INTEGRATED CIRCUITS CourseCode: 2957Degree: Master's in Telecommunications EngineeringSchool of Engineering of ElcheYear: Year 1 of Master's in Telecommunications EngineeringSemester: FallType: RequiredLanguage: SpanishECTS credits: 4.5Lecture: 3Laboratory: 1.5Hours: 112.5Directed: 45Shared: 22.5Autonomous: 45Subject matter: Electronic SystemsModule: RequiredDepartment: Communications EngineeringArea: ELECTRONICSCourse instructors are responsible for the course content descriptions in English.DescriptionDesign and manufacture of integrated circuits.FacultyNameCoordinatorLectureLaboratoryGUTIERREZ MAZON, ROBERTO■■■Professional interestCompetencies and learning outcomesGeneral competenciesAbility to plan, calculate and design products, processes and facilities in all areas of telecommunications engineering.Capacity for mathematical modeling, calculation and simulation technology centers and engineering companies, particularly in research, development and innovation in all areas related to the Telecommunications Engineering and related multidisciplinary fields.Ability to implement the acquired knowledge and solve problems in new or unfamiliar contexts and broader mulitidisciplinares, being able to integrate knowledge.Ability to understand the ethical responsibility and professional ethics of the activity of the profession of telecommunications engineer.Ability to learn to communicate (oral and written) findings, and the knowledge and rationale underpinning these, to public-skilled and unskilled in a clear and unambiguous.Possess skills for self-directed and autonomous lifelong learning.Knowledge, understanding and ability to implement the necessary legislation in the exercise of the profession of Telecommunications Engineer.Specific competenciesAbility to design and manufacture integrated circuits.Knowledge of hardware description languages for high circuit complexity.Ability to use programmable logic devices, as well as advanced electronics design, both analog and digital.Ability to design communications components such as routers, switches, hubs, transmitters and receivers in different bands.Ability to apply advanced knowledge of photonics and optoelectronics, and high frequency electronics.Ability to develop electronic instrumentation and transducers, actuators and sensors.Objectives (Learning outcomes)The student is familiar with the basic techniques of digital VLSI Design (Full-Custom and Semi-custom). Concepts are explained via MPCs susceptible manufacturing and emphasize the physical design of small digital electronic systems.ContentsLecture topicsTeaching unitsIntegrated Circuit FabricationCharacterization of CMOS CircuitsSíntesis de Circuitos Digitales CMOSEstructuras regulares CMOSMetodologías de diseño y HerramientasCourse contentsBasic bibliographyCalleja, E. "Introducción a los circuitos integrados notas docentes sobre tecnología". Madrid Servicio de Publicaciones Escuela Técnica Superior Ingenieros de Telecomunicación D.L. 1989. Kahng, Andrew B. Lienig, Jens./Markov, Igor L./Hu, Jin. "VLSI Physical Design: From Graph Partitioning to Timing Closure [electronic resource] /". Dordrecht : Springer Science+Business Media B.V., 2011. Millman, Jacob. Grabel, Arvin. "Microelectrónica". Barcelona Hispano Europea D.L.1995. Sedra, Adel S. "Microelectronic circuits". New York Oxford University Press 1998. Complementary bibliographyChandrasetty, Vikram Arkalgud. "VLSI design [electronic resource] : a practical guide for FPGA and ASIC implementations /". New York : Springer, c2011. Sarkar, Angsuman, author. "Low power VLSI design : fundamentals /". Sherwani, N. A. (Naveed A.). "Algorithms for VLSI physical design automation [electronic resource] /". Boston : Kluwer Academic Publishers, c1999. Linkshttp://SoftwareMethodology and gradingMethodologyLecture: Pass on knowledge and activate cognitive processes in students, encouraging their participation.Problem-based learning: Develop active learning strategies through problem solving that promote thinking, experimentation, and decision making in the student.Project-based learning: Realization of a project to solve a problem, applying acquired learning and promoting abilities related to planning, design, performing activities, and reaching conclusions.Solving exercises and problems: Exercise, test, and apply previous knowledge through routine repetition.GradingLa evaluación se realizará mediante un examen tipo test y/o de preguntas de respuesta corta.Además será imprescindible la realización de las prácticas de la asignatura.El peso del examen será de un 80% en la parte teórica y de un 20% en la parte práctica.