1,0,201912,1080,1518,183807,494,2821,553243
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_retract_ext>=1)&&(u12.A2U_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_retract_ext>=1)&&(u12.A2U_ret_run>=1)))))] = FALSE
(forward)formula 49,1,1.76809,87752,1,0,202487,1080,1520,184617,494,2821,555300
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u11.A2L_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u11.A2L_in>=1)))))] = FALSE
(forward)formula 50,1,1.77367,88016,1,0,202802,1080,1523,185036,494,2821,556547
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u11.A2L_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u11.A2L_in>=1)))))] = FALSE
(forward)formula 51,1,1.77735,88016,1,0,203024,1080,1525,185309,494,2821,557390
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u11.A2L_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u11.A2L_in>=1)))))] = FALSE
(forward)formula 52,1,1.78274,88280,1,0,203315,1080,1527,185720,494,2821,558548
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u11.A2L_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u11.A2L_rot1_run>=1)))))] = FALSE
(forward)formula 53,1,1.78863,88544,1,0,203665,1080,1529,186227,494,2824,559756
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u11.A2L_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u11.A2L_rot2_run>=1)))))] = FALSE
(forward)formula 54,1,1.79533,88808,1,0,204086,1080,1531,186896,494,2824,560965
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u11.A2L_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u11.A2L_rot3_run>=1)))))] = FALSE
(forward)formula 55,1,1.80142,88808,1,0,204443,1080,1533,187441,494,2826,562141
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_pick_up_ext>=1)&&(u11.A2L_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_pick_up_ext>=1)&&(u11.A2L_ext_run>=1)))))] = FALSE
(forward)formula 56,1,1.80778,89072,1,0,204735,1080,1535,187955,494,2826,563395
Formula is TRUE !
***************************************
original formula: AG(EF(((u12.arm2_retract_ext>=1)&&(u12.A2L_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u12.arm2_retract_ext>=1)&&(u12.A2L_ret_run>=1)))))] = FALSE
(forward)formula 57,1,1.81647,89600,1,0,205289,1080,1537,188722,494,2826,565457
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u10.A1L_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u10.A1L_in>=1)))))] = FALSE
(forward)formula 58,1,1.82217,89864,1,0,205665,1080,1540,189120,494,2826,567031
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u10.A1L_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u10.A1L_in>=1)))))] = FALSE
(forward)formula 59,1,1.82929,90128,1,0,206124,1080,1542,189678,494,2826,568801
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u10.A1L_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u10.A1L_in>=1)))))] = FALSE
(forward)formula 60,1,1.83772,90392,1,0,206635,1080,1544,190336,494,2826,570746
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u10.A1L_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u10.A1L_rot1_run>=1)))))] = FALSE
(forward)formula 61,1,1.84733,90656,1,0,207106,1080,1548,191155,495,2830,572488
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u10.A1L_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u10.A1L_rot2_run>=1)))))] = FALSE
(forward)formula 62,1,1.85595,90920,1,0,207587,1080,1550,191872,495,2830,574308
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u10.A1L_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u10.A1L_rot3_run>=1)))))] = FALSE
(forward)formula 63,1,1.86478,91184,1,0,208087,1080,1554,192593,497,2830,576141
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_pick_up_ext>=1)&&(u10.A1L_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_pick_up_ext>=1)&&(u10.A1L_ext_run>=1)))))] = FALSE
(forward)formula 64,1,1.87465,91712,1,0,208551,1080,1556,193368,497,2830,578128
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_retract_ext>=1)&&(u13.A1L_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_retract_ext>=1)&&(u13.A1L_ret_run>=1)))))] = FALSE
(forward)formula 65,1,1.8881,92240,1,0,209432,1080,1560,194483,499,2830,581130
Formula is TRUE !
***************************************
original formula: AG(EF(((u10.arm1_pick_up_angle>=1)&&(u14.A1U_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u10.arm1_pick_up_angle>=1)&&(u14.A1U_in>=1)))))] = FALSE
(forward)formula 66,1,1.89127,92504,1,0,209560,1080,1563,194678,499,2830,581631
Formula is TRUE !
***************************************
original formula: AG(EF(((u11.arm2_pick_up_angle>=1)&&(u14.A1U_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u11.arm2_pick_up_angle>=1)&&(u14.A1U_in>=1)))))] = FALSE
(forward)formula 67,1,1.89446,92504,1,0,209694,1080,1565,194870,499,2830,582156
Formula is TRUE !
***************************************
original formula: AG(EF(((u9.arm2_release_angle>=1)&&(u14.A1U_in>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u9.arm2_release_angle>=1)&&(u14.A1U_in>=1)))))] = FALSE
(forward)formula 68,1,1.97669,92768,1,0,209818,1080,1567,195039,499,2830,582652
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u14.A1U_rot1_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u14.A1U_rot1_run>=1)))))] = FALSE
(forward)formula 69,1,1.98036,93032,1,0,210040,1080,1569,195407,499,2835,583147
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u14.A1U_rot2_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u14.A1U_rot2_run>=1)))))] = FALSE
(forward)formula 70,1,1.98388,93032,1,0,210222,1080,1571,195706,499,2837,583698
Formula is TRUE !
***************************************
original formula: AG(EF(((u14.arm1_release_angle>=1)&&(u14.A1U_rot3_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u14.arm1_release_angle>=1)&&(u14.A1U_rot3_run>=1)))))] = FALSE
(forward)formula 71,1,1.98707,93296,1,0,210408,1080,1573,195985,499,2837,584219
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_release_ext>=1)&&(u14.A1U_ext_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_release_ext>=1)&&(u14.A1U_ext_run>=1)))))] = FALSE
(forward)formula 72,1,1.99028,93296,1,0,210512,1080,1575,196269,499,2837,584703
Formula is TRUE !
***************************************
original formula: AG(EF(((u13.arm1_retract_ext>=1)&&(u13.A1U_ret_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((u13.arm1_retract_ext>=1)&&(u13.A1U_ret_run>=1)))))] = FALSE
(forward)formula 73,1,1.99701,93296,1,0,211053,1080,1577,196907,499,2837,586545
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_transport_height>=1)&&(i9.u17.CU_lift_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_transport_height>=1)&&(i9.u17.CU_lift_run>=1)))))] = FALSE
(forward)formula 74,1,2.06444,96728,1,0,220118,1081,1581,204430,499,2838,610342
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u15.crane_above_deposit_belt>=1)&&(i9.u17.CU_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u15.crane_above_deposit_belt>=1)&&(i9.u17.CU_trans_run>=1)))))] = FALSE
(forward)formula 75,1,2.19642,100424,1,0,229789,1081,1585,212255,499,2838,636394
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_release_height>=1)&&(i9.u16.CU_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_release_height>=1)&&(i9.u16.CU_lower_run>=1)))))] = FALSE
(forward)formula 76,1,2.26813,104384,1,0,240101,1082,1589,220679,499,2840,663721
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_pick_up_height>=1)&&(i9.u18.CL_lower_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_pick_up_height>=1)&&(i9.u18.CL_lower_run>=1)))))] = FALSE
(forward)formula 77,1,2.32997,107552,1,0,248734,1083,1593,227828,499,2840,687133
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u15.crane_above_feed_belt>=1)&&(i9.u17.CL_trans_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u15.crane_above_feed_belt>=1)&&(i9.u17.CL_trans_run>=1)))))] = FALSE
(forward)formula 78,1,2.38641,110720,1,0,256385,1083,1597,234291,499,2840,708427
Formula is TRUE !
***************************************
original formula: AG(EF(((i9.u17.crane_transport_height>=1)&&(i9.u17.CL_lift_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i9.u17.crane_transport_height>=1)&&(i9.u17.CL_lift_run>=1)))))] = FALSE
(forward)formula 79,1,2.44142,113360,1,0,263703,1083,1601,240518,499,2840,728064
Formula is TRUE !
***************************************
original formula: AG(EF(((i1.i1.u8.belt1_light_barrier_false>=1)&&(i1.i1.u8.FB_deliver_run>=1))))
=> equivalent forward existential formula: [(FwdU(Init,TRUE) * !(E(TRUE U ((i1.i1.u8.belt1_light_barrier_false>=1)&&(i1.i1.u8.FB_deliver_run>=1)))))] = FALSE
(forward)formula 80,1,2.50727,116792,1,0,272221,1084,1611,247467,501,2841,752745
Formula is TRUE !
***************************************
Able to resolve query Liveness after proving 94 properties.
FORMULA Liveness TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL USE_NUPN
BK_STOP 1620948018675
--------------------
content from stderr:
+ export BINDIR=/home/mcc/BenchKit/bin//../
+ BINDIR=/home/mcc/BenchKit/bin//../
++ pwd
+ export MODEL=/home/mcc/execution
+ MODEL=/home/mcc/execution
+ [[ Liveness = StateSpace ]]
+ /home/mcc/BenchKit/bin//..//runeclipse.sh /home/mcc/execution Liveness -its -ltsmin -greatspnpath /home/mcc/BenchKit/bin//..//greatspn/ -order META -manyOrder -smt -timeout 1800
+ ulimit -s 65536
+ [[ -z '' ]]
+ export LTSMIN_MEM_SIZE=8589934592
+ LTSMIN_MEM_SIZE=8589934592
++ cut -d . -f 9
++ ls /home/mcc/BenchKit/bin//..//itstools/plugins/fr.lip6.move.gal.application.pnmcc_1.0.0.202104292328.jar
+ VERSION=0
+ echo 'Running Version 0'
+ /home/mcc/BenchKit/bin//..//itstools/its-tools -data /home/mcc/execution/workspace -pnfolder /home/mcc/execution -examination Liveness -spotpath /home/mcc/BenchKit/bin//..//ltlfilt -z3path /home/mcc/BenchKit/bin//..//z3/bin/z3 -yices2path /home/mcc/BenchKit/bin//..//yices/bin/yices -its -ltsmin -greatspnpath /home/mcc/BenchKit/bin//..//greatspn/ -order META -manyOrder -smt -timeout 1800 -vmargs -Dosgi.locking=none -Declipse.stateSaveDelayInterval=-1 -Dosgi.configuration.area=/tmp/.eclipse -Xss128m -Xms40m -Xmx16000m
Sequence of Actions to be Executed by the VM
This is useful if one wants to reexecute the tool in the VM from the submitted image disk.
set -x
# this is for BenchKit: configuration of major elements for the test
export BK_INPUT="ParamProductionCell-PT-3"
export BK_EXAMINATION="Liveness"
export BK_TOOL="itstools"
export BK_RESULT_DIR="/tmp/BK_RESULTS/OUTPUTS"
export BK_TIME_CONFINEMENT="1800"
export BK_MEMORY_CONFINEMENT="16384"
export BK_BIN_PATH="/home/mcc/BenchKit/bin/"
# this is specific to your benchmark or test
export BIN_DIR="$HOME/BenchKit/bin"
# remove the execution directoty if it exists (to avoid increse of .vmdk images)
if [ -d execution ] ; then
rm -rf execution
fi
# this is for BenchKit: explicit launching of the test
echo "====================================================================="
echo " Generated by BenchKit 2-4028"
echo " Executing tool itstools"
echo " Input is ParamProductionCell-PT-3, examination is Liveness"
echo " Time confinement is $BK_TIME_CONFINEMENT seconds"
echo " Memory confinement is 16384 MBytes"
echo " Number of cores is 4"
echo " Run identifier is r147-tall-162089138000244"
echo "====================================================================="
echo
echo "--------------------"
echo "preparation of the directory to be used:"
tar xzf /home/mcc/BenchKit/INPUTS/ParamProductionCell-PT-3.tgz
mv ParamProductionCell-PT-3 execution
cd execution
if [ "Liveness" = "ReachabilityDeadlock" ] || [ "Liveness" = "UpperBounds" ] || [ "Liveness" = "QuasiLiveness" ] || [ "Liveness" = "StableMarking" ] || [ "Liveness" = "Liveness" ] || [ "Liveness" = "OneSafe" ] || [ "Liveness" = "StateSpace" ]; then
rm -f GenericPropertiesVerdict.xml
fi
pwd
ls -lh
echo
echo "--------------------"
echo "content from stdout:"
echo
echo "=== Data for post analysis generated by BenchKit (invocation template)"
echo
if [ "Liveness" = "UpperBounds" ] ; then
echo "The expected result is a vector of positive values"
echo NUM_VECTOR
elif [ "Liveness" != "StateSpace" ] ; then
echo "The expected result is a vector of booleans"
echo BOOL_VECTOR
else
echo "no data necessary for post analysis"
fi
echo
if [ -f "Liveness.txt" ] ; then
echo "here is the order used to build the result vector(from text file)"
for x in $(grep Property Liveness.txt | cut -d ' ' -f 2 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ -f "Liveness.xml" ] ; then # for cunf (txt files deleted;-)
echo echo "here is the order used to build the result vector(from xml file)"
for x in $(grep '
echo "FORMULA_NAME $x"
done
elif [ "Liveness" = "ReachabilityDeadlock" ] || [ "Liveness" = "QuasiLiveness" ] || [ "Liveness" = "StableMarking" ] || [ "Liveness" = "Liveness" ] || [ "Liveness" = "OneSafe" ] ; then
echo "FORMULA_NAME Liveness"
fi
echo
echo "=== Now, execution of the tool begins"
echo
echo -n "BK_START "
date -u +%s%3N
echo
timeout -s 9 $BK_TIME_CONFINEMENT bash -c "/home/mcc/BenchKit/BenchKit_head.sh 2> STDERR ; echo ; echo -n \"BK_STOP \" ; date -u +%s%3N"
if [ $? -eq 137 ] ; then
echo
echo "BK_TIME_CONFINEMENT_REACHED"
fi
echo
echo "--------------------"
echo "content from stderr:"
echo
cat STDERR ;