About the Execution of Marcie for Diffusion2D-PT-D10N200
Execution Summary | |||||
Max Memory Used (MB) |
Time wait (ms) | CPU Usage (ms) | I/O Wait (ms) | Computed Result | Execution Status |
7300.500 | 2477084.00 | 2477009.00 | 20.00 | FFFFFFFFFFFFFFFF | normal |
Execution Chart
We display below the execution chart for this examination (boot time has been removed).
Trace from the execution
Waiting for the VM to be ready (probing ssh)
.........
=====================================================================
Generated by BenchKit 2-2265
Executing tool marcie
Input is Diffusion2D-PT-D10N200, examination is ReachabilityBounds
Time confinement is 3600 seconds
Memory confinement is 16384 MBytes
Number of cores is 1
Run identifier is r022kn-blw3-143214376500242
=====================================================================
--------------------
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 Diffusion2D-PT-D10N200-ReachabilityBounds-0
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-1
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-10
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-11
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-12
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-13
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-14
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-15
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-2
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-3
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-4
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-5
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-6
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-7
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-8
FORMULA_NAME Diffusion2D-PT-D10N200-ReachabilityBounds-9
=== Now, execution of the tool begins
BK_START 1432489429192
Model: Diffusion2D-PT-D10N200
reachability algorithm:
Saturation-based algorithm
variable ordering algorithm:
Calculated like in [Noa99]
--memory=6 --suppress --rs-algorithm=3 --place-order=5
Marcie rev. 1429:1432M (built: crohr on 2014-10-22)
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: marcie --net-file=model.pnml --mcc-file=ReachabilityBounds.xml --memory=6 --suppress --rs-algorithm=3 --place-order=5
parse successfull
net created successfully
(NrP: 100 NrTr: 684 NrArc: 1368)
net check time: 0m0sec
parse formulas successfull
formulas created successfully
place and transition orderings generation:0m0sec
init dd package: 0m3sec
RS generation: 34m57sec
-> reachability set: #nodes 19900 (2.0e+04) #states 1,386,083,821,086,188,248,261,127,842,108,801,860,093,488,668,581,216,236,221,011,219,101,585,442,774,669,540 (81)
starting MCC model checker
--------------------------
checking: maxVal(cAMP__1_2_)<=3
normalized: maxVal(cAMP__1_2_)<=3
abstracting: (200<=3) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-0 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__6_1_)<=1
normalized: maxVal(cAMP__6_1_)<=1
abstracting: (200<=1) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-1 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__4_7_)<=2
normalized: maxVal(cAMP__4_7_)<=2
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-2 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: [maxVal(cAMP__3_5_)<=2 & maxVal(cAMP__7_10_)<=1]
normalized: [maxVal(cAMP__3_5_)<=2 & maxVal(cAMP__7_10_)<=1]
abstracting: (200<=1) states: 0
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-3 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__1_9_)<=3
normalized: maxVal(cAMP__1_9_)<=3
abstracting: (200<=3) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-4 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__3_6_)<=2
normalized: maxVal(cAMP__3_6_)<=2
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-5 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__3_2_)<=3
normalized: maxVal(cAMP__3_2_)<=3
abstracting: (200<=3) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-6 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__1_8_)<=2
normalized: maxVal(cAMP__1_8_)<=2
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-7 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: [[[[maxVal(cAMP__9_2_)<=1 & [[maxVal(cAMP__10_3_)<=3 & maxVal(cAMP__5_7_)<=2] & [maxVal(cAMP__5_3_)<=3 & maxVal(cAMP__8_7_)<=2]]] & maxVal(cAMP__5_10_)<=2] & [[maxVal(cAMP__2_6_)<=1 & maxVal(cAMP__2_6_)<=2] & [maxVal(cAMP__10_10_)<=2 & maxVal(cAMP__9_9_)<=2]]] & [[maxVal(cAMP__9_8_)<=3 & [[maxVal(cAMP__3_3_)<=2 & [maxVal(cAMP__2_3_)<=3 & maxVal(cAMP__4_3_)<=1]] & [maxVal(cAMP__2_8_)<=1 & maxVal(cAMP__8_7_)<=1]]] & [[maxVal(cAMP__9_3_)<=3 & maxVal(cAMP__5_1_)<=2] & maxVal(cAMP__9_5_)<=3]]]
normalized: [[[[maxVal(cAMP__9_3_)<=3 & maxVal(cAMP__5_1_)<=2] & maxVal(cAMP__9_5_)<=3] & [maxVal(cAMP__9_8_)<=3 & [[maxVal(cAMP__2_8_)<=1 & maxVal(cAMP__8_7_)<=1] & [maxVal(cAMP__3_3_)<=2 & [maxVal(cAMP__2_3_)<=3 & maxVal(cAMP__4_3_)<=1]]]]] & [[[maxVal(cAMP__10_10_)<=2 & maxVal(cAMP__9_9_)<=2] & [maxVal(cAMP__2_6_)<=1 & maxVal(cAMP__2_6_)<=2]] & [maxVal(cAMP__5_10_)<=2 & [maxVal(cAMP__9_2_)<=1 & [[maxVal(cAMP__5_3_)<=3 & maxVal(cAMP__8_7_)<=2] & [maxVal(cAMP__10_3_)<=3 & maxVal(cAMP__5_7_)<=2]]]]]]
abstracting: (200<=2) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=3) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-8 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: [maxVal(cAMP__3_7_)<=2 & [[[[maxVal(cAMP__8_6_)<=3 & maxVal(cAMP__2_8_)<=3] & maxVal(cAMP__4_4_)<=1] & [maxVal(cAMP__4_3_)<=3 & [maxVal(cAMP__9_5_)<=1 & maxVal(cAMP__7_1_)<=3]]] & maxVal(cAMP__7_2_)<=3]]
normalized: [maxVal(cAMP__3_7_)<=2 & [maxVal(cAMP__7_2_)<=3 & [[maxVal(cAMP__4_3_)<=3 & [maxVal(cAMP__9_5_)<=1 & maxVal(cAMP__7_1_)<=3]] & [maxVal(cAMP__4_4_)<=1 & [maxVal(cAMP__8_6_)<=3 & maxVal(cAMP__2_8_)<=3]]]]]
abstracting: (200<=3) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-9 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: [[[maxVal(cAMP__6_3_)<=1 & maxVal(cAMP__5_3_)<=3] & maxVal(cAMP__10_10_)<=1] & [maxVal(cAMP__6_3_)<=3 & [maxVal(cAMP__5_9_)<=1 & [[maxVal(cAMP__6_5_)<=3 & [maxVal(cAMP__2_3_)<=1 & maxVal(cAMP__9_9_)<=2]] & [maxVal(cAMP__9_8_)<=3 & maxVal(cAMP__4_6_)<=2]]]]]
normalized: [[maxVal(cAMP__6_3_)<=3 & [maxVal(cAMP__5_9_)<=1 & [[maxVal(cAMP__6_5_)<=3 & [maxVal(cAMP__2_3_)<=1 & maxVal(cAMP__9_9_)<=2]] & [maxVal(cAMP__9_8_)<=3 & maxVal(cAMP__4_6_)<=2]]]] & [maxVal(cAMP__10_10_)<=1 & [maxVal(cAMP__6_3_)<=1 & maxVal(cAMP__5_3_)<=3]]]
abstracting: (200<=3) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=2) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=3) states: 0
abstracting: (200<=1) states: 0
abstracting: (200<=3) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-10 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: [maxVal(cAMP__5_4_)<=1 & maxVal(cAMP__3_3_)<=2]
normalized: [maxVal(cAMP__5_4_)<=1 & maxVal(cAMP__3_3_)<=2]
abstracting: (200<=2) states: 0
abstracting: (200<=1) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-11 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: [maxVal(cAMP__3_1_)<=2 & maxVal(cAMP__2_10_)<=2]
normalized: [maxVal(cAMP__3_1_)<=2 & maxVal(cAMP__2_10_)<=2]
abstracting: (200<=2) states: 0
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-12 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__9_4_)<=2
normalized: maxVal(cAMP__9_4_)<=2
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-13 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__5_5_)<=3
normalized: maxVal(cAMP__5_5_)<=3
abstracting: (200<=3) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-14 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
checking: maxVal(cAMP__2_6_)<=2
normalized: maxVal(cAMP__2_6_)<=2
abstracting: (200<=2) states: 0
-> the formula is FALSE
FORMULA Diffusion2D-PT-D10N200-ReachabilityBounds-15 FALSE TECHNIQUES SEQUENTIAL_PROCESSING DECISION_DIAGRAMS UNFOLDING_TO_PT
MC time: 0m0sec
Total processing time: 41m16sec
BK_STOP 1432491906276
--------------------
content from stderr:
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: 0m0sec
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iterations count:1604084 (2345), effective:19800 (28)
initing FirstDep: 0m0sec
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="Diffusion2D-PT-D10N200"
export BK_EXAMINATION="ReachabilityBounds"
export BK_TOOL="marcie"
export BK_RESULT_DIR="/user/u8/hulinhub/BK_RESULTS/OUTPUTS"
export BK_TIME_CONFINEMENT="3600"
export BK_MEMORY_CONFINEMENT="16384"
# 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
tar xzf /home/mcc/BenchKit/INPUTS/Diffusion2D-PT-D10N200.tgz
mv Diffusion2D-PT-D10N200 execution
# this is for BenchKit: explicit launching of the test
cd execution
echo "====================================================================="
echo " Generated by BenchKit 2-2265"
echo " Executing tool marcie"
echo " Input is Diffusion2D-PT-D10N200, examination is ReachabilityBounds"
echo " Time confinement is $BK_TIME_CONFINEMENT seconds"
echo " Memory confinement is 16384 MBytes"
echo " Number of cores is 1"
echo " Run identifier is r022kn-blw3-143214376500242"
echo "====================================================================="
echo
echo "--------------------"
echo "content from stdout:"
echo
echo "=== Data for post analysis generated by BenchKit (invocation template)"
echo
if [ "ReachabilityBounds" = "ReachabilityComputeBounds" ] ; then
echo "The expected result is a vector of positive values"
echo NUM_VECTOR
elif [ "ReachabilityBounds" != "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 "ReachabilityBounds.txt" ] ; then
echo "here is the order used to build the result vector(from text file)"
for x in $(grep Property ReachabilityBounds.txt | cut -d ' ' -f 2 | sort -u) ; do
echo "FORMULA_NAME $x"
done
elif [ -f "ReachabilityBounds.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
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 ;