1、IEEE Std 1175.2-2006IEEE Recommended Practice for CASETool InterconnectionCharacterizationof InterconnectionsI E E E3 Park Avenue New York, NY 10016-5997, USA15 January 2007IEEE Computer SocietySponsored by theSoftware and Systems Engineering Standards CommitteeIEEE Std 1175.2-2006(R2011) IEEE Recom
2、mended Practice for CASE Tool InterconnectionCharacterization of Interconnections Sponsor Software and Systems Engineering Standards Committee of the IEEE Computer Society Approved 15 September 2006 IEEE-SA Standards Board Reaffirmed 10 September 2011 IEEE-SA Standards Board Approved 29 December 200
3、6 American National Standards Institute Reaffirmed 3 December 2012 American National Standards Institute Abstract: Interconnections that need to be understood and evaluated when buying, building, testing, or using Computer-Aided Software Engineering (CASE) tools are described in this recommended pra
4、ctice. This recommended practice is intended to help people interconnect tools by identifying and characterizing various contexts for tool interconnection. Each context serves to define a group of interconnections pertinent to various functional perspectives. Each group contains interconnections tha
5、t have a common kind of endpoint in the environment. This recommended practice considers four contexts: an organizational context for a tool, the individual user context for a tool, the platform context for a tool, and a peer context for a tool. Within a context, subsets of interconnections are char
6、acterized by a collection of common features applicable to a given functional perspective. The purpose of this recommended practice is to establish sets of interconnection features with which each perspective on a CASE tools interconnections can be characterized. Keywords: Computer-Aided Software En
7、gineering (CASE) tools, tool communications, tool interconnections _ The Institute of Electrical and Electronics Engineers, Inc. 3 Park Avenue, New York, NY 10016-5997, USA Copyright 2007 by the Institute of Electrical and Electronics Engineers, Inc. All rights reserved. Published 15 January 2007. P
8、rinted in the United States of America. Second printing 1 February 2007. Correction to term numbering in Definitions clause. CMMI is a registered trademark in the U.S. Patent +1 978 750 8400. Permission to photocopy portions of any individual standard for educational classroom use can also be obtain
9、ed through the Copyright Clearance Center. Introduction This introduction is not part of IEEE Std 1175.2-2006, IEEE Recommended Practice for CASE Tool InterconnectionCharacterization of Interconnections. The 1175family of standards NOTEReferences to “P1175.X” in this recommended practice refer to me
10、mbers of the 1175 family of standards that were not yet approved at the time that this recommended practice was published. This recommended practice is a member of the 1175 family of IEEE standards. The members of this family include the following: Standard number Title IEEE Std 1175.1-2002*, IEEE G
11、uide for CASE Tool InterconnectionsClassification and Description IEEE Std 1175.2-2006 IEEE Recommended Practice for CASE Tool InterconnectionCharacterization of Interconnections IEEE Std 1175.3-2004 IEEE Standard for CASE Tool InterconnectionsReference Model for Specifying Software Behavior IEEE P1
12、175.4 Draft Standard for CASE Tool InterconnectionsReference Model for Specifying System Behavior IEEE P1175.5 Draft Standard for CASE Tool InterconnectionsSyntax for Transferring Behavior Specifications * The IEEE standards or products referred to in this table are trademarks of the Institute of El
13、ectrical and Electronics Engineers, Incorporated. IEEE publications are available from the Institute of Electrical and Electronics Engineers, 445 Hoes Lane, Piscataway, NJ 08855-1331, USA (http:/standards.ieee.org/). This IEEE standards project was not approved by the IEEE-SA Standards Board at the
14、time this publication went to press. For information about obtaining a draft, contact the IEEE. This family of standards replaces IEEE Std 1175-1991.aIEEE Std 1175-1991 was advanced to a full-use standard in 1994. It covered a number of closely related subjects, and the scope of material contained w
15、as able to serve a number of divergent interests. This family of standards restructures and substantially augments the material in IEEE Std 1175-1991. It has been divided into several individually useful documents in order to facilitate its use by different communities of interest. These guides, rec
16、ommended practices, and standards generally address issues involved in characterizing the kinds of interconnections that exist between a computing system tool and its _ aAlthough approved in 1991, IEEE Std 1175-1991 was actually published in 1992, and is sometimes found referenced as IEEE Std 1175-1
17、992. It appears in the standards listing on the IEEE Xplore Web site (http:/ieeexplore.ieee.org/) as “IEEE Std 1175, 17 Aug. 1992,” with the title “IEEE trial-use standard reference model for computing system tool interconnections.” In 1994, the term “trial-use” was removed from the title when the s
18、tandard was approved for full-use status. The 1994 version, which was identical to the 1992 publication except for the title and minor editorial corrections, is not available on the IEEE Web site. iv Copyright 2007 IEEE. All rights reserved. environment. Although particularly intended to address the
19、 implementation and use of computer-aided software engineering (CASE) tools, the discussion of interconnections in this family actually has wider applicability to computing system tools in general, beyond only CASE tools. Four kinds of interconnections with a computing system tool are addressed: int
20、erconnections with organizations, users, platforms, and other computing system tools. Consideration of interconnections is important to understanding, selecting, implementing, and using computing system tools. Also, although many computing system tools do not need to communicate behavior description
21、s of subject systems, their creators need to develop such behavior descriptions for the tools themselves. A brief summary overview of each of the members of this family of standards is given in the following paragraphs. A more complete overview is available in IEEE Std 1175.1-2002, which provides an
22、 integrated overview of the members of the 1175 family of standards, and it describes the fundamental concepts that provide a basis for organizing the material. IEEE Std 1175.1-2002, IEEE Guide for CASE Tool InterconnectionsClassification and Description IEEE Std 1175.1-2002 is a guide to the IEEE 1
23、175 family of standards. It describes how these standards are intended to be used to accomplish the effective integration of computing system tools into a productive engineering environment and sets forth the fundamental concepts on which these standards are based. These concepts establish the integ
24、rating framework for the other members of this family of standards. IEEE Std 1175.1-2002 describes the scope of application of each member standard, the various issues addressed in each standard, and the interrelationships among the members of the 1175 family of standards. IEEE Std 1175.2-2006, IEEE
25、 Recommended Practice for CASE Tool InterconnectionCharacterization of Interconnections This recommended practice presents four contexts for a computing system tools interconnections that offer insight into the operational problems of interconnecting computing system tools with their environment. Th
26、is recommended practice establishes recommended collections of standard contextual attributes describing relationships between a computing system tool and its organizational deployment, its human user, its executable platform, and its peer tools, as illustrated in Figure a. These contextual attribut
27、es are of the “news-story” form that includes: who, what, when, where, and why. The values of these contextual attributes are references to organizational, industrial, and professional standards. By assisting users to reach a clear understanding of the context of operation for a computing system too
28、l, this recommended practice contributes to the effective implementation and application of computing system tools. IEEE Std 1175.3-2004, IEEE Standard for CASE Tool InterconnectionsReference Model for Specifying Software Behavior IEEE Std 1175.3-2004 is an expansion of Part 3 of IEEE Std 1175-1991.
29、 It focuses specifically on a common set of modeling concepts found in commercial CASE tools for describing the operational behavior of a software product, and it provides a formal, logical model for describing this behavior. IEEE Std 1175.3-2004 also defines a Semantic Transfer Language (STL) for c
30、ommunicating software behavior descriptions from one tool to another. A notable feature of the STL is its design for human readability, which makes STL text files suitable for use in software design reviews by users unfamiliar with computing system tool diagramming notations. In addition, the design
31、 of the STL syntax readily permits analysts to prepare and edit STL descriptions using a text editor or word processor. v Copyright 2007 IEEE. All rights reserved. SubjectToolOtherToolPlatformOrganizationUserFigure a To permit backward compatibility with Part 3 of IEEE Std 1175-1991, IEEE Std 1175.3
32、-2004 makes no changes to the STL syntax or to the rules for conformance to this syntax as originally defined in Part 3 of IEEE Std 1175-1991. However, some aspects of the 1991 syntax that were previously left as user-defined have now been specified in order to increase the consistency and reliabili
33、ty with which the STL may be used for exchanging software specification information. In addition, improvements have been made in how the STL syntax is defined and explained. Finally, the STL Interconnection Profile has been replaced with more straightforward, “user-friendly” tabular and comma-separa
34、ted-value formats to define a Tool Interconnection Profile that can serve the same purpose as the original form of the profile. IEEE P1175.4, Draft Standard for CASE Tool InterconnectionsReference Model for Specifying System Behavior IEEE P1175.4 encompasses the description of other computing system
35、s supported by IEEE Std 1175.3-2004, but it goes further, providing a basis for representing a wider variety of computing systems. Specifically, IEEE P1175.4 provides the necessary semantic elements for describing general hardware/software systems, including hardware-only, software-only, or mixed sy
36、stem components, and it allows these different types of components to be treated in a consistent manner. IEEE P1175.5, Draft Standard for CASE Tool InterconnectionsSyntax for Transferring Behavior Specifications IEEE P1175.5 provides a structured syntax and a specific set of data elements that can b
37、e exchanged as a text stream or text file with users or other tools. This syntax permits describing a systems operational behavior as an instance of the reference metamodel in IEEE P1175.4. Figure b illustrates the relationship between the IEEE P1175.4 metamodel and the IEEE P1175.5 XML syntax in th
38、e context of the ToolTool exchange of a computing system description. IEEE P1175.5 also provides a logically equivalent human-readable syntax. vi Copyright 2007 IEEE. All rights reserved. XML Transfer FormatPlatform and TransportDestination ToolXML ParserDestination Model DataSource ToolBehavior Spe
39、cification Meta-ModelXML GeneratorSource Model DataDestination Tool Meta-ModelSource Tool Meta-ModelDestination UserSource UserFigure b Notice to users Errata Errata, if any, for this and all other standards can be accessed at the following URL: http:/ standards.ieee.org/reading/ieee/updates/errata/
40、index.html. Users are encouraged to check this URL for errata periodically. Interpretations Current interpretations can be accessed at the following URL: http:/standards.ieee.org/reading/ieee/interp/ index.html. PatentsAttention is called to the possibility that implementation of this recommended pr
41、actice may require use of subject matter covered by patent rights. By publication of this recommended practice, no position is taken with respect to the existence or validity of any patent rights in connection therewith. The IEEE shall not be responsible for identifying patents or patent application
42、s for which a license may be required to implement an IEEE standard or for conducting inquiries into the legal validity or scope of those patents that are brought to its attention. vii Copyright 2007 IEEE. All rights reserved. Participants At the time this recommended practice was completed, the 117
43、5 Working Group had the following membership: Carl A. Singer, Chair Jimi E. Arvidsson Bakul Banerjee Abby Beifeld Peter L. Eirich Subramanya R. Jois Paul C. Jorgensen Sohel M. Khan Dwayne L. Knirk Mohamed Ashraf Kottilungal Horace H. Lawrence lvaro F. C. Medeiros Lou F. Pinto Robert M. Poston Subrat
44、o Sensharma Robert M. Wessely The following members of the balloting committee voted on this recommended practice. Balloters may have voted for approval, disapproval, or abstention. Ali Al Awazi Charles L. Barest Juris Borzovs Lawrence W. Catchpole Danila Chernetsov Theo Clarke Raul Colcher Tommy P.
45、 Cooper Geoffrey Darnton Terry L. Dietz Thomas J. Dineen Scott P. Duncan Marc Emmelmann Yaacov Fenster Andrew C. Fieldsend Allan M. Gillard Randall C. Groves John Harauz Werner Hoelzl Dennis Horwitz Jeffrey A. Kautzer Mark J. Knight Dwayne L. Knirk Thomas M. Kurihara Susan K. Land Dewitt T. Latimer,
46、 IV David J. Leciston Solomon Lee Michael W. Malia Richard A. Martin Richard A. McBride Johnathon Meichtry Gary L. Michel James W. Moore Michael J. Munroe Rajesh K. Murthy Michael S. Newman Charles Kamithi Ngethe Donald M. Parker Alexander J. Polack Robert A. Robinson Fernando Lucas Rodriguez Bartie
47、n Sayogo Stephen C. Schwarm Subrato Sensharma Friedrich Stallinger Thomas E. Starai K. S. Subrahmanyam Vincent J. Tume Oren Yuen When the IEEE-SA Standards Board approved this recommended practice on 15 September 2006, it had the following membership: Steve M. Mills, Chair Richard H. Hulett, Vice Ch
48、air Don Wright, Past Chair Judith Gorman, Secretary Mark D. Bowman Dennis B. Brophy William R. Goldbach Arnold M. Greenspan Robert M. Grow Joanna N. Guenin Julian Forster* Mark S. Halpin Kenneth S. Hanus William B. Hopf Joseph L. Koepfinger* David J. Law Daleep C. Mohla T. W. Olsen Glenn Parsons Ron
49、ald C. Petersen Tom A. Prevost Greg Ratta Robby Robson Anne-Marie Sahazizian Virginia Sulzberger Malcolm V. Thaden Richard L. Townsend Walter Weigel Howard L. Wolfman *Member Emeritus viii Copyright 2007 IEEE. All rights reserved. Also included are the following nonvoting IEEE-SA Standards Board liaisons: Satish K. Aggarwal, NRC Representative Richard DeBlasio, DOE Representative Alan H. Cookson, NIST Representative Jennie Steinhagen IEEE Standards Program Manager, Document Development Angela Ort