Empirical Learning of Digital Systems Testing and Testable Design Using Industry-Verified Electronics Design Automation Tools in Classroom

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Detalles Bibliográficos
Publicado en:	Association for Engineering Education - Engineering Library Division Papers (Apr 20, 2017), p. n/a
Autor principal:	Raeisi, Reza
Otros Autores:	Vidya sagar reddy Gopala
Publicado:	American Society for Engineering Education-ASEE
Materias:	Logic circuits Engineering education Digital systems Curricula Economic models Test equipment Test pattern generators Circuit design Automatic test equipment Empirical analysis Digital computers Application specific integrated circuits Computer simulation Students Test systems Very large scale integration Learning Integrated circuits Classrooms Automation Pattern generation Graduates Tools Computer engineering Design Program verification (computers) Circuits Careers College students Equipment Simulation Engineering Occupations Knowledge Verification Electronics industry Tests Teaching Curriculum development
Acceso en línea:	Citation/Abstract Full text outside of ProQuest
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Descripción
Resumen:	The intention of this paper is to introduce and share classroom empirical knowledge on Synopsys TetraMax, an Automatic Test Pattern Generation (ATPG) for design verification and testing of digital logic circuits. TetraMax is an ATPG tool used by the largest innovative silicon companies globally to generate test vectors automatically for design verification of Application-Specific Integrated Circuits (ASIC). TetraMax is the leading tool for generating minimum test patterns possible that covers maximum test coverage for a wide range of designs. The unparalleled ease-of-use and high performance provided by TetraMax allows designers to create efficient, compact test for even the most complex designs in minimal time. Normally, Computer Engineering curriculum does not include courses beyond their fundamental digital logic courses. We have developed a course “Digital Systems Testing and Testable Design”; for students of Computer Engineering who want to be specialized in the design, verification and testing side of VLSI circuits. We will share our knowledge gained through building and configuring Synopsys tools and their application for the design, verification and testing of VLSI circuits in the course. The career field of VLSI verification and test offers excellent opportunities for fresh engineering graduates. Training students to apply theoretical concepts with verified industry tools allows them to gain a deeper level of knowledge of VLSI design, verification and testing. Therefore, enabling them to become career ready upon graduation. This pedagogical experience of course covering the fundamentals of VLSI test process and automatic test equipment (ATE), test economics, faults, fault modeling and fault simulation in conjunction with the empirical learning of Synopsys tools for ATPG will be discussed in the body of the paper along with a results and analysis of a basic example.
Fuente:	Library Science Database