About the Execution of Marcie for CryptoMiner-COL-D03N010
| Execution Summary | |||||
| Max Memory Used (MB) |
Time wait (ms) | CPU Usage (ms) | I/O Wait (ms) | Computed Result | Execution Status |
| 5470.836 | 14117.00 | 14070.00 | 0.00 | FFTFFTFFFFTFFFFT | normal |
Execution Chart
We display below the execution chart for this examination (boot time has been removed).
Trace from the execution
Formatting '/data/fkordon/mcc2023-input.r513-tall-167987240600081.qcow2', fmt=qcow2 size=4294967296 backing_file=/data/fkordon/mcc2023-input.qcow2 cluster_size=65536 lazy_refcounts=off refcount_bits=16
Waiting for the VM to be ready (probing ssh)
................................................................................................................................................................
=====================================================================
Generated by BenchKit 2-5348
Executing tool marcie
Input is CryptoMiner-COL-D03N010, examination is CTLCardinality
Time confinement is 3600 seconds
Memory confinement is 16384 MBytes
Number of cores is 1
Run identifier is r513-tall-167987240600081
=====================================================================
--------------------
preparation of the directory to be used:
/home/mcc/execution
total 440K
-rw-r--r-- 1 mcc users 6.9K Mar 23 15:22 CTLCardinality.txt
-rw-r--r-- 1 mcc users 67K Mar 23 15:22 CTLCardinality.xml
-rw-r--r-- 1 mcc users 6.7K Mar 23 15:19 CTLFireability.txt
-rw-r--r-- 1 mcc users 59K Mar 23 15:19 CTLFireability.xml
-rw-r--r-- 1 mcc users 4.0K Mar 23 07:06 LTLCardinality.txt
-rw-r--r-- 1 mcc users 26K Mar 23 07:06 LTLCardinality.xml
-rw-r--r-- 1 mcc users 2.4K Mar 23 07:06 LTLFireability.txt
-rw-r--r-- 1 mcc users 16K Mar 23 07:06 LTLFireability.xml
-rw-r--r-- 1 mcc users 1 Mar 26 22:42 NewModel
-rw-r--r-- 1 mcc users 8.9K Mar 23 15:24 ReachabilityCardinality.txt
-rw-r--r-- 1 mcc users 82K Mar 23 15:24 ReachabilityCardinality.xml
-rw-r--r-- 1 mcc users 11K Mar 23 15:24 ReachabilityFireability.txt
-rw-r--r-- 1 mcc users 90K Mar 23 15:24 ReachabilityFireability.xml
-rw-r--r-- 1 mcc users 1.8K Mar 23 07:06 UpperBounds.txt
-rw-r--r-- 1 mcc users 3.8K Mar 23 07:06 UpperBounds.xml
-rw-r--r-- 1 mcc users 5 Mar 26 22:42 equiv_pt
-rw-r--r-- 1 mcc users 8 Mar 26 22:42 instance
-rw-r--r-- 1 mcc users 5 Mar 26 22:42 iscolored
-rw-r--r-- 1 mcc users 18K Mar 26 22:42 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 CryptoMiner-COL-D03N010-CTLCardinality-00
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-01
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-02
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-03
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-04
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-05
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-06
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-07
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-08
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-09
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-10
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-11
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-12
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-13
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-14
FORMULA_NAME CryptoMiner-COL-D03N010-CTLCardinality-15
=== Now, execution of the tool begins
BK_START 1679880793250
bash -c /home/mcc/BenchKit/BenchKit_head.sh 2> STDERR ; echo ; echo -n "BK_STOP " ; date -u +%s%3N
Invoking MCC driver with
BK_TOOL=marcie
BK_EXAMINATION=CTLCardinality
BK_BIN_PATH=/home/mcc/BenchKit/bin/
BK_TIME_CONFINEMENT=3600
BK_INPUT=CryptoMiner-COL-D03N010
Not applying reductions.
Model is COL
CTLCardinality COL
timeout --kill-after=10s --signal=SIGINT 1m for testing only
Marcie built on Linux at 2019-11-18.
A model checker for Generalized Stochastic Petri nets
authors: Alex Tovchigrechko (IDD package and CTL model checking)
Martin Schwarick (Symbolic numerical analysis and CSL model checking)
Christian Rohr (Simulative and approximative numerical model checking)
marcie@informatik.tu-cottbus.de
called as: /home/mcc/BenchKit/bin//../marcie/bin/marcie --net-file=model.pnml --mcc-file=CTLCardinality.xml --memory=6 --mcc-mode
parse successfull
net created successfully
Unfolding complete |P|=12|T|=12|A|=34
Time for unfolding: 0m 0.335sec
Net: CryptoMinerB_COL_D3_N10
(NrP: 12 NrTr: 12 NrArc: 34)
parse formulas
formulas created successfully
place and transition orderings generation:0m 0.000sec
net check time: 0m 0.000sec
init dd package: 0m 2.913sec
RS generation: 0m 0.022sec
-> reachability set: #nodes 121 (1.2e+02) #states 10,636 (4)
starting MCC model checker
--------------------------
checking: EX [~ [EF [EF [41<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]
normalized: EX [~ [E [true U E [true U 41<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]
abstracting: (41<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
.-> the formula is TRUE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-05 TRUE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.023sec
checking: EF [83<=sum(state_c3, state_c2, state_c1, state_c0)]
normalized: E [true U 83<=sum(state_c3, state_c2, state_c1, state_c0)]
abstracting: (83<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-08 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.021sec
checking: AF [AF [EF [EF [AG [72<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]]]
normalized: ~ [EG [EG [~ [E [true U E [true U ~ [E [true U ~ [72<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]]]]]]]
abstracting: (72<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 0
EG iterations: 0
EG iterations: 0
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-12 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.026sec
checking: ~ [AG [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]
normalized: E [true U ~ [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-14 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.000sec
checking: E [EF [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=28] U ~ [[AF [EG [[78<=sum(state_c3, state_c2, state_c1, state_c0) & sum(resource_c3, resource_c2, resource_c1, resource_c0)<=5]]] | sum(state_c3, state_c2, state_c1, state_c0)<=62]]]
normalized: E [E [true U sum(resource_c3, resource_c2, resource_c1, resource_c0)<=28] U ~ [[~ [EG [~ [EG [[78<=sum(state_c3, state_c2, state_c1, state_c0) & sum(resource_c3, resource_c2, resource_c1, resource_c0)<=5]]]]] | sum(state_c3, state_c2, state_c1, state_c0)<=62]]]
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=62)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=5)
states: 9,984 (3)
abstracting: (78<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
.
EG iterations: 1
EG iterations: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=28)
states: 10,636 (4)
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-09 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.086sec
checking: E [AF [~ [[~ [AX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=33]] & ~ [AX [23<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]]] U AX [~ [[EG [AF [53<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]] | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=54]]]]
normalized: E [~ [EG [[EX [~ [23<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]] & EX [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=33]]]]] U ~ [EX [[EG [~ [EG [~ [53<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]] | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=54]]]]
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=54)
states: 10,636 (4)
abstracting: (53<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
EG iterations: 0
.
EG iterations: 1
.abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=33)
states: 10,636 (4)
.abstracting: (23<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 0
..
EG iterations: 1
-> the formula is TRUE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-10 TRUE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.106sec
checking: EF [E [E [~ [[AF [sum(state_c3, state_c2, state_c1, state_c0)<=47] | EX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=1]]] U ~ [[~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=89] & EG [45<=sum(state_c3, state_c2, state_c1, state_c0)]]]] U 65<=sum(state_c3, state_c2, state_c1, state_c0)]]
normalized: E [true U E [E [~ [[EX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=1] | ~ [EG [~ [sum(state_c3, state_c2, state_c1, state_c0)<=47]]]]] U ~ [[EG [45<=sum(state_c3, state_c2, state_c1, state_c0)] & ~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=89]]]] U 65<=sum(state_c3, state_c2, state_c1, state_c0)]]
abstracting: (65<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=89)
states: 10,636 (4)
abstracting: (45<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
.
EG iterations: 1
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=47)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=1)
states: 3,718 (3)
.-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-03 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.115sec
checking: EF [EX [[~ [A [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0) | sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] U [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34]]] | 89<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]
normalized: E [true U EX [[~ [[~ [EG [~ [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34]]]] & ~ [E [~ [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34]] U [~ [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0) | sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] & ~ [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34]]]]]]] | 89<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]
abstracting: (89<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 0
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 2,243 (3)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=34)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
.
EG iterations: 1
.-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-01 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 4.579sec
checking: E [~ [33<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] U ~ [[sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | ~ [[AX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] & [EG [sum(state_c3, state_c2, state_c1, state_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] & AF [sum(state_c3, state_c2, state_c1, state_c0)<=10]]]]]]]
normalized: E [~ [33<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] U ~ [[~ [[[~ [EG [~ [sum(state_c3, state_c2, state_c1, state_c0)<=10]]] & EG [sum(state_c3, state_c2, state_c1, state_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]] & ~ [EX [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]]]] | sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]]
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
.abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 9,492 (3)
.
EG iterations: 1
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=10)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (33<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-11 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.084sec
checking: ~ [E [EF [~ [[[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & ~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=98]] | A [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=20 U sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]]] U [[~ [A [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=24 U 17<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]] & 37<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | AG [75<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]
normalized: ~ [E [E [true U ~ [[[~ [EG [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]] & ~ [E [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] U [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=20] & ~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]]]] | [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=98] & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]]] U [~ [E [true U ~ [75<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] | [~ [[~ [EG [~ [17<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] & ~ [E [~ [17<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] U [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=24] & ~ [17<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]]] & 37<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]
abstracting: (37<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (17<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=24)
states: 10,636 (4)
abstracting: (17<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (17<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
EG iterations: 0
abstracting: (75<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=98)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=20)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
.
EG iterations: 1
-> the formula is TRUE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-02 TRUE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.135sec
checking: EF [[~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] & A [AG [[[sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] & A [48<=sum(state_c3, state_c2, state_c1, state_c0) U 52<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] U [~ [EX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34]] & ~ [sum(state_c3, state_c2, state_c1, state_c0)<=64]]]]]
normalized: E [true U [[~ [EG [~ [[~ [sum(state_c3, state_c2, state_c1, state_c0)<=64] & ~ [EX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34]]]]]] & ~ [E [~ [[~ [sum(state_c3, state_c2, state_c1, state_c0)<=64] & ~ [EX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34]]]] U [E [true U ~ [[[~ [EG [~ [52<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] & ~ [E [~ [52<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] U [~ [48<=sum(state_c3, state_c2, state_c1, state_c0)] & ~ [52<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]] & [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]] & ~ [[~ [sum(state_c3, state_c2, state_c1, state_c0)<=64] & ~ [EX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34]]]]]]]] & ~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34)
states: 10,636 (4)
.abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=64)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 2,243 (3)
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (52<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (48<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (52<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (52<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
EG iterations: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34)
states: 10,636 (4)
.abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=64)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=34)
states: 10,636 (4)
.abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=64)
states: 10,636 (4)
EG iterations: 0
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-07 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.085sec
checking: ~ [AG [[AX [[[[sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | 65<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | ~ [sum(state_c3, state_c2, state_c1, state_c0)<=8]] | A [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=1 U 43<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] | [[AX [[52<=sum(state_c3, state_c2, state_c1, state_c0) & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=71]] & EX [EX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]] & ~ [[[~ [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] | 88<=sum(state_c3, state_c2, state_c1, state_c0)] & ~ [EX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]]]]]
normalized: E [true U ~ [[[~ [[~ [EX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]] & [~ [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] | 88<=sum(state_c3, state_c2, state_c1, state_c0)]]] & [EX [EX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] & ~ [EX [~ [[52<=sum(state_c3, state_c2, state_c1, state_c0) & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=71]]]]]] | ~ [EX [~ [[[~ [EG [~ [43<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] & ~ [E [~ [43<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] U [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=1] & ~ [43<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]] | [~ [sum(state_c3, state_c2, state_c1, state_c0)<=8] | [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0) | 65<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]]]]]]
abstracting: (65<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=8)
states: 10,636 (4)
abstracting: (43<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=1)
states: 283
abstracting: (43<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (43<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
EG iterations: 0
.abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=71)
states: 10,636 (4)
abstracting: (52<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
.abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
..abstracting: (88<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 2,243 (3)
.-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-13 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.160sec
checking: [EF [EX [[E [AX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=40] U 23<=sum(state_c3, state_c2, state_c1, state_c0)] | [[A [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) U sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32] & ~ [sum(state_c3, state_c2, state_c1, state_c0)<=29]] & A [sum(state_c3, state_c2, state_c1, state_c0)<=5 U 70<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]] | A [EX [[sum(state_c3, state_c2, state_c1, state_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) & 21<=sum(state_c3, state_c2, state_c1, state_c0)]] U ~ [[A [~ [AF [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] U sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13] | [EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39]] | 61<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]]
normalized: [E [true U EX [[[[[~ [EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32]]] & ~ [E [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32] U [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)] & ~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32]]]]] & ~ [sum(state_c3, state_c2, state_c1, state_c0)<=29]] & [~ [EG [~ [70<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] & ~ [E [~ [70<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] U [~ [sum(state_c3, state_c2, state_c1, state_c0)<=5] & ~ [70<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]]]] | E [~ [EX [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=40]]] U 23<=sum(state_c3, state_c2, state_c1, state_c0)]]]] | [~ [EG [[[EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39]] | 61<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | [~ [EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13]]] & ~ [E [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13] U [~ [EG [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]] & ~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13]]]]]]]] & ~ [E [[[EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39]] | 61<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | [~ [EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13]]] & ~ [E [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13] U [~ [EG [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]] & ~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13]]]]]] U [~ [EX [[sum(state_c3, state_c2, state_c1, state_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) & 21<=sum(state_c3, state_c2, state_c1, state_c0)]]] & [[EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39]] | 61<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | [~ [EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13]]] & ~ [E [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13] U [~ [EG [~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]] & ~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13]]]]]]]]]]]
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
.
EG iterations: 1
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (61<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (21<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 10,592 (4)
.abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
.
EG iterations: 1
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (61<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
.
EG iterations: 1
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=13)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (61<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=39)
states: 10,636 (4)
.
EG iterations: 1
EG iterations: 0
abstracting: (23<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=40)
states: 10,636 (4)
.abstracting: (70<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=5)
states: 10,636 (4)
abstracting: (70<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (70<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
EG iterations: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=29)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 9,098 (3)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=32)
states: 10,636 (4)
.
EG iterations: 1
.-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-00 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 4.869sec
checking: [AG [[[~ [[[sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & EG [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]] & EX [89<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] & [[[62<=sum(state_c3, state_c2, state_c1, state_c0) & AG [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=21]] | sum(state_c3, state_c2, state_c1, state_c0)<=12] & [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & ~ [14<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]] | sum(state_c3, state_c2, state_c1, state_c0)<=40]] | ~ [EG [[A [AF [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=15] U EF [sum(state_c3, state_c2, state_c1, state_c0)<=64]] | ~ [[E [sum(state_c3, state_c2, state_c1, state_c0)<=100 U 53<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | AX [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=75]]]]]]]
normalized: [~ [EG [[~ [[~ [EX [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=75]]] | E [sum(state_c3, state_c2, state_c1, state_c0)<=100 U 53<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] | [~ [EG [~ [E [true U sum(state_c3, state_c2, state_c1, state_c0)<=64]]]] & ~ [E [~ [E [true U sum(state_c3, state_c2, state_c1, state_c0)<=64]] U [EG [~ [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=15]] & ~ [E [true U sum(state_c3, state_c2, state_c1, state_c0)<=64]]]]]]]]] | ~ [E [true U ~ [[[[[~ [14<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)] & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] & [[~ [E [true U ~ [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=21]]] & 62<=sum(state_c3, state_c2, state_c1, state_c0)] | sum(state_c3, state_c2, state_c1, state_c0)<=12]] & ~ [[EX [89<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] & [EG [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] & sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]]] | sum(state_c3, state_c2, state_c1, state_c0)<=40]]]]]
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=40)
states: 10,636 (4)
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 10,636 (4)
EG iterations: 0
abstracting: (89<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
.abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=12)
states: 10,636 (4)
abstracting: (62<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=21)
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (14<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=64)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=15)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=64)
states: 10,636 (4)
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=64)
states: 10,636 (4)
.
EG iterations: 1
abstracting: (53<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=100)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=75)
states: 10,636 (4)
.
EG iterations: 0
-> the formula is TRUE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-15 TRUE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.205sec
checking: E [[[[EG [[~ [95<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] & EG [[[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0) & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] & [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & 80<=sum(state_c3, state_c2, state_c1, state_c0)]]]] & [sum(state_c3, state_c2, state_c1, state_c0)<=24 | [55<=sum(resource_c3, resource_c2, resource_c1, resource_c0) | [EX [sum(state_c3, state_c2, state_c1, state_c0)<=94] | 72<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]]] | AG [EX [EX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]] U sum(state_c3, state_c2, state_c1, state_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]
normalized: E [[[[EG [[[sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(state_c3, state_c2, state_c1, state_c0) & 80<=sum(state_c3, state_c2, state_c1, state_c0)] & [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0) & sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]]] & EG [[~ [95<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]]] & [[[EX [sum(state_c3, state_c2, state_c1, state_c0)<=94] | 72<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | 55<=sum(resource_c3, resource_c2, resource_c1, resource_c0)] | sum(state_c3, state_c2, state_c1, state_c0)<=24]] | ~ [E [true U ~ [EX [EX [sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]]]] U sum(state_c3, state_c2, state_c1, state_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0)]
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 9,492 (3)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 10,636 (4)
..abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=24)
states: 10,636 (4)
abstracting: (55<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (72<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=94)
states: 10,636 (4)
.abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 211
abstracting: (95<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 0
EG iterations: 0
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 2,243 (3)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 2,243 (3)
abstracting: (80<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 3,129 (3)
.
EG iterations: 1
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-04 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.173sec
checking: EF [[[[[EF [40<=sum(state_c3, state_c2, state_c1, state_c0)] & sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)] | E [~ [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) | sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] U AG [72<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]] | ~ [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] | ~ [[[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=11 | AX [[sum(resource_c3, resource_c2, resource_c1, resource_c0)<=81 | sum(state_c3, state_c2, state_c1, state_c0)<=27]]] | E [E [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) U 57<=sum(state_c3, state_c2, state_c1, state_c0)] U E [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0) U 51<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]]]]
normalized: E [true U [~ [[E [E [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) U 57<=sum(state_c3, state_c2, state_c1, state_c0)] U E [sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0) U 51<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]] | [~ [EX [~ [[sum(resource_c3, resource_c2, resource_c1, resource_c0)<=81 | sum(state_c3, state_c2, state_c1, state_c0)<=27]]]] | sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=11]]] | [~ [sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0)] | [E [~ [[sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0) | sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(state_c3, state_c2, state_c1, state_c0)]] U ~ [E [true U ~ [72<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]] | [E [true U 40<=sum(state_c3, state_c2, state_c1, state_c0)] & sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)]]]]]
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 9,098 (3)
abstracting: (40<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (72<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 3,129 (3)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 10,636 (4)
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=sum(state_c3, state_c2, state_c1, state_c0))
states: 10,636 (4)
abstracting: (sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0)<=11)
states: 10,636 (4)
abstracting: (sum(state_c3, state_c2, state_c1, state_c0)<=27)
states: 10,636 (4)
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=81)
states: 10,636 (4)
.abstracting: (51<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(resource_c3, resource_c2, resource_c1, resource_c0))
states: 10,636 (4)
abstracting: (57<=sum(state_c3, state_c2, state_c1, state_c0))
states: 0
abstracting: (sum(resource_c3, resource_c2, resource_c1, resource_c0)<=sum(capacity_c3, capacity_c2, capacity_c1, capacity_c0))
states: 9,098 (3)
-> the formula is FALSE
FORMULA CryptoMiner-COL-D03N010-CTLCardinality-06 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m 0.132sec
totally nodes used: 4700 (4.7e+03)
number of garbage collections: 0
fire ops cache: hits/miss/sum: 15266 11867 27133
used/not used/entry size/cache size: 14238 67094626 16 1024MB
basic ops cache: hits/miss/sum: 8492 6159 14651
used/not used/entry size/cache size: 9688 16767528 12 192MB
unary ops cache: hits/miss/sum: 0 0 0
used/not used/entry size/cache size: 0 16777216 8 128MB
abstract ops cache: hits/miss/sum: 0 2403942 2403942
used/not used/entry size/cache size: 1 16777215 12 192MB
state nr cache: hits/miss/sum: 722 427 1149
used/not used/entry size/cache size: 427 8388181 32 256MB
max state cache: hits/miss/sum: 0 0 0
used/not used/entry size/cache size: 0 8388608 32 256MB
uniqueHash elements/entry size/size: 67108864 4 256MB
0 67104461
1 4174
2 215
3 5
4 1
5 3
6 1
7 0
8 0
9 0
>= 10 4
Total processing time: 0m15.691sec
BK_STOP 1679880808990
--------------------
content from stderr:
check for maximal unmarked siphon
ok
check for constant places
ok
check if there are places and transitions
ok
check if there are transitions without pre-places
ok
check if at least one transition is enabled in m0
ok
check if there are transitions that can never fire
ok
initing FirstDep: 0m 0.001sec
iterations count:223 (18), effective:54 (4)
initing FirstDep: 0m 0.000sec
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:338 (28), effective:110 (9)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:24 (2), effective:4 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:12 (1), effective:0 (0)
iterations count:335 (27), effective:109 (9)
iterations count:22 (1), effective:3 (0)
iterations count:12 (1), effective:0 (0)
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="CryptoMiner-COL-D03N010"
export BK_EXAMINATION="CTLCardinality"
export BK_TOOL="marcie"
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 2-5348"
echo " Executing tool marcie"
echo " Input is CryptoMiner-COL-D03N010, examination is CTLCardinality"
echo " Time confinement is $BK_TIME_CONFINEMENT seconds"
echo " Memory confinement is 16384 MBytes"
echo " Number of cores is 1"
echo " Run identifier is r513-tall-167987240600081"
echo "====================================================================="
echo
echo "--------------------"
echo "preparation of the directory to be used:"
tar xzf /home/mcc/BenchKit/INPUTS/CryptoMiner-COL-D03N010.tgz
mv CryptoMiner-COL-D03N010 execution
cd execution
if [ "CTLCardinality" = "ReachabilityDeadlock" ] || [ "CTLCardinality" = "UpperBounds" ] || [ "CTLCardinality" = "QuasiLiveness" ] || [ "CTLCardinality" = "StableMarking" ] || [ "CTLCardinality" = "Liveness" ] || [ "CTLCardinality" = "OneSafe" ] || [ "CTLCardinality" = "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 [ "CTLCardinality" = "UpperBounds" ] ; then
echo "The expected result is a vector of positive values"
echo NUM_VECTOR
elif [ "CTLCardinality" != "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 "CTLCardinality.txt" ] ; then
echo "here is the order used to build the result vector(from text file)"
for x in $(grep Property CTLCardinality.txt | cut -d ' ' -f 2 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ -f "CTLCardinality.xml" ] ; then # for cunf (txt files deleted;-)
echo echo "here is the order used to build the result vector(from xml file)"
for x in $(grep '
echo "FORMULA_NAME $x"
done
elif [ "CTLCardinality" = "ReachabilityDeadlock" ] || [ "CTLCardinality" = "QuasiLiveness" ] || [ "CTLCardinality" = "StableMarking" ] || [ "CTLCardinality" = "Liveness" ] || [ "CTLCardinality" = "OneSafe" ] ; then
echo "FORMULA_NAME CTLCardinality"
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 ;