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HLD METHODOLOGY: THE ROLE OF ARCHITECTURAL ABSTRACTIONS IN EMBEDDED SYSTEMS DESIGN
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References30
R. Hartenstein, The Relevance of Reconfigurable Computing, in Reconfigurable Computing, New York, NY: Springer New York, 2011, pp. 7– 34.
A. Sangiovanni-Vincentelli, Quo Vadis, SLD Reasoning About the Trends and Challenges of System Level Design, Proc. IEEE, vol. 95, no. 3, pp. 467 – 506, Mar. 2007.
J. Teich, Hardware/Software Codesign: The Past, the Present, and Predicting the Future, Proc. IEEE, vol. 100, no. Special Centennial Issue, pp. 1411–1430, May 2012. 14th SGEM GeoConference on Informatics, Geoinformatics and Remote Sensing
A. Platunov & P. Kustarev, Problems of Abstract Representation of Embedded Systems at High-level Stages Design, in Proceedings of the International Workshop on Network ed embedded and control system technologies: European and Russian R&D cooperation, 2009, pp. 100–107.
L. Jóźwiak, N. Nedjah, & M. Figueroa, Modern development methods and tools for embedded reconfigurable systems: A survey, Integr. VLSI J., vol. 43, no. 1, pp. 1 –33, Jan. 2010.
A. Platunov, A. Nickolaenkov & A. Penskoy, Architectural representation of embedded systems, in 2012 Mediterranean Conference on Embedded Computing (MECO), 2012, pp. 80–83.
A. Platunov & A. Nickolaenkov, Aspects in the design of software-intensive systems, in 2012 Mediterranean Conference on Embedded Computing (MECO), 2012, pp. 84–87 .
A. E. Platunov, Theoretical and methodological bases of high -level design embedded computing systems (Teoriticheskie i metodologicheskie osnovi visokourovnevogo proektirovaniya vstraiv aimih vichislitel’nih sistem), ITMO University, Saint-Petersburg, 2010, in Russian.
N. Postnikov, Povedencheskiy i instrumentalnyi aspecty proektirovaniay vstroennykh vychislitelnykh sistem (Behavioral and tool aspects of embedded computer systems design), SPbSU ITMO, Saint-Petersburg, 2004, in Russian.
ISO/IEC/IEEE 42010 Systems and software engineering — Architecture description, 2011.
Essence – Kernel and Language for Software Engineering Methods, pp. 1 –207, Aug-2012.
E. W. Dijkstra, On the role of scientific thought, in Selected Writings on Computing: A Personal Perspective, Springer-Verlag, 1982, pp. 60–66.
G. Kiczales & E. Hilsdale, Aspect-oriented programming, ACM SIGSOFT Softw. Eng. Notes, vol. 26, no. 5, p. 313, Sep. 2001.
G. Booch, J. Rumbaugh, & I. Jacobson, The Unified Modeling Language user guide, Jan. 1999.
M. Akşit, Ed., Software Architectures & Component Technology. Boston, MA: Springer US, 2002.
R. Hartenstein, The Relevance of Reconfigurable Computing, in Reconfigurable Computing, New York, NY: Springer New York, 2011, pp. 7– 34.
A. Sangiovanni-Vincentelli, Quo Vadis, SLD Reasoning About the Trends and Challenges of System Level Design, Proc. IEEE, vol. 95, no. 3, pp. 467 – 506, Mar. 2007.
J. Teich, Hardware/Software Codesign: The Past, the Present, and Predicting the Future, Proc. IEEE, vol. 100, no. Special Centennial Issue, pp. 1411–1430, May 2012. 14th SGEM GeoConference on Informatics, Geoinformatics and Remote Sensing
A. Platunov & P. Kustarev, Problems of Abstract Representation of Embedded Systems at High-level Stages Design, in Proceedings of the International Workshop on Network ed embedded and control system technologies: European and Russian R&D cooperation, 2009, pp. 100–107.
L. Jóźwiak, N. Nedjah, & M. Figueroa, Modern development methods and tools for embedded reconfigurable systems: A survey, Integr. VLSI J., vol. 43, no. 1, pp. 1 –33, Jan. 2010.
A. Platunov, A. Nickolaenkov & A. Penskoy, Architectural representation of embedded systems, in 2012 Mediterranean Conference on Embedded Computing (MECO), 2012, pp. 80–83.
A. Platunov & A. Nickolaenkov, Aspects in the design of software-intensive systems, in 2012 Mediterranean Conference on Embedded Computing (MECO), 2012, pp. 84–87 .
A. E. Platunov, Theoretical and methodological bases of high -level design embedded computing systems (Teoriticheskie i metodologicheskie osnovi visokourovnevogo proektirovaniya vstraiv aimih vichislitel’nih sistem), ITMO University, Saint-Petersburg, 2010, in Russian.
N. Postnikov, Povedencheskiy i instrumentalnyi aspecty proektirovaniay vstroennykh vychislitelnykh sistem (Behavioral and tool aspects of embedded computer systems design), SPbSU ITMO, Saint-Petersburg, 2004, in Russian.
ISO/IEC/IEEE 42010 Systems and software engineering — Architecture description, 2011.
Essence – Kernel and Language for Software Engineering Methods, pp. 1 –207, Aug-2012.
E. W. Dijkstra, On the role of scientific thought, in Selected Writings on Computing: A Personal Perspective, Springer-Verlag, 1982, pp. 60–66.
G. Kiczales & E. Hilsdale, Aspect-oriented programming, ACM SIGSOFT Softw. Eng. Notes, vol. 26, no. 5, p. 313, Sep. 2001.
G. Booch, J. Rumbaugh, & I. Jacobson, The Unified Modeling Language user guide, Jan. 1999.
M. Akşit, Ed., Software Architectures & Component Technology. Boston, MA: Springer US, 2002.
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