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Model Checking Contest 2021
11th edition, Paris, France, June 23, 2021
Execution of r121-tall-162075406300005
Last Updated
Jun 28, 2021

About the Execution of ITS-Tools for GlobalResAllocation-COL-03

Execution Summary
Max Memory
Used (MB)		 Time wait (ms) CPU Usage (ms) I/O Wait (ms) Computed Result Execution
Status
363.119 34408.00 49201.00 725.40 TFTFFFFFFFFFTFFF 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.r121-tall-162075406300005.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)
.....................
=====================================================================
Generated by BenchKit 2-4028
Executing tool itstools
Input is GlobalResAllocation-COL-03, examination is LTLFireability
Time confinement is 3600 seconds
Memory confinement is 16384 MBytes
Number of cores is 4
Run identifier is r121-tall-162075406300005
=====================================================================

--------------------
preparation of the directory to be used:
/home/mcc/execution
total 388K
-rw-r--r-- 1 mcc users 16K May 5 16:58 CTLCardinality.txt
-rw-r--r-- 1 mcc users 127K May 10 09:43 CTLCardinality.xml
-rw-r--r-- 1 mcc users 8.0K May 5 16:58 CTLFireability.txt
-rw-r--r-- 1 mcc users 61K 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 6.3K May 6 14:48 GenericPropertiesVerdict.xml
-rw-r--r-- 1 mcc users 4.2K Mar 28 16:13 LTLCardinality.txt
-rw-r--r-- 1 mcc users 26K Mar 28 16:13 LTLCardinality.xml
-rw-r--r-- 1 mcc users 2.2K Mar 28 16:13 LTLFireability.txt
-rw-r--r-- 1 mcc users 16K Mar 28 16:13 LTLFireability.xml
-rw-r--r-- 1 mcc users 4.0K Mar 23 11:25 ReachabilityCardinality.txt
-rw-r--r-- 1 mcc users 18K Mar 23 11:25 ReachabilityCardinality.xml
-rw-r--r-- 1 mcc users 3.6K Mar 22 20:41 ReachabilityFireability.txt
-rw-r--r-- 1 mcc users 23K Mar 22 20:41 ReachabilityFireability.xml
-rw-r--r-- 1 mcc users 1.8K 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 5 May 5 16:51 equiv_pt
-rw-r--r-- 1 mcc users 3 May 5 16:51 instance
-rw-r--r-- 1 mcc users 5 May 5 16:51 iscolored
-rw-r--r-- 1 mcc users 28K 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

here is the order used to build the result vector(from text file)
FORMULA_NAME GlobalResAllocation-COL-03-00
FORMULA_NAME GlobalResAllocation-COL-03-01
FORMULA_NAME GlobalResAllocation-COL-03-02
FORMULA_NAME GlobalResAllocation-COL-03-03
FORMULA_NAME GlobalResAllocation-COL-03-04
FORMULA_NAME GlobalResAllocation-COL-03-05
FORMULA_NAME GlobalResAllocation-COL-03-06
FORMULA_NAME GlobalResAllocation-COL-03-07
FORMULA_NAME GlobalResAllocation-COL-03-08
FORMULA_NAME GlobalResAllocation-COL-03-09
FORMULA_NAME GlobalResAllocation-COL-03-10
FORMULA_NAME GlobalResAllocation-COL-03-11
FORMULA_NAME GlobalResAllocation-COL-03-12
FORMULA_NAME GlobalResAllocation-COL-03-13
FORMULA_NAME GlobalResAllocation-COL-03-14
FORMULA_NAME GlobalResAllocation-COL-03-15

=== Now, execution of the tool begins

BK_START 1620771481195

Running Version 0
[2021-05-11 22:18:03] [INFO ] Running its-tools with arguments : [-pnfolder, /home/mcc/execution, -examination, LTLFireability, -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, 3600]
[2021-05-11 22:18:03] [INFO ] Parsing pnml file : /home/mcc/execution/model.pnml
[2021-05-11 22:18:04] [INFO ] Detected file is not PT type :http://www.pnml.org/version-2009/grammar/symmetricnet
log4j:WARN No appenders could be found for logger (org.apache.axiom.locator.DefaultOMMetaFactoryLocator).
log4j:WARN Please initialize the log4j system properly.
[2021-05-11 22:18:04] [WARNING] Using fallBack plugin, rng conformance not checked
[2021-05-11 22:18:04] [INFO ] Load time of PNML (colored model parsed with PNMLFW) : 620 ms
[2021-05-11 22:18:04] [INFO ] r2 symmetric to r1 in transition enter2
[2021-05-11 22:18:04] [INFO ] r2 symmetric to r3 in transition enter3
[2021-05-11 22:18:04] [INFO ] r3 symmetric to r1 in transition enter3
[2021-05-11 22:18:04] [INFO ] r2 symmetric to r3 in transition enter4
[2021-05-11 22:18:04] [INFO ] r3 symmetric to r4 in transition enter4
[2021-05-11 22:18:04] [INFO ] r4 symmetric to r1 in transition enter4
[2021-05-11 22:18:04] [INFO ] r2 symmetric to r1 in transition release2
[2021-05-11 22:18:04] [INFO ] Imported 5 HL places and 7 HL transitions for a total of 33 PT places and 4791.0 transition bindings in 23 ms.
Parsed 16 properties from file /home/mcc/execution/LTLFireability.xml in 7 ms.
Working with output stream class java.io.PrintStream
[2021-05-11 22:18:04] [INFO ] Built PT skeleton of HLPN with 5 places and 7 transitions in 4 ms.
[2021-05-11 22:18:04] [INFO ] Skeletonized HLPN properties in 1 ms.
Successfully produced net in file /tmp/petri1000_7571314807414813132.dot
Finished random walk after 0 steps, including 0 resets, run visited all 0 properties in 1 ms. (steps per millisecond=0 )
[2021-05-11 22:18:04] [INFO ] Flatten gal took : 16 ms
[2021-05-11 22:18:04] [INFO ] Flatten gal took : 2 ms
[2021-05-11 22:18:04] [INFO ] Unfolded HLPN to a Petri net with 33 places and 711 transitions in 25 ms.
[2021-05-11 22:18:04] [INFO ] Unfolded HLPN properties in 1 ms.
Successfully produced net in file /tmp/petri1001_1256208514488563225.dot
[2021-05-11 22:18:04] [INFO ] Initial state test concluded for 2 properties.
FORMULA GlobalResAllocation-COL-03-08 FALSE TECHNIQUES TOPOLOGICAL INITIAL_STATE
Support contains 33 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 711/711 transitions.
Reduce isomorphic (modulo) transitions removed 0 transitions.
Iterating post reduction 0 with 36 rules applied. Total rules applied 36 place count 33 transition count 693
Applied a total of 36 rules in 39 ms. Remains 33 /33 variables (removed 0) and now considering 693/711 (removed 18) transitions.
// Phase 1: matrix 693 rows 33 cols
[2021-05-11 22:18:05] [INFO ] Computed 12 place invariants in 31 ms
[2021-05-11 22:18:05] [INFO ] Dead Transitions using invariants and state equation in 381 ms returned [18, 20, 23, 27, 32, 38, 39, 41, 44, 48, 53, 59, 60, 62, 65, 69, 74, 80, 81, 82, 83, 84, 85, 87, 88, 89, 90, 91, 93, 96, 97, 98, 99, 100, 101, 103, 106, 110, 111, 112, 113, 114, 115, 116, 118, 121, 125, 130, 131, 132, 133, 134, 135, 136, 137, 138, 139, 140, 141, 143, 144, 145, 146, 147, 149, 152, 153, 154, 155, 156, 157, 159, 162, 166, 167, 168, 169, 170, 171, 172, 174, 177, 181, 186, 187, 188, 189, 190, 191, 192, 193, 194, 195, 196, 197, 199, 200, 201, 202, 203, 205, 208, 209, 210, 211, 212, 213, 215, 218, 222, 223, 224, 225, 226, 227, 228, 230, 233, 237, 242, 243, 244, 245, 246, 247, 248, 249, 250, 251, 252, 253, 254, 255, 256, 257, 258, 259, 260, 261, 262, 263, 264, 265, 266, 267, 268, 270, 271, 272, 273, 274, 275, 276, 277, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 288, 290, 291, 292, 293, 294, 296, 299, 300, 301, 302, 303, 304, 305, 306, 307, 308, 309, 310, 311, 312, 313, 314, 315, 316, 317, 318, 319, 320, 321, 322, 323, 325, 326, 327, 328, 329, 331, 334, 335, 336, 337, 338, 339, 341, 344, 348, 349, 350, 351, 352, 353, 354, 355, 356, 357, 358, 359, 360, 361, 362, 363, 364, 365, 366, 367, 368, 369, 370, 371, 372, 373, 374, 375, 376, 377, 378, 379, 380, 381, 382, 383, 384, 385, 386, 387, 388, 389, 390, 391, 392, 393, 394, 396, 397, 398, 399, 400, 401, 402, 403, 404, 405, 406, 407, 408, 409, 410, 411, 412, 413, 414, 416, 417, 418, 419, 420, 422, 425, 426, 427, 428, 429, 430, 431, 432, 433, 434, 435, 436, 437, 438, 439, 440, 441, 442, 443, 444, 445, 446, 447, 448, 449, 451, 452, 453, 454, 455, 457, 460, 461, 462, 463, 464, 465, 467, 470, 474, 475, 476, 477, 478, 479, 480, 481, 482, 483, 484, 485, 486, 487, 488, 489, 490, 491, 492, 493, 494, 495, 496, 497, 498, 499, 500, 501, 502, 503, 504, 505, 506, 507, 508, 509, 510, 511, 512, 513, 514, 515, 516, 517, 518, 519, 520, 522, 523, 524, 525, 526, 527, 528, 529, 530, 531, 532, 533, 534, 535, 536, 537, 538, 539, 540, 542, 543, 544, 545, 546, 548, 551, 552, 553, 554, 555, 556, 557, 558, 559, 560, 561, 562, 563, 564, 565, 566, 567, 568, 569, 570, 571, 572, 573, 574, 575, 577, 578, 579, 580, 581, 583, 586, 587, 588, 589, 590, 591, 593, 596, 600, 601, 602, 603, 604, 605, 606, 607, 608, 609, 610, 611, 612, 613, 614, 615, 616, 617, 618, 619, 620, 621, 622, 623, 624, 625, 626]
Found 459 dead transitions using SMT.
Drop transitions removed 459 transitions
Dead transitions reduction (with SMT) triggered by suspicious arc values removed 459 transitions :[626, 625, 624, 623, 622, 621, 620, 619, 618, 617, 616, 615, 614, 613, 612, 611, 610, 609, 608, 607, 606, 605, 604, 603, 602, 601, 600, 596, 593, 591, 590, 589, 588, 587, 586, 583, 581, 580, 579, 578, 577, 575, 574, 573, 572, 571, 570, 569, 568, 567, 566, 565, 564, 563, 562, 561, 560, 559, 558, 557, 556, 555, 554, 553, 552, 551, 548, 546, 545, 544, 543, 542, 540, 539, 538, 537, 536, 535, 534, 533, 532, 531, 530, 529, 528, 527, 526, 525, 524, 523, 522, 520, 519, 518, 517, 516, 515, 514, 513, 512, 511, 510, 509, 508, 507, 506, 505, 504, 503, 502, 501, 500, 499, 498, 497, 496, 495, 494, 493, 492, 491, 490, 489, 488, 487, 486, 485, 484, 483, 482, 481, 480, 479, 478, 477, 476, 475, 474, 470, 467, 465, 464, 463, 462, 461, 460, 457, 455, 454, 453, 452, 451, 449, 448, 447, 446, 445, 444, 443, 442, 441, 440, 439, 438, 437, 436, 435, 434, 433, 432, 431, 430, 429, 428, 427, 426, 425, 422, 420, 419, 418, 417, 416, 414, 413, 412, 411, 410, 409, 408, 407, 406, 405, 404, 403, 402, 401, 400, 399, 398, 397, 396, 394, 393, 392, 391, 390, 389, 388, 387, 386, 385, 384, 383, 382, 381, 380, 379, 378, 377, 376, 375, 374, 373, 372, 371, 370, 369, 368, 367, 366, 365, 364, 363, 362, 361, 360, 359, 358, 357, 356, 355, 354, 353, 352, 351, 350, 349, 348, 344, 341, 339, 338, 337, 336, 335, 334, 331, 329, 328, 327, 326, 325, 323, 322, 321, 320, 319, 318, 317, 316, 315, 314, 313, 312, 311, 310, 309, 308, 307, 306, 305, 304, 303, 302, 301, 300, 299, 296, 294, 293, 292, 291, 290, 288, 287, 286, 285, 284, 283, 282, 281, 280, 279, 278, 277, 276, 275, 274, 273, 272, 271, 270, 268, 267, 266, 265, 264, 263, 262, 261, 260, 259, 258, 257, 256, 255, 254, 253, 252, 251, 250, 249, 248, 247, 246, 245, 244, 243, 242, 237, 233, 230, 228, 227, 226, 225, 224, 223, 222, 218, 215, 213, 212, 211, 210, 209, 208, 205, 203, 202, 201, 200, 199, 197, 196, 195, 194, 193, 192, 191, 190, 189, 188, 187, 186, 181, 177, 174, 172, 171, 170, 169, 168, 167, 166, 162, 159, 157, 156, 155, 154, 153, 152, 149, 147, 146, 145, 144, 143, 141, 140, 139, 138, 137, 136, 135, 134, 133, 132, 131, 130, 125, 121, 118, 116, 115, 114, 113, 112, 111, 110, 106, 103, 101, 100, 99, 98, 97, 96, 93, 91, 90, 89, 88, 87, 85, 84, 83, 82, 81, 80, 74, 69, 65, 62, 60, 59, 53, 48, 44, 41, 39, 38, 32, 27, 23, 20, 18]
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:05] [INFO ] Computed 12 place invariants in 3 ms
[2021-05-11 22:18:05] [INFO ] Implicit Places using invariants in 22 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:05] [INFO ] Computed 12 place invariants in 5 ms
[2021-05-11 22:18:05] [INFO ] Implicit Places using invariants and state equation in 66 ms returned []
Implicit Place search using SMT with State Equation took 91 ms to find 0 implicit places.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:05] [INFO ] Computed 12 place invariants in 3 ms
[2021-05-11 22:18:05] [INFO ] Dead Transitions using invariants and state equation in 82 ms returned []
Starting structural reductions, iteration 1 : 33/33 places, 234/711 transitions.
Applied a total of 0 rules in 2 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:05] [INFO ] Computed 12 place invariants in 3 ms
[2021-05-11 22:18:05] [INFO ] Dead Transitions using invariants and state equation in 91 ms returned []
Finished structural reductions, in 2 iterations. Remains : 33/33 places, 234/711 transitions.
[2021-05-11 22:18:05] [INFO ] Initial state reduction rules for LTL removed 1 formulas.
[2021-05-11 22:18:05] [INFO ] Flatten gal took : 63 ms
FORMULA GlobalResAllocation-COL-03-02 TRUE TECHNIQUES TOPOLOGICAL INITIAL_STATE
[2021-05-11 22:18:06] [INFO ] Flatten gal took : 57 ms
[2021-05-11 22:18:06] [INFO ] Input system was already deterministic with 234 transitions.
Finished random walk after 12 steps, including 0 resets, run visited all 13 properties in 3 ms. (steps per millisecond=4 )
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(F(p0))], workingDir=/home/mcc/execution]
Support contains 3 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 41 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:06] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:06] [INFO ] Dead Transitions using invariants and state equation in 94 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:06] [INFO ] Computed 12 place invariants in 3 ms
[2021-05-11 22:18:06] [INFO ] Implicit Places using invariants in 76 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 79 ms to find 3 implicit places.
[2021-05-11 22:18:07] [INFO ] Redundant transitions in 74 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:07] [INFO ] Computed 9 place invariants in 2 ms
[2021-05-11 22:18:07] [INFO ] Dead Transitions using invariants and state equation in 65 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 189/234 transitions.
Applied a total of 0 rules in 6 ms. Remains 30 /30 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:07] [INFO ] Redundant transitions in 6 ms returned []
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:07] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:07] [INFO ] Dead Transitions using invariants and state equation in 85 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 233 ms :[(NOT p0)]
Running random walk in product with property : GlobalResAllocation-COL-03-00 automaton TGBA [mat=[[{ cond=(NOT p0), acceptance={0} source=0 dest: 0}]], initial=0, aps=[p0:(OR (GEQ s27 4) (GEQ s28 4) (GEQ s29 4))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, colored, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant, very-weak, weak, inherently-weak], stateDesc=[null][true]]
Product exploration explored 100000 steps with 14325 reset in 795 ms.
Product exploration explored 100000 steps with 14318 reset in 770 ms.
Knowledge obtained : [(NOT p0)]
Stuttering acceptance computed with spot in 38 ms :[(NOT p0)]
Product exploration explored 100000 steps with 14294 reset in 640 ms.
Product exploration explored 100000 steps with 14296 reset in 656 ms.
[2021-05-11 22:18:10] [INFO ] Flatten gal took : 18 ms
[2021-05-11 22:18:10] [INFO ] Flatten gal took : 22 ms
[2021-05-11 22:18:10] [INFO ] Time to serialize gal into /tmp/LTL8161213911630968893.gal : 4 ms
[2021-05-11 22:18:10] [INFO ] Time to serialize properties into /tmp/LTL17215863133824576082.ltl : 1 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-ltl-linux64, --gc-threshold, 2000000, -i, /tmp/LTL8161213911630968893.gal, -t, CGAL, -LTL, /tmp/LTL17215863133824576082.ltl, -c, -stutter-deadlock, --gen-order, FOLLOW], workingDir=/home/mcc/execution]

its-ltl command run as :

/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.202104292328/bin/its-ltl-linux64 --gc-threshold 2000000 -i /tmp/LTL8161213911630968893.gal -t CGAL -LTL /tmp/LTL17215863133824576082.ltl -c -stutter-deadlock --gen-order FOLLOW
Read 1 LTL properties
Checking formula 0 : !((F("(((pr_released_0>=4)||(pr_released_1>=4))||(pr_released_2>=4))")))
Formula 0 simplified : !F"(((pr_released_0>=4)||(pr_released_1>=4))||(pr_released_2>=4))"
Reverse transition relation is exact ! Faster fixpoint algorithm enabled.
1 unique states visited
0 strongly connected components in search stack
0 transitions explored
1 items max in DFS search stack
146 ticks for the emptiness check
Model ,|S| ,Time ,Mem(kb) ,fin. SDD ,fin. DDD ,peak SDD ,peak DDD ,SDD Hom ,SDD cache peak ,DDD Hom ,DDD cachepeak ,SHom cache
STATS,0,1.48579,58364,1,0,39,172580,20,5,3876,109721,88
no accepting run found
Formula 0 is TRUE no accepting run found.
FORMULA GlobalResAllocation-COL-03-00 TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
ITS tools runner thread asked to quit. Dying gracefully.
Treatment of property GlobalResAllocation-COL-03-00 finished in 5602 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(((X((p1 U p2))||p0) U X(X(G(p3)))))], workingDir=/home/mcc/execution]
Support contains 30 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 1 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:12] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:12] [INFO ] Dead Transitions using invariants and state equation in 98 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:12] [INFO ] Computed 12 place invariants in 4 ms
[2021-05-11 22:18:12] [INFO ] Implicit Places using invariants in 21 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:12] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:12] [INFO ] Implicit Places using invariants and state equation in 49 ms returned []
Implicit Place search using SMT with State Equation took 80 ms to find 0 implicit places.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:12] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:12] [INFO ] Dead Transitions using invariants and state equation in 78 ms returned []
Finished structural reductions, in 1 iterations. Remains : 33/33 places, 234/234 transitions.
Stuttering acceptance computed with spot in 221 ms :[(AND (NOT p2) (NOT p3)), (NOT p3), (NOT p3), (AND (NOT p2) (NOT p3)), true, (NOT p2)]
Running random walk in product with property : GlobalResAllocation-COL-03-01 automaton TGBA [mat=[[{ cond=(AND (NOT p2) (NOT p1)), acceptance={} source=0 dest: 2}, { cond=(AND (NOT p2) p1), acceptance={} source=0 dest: 3}], [{ cond=(NOT p0), acceptance={} source=1 dest: 0}, { cond=(NOT p3), acceptance={0} source=1 dest: 1}, { cond=p3, acceptance={} source=1 dest: 1}], [{ cond=p3, acceptance={} source=2 dest: 2}, { cond=(NOT p3), acceptance={} source=2 dest: 4}], [{ cond=(AND (NOT p2) (NOT p1) p3), acceptance={} source=3 dest: 2}, { cond=(AND (NOT p2) p1 p3), acceptance={} source=3 dest: 3}, { cond=(AND (NOT p2) (NOT p1) (NOT p3)), acceptance={} source=3 dest: 4}, { cond=(AND (NOT p2) p1 (NOT p3)), acceptance={} source=3 dest: 5}], [{ cond=true, acceptance={0} source=4 dest: 4}], [{ cond=(AND (NOT p2) (NOT p1)), acceptance={} source=5 dest: 4}, { cond=(AND (NOT p2) p1), acceptance={0} source=5 dest: 5}]], initial=1, aps=[p2:(AND (OR (AND (GEQ s1 1) (GEQ s4 4)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s6 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 3)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s7 4)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s5 4)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 2)) (AND (GEQ s2 1) (GEQ s7 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 4)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s6 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 3)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s6 4)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s6 4)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s7 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 4)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 3) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 3)) (AND (GEQ s1 1) (GEQ s7 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 3)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s7 4)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s7 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s7 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 4)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 3)) (AND (GEQ s0 1) (GEQ s8 4)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s7 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s8 4)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 3)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s4 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 3) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s7 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 4)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s7 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 4)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 3)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 3) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s7 4)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s7 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 3)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s5 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 3)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s8 4)) (AND (GEQ s0 1) (GEQ s5 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 4)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 4)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 2)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 4)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s8 3))) (OR (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s3 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 3)) (AND (GEQ s2 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s4 3)) (AND (GEQ s0 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 3)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 3)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 1)) (AND 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(GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 4)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 1) 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1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s4 3)) (AND (GEQ s0 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 3)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 3)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s4 3)) (AND (GEQ s2 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s8 2))), p3:(AND (OR (LT s1 1) (LT s6 1)) (OR (LT s1 1) (LT s5 1)) (OR (LT s1 1) (LT s4 1)) (OR (LT s1 1) (LT s3 1)) (OR (LT s1 1) (LT s8 1)) (OR (LT s1 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1)) (OR (LT s0 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1)) (OR (LT s0 1) (LT s3 1)) (OR (LT s2 1) (LT s5 1)) (OR (LT s2 1) (LT s4 1)) (OR (LT s2 1) (LT s7 1)) (OR (LT s2 1) (LT s6 1)) (OR (LT s2 1) (LT s8 1)) (OR (LT s0 1) (LT s8 1)) (OR (AND (GEQ s9 2) (GEQ s13 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s27 1)) (AND (GEQ s9 2) (GEQ s15 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s17 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s19 1)) (AND (GEQ s9 2) (GEQ s17 2)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s13 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s27 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s25 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s23 1)) (AND (GEQ s11 2) (GEQ s27 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s21 1)) (AND (GEQ s11 2) (GEQ s29 2)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s25 1)) (AND (GEQ s11 2) (GEQ s28 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s27 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s15 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s29 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s23 1)) (AND (GEQ s10 2) (GEQ s18 2)) (AND (GEQ s10 2) (GEQ s22 2)) (AND (GEQ s10 2) (GEQ s20 2)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s14 2)) (AND (GEQ s9 2) (GEQ s16 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s12 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s16 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s26 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s28 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 2)) (AND (GEQ s11 2) (GEQ s26 2)) (AND (GEQ s11 2) (GEQ s28 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s22 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s26 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s16 1)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s19 2)) (AND (GEQ s10 2) (GEQ s23 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s28 1)) (AND (GEQ s10 2) (GEQ s21 2))))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, no-univ-branch], stateDesc=[null, null, null, null, null, null][false, false, false, false, false, false]]
Entered a terminal (fully accepting) state of product in 7 steps with 0 reset in 0 ms.
FORMULA GlobalResAllocation-COL-03-01 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-01 finished in 519 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(F(p0))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 7 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:12] [INFO ] Computed 12 place invariants in 11 ms
[2021-05-11 22:18:12] [INFO ] Dead Transitions using invariants and state equation in 124 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:13] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:13] [INFO ] Implicit Places using invariants in 52 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 70 ms to find 3 implicit places.
[2021-05-11 22:18:13] [INFO ] Redundant transitions in 72 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:13] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:13] [INFO ] Dead Transitions using invariants and state equation in 124 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 189/234 transitions.
Applied a total of 0 rules in 5 ms. Remains 30 /30 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:13] [INFO ] Redundant transitions in 1 ms returned []
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:13] [INFO ] Computed 9 place invariants in 6 ms
[2021-05-11 22:18:13] [INFO ] Dead Transitions using invariants and state equation in 97 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 26 ms :[(NOT p0)]
Running random walk in product with property : GlobalResAllocation-COL-03-03 automaton TGBA [mat=[[{ cond=(NOT p0), acceptance={0} source=0 dest: 0}]], initial=0, aps=[p0:(AND (OR (LT s1 1) (LT s3 2)) (OR (LT s2 1) (LT s3 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s7 2)) (OR (LT s1 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s5 1)) (OR (LT s2 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 2)) (OR (LT s0 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 1) (LT s7 1)) (OR (LT s2 1) (LT s5 2)) (OR (LT s2 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s6 2)) (OR (LT s0 1) (LT s8 2)) (OR (LT s0 1) (LT s4 2)) (OR (LT s0 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s6 2)) (OR (LT s2 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1)) (OR (LT s1 1) (LT s4 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s8 2)) (OR (LT s1 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s8 2)) (OR (LT s1 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s5 2)) (OR (LT s0 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2)) (OR (LT s1 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, colored, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant, very-weak, weak, inherently-weak], stateDesc=[null][true]]
Product exploration explored 100000 steps with 24885 reset in 1193 ms.
Stack based approach found an accepted trace after 219 steps with 54 reset with depth 5 and stack size 5 in 3 ms.
FORMULA GlobalResAllocation-COL-03-03 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-03 finished in 1762 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(X(X((F(p0)||(X((p2 U (G(p2)||p3)))&&p1)))))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 2 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:14] [INFO ] Computed 12 place invariants in 3 ms
[2021-05-11 22:18:14] [INFO ] Dead Transitions using invariants and state equation in 143 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:14] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:14] [INFO ] Implicit Places using invariants in 46 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 47 ms to find 3 implicit places.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:14] [INFO ] Computed 9 place invariants in 2 ms
[2021-05-11 22:18:14] [INFO ] Dead Transitions using invariants and state equation in 91 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 234/234 transitions.
Applied a total of 0 rules in 1 ms. Remains 30 /30 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:14] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:14] [INFO ] Dead Transitions using invariants and state equation in 93 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 234/234 transitions.
Stuttering acceptance computed with spot in 152 ms :[(NOT p0), (OR (AND (NOT p0) (NOT p2) (NOT p3)) (AND (NOT p0) (NOT p1))), (AND (NOT p0) (NOT p3) (NOT p2)), (OR (AND (NOT p0) (NOT p2) (NOT p3)) (AND (NOT p0) (NOT p1))), (OR (AND (NOT p0) (NOT p2) (NOT p3)) (AND (NOT p0) (NOT p1)))]
Running random walk in product with property : GlobalResAllocation-COL-03-04 automaton TGBA [mat=[[{ cond=(NOT p0), acceptance={0} source=0 dest: 0}], [{ cond=(AND (NOT p0) (NOT p1)), acceptance={} source=1 dest: 0}, { cond=(AND (NOT p0) p1), acceptance={} source=1 dest: 2}], [{ cond=(AND (NOT p0) (NOT p3) (NOT p2)), acceptance={} source=2 dest: 0}, { cond=(AND (NOT p0) (NOT p3) p2), acceptance={} source=2 dest: 2}], [{ cond=true, acceptance={} source=3 dest: 4}], [{ cond=true, acceptance={} source=4 dest: 1}]], initial=3, aps=[p0:(AND (OR (LT s1 1) (LT s3 1) (LT s4 2)) (OR (LT s2 1) (LT s5 2) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s8 2)) (OR (LT s2 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s8 2)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 2) (LT s5 1)) (OR (LT s0 1) (LT s6 3)) (OR (LT s2 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s6 2) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 2) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 2)) (OR (LT s1 1) (LT s3 3)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 2)) (OR (LT s1 1) (LT s7 3)) (OR (LT s0 1) (LT s4 2) (LT s5 1)) (OR (LT s2 1) (LT s3 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s6 2)) (OR (LT s0 1) (LT s3 2) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 2)) (OR (LT s1 1) (LT s7 2) (LT s8 1)) (OR (LT s2 1) (LT s5 3)) (OR (LT s2 1) (LT s7 1) (LT s8 2)) (OR (LT s0 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s4 2) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s7 2)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s4 1)) (OR (LT s2 1) (LT s5 1) (LT s8 2)) (OR (LT s2 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 3)) (OR (LT s0 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2) (LT s7 1)) (OR (LT s0 1) (LT s7 2) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s5 2)) (OR (LT s0 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 2) (LT s6 1)) (OR (LT s1 1) (LT s4 3)) (OR (LT s2 1) (LT s3 1) (LT s8 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s1 1) (LT s8 3)) (OR (LT s2 1) (LT s3 2) (LT s5 1)) (OR (LT s2 1) (LT s3 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s5 2)) (OR (LT s0 1) (LT s4 2) (LT s6 1)) (OR (LT s0 1) (LT s3 2) (LT s4 1)) (OR (LT s0 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s5 1) (LT s8 2)) (OR (LT s1 1) (LT s7 1) (LT s8 2)) (OR (LT s2 1) (LT s4 1) (LT s6 2)) (OR (LT s0 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s6 3)) (OR (LT s2 1) (LT s4 2) (LT s7 1)) (OR (LT s1 1) (LT s6 2) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s0 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s7 2)) (OR (LT s0 1) (LT s6 2) (LT s7 1)) (OR (LT s2 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s3 2) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s6 2)) (OR (LT s0 1) (LT s8 3)) (OR (LT s0 1) (LT s4 3)) (OR (LT s0 1) (LT s7 1) (LT s8 2)) (OR (LT s1 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 2)) (OR (LT s1 1) (LT s4 2) (LT s5 1)) (OR (LT s2 1) (LT s3 2) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s0 1) (LT s4 2) (LT s7 1)) (OR (LT s2 1) (LT s3 2) (LT s4 1)) (OR (LT s0 1) (LT s3 1) (LT s4 2)) (OR (LT s0 1) (LT s3 2) (LT s5 1)) (OR (LT s2 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1) (LT s6 2)) (OR (LT s1 1) (LT s5 3)) (OR (LT s0 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 2)) (OR (LT s2 1) (LT s4 2) (LT s6 1)) (OR (LT s0 1) (LT s5 1) (LT s8 2)) (OR (LT s2 1) (LT s4 1) (LT s5 2)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s3 3)) (OR (LT s1 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s7 3)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s6 1) (LT s7 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s1 1) (LT s6 2) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s6 2)) (OR (LT s0 1) (LT s6 2) (LT s8 1)) (OR (LT s0 1) (LT s6 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s5 2)) (OR (LT s0 1) (LT s7 3)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s3 3)) (OR (LT s2 1) (LT s6 1) (LT s8 2)) (OR (LT s1 1) (LT s4 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s7 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s7 2)) (OR (LT s0 1) (LT s4 2) (LT s8 1)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s6 3)) (OR (LT s2 1) (LT s3 2) (LT s7 1)) (OR (LT s0 1) (LT s3 1) (LT s5 2)) (OR (LT s2 1) (LT s3 1) (LT s6 2)) (OR (LT s1 1) (LT s5 1) (LT s6 2)) (OR (LT s0 1) (LT s3 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s4 2) (LT s5 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 3)) (OR (LT s2 1) (LT s7 2) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s8 2)) (OR (LT s0 1) (LT s5 2) (LT s6 1)) (OR (LT s2 1) (LT s8 3)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s6 1) (LT s8 2))), p1:(AND (OR (LT s1 1) (LT s3 2)) (OR (LT s2 1) (LT s3 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s7 2)) (OR (LT s1 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s5 1)) (OR (LT s2 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 2)) (OR (LT s0 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 1) (LT s7 1)) (OR (LT s2 1) (LT s5 2)) (OR (LT s2 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s6 2)) (OR (LT s0 1) (LT s8 2)) (OR (LT s0 1) (LT s4 2)) (OR (LT s0 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s6 2)) (OR (LT s2 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1)) (OR (LT s1 1) (LT s4 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s8 2)) (OR (LT s1 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s8 2)) (OR (LT s1 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s5 2)) (OR (LT s0 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2)) (OR (LT s1 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1))), p3:(OR (AND (GEQ s1 1) (GEQ s4 4)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s6 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 3)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s7 4)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s5 4)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 2)) (AND (GEQ s2 1) (GEQ s7 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 4)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s6 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 3)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s6 4)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 3)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s6 4)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s7 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 4)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 3) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 3)) (AND (GEQ s1 1) (GEQ s7 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 3)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s7 4)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s7 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s7 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 4)) (AND (GEQ s2 1) (GEQ s4 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 3)) (AND (GEQ s0 1) (GEQ s8 4)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s7 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s6 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s8 4)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 3)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s4 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 3) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s7 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 4)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s8 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s7 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s6 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 4)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s4 3) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s6 3)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 3) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s7 4)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s7 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s6 3)) (AND (GEQ s1 1) (GEQ s4 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s5 3) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 3)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s8 4)) (AND (GEQ s0 1) (GEQ s5 3) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s8 3)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 2)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s6 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 2) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 4)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 4)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 2) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s3 3) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s8 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s7 2)) (AND (GEQ s2 1) (GEQ s3 3) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s3 2) (GEQ s4 1) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s2 1) (GEQ s3 2) (GEQ s4 2)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 3)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 3) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s5 2) (GEQ s7 2)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 3) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s5 2) (GEQ s8 2)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s7 3)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s5 1) (GEQ s6 2) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s5 2) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 2) (GEQ s5 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s4 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 1) (GEQ s5 2) (GEQ s6 1)) (AND (GEQ s0 1) (GEQ s3 2) (GEQ s4 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 1) (GEQ s7 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s7 2) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s3 1) (GEQ s5 2) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s4 4)) (AND (GEQ s0 1) (GEQ s5 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 1)) (AND (GEQ s2 1) (GEQ s6 3) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s4 1) (GEQ s5 1) (GEQ s7 1)) (AND (GEQ s1 1) (GEQ s6 1) (GEQ s7 1) (GEQ s8 2)) (AND (GEQ s0 1) (GEQ s4 2) (GEQ s5 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s3 1) (GEQ s6 1) (GEQ s8 2)) (AND (GEQ s1 1) (GEQ s4 1) (GEQ s8 3))), p2:(AND (OR (LT s1 1) (LT s3 2)) (OR (LT s2 1) (LT s3 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s7 2)) (OR (LT s1 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s5 1)) (OR (LT s2 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 2)) (OR (LT s0 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 1) (LT s7 1)) (OR (LT s2 1) (LT s5 2)) (OR (LT s2 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s6 2)) (OR (LT s0 1) (LT s8 2)) (OR (LT s0 1) (LT s4 2)) (OR (LT s0 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s6 2)) (OR (LT s2 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1)) (OR (LT s1 1) (LT s4 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s8 2)) (OR (LT s1 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s8 2)) (OR (LT s1 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s5 2)) (OR (LT s0 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2)) (OR (LT s1 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, deterministic, no-univ-branch, unambiguous, semi-deterministic, very-weak, weak, inherently-weak], stateDesc=[null, null, null, null, null][false, false, false, false, false]]
Product exploration explored 100000 steps with 27522 reset in 1794 ms.
Stack based approach found an accepted trace after 71634 steps with 19716 reset with depth 8 and stack size 8 in 1210 ms.
FORMULA GlobalResAllocation-COL-03-04 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-04 finished in 3554 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(G((p0&&X(p1))))], workingDir=/home/mcc/execution]
Support contains 12 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 1 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:18] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:18] [INFO ] Dead Transitions using invariants and state equation in 82 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:18] [INFO ] Computed 12 place invariants in 4 ms
[2021-05-11 22:18:18] [INFO ] Implicit Places using invariants in 50 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 51 ms to find 3 implicit places.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:18] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:18] [INFO ] Dead Transitions using invariants and state equation in 97 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 234/234 transitions.
Applied a total of 0 rules in 1 ms. Remains 30 /30 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:18] [INFO ] Computed 9 place invariants in 0 ms
[2021-05-11 22:18:18] [INFO ] Dead Transitions using invariants and state equation in 87 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 234/234 transitions.
Stuttering acceptance computed with spot in 60 ms :[(OR (NOT p1) (NOT p0)), (OR (NOT p0) (NOT p1)), true]
Running random walk in product with property : GlobalResAllocation-COL-03-05 automaton TGBA [mat=[[{ cond=p0, acceptance={} source=0 dest: 1}, { cond=(NOT p0), acceptance={} source=0 dest: 2}], [{ cond=(AND p0 p1), acceptance={} source=1 dest: 1}, { cond=(OR (NOT p0) (NOT p1)), acceptance={} source=1 dest: 2}], [{ cond=true, acceptance={0} source=2 dest: 2}]], initial=0, aps=[p0:(OR (AND (GEQ s1 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 1)) (AND (GEQ s1 1) (GEQ s3 1)) (AND (GEQ s1 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1)) (AND (GEQ s0 1) (GEQ s3 1)) (AND (GEQ s2 1) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s8 1))), p1:(OR (GEQ s27 4) (GEQ s28 4) (GEQ s29 4))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, terminal, very-weak, weak, inherently-weak], stateDesc=[null, null, null][false, false, false]]
Entered a terminal (fully accepting) state of product in 1 steps with 0 reset in 1 ms.
FORMULA GlobalResAllocation-COL-03-05 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-05 finished in 393 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(X(X(G(!p0))))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 2 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:18] [INFO ] Computed 12 place invariants in 4 ms
[2021-05-11 22:18:18] [INFO ] Dead Transitions using invariants and state equation in 92 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:18] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:18] [INFO ] Implicit Places using invariants in 56 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 62 ms to find 3 implicit places.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:18] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:18] [INFO ] Dead Transitions using invariants and state equation in 87 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 234/234 transitions.
Applied a total of 0 rules in 7 ms. Remains 30 /30 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:18] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:18] [INFO ] Dead Transitions using invariants and state equation in 73 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 234/234 transitions.
Stuttering acceptance computed with spot in 83 ms :[true, p0, p0, p0]
Running random walk in product with property : GlobalResAllocation-COL-03-06 automaton TGBA [mat=[[{ cond=true, acceptance={0} source=0 dest: 0}], [{ cond=p0, acceptance={} source=1 dest: 0}, { cond=(NOT p0), acceptance={} source=1 dest: 1}], [{ cond=true, acceptance={} source=2 dest: 1}], [{ cond=true, acceptance={} source=3 dest: 2}]], initial=3, aps=[p0:(OR (AND (GEQ s1 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 1)) (AND (GEQ s1 1) (GEQ s3 1)) (AND (GEQ s1 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1)) (AND (GEQ s0 1) (GEQ s3 1)) (AND (GEQ s2 1) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s8 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, terminal, very-weak, weak, inherently-weak], stateDesc=[null, null, null, null][false, false, false, false]]
Entered a terminal (fully accepting) state of product in 2 steps with 0 reset in 0 ms.
FORMULA GlobalResAllocation-COL-03-06 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-06 finished in 423 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !((G(p0)||(F(p1)&&F(p2))))], workingDir=/home/mcc/execution]
Support contains 33 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 4 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:18] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:19] [INFO ] Dead Transitions using invariants and state equation in 79 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:19] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:19] [INFO ] Implicit Places using invariants in 14 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:19] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:19] [INFO ] Implicit Places using invariants and state equation in 45 ms returned []
Implicit Place search using SMT with State Equation took 59 ms to find 0 implicit places.
[2021-05-11 22:18:19] [INFO ] Redundant transitions in 55 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 33 cols
[2021-05-11 22:18:19] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:19] [INFO ] Dead Transitions using invariants and state equation in 88 ms returned []
Starting structural reductions, iteration 1 : 33/33 places, 189/234 transitions.
Applied a total of 0 rules in 3 ms. Remains 33 /33 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:19] [INFO ] Redundant transitions in 1 ms returned []
// Phase 1: matrix 189 rows 33 cols
[2021-05-11 22:18:19] [INFO ] Computed 12 place invariants in 3 ms
[2021-05-11 22:18:19] [INFO ] Dead Transitions using invariants and state equation in 63 ms returned []
Finished structural reductions, in 2 iterations. Remains : 33/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 131 ms :[(OR (AND (NOT p0) (NOT p1)) (AND (NOT p0) (NOT p2))), (NOT p1), (NOT p2), (AND (NOT p1) (NOT p0)), (AND (NOT p2) (NOT p0))]
Running random walk in product with property : GlobalResAllocation-COL-03-07 automaton TGBA [mat=[[{ cond=(AND (NOT p0) (NOT p1)), acceptance={} source=0 dest: 1}, { cond=(AND (NOT p0) (NOT p2)), acceptance={} source=0 dest: 2}, { cond=(AND p0 (NOT p1)), acceptance={} source=0 dest: 3}, { cond=(AND p0 (NOT p2)), acceptance={} source=0 dest: 4}], [{ cond=(NOT p1), acceptance={0} source=1 dest: 1}], [{ cond=(NOT p2), acceptance={0} source=2 dest: 2}], [{ cond=(AND (NOT p0) (NOT p1)), acceptance={} source=3 dest: 1}, { cond=(AND p0 (NOT p1)), acceptance={} source=3 dest: 3}], [{ cond=(AND (NOT p0) (NOT p2)), acceptance={} source=4 dest: 2}, { cond=(AND p0 (NOT p2)), acceptance={} source=4 dest: 4}]], initial=0, aps=[p0:(OR (AND (GEQ s1 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 1)) (AND (GEQ s1 1) (GEQ s3 1)) (AND (GEQ s1 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1)) (AND (GEQ s0 1) (GEQ s3 1)) (AND (GEQ s2 1) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s8 1))), p1:(AND (OR (AND (OR (LT s9 2) (LT s13 2)) (OR (LT s11 2) (LT s26 1) (LT s27 1)) (OR (LT s9 2) (LT s15 2)) (OR (LT s10 2) (LT s19 1) (LT s21 1)) (OR (LT s10 2) (LT s19 1) (LT s23 1)) (OR (LT s9 2) (LT s12 1) (LT s17 1)) (OR (LT s10 2) (LT s18 1) (LT s19 1)) (OR (LT s9 2) (LT s17 2)) (OR (LT s9 2) (LT s12 1) (LT s13 1)) (OR (LT s11 2) (LT s25 1) (LT s27 1)) (OR (LT s11 2) (LT s27 1) (LT s29 1)) (OR (LT s9 2) (LT s12 1) (LT s15 1)) (OR (LT s11 2) (LT s25 2)) (OR (LT s10 2) (LT s18 1) (LT s23 1)) (OR (LT s11 2) (LT s27 2)) (OR (LT s10 2) (LT s18 1) (LT s21 1)) (OR (LT s11 2) (LT s29 2)) (OR (LT s11 2) (LT s24 1) (LT s25 1)) (OR (LT s11 2) (LT s28 1) (LT s29 1)) (OR (LT s9 2) (LT s13 1) (LT s17 1)) (OR (LT s11 2) (LT s24 1) (LT s29 1)) (OR (LT s9 2) (LT s13 1) (LT s15 1)) (OR (LT s11 2) (LT s24 1) (LT s27 1)) (OR (LT s10 2) (LT s21 1) (LT s23 1)) (OR (LT s9 2) (LT s14 1) (LT s15 1)) (OR (LT s9 2) (LT s14 1) (LT s17 1)) (OR (LT s11 2) (LT s25 1) (LT s29 1)) (OR (LT s10 2) (LT s20 1) (LT s21 1)) (OR (LT s10 2) (LT s20 1) (LT s23 1)) (OR (LT s10 2) (LT s18 2)) (OR (LT s10 2) (LT s22 2)) (OR (LT s10 2) (LT s20 2)) (OR (LT s9 2) (LT s15 1) (LT s17 1)) (OR (LT s11 2) (LT s26 1) (LT s29 1)) (OR (LT s9 2) (LT s14 2)) (OR (LT s9 2) (LT s16 2)) (OR (LT s10 2) (LT s19 1) (LT s20 1)) (OR (LT s9 2) (LT s12 2)) (OR (LT s10 2) (LT s19 1) (LT s22 1)) (OR (LT s9 2) (LT s12 1) (LT s16 1)) (OR (LT s10 2) (LT s18 1) (LT s20 1)) (OR (LT s9 2) (LT s16 1) (LT s17 1)) (OR (LT s11 2) (LT s25 1) (LT s26 1)) (OR (LT s11 2) (LT s27 1) (LT s28 1)) (OR (LT s9 2) (LT s12 1) (LT s14 1)) (OR (LT s11 2) (LT s25 1) (LT s28 1)) (OR (LT s11 2) (LT s24 2)) (OR (LT s11 2) (LT s26 2)) (OR (LT s11 2) (LT s28 2)) (OR (LT s10 2) (LT s18 1) (LT s22 1)) (OR (LT s10 2) (LT s22 1) (LT s23 1)) (OR (LT s9 2) (LT s13 1) (LT s14 1)) (OR (LT s11 2) (LT s24 1) (LT s28 1)) (OR (LT s11 2) (LT s24 1) (LT s26 1)) (OR (LT s9 2) (LT s13 1) (LT s16 1)) (OR (LT s10 2) (LT s21 1) (LT s22 1)) (OR (LT s9 2) (LT s14 1) (LT s16 1)) (OR (LT s9 2) (LT s15 1) (LT s16 1)) (OR (LT s10 2) (LT s20 1) (LT s22 1)) (OR (LT s10 2) (LT s19 2)) (OR (LT s10 2) (LT s23 2)) (OR (LT s11 2) (LT s26 1) (LT s28 1)) (OR (LT s10 2) (LT s21 2))) (GEQ s30 4) (GEQ s31 4) (GEQ s32 4)) (OR (AND (GEQ s9 2) (GEQ s13 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s27 1)) (AND (GEQ s9 2) (GEQ s15 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s17 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s19 1)) (AND (GEQ s9 2) (GEQ s17 2)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s13 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s27 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s25 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s23 1)) (AND (GEQ s11 2) (GEQ s27 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s21 1)) (AND (GEQ s11 2) (GEQ s29 2)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s25 1)) (AND (GEQ s11 2) (GEQ s28 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s27 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s15 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s29 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s23 1)) (AND (GEQ s10 2) (GEQ s18 2)) (AND (GEQ s10 2) (GEQ s22 2)) (AND (GEQ s10 2) (GEQ s20 2)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s14 2)) (AND (GEQ s9 2) (GEQ s16 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s12 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s16 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s26 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s28 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 2)) (AND (GEQ s11 2) (GEQ s26 2)) (AND (GEQ s11 2) (GEQ s28 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s22 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s26 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s16 1)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s19 2)) (AND (GEQ s10 2) (GEQ s23 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s28 1)) (AND (GEQ s10 2) (GEQ s21 2)))), p2:(OR (AND (GEQ s9 2) (GEQ s13 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s27 1)) (AND (GEQ s9 2) (GEQ s15 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s17 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s19 1)) (AND (GEQ s9 2) (GEQ s17 2)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s13 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s27 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s25 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s23 1)) (AND (GEQ s11 2) (GEQ s27 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s21 1)) (AND (GEQ s11 2) (GEQ s29 2)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s25 1)) (AND (GEQ s11 2) (GEQ s28 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s27 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s15 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s29 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s23 1)) (AND (GEQ s10 2) (GEQ s18 2)) (AND (GEQ s10 2) (GEQ s22 2)) (AND (GEQ s10 2) (GEQ s20 2)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s14 2)) (AND (GEQ s9 2) (GEQ s16 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s12 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s16 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s26 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s28 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 2)) (AND (GEQ s11 2) (GEQ s26 2)) (AND (GEQ s11 2) (GEQ s28 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s22 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s26 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s16 1)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s19 2)) (AND (GEQ s10 2) (GEQ s23 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s28 1)) (AND (GEQ s10 2) (GEQ s21 2)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, no-univ-branch, stutter-invariant, very-weak, weak, inherently-weak], stateDesc=[null, null, null, null, null][true, true, true, true, true]]
Product exploration explored 100000 steps with 18602 reset in 1299 ms.
Stack based approach found an accepted trace after 404 steps with 79 reset with depth 8 and stack size 8 in 5 ms.
FORMULA GlobalResAllocation-COL-03-07 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-07 finished in 1824 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(G((F(p0)&&F(G(p1))&&F(!p0))))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 4 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:20] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:20] [INFO ] Dead Transitions using invariants and state equation in 95 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:20] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:20] [INFO ] Implicit Places using invariants in 43 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 44 ms to find 3 implicit places.
[2021-05-11 22:18:21] [INFO ] Redundant transitions in 55 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:21] [INFO ] Computed 9 place invariants in 0 ms
[2021-05-11 22:18:21] [INFO ] Dead Transitions using invariants and state equation in 70 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 189/234 transitions.
Applied a total of 0 rules in 4 ms. Remains 30 /30 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:21] [INFO ] Redundant transitions in 0 ms returned []
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:21] [INFO ] Computed 9 place invariants in 0 ms
[2021-05-11 22:18:21] [INFO ] Dead Transitions using invariants and state equation in 71 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 93 ms :[true, (NOT p0), (NOT p1), p0]
Running random walk in product with property : GlobalResAllocation-COL-03-09 automaton TGBA [mat=[[{ cond=true, acceptance={} source=0 dest: 0}, { cond=(NOT p0), acceptance={} source=0 dest: 1}, { cond=(NOT p1), acceptance={} source=0 dest: 2}, { cond=p0, acceptance={} source=0 dest: 3}], [{ cond=(NOT p0), acceptance={0} source=1 dest: 1}], [{ cond=(NOT p1), acceptance={0} source=2 dest: 2}, { cond=p1, acceptance={} source=2 dest: 2}], [{ cond=p0, acceptance={0} source=3 dest: 3}]], initial=0, aps=[p0:(AND (OR (LT s1 1) (LT s3 1) (LT s4 2)) (OR (LT s2 1) (LT s5 2) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s8 2)) (OR (LT s2 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s8 2)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 2) (LT s5 1)) (OR (LT s0 1) (LT s6 3)) (OR (LT s2 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s6 2) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 2) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 2)) (OR (LT s1 1) (LT s3 3)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 2)) (OR (LT s1 1) (LT s7 3)) (OR (LT s0 1) (LT s4 2) (LT s5 1)) (OR (LT s2 1) (LT s3 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s6 2)) (OR (LT s0 1) (LT s3 2) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 2)) (OR (LT s1 1) (LT s7 2) (LT s8 1)) (OR (LT s2 1) (LT s5 3)) (OR (LT s2 1) (LT s7 1) (LT s8 2)) (OR (LT s0 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s4 2) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s7 2)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s4 1)) (OR (LT s2 1) (LT s5 1) (LT s8 2)) (OR (LT s2 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 3)) (OR (LT s0 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2) (LT s7 1)) (OR (LT s0 1) (LT s7 2) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s5 2)) (OR (LT s0 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 2) (LT s6 1)) (OR (LT s1 1) (LT s4 3)) (OR (LT s2 1) (LT s3 1) (LT s8 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s1 1) (LT s8 3)) (OR (LT s2 1) (LT s3 2) (LT s5 1)) (OR (LT s2 1) (LT s3 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s5 2)) (OR (LT s0 1) (LT s4 2) (LT s6 1)) (OR (LT s0 1) (LT s3 2) (LT s4 1)) (OR (LT s0 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s5 1) (LT s8 2)) (OR (LT s1 1) (LT s7 1) (LT s8 2)) (OR (LT s2 1) (LT s4 1) (LT s6 2)) (OR (LT s0 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s6 3)) (OR (LT s2 1) (LT s4 2) (LT s7 1)) (OR (LT s1 1) (LT s6 2) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s0 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s7 2)) (OR (LT s0 1) (LT s6 2) (LT s7 1)) (OR (LT s2 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s3 2) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s6 2)) (OR (LT s0 1) (LT s8 3)) (OR (LT s0 1) (LT s4 3)) (OR (LT s0 1) (LT s7 1) (LT s8 2)) (OR (LT s1 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 2)) (OR (LT s1 1) (LT s4 2) (LT s5 1)) (OR (LT s2 1) (LT s3 2) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s0 1) (LT s4 2) (LT s7 1)) (OR (LT s2 1) (LT s3 2) (LT s4 1)) (OR (LT s0 1) (LT s3 1) (LT s4 2)) (OR (LT s0 1) (LT s3 2) (LT s5 1)) (OR (LT s2 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1) (LT s6 2)) (OR (LT s1 1) (LT s5 3)) (OR (LT s0 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 2)) (OR (LT s2 1) (LT s4 2) (LT s6 1)) (OR (LT s0 1) (LT s5 1) (LT s8 2)) (OR (LT s2 1) (LT s4 1) (LT s5 2)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s3 3)) (OR (LT s1 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s7 3)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s6 1) (LT s7 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s1 1) (LT s6 2) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s6 2)) (OR (LT s0 1) (LT s6 2) (LT s8 1)) (OR (LT s0 1) (LT s6 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s5 2)) (OR (LT s0 1) (LT s7 3)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s3 3)) (OR (LT s2 1) (LT s6 1) (LT s8 2)) (OR (LT s1 1) (LT s4 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s7 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s7 2)) (OR (LT s0 1) (LT s4 2) (LT s8 1)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s6 3)) (OR (LT s2 1) (LT s3 2) (LT s7 1)) (OR (LT s0 1) (LT s3 1) (LT s5 2)) (OR (LT s2 1) (LT s3 1) (LT s6 2)) (OR (LT s1 1) (LT s5 1) (LT s6 2)) (OR (LT s0 1) (LT s3 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s4 2) (LT s5 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 3)) (OR (LT s2 1) (LT s7 2) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s8 2)) (OR (LT s0 1) (LT s5 2) (LT s6 1)) (OR (LT s2 1) (LT s8 3)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s6 1) (LT s8 2))), p1:(OR (AND (GEQ s1 1) (GEQ s6 1)) (AND (GEQ s1 1) (GEQ s5 1)) (AND (GEQ s1 1) (GEQ s4 1)) (AND (GEQ s1 1) (GEQ s3 1)) (AND (GEQ s1 1) (GEQ s8 1)) (AND (GEQ s1 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s5 1)) (AND (GEQ s0 1) (GEQ s4 1)) (AND (GEQ s0 1) (GEQ s7 1)) (AND (GEQ s0 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s3 1)) (AND (GEQ s0 1) (GEQ s3 1)) (AND (GEQ s2 1) (GEQ s5 1)) (AND (GEQ s2 1) (GEQ s4 1)) (AND (GEQ s2 1) (GEQ s7 1)) (AND (GEQ s2 1) (GEQ s6 1)) (AND (GEQ s2 1) (GEQ s8 1)) (AND (GEQ s0 1) (GEQ s8 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, no-univ-branch, stutter-invariant], stateDesc=[null, null, null, null][true, true, true, true]]
Product exploration explored 100000 steps with 48 reset in 419 ms.
Stack based approach found an accepted trace after 61 steps with 10 reset with depth 15 and stack size 15 in 1 ms.
FORMULA GlobalResAllocation-COL-03-09 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-09 finished in 881 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(G(F(!p0)))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 4 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:21] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:21] [INFO ] Dead Transitions using invariants and state equation in 76 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:21] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:21] [INFO ] Implicit Places using invariants in 39 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 40 ms to find 3 implicit places.
[2021-05-11 22:18:21] [INFO ] Redundant transitions in 41 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:21] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:21] [INFO ] Dead Transitions using invariants and state equation in 72 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 189/234 transitions.
Applied a total of 0 rules in 4 ms. Remains 30 /30 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:21] [INFO ] Redundant transitions in 0 ms returned []
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:21] [INFO ] Computed 9 place invariants in 0 ms
[2021-05-11 22:18:22] [INFO ] Dead Transitions using invariants and state equation in 61 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 47 ms :[p0, p0]
Running random walk in product with property : GlobalResAllocation-COL-03-10 automaton TGBA [mat=[[{ cond=true, acceptance={} source=0 dest: 0}, { cond=p0, acceptance={} source=0 dest: 1}], [{ cond=p0, acceptance={0} source=1 dest: 1}]], initial=0, aps=[p0:(AND (OR (LT s1 1) (LT s3 1) (LT s4 2)) (OR (LT s2 1) (LT s5 2) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s8 2)) (OR (LT s2 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s8 2)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 2) (LT s5 1)) (OR (LT s0 1) (LT s6 3)) (OR (LT s2 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s6 2) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 2) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 2)) (OR (LT s1 1) (LT s3 3)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 2)) (OR (LT s1 1) (LT s7 3)) (OR (LT s0 1) (LT s4 2) (LT s5 1)) (OR (LT s2 1) (LT s3 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s6 2)) (OR (LT s0 1) (LT s3 2) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 2)) (OR (LT s1 1) (LT s7 2) (LT s8 1)) (OR (LT s2 1) (LT s5 3)) (OR (LT s2 1) (LT s7 1) (LT s8 2)) (OR (LT s0 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s4 2) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s7 2)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s4 1)) (OR (LT s2 1) (LT s5 1) (LT s8 2)) (OR (LT s2 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 3)) (OR (LT s0 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2) (LT s7 1)) (OR (LT s0 1) (LT s7 2) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s5 2)) (OR (LT s0 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 2) (LT s6 1)) (OR (LT s1 1) (LT s4 3)) (OR (LT s2 1) (LT s3 1) (LT s8 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s1 1) (LT s8 3)) (OR (LT s2 1) (LT s3 2) (LT s5 1)) (OR (LT s2 1) (LT s3 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s5 2)) (OR (LT s0 1) (LT s4 2) (LT s6 1)) (OR (LT s0 1) (LT s3 2) (LT s4 1)) (OR (LT s0 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s5 1) (LT s8 2)) (OR (LT s1 1) (LT s7 1) (LT s8 2)) (OR (LT s2 1) (LT s4 1) (LT s6 2)) (OR (LT s0 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s6 3)) (OR (LT s2 1) (LT s4 2) (LT s7 1)) (OR (LT s1 1) (LT s6 2) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s0 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s7 2)) (OR (LT s0 1) (LT s6 2) (LT s7 1)) (OR (LT s2 1) (LT s5 2) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s3 2) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s6 2)) (OR (LT s0 1) (LT s8 3)) (OR (LT s0 1) (LT s4 3)) (OR (LT s0 1) (LT s7 1) (LT s8 2)) (OR (LT s1 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 2)) (OR (LT s1 1) (LT s4 2) (LT s5 1)) (OR (LT s2 1) (LT s3 2) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s0 1) (LT s4 2) (LT s7 1)) (OR (LT s2 1) (LT s3 2) (LT s4 1)) (OR (LT s0 1) (LT s3 1) (LT s4 2)) (OR (LT s0 1) (LT s3 2) (LT s5 1)) (OR (LT s2 1) (LT s3 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s5 1)) (OR (LT s0 1) (LT s4 1) (LT s6 2)) (OR (LT s1 1) (LT s5 3)) (OR (LT s0 1) (LT s4 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 2)) (OR (LT s2 1) (LT s4 2) (LT s6 1)) (OR (LT s0 1) (LT s5 1) (LT s8 2)) (OR (LT s2 1) (LT s4 1) (LT s5 2)) (OR (LT s1 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s3 3)) (OR (LT s1 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s7 3)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s6 1) (LT s7 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s1 1) (LT s6 2) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s3 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s6 2)) (OR (LT s0 1) (LT s6 2) (LT s8 1)) (OR (LT s0 1) (LT s6 1) (LT s7 2)) (OR (LT s0 1) (LT s3 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s3 2) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s5 2)) (OR (LT s0 1) (LT s7 3)) (OR (LT s2 1) (LT s3 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s3 3)) (OR (LT s2 1) (LT s6 1) (LT s8 2)) (OR (LT s1 1) (LT s4 2) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s7 2)) (OR (LT s1 1) (LT s3 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s7 2)) (OR (LT s0 1) (LT s4 2) (LT s8 1)) (OR (LT s0 1) (LT s3 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s6 3)) (OR (LT s2 1) (LT s3 2) (LT s7 1)) (OR (LT s0 1) (LT s3 1) (LT s5 2)) (OR (LT s2 1) (LT s3 1) (LT s6 2)) (OR (LT s1 1) (LT s5 1) (LT s6 2)) (OR (LT s0 1) (LT s3 2) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 2) (LT s7 1)) (OR (LT s2 1) (LT s4 2) (LT s5 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 3)) (OR (LT s2 1) (LT s7 2) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s8 2)) (OR (LT s0 1) (LT s5 2) (LT s6 1)) (OR (LT s2 1) (LT s8 3)) (OR (LT s2 1) (LT s4 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s6 1) (LT s8 2)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, no-univ-branch, stutter-invariant, very-weak, weak, inherently-weak], stateDesc=[null, null][true, true]]
Product exploration explored 100000 steps with 12285 reset in 1186 ms.
Stack based approach found an accepted trace after 2425 steps with 310 reset with depth 6 and stack size 6 in 31 ms.
FORMULA GlobalResAllocation-COL-03-10 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-10 finished in 1598 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(F(G(!p0)))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 4 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:23] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:23] [INFO ] Dead Transitions using invariants and state equation in 81 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:23] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:23] [INFO ] Implicit Places using invariants in 46 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 48 ms to find 3 implicit places.
[2021-05-11 22:18:23] [INFO ] Redundant transitions in 61 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:23] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:23] [INFO ] Dead Transitions using invariants and state equation in 62 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 189/234 transitions.
Applied a total of 0 rules in 3 ms. Remains 30 /30 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:23] [INFO ] Redundant transitions in 0 ms returned []
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:23] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:23] [INFO ] Dead Transitions using invariants and state equation in 60 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 24 ms :[p0]
Running random walk in product with property : GlobalResAllocation-COL-03-11 automaton TGBA [mat=[[{ cond=(NOT p0), acceptance={} source=0 dest: 0}, { cond=p0, acceptance={0} source=0 dest: 0}]], initial=0, aps=[p0:(AND (OR (LT s1 1) (LT s3 2)) (OR (LT s2 1) (LT s3 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s7 2)) (OR (LT s1 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s5 1)) (OR (LT s2 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 2)) (OR (LT s0 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 1) (LT s7 1)) (OR (LT s2 1) (LT s5 2)) (OR (LT s2 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s6 2)) (OR (LT s0 1) (LT s8 2)) (OR (LT s0 1) (LT s4 2)) (OR (LT s0 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s6 2)) (OR (LT s2 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1)) (OR (LT s1 1) (LT s4 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s8 2)) (OR (LT s1 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s8 2)) (OR (LT s1 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s5 2)) (OR (LT s0 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2)) (OR (LT s1 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant], stateDesc=[null][true]]
Product exploration explored 100000 steps with 0 reset in 667 ms.
Stack based approach found an accepted trace after 10 steps with 0 reset with depth 11 and stack size 11 in 0 ms.
FORMULA GlobalResAllocation-COL-03-11 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-11 finished in 1030 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !((G(p0)||F(p1)))], workingDir=/home/mcc/execution]
Support contains 24 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 5 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:24] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:24] [INFO ] Dead Transitions using invariants and state equation in 76 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:24] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:24] [INFO ] Implicit Places using invariants in 26 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:24] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:24] [INFO ] Implicit Places using invariants and state equation in 63 ms returned []
Implicit Place search using SMT with State Equation took 106 ms to find 0 implicit places.
[2021-05-11 22:18:24] [INFO ] Redundant transitions in 46 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 33 cols
[2021-05-11 22:18:24] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:24] [INFO ] Dead Transitions using invariants and state equation in 64 ms returned []
Starting structural reductions, iteration 1 : 33/33 places, 189/234 transitions.
Applied a total of 0 rules in 2 ms. Remains 33 /33 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:24] [INFO ] Redundant transitions in 0 ms returned []
// Phase 1: matrix 189 rows 33 cols
[2021-05-11 22:18:24] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:24] [INFO ] Dead Transitions using invariants and state equation in 60 ms returned []
Finished structural reductions, in 2 iterations. Remains : 33/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 44 ms :[(NOT p1), (AND (NOT p1) (NOT p0))]
Running random walk in product with property : GlobalResAllocation-COL-03-12 automaton TGBA [mat=[[{ cond=(NOT p1), acceptance={0} source=0 dest: 0}], [{ cond=(AND (NOT p0) (NOT p1)), acceptance={} source=1 dest: 0}, { cond=(AND p0 (NOT p1)), acceptance={} source=1 dest: 1}]], initial=1, aps=[p1:(OR (AND (GEQ s9 1) (GEQ s12 1)) (AND (GEQ s9 1) (GEQ s13 1)) (AND (GEQ s10 1) (GEQ s22 1)) (AND (GEQ s9 1) (GEQ s14 1)) (AND (GEQ s10 1) (GEQ s23 1)) (AND (GEQ s9 1) (GEQ s15 1)) (AND (GEQ s9 1) (GEQ s16 1)) (AND (GEQ s9 1) (GEQ s17 1)) (AND (GEQ s11 1) (GEQ s24 1)) (AND (GEQ s11 1) (GEQ s25 1)) (AND (GEQ s11 1) (GEQ s26 1)) (AND (GEQ s11 1) (GEQ s27 1)) (AND (GEQ s11 1) (GEQ s28 1)) (AND (GEQ s11 1) (GEQ s29 1)) (AND (GEQ s10 1) (GEQ s20 1)) (AND (GEQ s10 1) (GEQ s21 1)) (AND (GEQ s10 1) (GEQ s18 1)) (AND (GEQ s10 1) (GEQ s19 1))), p0:(OR (GEQ s30 4) (GEQ s31 4) (GEQ s32 4))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant, very-weak, weak, inherently-weak], stateDesc=[null, null][true, true]]
Product exploration explored 100000 steps with 50000 reset in 1584 ms.
Product exploration explored 100000 steps with 50000 reset in 1600 ms.
Knowledge obtained : [(NOT p1), (NOT p0)]
Stuttering acceptance computed with spot in 48 ms :[(NOT p1), (AND (NOT p1) (NOT p0))]
Product exploration explored 100000 steps with 50000 reset in 1588 ms.
Product exploration explored 100000 steps with 50000 reset in 1594 ms.
[2021-05-11 22:18:31] [INFO ] Flatten gal took : 24 ms
[2021-05-11 22:18:31] [INFO ] Flatten gal took : 16 ms
[2021-05-11 22:18:31] [INFO ] Time to serialize gal into /tmp/LTL12526956276266131749.gal : 3 ms
[2021-05-11 22:18:31] [INFO ] Time to serialize properties into /tmp/LTL9190662746543225162.ltl : 1 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-ltl-linux64, --gc-threshold, 2000000, -i, /tmp/LTL12526956276266131749.gal, -t, CGAL, -LTL, /tmp/LTL9190662746543225162.ltl, -c, -stutter-deadlock, --gen-order, FOLLOW], workingDir=/home/mcc/execution]

its-ltl command run as :

/home/mcc/BenchKit/itstools/plugins/fr.lip6.move.gal.itstools.binaries_1.0.0.202104292328/bin/its-ltl-linux64 --gc-threshold 2000000 -i /tmp/LTL12526956276266131749.gal -t CGAL -LTL /tmp/LTL9190662746543225162.ltl -c -stutter-deadlock --gen-order FOLLOW
Read 1 LTL properties
Checking formula 0 : !(((G("(((pr_released_0>=4)||(pr_released_1>=4))||(pr_released_2>=4))"))||(F("(((((((((((((((((((pr_in_0>=1)&&(in_critical_s_0>=1))||((pr_in_0>=1)&&(in_critical_s_1>=1)))||((pr_in_1>=1)&&(in_critical_s_10>=1)))||((pr_in_0>=1)&&(in_critical_s_2>=1)))||((pr_in_1>=1)&&(in_critical_s_11>=1)))||((pr_in_0>=1)&&(in_critical_s_3>=1)))||((pr_in_0>=1)&&(in_critical_s_4>=1)))||((pr_in_0>=1)&&(in_critical_s_5>=1)))||((pr_in_2>=1)&&(in_critical_s_12>=1)))||((pr_in_2>=1)&&(in_critical_s_13>=1)))||((pr_in_2>=1)&&(in_critical_s_14>=1)))||((pr_in_2>=1)&&(in_critical_s_15>=1)))||((pr_in_2>=1)&&(in_critical_s_16>=1)))||((pr_in_2>=1)&&(in_critical_s_17>=1)))||((pr_in_1>=1)&&(in_critical_s_8>=1)))||((pr_in_1>=1)&&(in_critical_s_9>=1)))||((pr_in_1>=1)&&(in_critical_s_6>=1)))||((pr_in_1>=1)&&(in_critical_s_7>=1)))"))))
Formula 0 simplified : !(G"(((pr_released_0>=4)||(pr_released_1>=4))||(pr_released_2>=4))" | F"(((((((((((((((((((pr_in_0>=1)&&(in_critical_s_0>=1))||((pr_in_0>=1)&&(in_critical_s_1>=1)))||((pr_in_1>=1)&&(in_critical_s_10>=1)))||((pr_in_0>=1)&&(in_critical_s_2>=1)))||((pr_in_1>=1)&&(in_critical_s_11>=1)))||((pr_in_0>=1)&&(in_critical_s_3>=1)))||((pr_in_0>=1)&&(in_critical_s_4>=1)))||((pr_in_0>=1)&&(in_critical_s_5>=1)))||((pr_in_2>=1)&&(in_critical_s_12>=1)))||((pr_in_2>=1)&&(in_critical_s_13>=1)))||((pr_in_2>=1)&&(in_critical_s_14>=1)))||((pr_in_2>=1)&&(in_critical_s_15>=1)))||((pr_in_2>=1)&&(in_critical_s_16>=1)))||((pr_in_2>=1)&&(in_critical_s_17>=1)))||((pr_in_1>=1)&&(in_critical_s_8>=1)))||((pr_in_1>=1)&&(in_critical_s_9>=1)))||((pr_in_1>=1)&&(in_critical_s_6>=1)))||((pr_in_1>=1)&&(in_critical_s_7>=1)))")
Reverse transition relation is exact ! Faster fixpoint algorithm enabled.
2 unique states visited
0 strongly connected components in search stack
1 transitions explored
2 items max in DFS search stack
61 ticks for the emptiness check
Model ,|S| ,Time ,Mem(kb) ,fin. SDD ,fin. DDD ,peak SDD ,peak DDD ,SDD Hom ,SDD cache peak ,DDD Hom ,DDD cachepeak ,SHom cache
STATS,0,0.654522,36848,1,0,6,102877,28,0,4567,40793,14
no accepting run found
Formula 0 is TRUE no accepting run found.
FORMULA GlobalResAllocation-COL-03-12 TRUE TECHNIQUES DECISION_DIAGRAMS TOPOLOGICAL
ITS tools runner thread asked to quit. Dying gracefully.
Treatment of property GlobalResAllocation-COL-03-12 finished in 7738 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(X(G(p0)))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 1 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:32] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:32] [INFO ] Dead Transitions using invariants and state equation in 76 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:32] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:32] [INFO ] Implicit Places using invariants in 37 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 37 ms to find 3 implicit places.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:32] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:32] [INFO ] Dead Transitions using invariants and state equation in 74 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 234/234 transitions.
Applied a total of 0 rules in 1 ms. Remains 30 /30 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 30 cols
[2021-05-11 22:18:32] [INFO ] Computed 9 place invariants in 0 ms
[2021-05-11 22:18:32] [INFO ] Dead Transitions using invariants and state equation in 72 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 234/234 transitions.
Stuttering acceptance computed with spot in 118 ms :[true, (NOT p0), (NOT p0)]
Running random walk in product with property : GlobalResAllocation-COL-03-13 automaton TGBA [mat=[[{ cond=true, acceptance={0} source=0 dest: 0}], [{ cond=true, acceptance={} source=1 dest: 2}], [{ cond=(NOT p0), acceptance={} source=2 dest: 0}, { cond=p0, acceptance={} source=2 dest: 2}]], initial=1, aps=[p0:(AND (OR (LT s1 1) (LT s3 2)) (OR (LT s2 1) (LT s3 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s7 2)) (OR (LT s1 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s5 1)) (OR (LT s2 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 2)) (OR (LT s0 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 1) (LT s7 1)) (OR (LT s2 1) (LT s5 2)) (OR (LT s2 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s6 2)) (OR (LT s0 1) (LT s8 2)) (OR (LT s0 1) (LT s4 2)) (OR (LT s0 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s6 2)) (OR (LT s2 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1)) (OR (LT s1 1) (LT s4 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s8 2)) (OR (LT s1 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s8 2)) (OR (LT s1 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s5 2)) (OR (LT s0 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2)) (OR (LT s1 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, terminal, very-weak, weak, inherently-weak], stateDesc=[null, null, null][false, false, false]]
Entered a terminal (fully accepting) state of product in 1 steps with 0 reset in 1 ms.
FORMULA GlobalResAllocation-COL-03-13 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-13 finished in 390 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(F(G(p0)))], workingDir=/home/mcc/execution]
Support contains 9 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 3 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:32] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:32] [INFO ] Dead Transitions using invariants and state equation in 74 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:32] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:32] [INFO ] Implicit Places using invariants in 55 ms returned [9, 10, 11]
Discarding 3 places :
Implicit Place search using SMT only with invariants took 56 ms to find 3 implicit places.
[2021-05-11 22:18:32] [INFO ] Redundant transitions in 40 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:32] [INFO ] Computed 9 place invariants in 1 ms
[2021-05-11 22:18:32] [INFO ] Dead Transitions using invariants and state equation in 61 ms returned []
Starting structural reductions, iteration 1 : 30/33 places, 189/234 transitions.
Applied a total of 0 rules in 3 ms. Remains 30 /30 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:32] [INFO ] Redundant transitions in 1 ms returned []
// Phase 1: matrix 189 rows 30 cols
[2021-05-11 22:18:32] [INFO ] Computed 9 place invariants in 0 ms
[2021-05-11 22:18:32] [INFO ] Dead Transitions using invariants and state equation in 60 ms returned []
Finished structural reductions, in 2 iterations. Remains : 30/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 23 ms :[(NOT p0)]
Running random walk in product with property : GlobalResAllocation-COL-03-14 automaton TGBA [mat=[[{ cond=(NOT p0), acceptance={0} source=0 dest: 0}, { cond=p0, acceptance={} source=0 dest: 0}]], initial=0, aps=[p0:(AND (OR (LT s1 1) (LT s3 2)) (OR (LT s2 1) (LT s3 1) (LT s7 1)) (OR (LT s0 1) (LT s4 1) (LT s8 1)) (OR (LT s0 1) (LT s4 1) (LT s6 1)) (OR (LT s1 1) (LT s7 2)) (OR (LT s1 1) (LT s5 2)) (OR (LT s0 1) (LT s3 1) (LT s4 1)) (OR (LT s2 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s7 1)) (OR (LT s0 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s4 1) (LT s5 1)) (OR (LT s2 1) (LT s7 1) (LT s8 1)) (OR (LT s2 1) (LT s3 2)) (OR (LT s0 1) (LT s5 1) (LT s6 1)) (OR (LT s2 1) (LT s4 1) (LT s7 1)) (OR (LT s2 1) (LT s5 2)) (OR (LT s2 1) (LT s7 2)) (OR (LT s1 1) (LT s6 1) (LT s7 1)) (OR (LT s0 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s6 1)) (OR (LT s1 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s6 2)) (OR (LT s0 1) (LT s8 2)) (OR (LT s0 1) (LT s4 2)) (OR (LT s0 1) (LT s7 1) (LT s8 1)) (OR (LT s1 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s3 1) (LT s8 1)) (OR (LT s2 1) (LT s3 1) (LT s4 1)) (OR (LT s0 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s6 2)) (OR (LT s2 1) (LT s3 1) (LT s6 1)) (OR (LT s0 1) (LT s4 1) (LT s5 1)) (OR (LT s1 1) (LT s4 2)) (OR (LT s0 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s8 2)) (OR (LT s1 1) (LT s5 1) (LT s8 1)) (OR (LT s1 1) (LT s5 1) (LT s6 1)) (OR (LT s1 1) (LT s7 1) (LT s8 1)) (OR (LT s0 1) (LT s5 1) (LT s7 1)) (OR (LT s2 1) (LT s4 2)) (OR (LT s2 1) (LT s4 1) (LT s8 1)) (OR (LT s2 1) (LT s6 2)) (OR (LT s2 1) (LT s4 1) (LT s6 1)) (OR (LT s2 1) (LT s8 2)) (OR (LT s1 1) (LT s6 1) (LT s8 1)) (OR (LT s2 1) (LT s5 1) (LT s6 1)) (OR (LT s0 1) (LT s6 1) (LT s7 1)) (OR (LT s2 1) (LT s5 1) (LT s8 1)) (OR (LT s2 1) (LT s6 1) (LT s8 1)) (OR (LT s1 1) (LT s3 1) (LT s7 1)) (OR (LT s1 1) (LT s3 1) (LT s5 1)) (OR (LT s0 1) (LT s5 2)) (OR (LT s0 1) (LT s7 2)) (OR (LT s0 1) (LT s3 2)) (OR (LT s1 1) (LT s4 1) (LT s7 1)) (OR (LT s1 1) (LT s4 1) (LT s5 1)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, complete, deterministic, no-univ-branch, unambiguous, semi-deterministic, stutter-invariant], stateDesc=[null][true]]
Product exploration explored 100000 steps with 0 reset in 666 ms.
Stack based approach found an accepted trace after 21 steps with 0 reset with depth 22 and stack size 22 in 1 ms.
FORMULA GlobalResAllocation-COL-03-14 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-14 finished in 1020 ms.
Running Spot : CommandLine [args=[/home/mcc/BenchKit/bin//..//ltl2tgba, --hoaf=tv, -f, !(G(F(!p0)))], workingDir=/home/mcc/execution]
Support contains 21 out of 33 places. Attempting structural reductions.
Starting structural reductions, iteration 0 : 33/33 places, 234/234 transitions.
Applied a total of 0 rules in 3 ms. Remains 33 /33 variables (removed 0) and now considering 234/234 (removed 0) transitions.
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:33] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:33] [INFO ] Dead Transitions using invariants and state equation in 76 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:33] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:33] [INFO ] Implicit Places using invariants in 27 ms returned []
// Phase 1: matrix 234 rows 33 cols
[2021-05-11 22:18:33] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:33] [INFO ] Implicit Places using invariants and state equation in 66 ms returned []
Implicit Place search using SMT with State Equation took 94 ms to find 0 implicit places.
[2021-05-11 22:18:33] [INFO ] Redundant transitions in 45 ms returned [189, 190, 191, 192, 193, 194, 195, 196, 197, 198, 199, 200, 201, 202, 203, 204, 205, 206, 207, 208, 209, 210, 211, 212, 213, 214, 215, 216, 217, 218, 219, 220, 221, 222, 223, 224, 225, 226, 227, 228, 229, 230, 231, 232, 233]
Found 45 redundant transitions using SMT.
Drop transitions removed 45 transitions
Redundant transitions reduction (with SMT) removed 45 transitions :[233, 232, 231, 230, 229, 228, 227, 226, 225, 224, 223, 222, 221, 220, 219, 218, 217, 216, 215, 214, 213, 212, 211, 210, 209, 208, 207, 206, 205, 204, 203, 202, 201, 200, 199, 198, 197, 196, 195, 194, 193, 192, 191, 190, 189]
// Phase 1: matrix 189 rows 33 cols
[2021-05-11 22:18:33] [INFO ] Computed 12 place invariants in 1 ms
[2021-05-11 22:18:33] [INFO ] Dead Transitions using invariants and state equation in 61 ms returned []
Starting structural reductions, iteration 1 : 33/33 places, 189/234 transitions.
Applied a total of 0 rules in 5 ms. Remains 33 /33 variables (removed 0) and now considering 189/189 (removed 0) transitions.
[2021-05-11 22:18:33] [INFO ] Redundant transitions in 0 ms returned []
// Phase 1: matrix 189 rows 33 cols
[2021-05-11 22:18:33] [INFO ] Computed 12 place invariants in 2 ms
[2021-05-11 22:18:33] [INFO ] Dead Transitions using invariants and state equation in 76 ms returned []
Finished structural reductions, in 2 iterations. Remains : 33/33 places, 189/234 transitions.
Stuttering acceptance computed with spot in 45 ms :[p0, p0]
Running random walk in product with property : GlobalResAllocation-COL-03-15 automaton TGBA [mat=[[{ cond=true, acceptance={} source=0 dest: 0}, { cond=p0, acceptance={} source=0 dest: 1}], [{ cond=p0, acceptance={0} source=1 dest: 1}]], initial=0, aps=[p0:(OR (AND (GEQ s9 2) (GEQ s13 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s27 1)) (AND (GEQ s9 2) (GEQ s15 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s17 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s19 1)) (AND (GEQ s9 2) (GEQ s17 2)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s13 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s27 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s25 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s23 1)) (AND (GEQ s11 2) (GEQ s27 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s21 1)) (AND (GEQ s11 2) (GEQ s29 2)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s25 1)) (AND (GEQ s11 2) (GEQ s28 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s15 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s27 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s15 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s29 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s21 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s23 1)) (AND (GEQ s10 2) (GEQ s18 2)) (AND (GEQ s10 2) (GEQ s22 2)) (AND (GEQ s10 2) (GEQ s20 2)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s29 1)) (AND (GEQ s9 2) (GEQ s14 2)) (AND (GEQ s9 2) (GEQ s16 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s12 2)) (AND (GEQ s10 2) (GEQ s19 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s20 1)) (AND (GEQ s9 2) (GEQ s16 1) (GEQ s17 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s26 1)) (AND (GEQ s11 2) (GEQ s27 1) (GEQ s28 1)) (AND (GEQ s9 2) (GEQ s12 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s25 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 2)) (AND (GEQ s11 2) (GEQ s26 2)) (AND (GEQ s11 2) (GEQ s28 2)) (AND (GEQ s10 2) (GEQ s18 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s22 1) (GEQ s23 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s14 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s28 1)) (AND (GEQ s11 2) (GEQ s24 1) (GEQ s26 1)) (AND (GEQ s9 2) (GEQ s13 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s21 1) (GEQ s22 1)) (AND (GEQ s9 2) (GEQ s14 1) (GEQ s16 1)) (AND (GEQ s9 2) (GEQ s15 1) (GEQ s16 1)) (AND (GEQ s10 2) (GEQ s20 1) (GEQ s22 1)) (AND (GEQ s10 2) (GEQ s19 2)) (AND (GEQ s10 2) (GEQ s23 2)) (AND (GEQ s11 2) (GEQ s26 1) (GEQ s28 1)) (AND (GEQ s10 2) (GEQ s21 2)))], nbAcceptance=1, properties=[trans-labels, explicit-labels, trans-acc, no-univ-branch, stutter-invariant, very-weak, weak, inherently-weak], stateDesc=[null, null][true, true]]
Product exploration explored 100000 steps with 10576 reset in 805 ms.
Stack based approach found an accepted trace after 6 steps with 0 reset with depth 7 and stack size 7 in 0 ms.
FORMULA GlobalResAllocation-COL-03-15 FALSE TECHNIQUES STUTTER_TEST
Treatment of property GlobalResAllocation-COL-03-15 finished in 1229 ms.
All properties solved without resorting to model-checking.

BK_STOP 1620771515603

--------------------
content from stderr:

+ export BINDIR=/home/mcc/BenchKit/bin//../
+ BINDIR=/home/mcc/BenchKit/bin//../
++ pwd
+ export MODEL=/home/mcc/execution
+ MODEL=/home/mcc/execution
+ [[ LTLFireability = StateSpace ]]
+ /home/mcc/BenchKit/bin//..//runeclipse.sh /home/mcc/execution LTLFireability -its -ltsmin -greatspnpath /home/mcc/BenchKit/bin//..//greatspn/ -order META -manyOrder -smt -timeout 3600
+ 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 LTLFireability -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 3600 -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="GlobalResAllocation-COL-03"
export BK_EXAMINATION="LTLFireability"
export BK_TOOL="itstools"
export BK_RESULT_DIR="/tmp/BK_RESULTS/OUTPUTS"
export BK_TIME_CONFINEMENT="3600"
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 GlobalResAllocation-COL-03, examination is LTLFireability"
echo " Time confinement is $BK_TIME_CONFINEMENT seconds"
echo " Memory confinement is 16384 MBytes"
echo " Number of cores is 4"
echo " Run identifier is r121-tall-162075406300005"
echo "====================================================================="
echo
echo "--------------------"
echo "preparation of the directory to be used:"

tar xzf /home/mcc/BenchKit/INPUTS/GlobalResAllocation-COL-03.tgz
mv GlobalResAllocation-COL-03 execution
cd execution
if [ "LTLFireability" = "ReachabilityDeadlock" ] || [ "LTLFireability" = "UpperBounds" ] || [ "LTLFireability" = "QuasiLiveness" ] || [ "LTLFireability" = "StableMarking" ] || [ "LTLFireability" = "Liveness" ] || [ "LTLFireability" = "OneSafe" ] || [ "LTLFireability" = "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 [ "LTLFireability" = "UpperBounds" ] ; then
echo "The expected result is a vector of positive values"
echo NUM_VECTOR
elif [ "LTLFireability" != "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 "LTLFireability.txt" ] ; then
echo "here is the order used to build the result vector(from text file)"
for x in $(grep Property LTLFireability.txt | cut -d ' ' -f 2 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ -f "LTLFireability.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 '' LTLFireability.xml | cut -d '>' -f 2 | cut -d '<' -f 1 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ "LTLFireability" = "ReachabilityDeadlock" ] || [ "LTLFireability" = "QuasiLiveness" ] || [ "LTLFireability" = "StableMarking" ] || [ "LTLFireability" = "Liveness" ] || [ "LTLFireability" = "OneSafe" ] ; then
echo "FORMULA_NAME LTLFireability"
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 ;