RECONFIGURABLE ELECTRONICS CourseCode: 1784Degree: Bachelor's in Electronic Engineering and Industrial AutomationSchool of Engineering of ElcheYear: Year 4 of Bachelor's in Electronic Engineering and Industrial AutomationSemester: SpringType: ElectiveLanguage: EnglishECTS credits: 6Lecture: 3Laboratory: 3Hours: 150Directed: 60Shared: 36Autonomous: 54Subject matter: Program ElectivesModule: Transversal and Professional CompetenciesDepartment: Communications EngineeringArea: ELECTRONICSCourse instructors are responsible for the course content descriptions in English.DescriptionDesign of configurable analog and digital electronics systems. Field-programmable analog array and field-programmable gate array devices.FacultyNameCoordinatorLectureLaboratoryMAESTRE FERRIZ, RAFAEL■■■Professional interestCompetencies and learning outcomesGeneral competenciesCapacity for drafting, signing, and developing projects within the field of industrial electronics engineering aimed at construction, remodeling, repair, maintenance, demolition, manufacturing, installation, assembly and/or the operation of structures, mechanical equipment, energy installations, electrical and electronic installations, industrial installations and plants, and manufacturing and automation processes.Ability to manage the kinds of engineering projects described in the preceding competency.Knowledge about basic and technological material that enable learning new methods and theories, providing versatility for adapting to new situations.Capacity to resolve problems with initiative, decision making, creativity, critical reasoning, and to communicate and transmit knowledge, abilities, and skills within the field of industrial electronics engineering.Knowledge for making measurements, calculations, assessments, appraisals, surveys, studies, reports, task scheduling, and other similar computer work.Ability to manage specifications, regulations, and mandatory standards.Capacity to analyze and assess the social and environmental impact from technical solutions.Ability to work within a multilingual and multidisciplinary environment.Knowledge, understanding, and capacity to apply the necessary legislation in exercising the profession of technical industrial engineer.Specific competenciesKnowledge about the fundamentals and applications of digital electronics and microprocessors.Applied knowledge about electronic instrumentation.Capacity to design analog, digital, and power electronic systems.Objectives (Learning outcomes)01Learn to design complex reconfigurable systems (SoC) using hardware description languages.02Learn to analyze the capabilities, characteristics and performance of reconfigurable logic devices.03Learn to implement digital systems in reconfigurable logic circuits, efficiently, selecting the right tools and devices.ContentsLecture topicsTeaching unitsU1System-on-Chip introducctionU2System-on-Chip peripheralsU3Hardware-software CodesignAssociation between objectives and unitsObjective/UnitU1U2U3010203ScheduleWeekTeaching unitsDirected hoursShared hoursAutonomous hoursTotal hours1200222226322264222653238632387423984239942410104241011634131263514136451514646161564818Course contentsBasic bibliographyAshenden, Peter J. "Digital design [electronic resource] : an embedded systems approach using VHDL /". Amsterdam ; Boston : Elsevier/Morgan Kaufmann Publishers, c2008. Iniewski, Krzysztof. "Embedded systems [electronic resource] : hardware, design, and implementation /". Hoboken, N.J. : John Wiley & Sons, Inc., 2013. Wilson, Peter R. (Peter Robert), 1939- author. "Design recipes for FPGAs : using Verilog and VHDL /". Complementary bibliographyYagmour, Karim. "Building embedded linux systems". Beijing Oâreilly cop.2008. LinksWEB XilinxSoftwareXilinx Vivado 2015.2Methodology and gradingGradingThe final grade will be the result of the grade obtained in the accomplishment of practices, both in the laboratory and in the final work of the subject. A final grade of 5.0 or higher is considered approved. In the practices will be a continuous evaluation, evaluating the behavior and result in the practices performed. The teacher may request in some of the practices a report of the work done.In the case that the student can not perform such practices are entitled to carry out a practical test to pass the course.