p16 6.4.1 5th bullet
This latter annex described [...] for defining the UML profile for
MARTE itself, but also usefull for user models.
-> MARTE itself while also being useful for user models.
p17 3rd para (last before 6.4.3)
[...] firstly we try to reduce the size of
stereotype names as much as possible, but without scarifying their meaning
-> sacrificing
Globally replace contraint by constraint and Contraint by Constraint.
Occurrences:
p42 1st para (NFP_Contraints)
p56 1st para 2nd line (Contraint)
p56 2nd para 1st line (NFP_Contraints)
p326 16.3.2.6 (Contraints)
p327 16.3.2.7 (Contraints)
p328 16.3.2.8 (Contraints)
p444 B.3.2.1 (Contraints)
Globally replace brokedResource by brokeredResource :
p99 Figure 10.11 association from ResourceBroker to Resource
p99 Figure 10.11 association from Scheduler to ProcessingResource
p243 Figure 14.58 association from HW_Media to HW_Arbiter
p606 F.4.22 Associations 1st bullet
p610 F.4.30 Associations 1st bullet
p653 F.9.8 Associations bullet
p678 F.9.48 Associations bullet
p100 Figure 10.13 upper left corner
Causaility::CommonBehavior::
-> Causality::CommonBehavior::
p104 Figure 10.18 class ResourceUsage last attribute
enery:NFP_Energy
-> energy: NFP_Energy
Globally replace occurence by occurrence and Occurence by Occurrence :
p145 ReceiveOccurence (5x)
p203 Figure 14.13 OccurencePolicyKind (2x), occurenceCountElements
p188 Figure 13.12 statebox with start state
Invation
action
-> Invocation
p230 paragraph below Figure 14.40
Figure 14.41 illustrates [..] (from UML::CompositesStructures::InternalStructures
-> CompositeStructures
p231 paragraph below Figure 14.42
[...] On the right side, the SRM profile is used
to describe the MemoryPartiton
-> MemoryPartition
Globally replace symetricalArray by symmetricalArray :
p240 Figure 14.55 PLD_Class 1st attribute
p250 Figure 14.66 PLD_Class 1st attribute (figure is duplicate of 14.55 ?)
p274 Description 1st bullet
p682 F.9.57 Literals 1st bullet
p266 Attributes 4th bullet
- throughput:NFP_DataTxRate
Speciifes the throughput in a memory.
-> Specifies
Replace frequeny by frequency :
p269 HwProcessor Constraints
[3] ipc must derive from mips attribute and clock frequeny
p672 F.9.39 Constraints
[3] ipc must derive from mips attribute and clock frequeny
p270 HwResource Associations 4th bullet
- endPoints: HwEndPoint[0..*]
Specifies the connection points of the HwReource.
-> HwResource
Globally replace adaptative by adaptive and Adaptative by Adaptive :
p243 Figure 14.58 class HW_Router 2nd attribute (isRoutingAdaptative)
p253 Figure 14.69 class HwRouter 2nd attribute (isRoutingAdaptative)
p272 HwROM Attributes 2nd bullet (isRoutingAdaptative)
Specifies whether the HW_Router supports adaptative routing or not.
p677 F.9.46 Attributes 2nd bullet (isRoutingAdaptative)
Specifies whether the HW_Router supports adaptative routing or not.
p306 Attributes 8th bullet
- utilizationOnHost: NFP_Real[*]
The occupancy of thehost processor, executing Steps [...]
-> the host
p307 15.3.2.13 Attributes 2nd bullet
- blockT: NFP_Duration [0..1]
A delay inserted in the execution of the Step, waiting for an event [...],
or for a condition such as the availability of passive protected resources nedded
-> needed
p311 16.1 2rd para 2nd sentence
[...] aids developers to detect potentially
unfeasible real-time architectures
-> infeasible
p321 Figure 16.8 class SaSchedObs 1st attribute
suspentions: NFP_Integer [*]
-> suspensions
p323 3rd bullet from top of page
- timing: TimedObs [*]
Set of timing requirements or preditions that constrain local fragments
-> preconditions
p325 16.3.2.5 Attributes 2nd bullet
- ISRprioRange: NFP_IntegerInterval [0..1]
Range of ISR priorities supporte by the platform.
-> supported
p333 16.3.3.4 4th sentence
[...] The software that
hendles this is usually not part of the application
-> handles
p341 17.2.2.6 1st para
3. [...] This may be a
middlware layer (a web services connection,
-> middleware
p376 A.2.1.7 1st para 2nd sentence
If not, they will be added through “NFP” and “NFP constraints”, precising the MARTE
characteristics.
Replace precising by tightening.
p383 A.2.3.2 table cont'd, 1st row left column
Deactive_execution_time (specific for mode switch) and
Deactive_deadline (specific for mode switch)
There is no such word deactive 
Please clarify.
p383 A.2.3.2 table cont'd, 2nd row right column
[...] “NFP” attributes by the enduser within the different threads
-> end user
p385 table 5th row right column
<<swSchedulableResource>>
hybride_task : my_comp
-> hybrid_task
p386 sentence between diagrams
This model library is then instanciated:
-> instantiated
p393 table AADL Properties right column heading
Marte Anaysis
-> Analysis
p395 table cont'd from p394 right column heading
Marte Anaysis
-> Analysis
p395 A.2.4.6 4th sentence
Alternatively, they may require driver softwares [...]
-> programs
p399 1st table right column AADL View
thorttle_command: out data port
-> throttle_command
p404 A.2.6.3 4th para
In MARTE, the FeatureGroup semantical perimenter will be [...]
-> perimeter
p415 Table A.1 2nd row 4th column (MARTE Stereotype)
refering to an RtSpecification to denote
-> referring
p461 B.3.3.15 2nd para 2nd sentence
When specifiyng values making reference to properties
-> specifying
p484 C.3.1.3 Constraints
None.mpty looks incorrect, please clarify.
p514 D.4.9.1 1st sentence
This is a ChoiceType that [...] to express an offline time trable
-> table
p554 F.1.14 Associations 2nd bullet
Instance that starts the invocartion.
-> invocation
p557 F.1.19 Attributes 2nd bullet
* / upper : UnilimitedNatural
-> UnlimitedNatural
Globally replace AccesControlPolicy by AccessControlPolicy :
p595 F.4.1 (2x), F.4.2 (2x)
p601 F.4.14 Generalizations
p612 F.4.32 Generalizations
p604 F.4.20 Associations 4th and 5th bullet
- provided: MARTE::NFP_Modelig::NFP_Declaration::NFP
[...]
- required: MARTE::NFP_Modelig::NFP_Declaration::NFP
-> NFP_Modeling
p609 F.4.27 Semantics 5th sentence
[...] Two general forms of usage are defined the
StaticUsage and the DinamicUsage,
Two general forms of usage are defined, the
StaticUsage and the DynamicUsage, [...]
(comma after defined and spelling of DynamicUsage)
p609 F.4.29 Generalizations
* ConcurrencyResource (fromMARTE::GRM::ResourceTypes)
-> from MARTE
p610 F.4.29 Associations 2nd bullet
* dependentScheduler: MARTE::GRM::scheduling::SecondarySceduler
-> SecondaryScheduler
p626 F.6.13 Attributes
Drection of the flow property: either incoming (in),
-> Direction
p629 F.6.21 Semantics
This concept matches the CompositeStructures::InternalStructures::StructuredClassier
-> StructuredClassifier
Globally replace Concurency by Concurrency :
p629 F.7.1 CallConcurencyKind (title and text)
p630 F.7.3 ConcurencyKind (title and text)
p632 F.7.7 Attributes CallConcurencyKind
p635 Associations 1st bullet
* behaviors: RtBehaviror [*]
-> RtBehavior
p644 F.8.17 Associations 1st and 2nd bullet
- readServices: BehaviroalFeature
[...]
- writeServices: BehaviroalFeature
-> BehavioralFeature
p644 F.8.18 Associations
* accessedElement: CoreElements::Foudations::Property
-> Foundations
p665 F.9.29 Semantics 2nd para
refined to a detailed model for [...] or ISS (Instuction Set Simulator)
-> Instruction
p672 F.9.39 Constraints
[3] ipc must derive from mips attribute and clock frequeny.
-> frequency
p674 F.9.42 Associations 1st bullet
- endPoints: HW_Communication::HW_EndPoint [0..*]
Specifies the connection points of the HW_Reource.
-> HW_Resource
p685 F.9.63 Attributes 3rd bullet
Specifies that the swithcing type is other than packet [...]
-> switching
p693 F.10.15 and F.10.16
Constaints
-> Constraints
p700 F.11.5 Attributes 2nd bullet
Range of ISR priorities supporte by the platform.
-> supported
p705 F.12.6 Attributes 2nd bullet
- behaviorDemand: PBehaviorDemand [*]
Set of demand sfor a behavior described by a scenario, [...]
-> demands for
p713 F.13.9 DataType (from DataTypes)
DateType matches with the UML concept of [...]
-> DataType
tends to infinity at the minimum value of x 
.
