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Commit
75bfd331
authored
Feb 22, 2022
by
Michael Schmid
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9 changed files
with
210 additions
and
76 deletions
+210
-76
src/main/java/mvd/jester/App.java
+13
-52
src/main/java/mvd/jester/TestEnvironment.java
+51
-6
src/main/java/mvd/jester/model/SystemManager.java
+108
-16
src/main/java/mvd/jester/tests/FonsecaNelis.java
+4
-0
src/main/java/mvd/jester/tests/JiangYi.java
+4
-0
src/main/java/mvd/jester/tests/MelaniButtazzo.java
+4
-0
src/main/java/mvd/jester/tests/SchmidMottok.java
+11
-1
src/main/java/mvd/jester/tests/TypeFunction.java
+7
-0
src/main/java/mvd/jester/tests/UeterAgrawal.java
+8
-1
No files found.
src/main/java/mvd/jester/App.java
View file @
75bfd331
...
...
@@ -5,6 +5,7 @@ import java.util.List;
import
mvd.jester.model.DagTask
;
import
mvd.jester.model.SystemManager
;
import
mvd.jester.model.SystemManager.DagTaskBuilder
;
import
mvd.jester.model.SystemManager.DeadlineType
;
import
mvd.jester.tests.AbstractTest
;
import
mvd.jester.tests.JiangYi
;
import
mvd.jester.tests.SchmidMottok
;
...
...
@@ -26,7 +27,6 @@ public class App {
List
<
AbstractTest
<
DagTask
>>
tests
=
te
.
registerTests
(
Arrays
.
asList
(
new
SchmidMottok
(
new
UnknownStructure
(),
manager
),
//
// new Tester(new UnknownStructure(),manager),
// new MelaniButtazzo(manager),,
// new FonsecaNelis(manager), //
// new DongLiu(manager), //
...
...
@@ -34,77 +34,38 @@ public class App {
new
JiangYi
(
manager
)
//
));
te
.
varyRenyiUtilization
(
manager
,
tests
,
200
);
te
.
varyRenyiUtilization
(
manager
,
tests
,
200
,
DeadlineType
.
IMPLICIT
);
}
{
SystemManager
<
DagTaskBuilder
>
manager
=
new
SystemManager
<>(
DagTaskBuilder
.
class
);
manager
.
setNumberOfProcessors
(
16
);
manager
.
setNumberOfProcessors
(
8
);
TestEnvironment
te
=
new
TestEnvironment
();
List
<
AbstractTest
<
DagTask
>>
tests
=
te
.
registerTests
(
Arrays
.
asList
(
List
<
AbstractTest
<
DagTask
>>
tests
=
te
.
registerTests
(
Arrays
.
asList
(
//
new
SchmidMottok
(
new
UnknownStructure
(),
manager
),
//
// new Tester(new UnknownStructure(),
manager),
// new MelaniButtazzo(manager),
,
// new Tester(new UnknownStructure(),
manager), //
// new MelaniButtazzo(manager),
//
// new FonsecaNelis(manager), //
// new DongLiu(manager), //
new
UeterAgrawal
(
manager
),
//
new
JiangYi
(
manager
)
//
));
new
JiangYi
(
manager
)));
te
.
vary
RenyiUtilization
(
manager
,
tests
,
200
);
te
.
vary
NumberOfProcessors
(
manager
,
tests
,
200
);
}
{
SystemManager
<
DagTaskBuilder
>
manager
=
new
SystemManager
<>(
DagTaskBuilder
.
class
);
manager
.
setNumberOfProcessors
(
32
);
manager
.
setNumberOfProcessors
(
8
);
TestEnvironment
te
=
new
TestEnvironment
();
List
<
AbstractTest
<
DagTask
>>
tests
=
te
.
registerTests
(
Arrays
.
asList
(
List
<
AbstractTest
<
DagTask
>>
tests
=
te
.
registerTests
(
Arrays
.
asList
(
//
new
SchmidMottok
(
new
UnknownStructure
(),
manager
),
//
// new Tester(new UnknownStructure(),manager),
// new MelaniButtazzo(manager),,
// new MelaniButtazzo(manager), //
// new FonsecaNelis(manager), //
// new DongLiu(manager), //
new
UeterAgrawal
(
manager
),
//
new
JiangYi
(
manager
)
//
));
new
JiangYi
(
manager
)));
te
.
vary
RenyiUtilization
(
manager
,
tests
,
200
);
te
.
vary
NumberOfTasks
(
manager
,
tests
,
200
);
}
// {
// SystemManager<DagTaskBuilder> manager = new
// SystemManager<>(DagTaskBuilder.class);
// manager.setNumberOfProcessors(8);
// TestEnvironment te = new TestEnvironment();
// List<AbstractTest<DagTask>> tests = te.registerTests(Arrays.asList( //
// // new SchmidMottok(new KnownStructure(), manager), //
// new SchmidMottok(new UnknownStructure(), manager), //
// // new Tester(new UnknownStructure(), manager), //
// // new MelaniButtazzo(manager), //
// new FonsecaNelis(manager), //
// new UeterAgrawal(manager), //
// new JiangYi(manager)));
// te.varyNumberOfProcessors(manager, tests, 200);
// }
// {
// SystemManager<DagTaskBuilder> manager = new
// SystemManager<>(DagTaskBuilder.class);
// manager.setNumberOfProcessors(8);
// TestEnvironment te = new TestEnvironment();
// List<AbstractTest<DagTask>> tests = te.registerTests(Arrays.asList( //
// // new SchmidMottok(new KnownStructure(), manager), //
// new SchmidMottok(new UnknownStructure(), manager), //
// // new Tester(new UnknownStructure(), manager), //
// // new MelaniButtazzo(manager), //
// new FonsecaNelis(manager), //
// new UeterAgrawal(manager), //
// new JiangYi(manager)));
// te.varyNumberOfTasks(manager, tests, 200);
// }
}
}
src/main/java/mvd/jester/TestEnvironment.java
View file @
75bfd331
...
...
@@ -16,12 +16,14 @@ import mvd.jester.model.SynchronousTask;
import
mvd.jester.model.SystemManager
;
import
mvd.jester.model.Task
;
import
mvd.jester.model.SystemManager.DagTaskBuilder
;
import
mvd.jester.model.SystemManager.DeadlineType
;
import
mvd.jester.model.SystemManager.SynchronousTaskBuilder
;
import
mvd.jester.priority.PriorityManager
;
import
mvd.jester.tests.AbstractTest
;
/**
* TestEnvironment
* This class is responsible for running the evaluations on multiple task sets
*/
public
class
TestEnvironment
{
...
...
@@ -33,7 +35,13 @@ public class TestEnvironment {
return
new
ArrayList
<>(
tests
);
}
/***
* OUTDATED: For Parallel Synchronous Task model
* @param builder
* @param abstractTestInstances
* @param numberOfProcessors
* @param numberOfTaskSets
*/
public
void
runExperiments
(
final
SynchronousTaskBuilder
builder
,
final
Set
<
ResultCollector
<
AbstractTest
<
SynchronousTask
>>>
abstractTestInstances
,
final
long
numberOfProcessors
,
final
long
numberOfTaskSets
)
{
...
...
@@ -78,6 +86,12 @@ public class TestEnvironment {
// resultLogger.logTests(abstractTestInstances);
}
/***
* Measure the performance of each test
* @param manager SystemManager that is used to generate random task sets
* @param abstractTestInstances List of feasibility tests
* @param numberOfMeasurements Number of measurements performed for each test
*/
public
void
measureExecutionTimes
(
final
SystemManager
<
DagTaskBuilder
>
manager
,
final
List
<
AbstractTest
<
DagTask
>>
abstractTestInstances
,
final
long
numberOfMeasurements
)
{
...
...
@@ -108,6 +122,12 @@ public class TestEnvironment {
}
/***
* Computes the feasibility varying the number of processors in the systen
* @param manager SystemManager that is used to generate task sets
* @param abstractTestInstances List of feasibility tests
* @param numberOfTaskSetsPerStep Number of task sets that are to be generated for each step (number of processors)
*/
public
void
varyNumberOfProcessors
(
final
SystemManager
<
DagTaskBuilder
>
manager
,
final
List
<
AbstractTest
<
DagTask
>>
abstractTestInstances
,
final
long
numberOfTaskSetsPerStep
)
{
...
...
@@ -124,7 +144,7 @@ public class TestEnvironment {
resultMap
.
replaceAll
((
k
,
v
)
->
(
long
)
0
);
for
(
int
i
=
0
;
i
<
numberOfTaskSetsPerStep
;
++
i
)
{
final
Set
<
DagTask
>
taskSet
=
manager
.
getBuilder
().
generateUUnifastTaskSet
(
(
long
)
(
1.5
*
numberOfProcessors
),
(
double
)
numberOfProcessors
*
0.75
);
(
long
)
(
1.5
*
numberOfProcessors
),
(
double
)
numberOfProcessors
*
0.75
);
System
.
out
.
print
(
checkedTasksets
+
"/"
+
numberOfTaskSets
+
" tasksets tested!\r"
);
for
(
final
AbstractTest
<
DagTask
>
testInstance
:
abstractTestInstances
)
{
...
...
@@ -149,7 +169,12 @@ public class TestEnvironment {
resultLogger
.
finalize
();
}
/***
* Computes the feasibility varying the number of tasks in the task set
* @param manager SystemManager that is used to generate task sets
* @param abstractTestInstances List of feasibility tests
* @param numberOfTaskSetsPerStep Number of task sets that are to be generated for each step (number of tasks)
*/
public
void
varyNumberOfTasks
(
final
SystemManager
<
DagTaskBuilder
>
manager
,
final
List
<
AbstractTest
<
DagTask
>>
abstractTestInstances
,
final
long
numberOfTaskSetsPerStep
)
{
...
...
@@ -191,6 +216,12 @@ public class TestEnvironment {
resultLogger
.
finalize
();
}
/***
* Computes the feasibility varying the total system utilization of the task set
* @param manager SystemManager that is used to generate task sets
* @param abstractTestInstances List of feasibility tests
* @param numberOfTaskSetsPerUtil Number of task sets that are to be generated for each step (system utilization)
*/
public
void
varyUtilization
(
final
SystemManager
<
DagTaskBuilder
>
manager
,
final
List
<
AbstractTest
<
DagTask
>>
abstractTestInstances
,
final
long
numberOfTaskSetsPerUtil
)
{
...
...
@@ -231,9 +262,16 @@ public class TestEnvironment {
resultLogger
.
finalize
();
}
/***
* Computes the feasibility varying the total system utilization of the task set (Task set is generated by the Renyi method)
* @param manager SystemManager that is used to generate task sets
* @param abstractTestInstances List of feasibility tests
* @param numberOfTaskSetsPerUtil Number of task sets that are to be generated for each step (system utilization)
* @param deadlineType Deadline model (implicit or constrained)
*/
public
void
varyRenyiUtilization
(
final
SystemManager
<
DagTaskBuilder
>
manager
,
final
List
<
AbstractTest
<
DagTask
>>
abstractTestInstances
,
final
long
numberOfTaskSetsPerUtil
)
{
final
long
numberOfTaskSetsPerUtil
,
DeadlineType
deadlineType
)
{
final
long
numberOfProcessors
=
manager
.
getNumberOfProcessors
();
long
checkedTasksets
=
0
;
final
long
numberOfTaskSets
=
((
numberOfProcessors
*
4
)
-
3
)
*
numberOfTaskSetsPerUtil
;
...
...
@@ -248,7 +286,7 @@ public class TestEnvironment {
(
double
)
numberOfProcessors
/
32
)
{
resultMap
.
replaceAll
((
k
,
v
)
->
(
long
)
0
);
for
(
int
i
=
0
;
i
<
numberOfTaskSetsPerUtil
;
++
i
)
{
final
Set
<
DagTask
>
taskSet
=
manager
.
getBuilder
().
generateRenyiTaskSet
(
util
);
final
Set
<
DagTask
>
taskSet
=
manager
.
getBuilder
().
generateRenyiTaskSet
(
util
,
deadlineType
);
System
.
out
.
print
(
checkedTasksets
+
"/"
+
numberOfTaskSets
+
" tasksets tested!\r"
);
for
(
final
AbstractTest
<
DagTask
>
testInstance
:
abstractTestInstances
)
{
...
...
@@ -273,6 +311,13 @@ public class TestEnvironment {
resultLogger
.
finalize
();
}
/***
* Computes the feasibility varying the probability in the Renyi method the task set (Task set is generated by the Renyi method)
* @param manager SystemManager that is used to generate task sets
* @param abstractTestInstances List of feasibility tests
* @param numberOfTaskSetsPerStep Number of task sets that are to be generated for each step (probability)
*/
public
void
varyPropability
(
final
SystemManager
<
DagTaskBuilder
>
manager
,
final
List
<
AbstractTest
<
DagTask
>>
abstractTestInstances
,
final
long
numberOfTaskSetsPerStep
)
{
...
...
@@ -288,7 +333,7 @@ public class TestEnvironment {
manager
.
setPropability
(
p_add
);
resultMap
.
replaceAll
((
k
,
v
)
->
(
long
)
0
);
for
(
int
i
=
0
;
i
<
numberOfTaskSetsPerStep
;
++
i
)
{
final
Set
<
DagTask
>
taskSet
=
manager
.
getBuilder
().
generateRenyiTaskSet
(
5.5
);
final
Set
<
DagTask
>
taskSet
=
manager
.
getBuilder
().
generateRenyiTaskSet
(
5.5
,
DeadlineType
.
IMPLICIT
);
System
.
out
.
print
(
checkedTasksets
+
"/"
+
numberOfTaskSets
+
" tasksets tested!\r"
);
for
(
final
AbstractTest
<
DagTask
>
testInstance
:
abstractTestInstances
)
{
...
...
src/main/java/mvd/jester/model/SystemManager.java
View file @
75bfd331
...
...
@@ -17,7 +17,7 @@ import mvd.jester.utils.DagUtils;
import
mvd.jester.model.SystemManager.Builder
;
/**
* T
askSet
* T
he SystemManager is a class to generate random task sets (either Dag Tasks or Synchronous Tasks depending on the specified Builder)
*/
public
class
SystemManager
<
T
extends
Builder
>
implements
SystemManagerInterface
{
...
...
@@ -53,6 +53,12 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
builder
;
}
public
enum
DeadlineType
{
CONSTRAINED
,
IMPLICIT
}
public
static
interface
Builder
{
public
long
getNumberOfProcessors
();
...
...
@@ -62,6 +68,10 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
public
Builder
setPropability
(
long
p
);
}
/**
* OUTDATED
* Task builder for Parallel Synchronous Task model
*/
public
static
class
SynchronousTaskBuilder
implements
Builder
{
private
long
numberOfProcessors
=
4
;
private
long
minPeriod
=
100
;
...
...
@@ -182,6 +192,9 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
}
}
/**
* Task builder for DAG Task model
*/
public
static
class
DagTaskBuilder
implements
Builder
{
private
long
numberOfProcessors
=
8
;
private
long
minimumWcet
=
1
;
...
...
@@ -203,12 +216,18 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
ThreadLocalRandom
.
current
().
nextLong
(
0
,
100
);
}
public
Set
<
DagTask
>
generateRenyiTaskSet
(
final
double
totalUtilization
)
{
/***
* Generates a random task set according to the UUniFast method for utilization and Renyi method for the DAG structure
* @param totalUtilization Total system utilization of the task set
* @param deadlineType Deadline model (implicit or constrained)
* @return Randomly generated task set
*/
public
Set
<
DagTask
>
generateRenyiTaskSet
(
final
double
totalUtilization
,
DeadlineType
deadlineType
)
{
final
LinkedHashSet
<
DagTask
>
taskSet
=
new
LinkedHashSet
<>();
double
currentUtilization
=
0
;
while
(
currentUtilization
<=
totalUtilization
)
{
final
DagTask
task
=
generateRenyiTask
(
totalUtilization
);
final
DagTask
task
=
generateRenyiTask
(
totalUtilization
,
deadlineType
);
if
(
currentUtilization
+
task
.
getUtilization
()
<
totalUtilization
)
{
currentUtilization
+=
task
.
getUtilization
();
...
...
@@ -218,12 +237,17 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
final
long
period
=
(
long
)
Math
.
ceil
(
task
.
getWorkload
()
/
remainingUtilization
);
final
long
criticalPath
=
task
.
getCriticalPath
();
if
(
period
>=
criticalPath
)
{
final
long
deadline
=
randomNumberInRange
(
criticalPath
+
(
period
-
criticalPath
)
/
4
,
period
);
// TODO:
// deadline =
// period?
// final long deadline = period;
final
long
deadline
;
switch
(
deadlineType
)
{
case
CONSTRAINED:
deadline
=
randomNumberInRange
(
criticalPath
+
(
period
-
criticalPath
)
/
4
,
period
);
break
;
case
IMPLICIT:
default
:
deadline
=
period
;
break
;
}
long
numberOfThreads
=
LongMath
.
divide
(
task
.
getWorkload
()
-
criticalPath
,
deadline
-
criticalPath
,
RoundingMode
.
CEILING
);
...
...
@@ -243,6 +267,12 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
taskSet
;
}
/***
* Generates a random task set according to the UUniFast method
* @param numberOfTasks Number of tasks the set is supposed to have
* @param totalUtilization Total system utilization of the task set
* @return Randomly generated task set
*/
public
Set
<
DagTask
>
generateUUnifastTaskSet
(
final
long
numberOfTasks
,
final
double
totalUtilization
)
{
final
LinkedHashSet
<
DagTask
>
taskSet
=
new
LinkedHashSet
<>();
...
...
@@ -263,6 +293,11 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
taskSet
;
}
/**
* Generates a random task set with given total system utilization
* @param totalUtilization Total system utilization of the task set
* @return Randomly generated task set
*/
public
Set
<
DagTask
>
generateTaskSet
(
final
double
totalUtilization
)
{
final
LinkedHashSet
<
DagTask
>
taskSet
=
new
LinkedHashSet
<>();
double
currentUtilization
=
0
;
...
...
@@ -288,6 +323,11 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
taskSet
;
}
/***
* Generate random DAG task with given utilization according to Renyi method
* @param utilization Utilization of the task that will be generated
* @return Randomly generated task
*/
public
DagTask
generateRenyiTaskForUUniFast
(
final
double
utilization
)
{
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
=
new
DirectedAcyclicGraph
<>(
DefaultEdge
.
class
);
...
...
@@ -315,7 +355,13 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
new
DagTask
(
jobDag
,
period
,
numberOfThreads
);
}
public
DagTask
generateRenyiTask
(
final
double
totalUtilization
)
{
/***
* Generates a random DAG task according to the Renyi method
* @param totalUtilization Total system utilization
* @param deadlineType Deadline model (implicit or constrained)
* @return Randomly generated task
*/
public
DagTask
generateRenyiTask
(
final
double
totalUtilization
,
DeadlineType
deadlineType
)
{
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
=
new
DirectedAcyclicGraph
<>(
DefaultEdge
.
class
);
final
long
numberOfVertices
=
randomNumberInRange
(
50
,
250
);
...
...
@@ -331,12 +377,17 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
final
long
workload
=
DagUtils
.
calculateWorkload
(
jobDag
);
final
long
criticalPath
=
DagUtils
.
calculateCriticalPath
(
jobDag
);
final
long
period
=
randomRenyiPeriod
(
workload
,
criticalPath
,
totalUtilization
);
final
long
deadline
=
randomNumberInRange
(
criticalPath
+
(
period
-
criticalPath
)
/
4
,
period
);
// TODO:
// oder
// period?
// final long deadline = period;
final
long
deadline
;
switch
(
deadlineType
)
{
case
CONSTRAINED:
deadline
=
randomNumberInRange
(
criticalPath
+
(
period
-
criticalPath
)
/
4
,
period
);
// TODO:
break
;
case
IMPLICIT:
default
:
deadline
=
period
;
break
;
}
final
long
numberOfThreads
=
LongMath
.
divide
(
workload
-
criticalPath
,
deadline
-
criticalPath
,
RoundingMode
.
CEILING
);
...
...
@@ -348,6 +399,13 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
new
DagTask
(
jobDag
,
period
,
deadline
,
numberOfThreads
);
}
/***
* Generate random period according to Renyi method
* @param workload Workload of the task
* @param criticalPath Critical Path of the task
* @param totalUtilization Total system utilization
* @return Period
*/
private
long
randomRenyiPeriod
(
final
long
workload
,
final
long
criticalPath
,
final
double
totalUtilization
)
{
final
double
firstPart
=
...
...
@@ -358,6 +416,10 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
(
long
)
Math
.
ceil
(
firstPart
*
secondPart
);
}
/***
* Add source and sink nodes the the DAG generated by the Renyi method
* @param jobDag Object holding the current DAG structure
*/
private
void
addSourceAndSink
(
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
)
{
final
Multimap
<
Job
,
Job
>
edgePairs
=
ArrayListMultimap
.
create
();
Job
source
=
new
Job
(
randomNumberInRange
(
50
,
100
));
...
...
@@ -383,7 +445,11 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
}
}
}
/***
* Generates a random nested fork-join task with given utilization
* @param utilization Utilization of the task
* @return randomly generated Task
*/
public
DagTask
generateTask
(
double
utilization
)
{
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
=
new
DirectedAcyclicGraph
<>(
DefaultEdge
.
class
);
...
...
@@ -399,6 +465,10 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
new
DagTask
(
jobDag
,
period
,
numberOfProcessors
);
}
/***
* Generates a random nested fork-join task
* @return Randomly generated task
*/
public
DagTask
generateTask
()
{
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
=
new
DirectedAcyclicGraph
<>(
DefaultEdge
.
class
);
...
...
@@ -418,6 +488,13 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
new
DagTask
(
jobDag
,
period
,
numberOfThreads
);
}
/***
* Function for joining the DAG that was partly generated by fork
* @param jobDag Object holding the current DAG structure
* @param current The fork node
* @param childs The children/successors of the fork-node
* @return returns the fork node (@param current)
*/
private
Job
join
(
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
,
final
Job
current
,
final
Set
<
Job
>
childs
)
{
if
(
childs
.
size
()
>
0
)
{
...
...
@@ -435,6 +512,13 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
current
;
}
/***
* Function for creating nested fork/join DAGs
* @param jobDag Object holding the current DAG structure
* @param predecessor fork node
* @param depth maximum depth of the nested fork-join structure
* @return the latest Job in the nested fork-join structure
*/
private
Job
fork
(
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
,
final
Optional
<
Job
>
predecessor
,
final
long
depth
)
{
final
Job
job
=
new
Job
(
randomWcet
());
...
...
@@ -457,6 +541,10 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
return
join
(
jobDag
,
job
,
childs
);
}
/***
* Generate random edges
* @param jobDag
*/
private
void
randomEdges
(
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
)
{
final
Multimap
<
Job
,
Job
>
edgePairs
=
ArrayListMultimap
.
create
();
for
(
final
Job
j1
:
jobDag
)
{
...
...
@@ -476,6 +564,10 @@ public class SystemManager<T extends Builder> implements SystemManagerInterface
}
}
/***
* Generate random edges according to Renyi DAG generation method
* @param jobDag
*/
private
void
randomEdgesRenyi
(
final
DirectedAcyclicGraph
<
Job
,
DefaultEdge
>
jobDag
)
{
final
Multimap
<
Job
,
Job
>
edgePairs
=
ArrayListMultimap
.
create
();
for
(
final
Job
j1
:
jobDag
)
{
...
...
src/main/java/mvd/jester/tests/FonsecaNelis.java
View file @
75bfd331
...
...
@@ -31,6 +31,10 @@ import mvd.jester.utils.BinaryDecompositionTree;
import
mvd.jester.utils.BinaryDecompositionTree.Node
;
import
mvd.jester.utils.BinaryDecompositionTree.NodeType
;
/***
* Response time analysis presented by Fonseca et al.
* " Improved Response Time Analysis of Sporadic DAG Tasks for Global FP Scheduling"
*/
public
class
FonsecaNelis
extends
AbstractTest
<
DagTask
>
{
private
final
Map
<
Task
,
TerminationInfo
>
responseTimes
;
...
...
src/main/java/mvd/jester/tests/JiangYi.java
View file @
75bfd331
...
...
@@ -17,6 +17,10 @@ import mvd.jester.model.Task;
import
mvd.jester.priority.EarliestDeadlineFirst
;
import
mvd.jester.priority.PriorityManager
;
/***
* Semi-Federated Scheduling presented by Jiang et al.
* "Semi-Federated Scheduling of Parallel Real-Time Tasks on Multiprocessor"
*/
public
class
JiangYi
extends
AbstractTest
<
DagTask
>
{
private
final
EarliestDeadlineFirst
priorityManager
;
...
...
src/main/java/mvd/jester/tests/MelaniButtazzo.java
View file @
75bfd331
...
...
@@ -14,6 +14,10 @@ import mvd.jester.model.Task;
import
mvd.jester.priority.PriorityManager
;
import
mvd.jester.priority.RateMonotonic
;
/***
* Response time analysis presented by Melani et al.
* "Response-Time Analysis of Conditional DAG Tasks in Multiprocessor Systems"
*/
public
class
MelaniButtazzo
extends
AbstractTest
<
DagTask
>
{
private
final
Map
<
Task
,
TerminationInfo
>
responseTimes
;
...
...
src/main/java/mvd/jester/tests/SchmidMottok.java
View file @
75bfd331
...
...
@@ -15,7 +15,7 @@ import mvd.jester.priority.DeadlineMonotonic;
import
mvd.jester.priority.PriorityManager
;
/**
*
SchmidMottok
*
Our response time analysis
*/
public
class
SchmidMottok
extends
AbstractTest
<
DagTask
>
{
...
...
@@ -52,6 +52,10 @@ public class SchmidMottok extends AbstractTest<DagTask> {
return
"SchmidMottok"
+
"_"
+
structure
.
getType
();
}
/***
* Computes the number of threads for each task
* @param tasks The set of tasks
*/
private
void
reassignNumberOfThreads
(
Set
<
DagTask
>
tasks
)
{
long
numberOfProcessors
=
manager
.
getNumberOfProcessors
();
long
occupiedProcessors
=
0
;
...
...
@@ -65,6 +69,12 @@ public class SchmidMottok extends AbstractTest<DagTask> {
}
}
/***
* Computes the response time for given task
* @param tasks Set of tasks in the system
* @param task Task for which the response time is computed
* @return Response time of task
*/
private
long
calculateResponseTime
(
final
Set
<
DagTask
>
tasks
,
final
DagTask
task
)
{
final
long
minimumWcet
=
task
.
getCriticalPath
();
long
responseTime
=
minimumWcet
;
...
...
src/main/java/mvd/jester/tests/TypeFunction.java
View file @
75bfd331
...
...
@@ -9,6 +9,10 @@ import mvd.jester.model.Segment;
import
mvd.jester.model.SystemManagerInterface
;
import
mvd.jester.model.Task
;
/***
* Different methods given if the structure of the DAG is known in advance.
* Only UnknownStructure is presented in the paper.
*/
public
interface
TypeFunction
{
public
double
getTaskInterference
(
final
DagTask
task
,
...
...
@@ -79,6 +83,9 @@ public interface TypeFunction {
}
}
/***
* This class is presented in the paper
*/
public
class
UnknownStructure
implements
TypeFunction
{
@Override
...
...
src/main/java/mvd/jester/tests/UeterAgrawal.java
View file @
75bfd331
...
...
@@ -18,6 +18,10 @@ import mvd.jester.model.Task;
import
mvd.jester.priority.EarliestDeadlineFirst
;
import
mvd.jester.priority.PriorityManager
;
/***
* Reservation-based federated scheduling presented by Ueter et al.
* "Reservation-Based Federated Scheduling for Parallel Real-Time Tasks"
*/
public
class
UeterAgrawal
extends
AbstractTest
<
DagTask
>
{
private
final
EarliestDeadlineFirst
priorityManager
;
...
...
@@ -101,7 +105,6 @@ public class UeterAgrawal extends AbstractTest<DagTask> {
final
long
second
=
(
long
)
Math
.
ceil
(((
double
)
workload
-
criticalPath
)
/
(
criticalPath
*
(
strechRatio
-
1
)));
// TODO: what are those boundaries?
final
long
max
=
Math
.
max
(
first
,
second
);
return
max
;
...
...
@@ -160,6 +163,10 @@ public class UeterAgrawal extends AbstractTest<DagTask> {
}
}
/***
* Assigns threads and the stretch ratio to each task
* @param tasks Set of tasks in the system
*/
private
void
assignThreadsAndStretchRatio
(
Set
<
DagTask
>
tasks
)
{
for
(
DagTask
t
:
tasks
)
{
final
long
criticalPath
=
t
.
getCriticalPath
();
...
...
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