tempus jep 41107_2006 master degree syllabus in system on chip ass. prof. dimitar trajanov prof....

TEMPUS JEP 41107_2006TEMPUS JEP 41107_2006

Master degree syllabus in Master degree syllabus in System on ChipSystem on Chip

Ass. Prof. Dimitar TrajanovAss. Prof. Dimitar TrajanovProf. Aksenti GrnarovProf. Aksenti GrnarovSkopje 01/10/2008Skopje 01/10/2008


Study program planStudy program plan ( (coursescourses))

No.No. TitleTitle SemesterSemester CreditsCredits ClassesClasses

11 System on chip design System on chip design techniquestechniques

IXIX 55 2+0+2+12+0+2+1

22 Integrated circuits design Integrated circuits design IXIX 55 2+0+2+12+0+2+1

33 Embedded computer systems Embedded computer systems software developmentsoftware development

IXIX 55 2+0+2+12+0+2+1

44 Compulsory interdisciplinary Compulsory interdisciplinary coursecourse

IXIX 55 2+0+0+42+0+0+4

55 Specialization elective courseSpecialization elective course IXIX 55 2+0+2+12+0+2+1

66 Specialization elective courseSpecialization elective course IXIX 55 2+0+2+12+0+2+1

77 Specialization elective courseSpecialization elective course XX 55 2+0+2+12+0+2+1

88 Specialization elective courseSpecialization elective course XX 55 2+0+2+12+0+2+1

99 Masters thesisMasters thesis XX 2020

TOTALTOTAL 3030 3030


Elective courses listElective courses listNo.No. TitleTitle SemesterSemester CreditsCredits ClassesClasses

11 Wireless and ad hoc Wireless and ad hoc computer networkscomputer networks

IXIX 55 2+0+1+32+0+1+3

22 Contemporary methods for Contemporary methods for network analysisnetwork analysis

IXIX 55 2+0+2+12+0+2+1

33 Digital system design using Digital system design using HDLHDL

IXIX 55 2+0+2+12+0+2+1

44 System reliabilitySystem reliability IXIX 55 2+0+2+12+0+2+1

55 Collaborative computer Collaborative computer systemssystems

IXIX 55 2+0+2+12+0+2+1

66 Digital electronic system Digital electronic system designdesign

XX 55 2+0+2+12+0+2+1

77 Custom purpose networksCustom purpose networks XX 55 2+0+2+12+0+2+1

88 CryptographyCryptography XX 55 2+0+2+12+0+2+1

99 Process computersProcess computers XX 55 2+0+2+12+0+2+1

1010 NanotechnologyNanotechnology XX 55 2+0+2+12+0+2+1

1111 Analog and mixed signals Analog and mixed signals designdesign

XX 55 2+0+2+12+0+2+1


Compulsory courses descriptionCompulsory courses description


Embedded computer systems Embedded computer systems software developmentsoftware development

SemesterSemester TypeType ClassesClasses CreditsCredits LanguageLanguage DepartmentDepartment

IXIX CompulsoryCompulsory 2+0+2+12+0+2+1 55 CSCS

PrerequisitesPrerequisites

CompetenceCompetenceEmbedded operating systems - use and development. Embedded systems software Embedded operating systems - use and development. Embedded systems software developmentdevelopment

ContentContent Embedded operating systems: Embedded operating systems: Embedded Linux, Windows CE, PALM OS. Embedded Linux, Windows CE, PALM OS. Interfaces:Interfaces: Types of interfaces. Using interrupts for timing, System integration. Types of interfaces. Using interrupts for timing, System integration. Network embedded Network embedded systems:systems: Examples of network embedded systems. Examples of network embedded systems. Embedded systems programming in Embedded systems programming in C:C: Reading port pins and mechanical switches, adding code structure, real time limitations, Reading port pins and mechanical switches, adding code structure, real time limitations, creating embedded operating systems, using the serial interface. creating embedded operating systems, using the serial interface. Java 2, Micro Edition Java 2, Micro Edition (J2ME): Configurations, Connection limited device configuration – CLDC, CDC profiles, (J2ME): Configurations, Connection limited device configuration – CLDC, CDC profiles, J2ME wireless tools. J2ME wireless tools. Small devices design:Small devices design: Limited calculation capacity, Limited screen Limited calculation capacity, Limited screen size, Limited memory. size, Limited memory. User interface:User interface: Mobile Information Device Profile (MIDP). Mobile Information Device Profile (MIDP). Information storage: Information storage: Information storage using MIDP, RMS API, Java databases. Information storage using MIDP, RMS API, Java databases. Networking:Networking: Palm device network environment, Generic Connection Framework, Palm Palm device network environment, Generic Connection Framework, Palm device Internet access, PocketPC network connections.device Internet access, PocketPC network connections.


System on chip design System on chip design techniquestechniques


IXIX CompulsoryCompulsory 2+0+2+22+0+2+2 55 CSCS


CompetenceCompetence Using methodologies for system on chip design. Platform-specific components design Using methodologies for system on chip design. Platform-specific components design (network, video interface, wireless communication)(network, video interface, wireless communication)

ContentContent Introduction to embedded computer systems. Embedded systems history and overview. Introduction to embedded computer systems. Embedded systems history and overview. System on chip design. Embedded computer systems architecture. System design models System on chip design. Embedded computer systems architecture. System design models and methodologies. Distribution between hardware and software. Embedded computer and methodologies. Distribution between hardware and software. Embedded computer systems design. System on chip modeling and simulation. Functionally-architectural co-systems design. System on chip modeling and simulation. Functionally-architectural co-design. Destination platform based design. Hardware description languages (Verilog HDL, design. Destination platform based design. Hardware description languages (Verilog HDL, VHDL, SystemC). Design verification and testability of embedded systems. System on chip VHDL, SystemC). Design verification and testability of embedded systems. System on chip and IP-cores. Using IP-cores for system on chip design. Techniques for designing energy-and IP-cores. Using IP-cores for system on chip design. Techniques for designing energy-efficient embedded systems. General Input/Output. Serial communication (I2C, SPI IrDA, efficient embedded systems. General Input/Output. Serial communication (I2C, SPI IrDA, Uarts). Analog Input/Output. Hardware-software interfaces and reconfigurable computing. Uarts). Analog Input/Output. Hardware-software interfaces and reconfigurable computing. Designing the communication component of embedded computer systems. Interface Designing the communication component of embedded computer systems. Interface synthesis. synthesis.


Integrated circuits designIntegrated circuits design


IXIX CompulsoryCompulsory 2+0+2+12+0+2+1 55 EE


CompetenceCompetence Analysis of digital CMOS circuits and projecting simple logical gates.Analysis of digital CMOS circuits and projecting simple logical gates.

ContentContent Integrated circuitsIntegrated circuits. CMOS processing, topology and projection rules. STIK . CMOS processing, topology and projection rules. STIK diagrams. diagrams. Characteristics of the CMOS technologyCharacteristics of the CMOS technology. Inverted converter, . Inverted converter, transfer characteristics, transitive characteristics, noise margins, propagation transfer characteristics, transitive characteristics, noise margins, propagation time, power consumption, SPICE simulation. time, power consumption, SPICE simulation. CMOS circuitsCMOS circuits. Logical circuits. . Logical circuits. Transmission ports and three state circuits. Memory elements. Dynamic logic. Transmission ports and three state circuits. Memory elements. Dynamic logic. PLA-structures.PLA-structures.


Technical writing and research Technical writing and research methodologiesmethodologies


XX CompulsoryCompulsory 2+0+0+42+0+0+4 55 CSCS


CompetenceCompetence The objective of the course is to prepare students for autonomous research and The objective of the course is to prepare students for autonomous research and preparation of corresponding reports, as well as to present the transition from preparation of corresponding reports, as well as to present the transition from simple application to a production of scientific and research results.simple application to a production of scientific and research results.

ContentContent Academic writingAcademic writing. Quality assessment, Review of scientific work. Quality assessment, Review of scientific work, Constructive , Constructive criticism, Organizational and ethical rules, Rules for citations and references, criticism, Organizational and ethical rules, Rules for citations and references, Academic culture, Student-centred learningAcademic culture, Student-centred learning, Anti-discrimination and equal, Anti-discrimination and equal opportunities. Overview of intellectual properties and copyrights, Range and opportunities. Overview of intellectual properties and copyrights, Range and types of available publications, Search tools and indices, citations, bibliographies types of available publications, Search tools and indices, citations, bibliographies and citation search. Research process, Scientific research methods, Financial and citation search. Research process, Scientific research methods, Financial sources, Writing research proposals (projects), Assessment of proposals for sources, Writing research proposals (projects), Assessment of proposals for research projects, Planning f research projects, Selecting results for publications, research projects, Planning f research projects, Selecting results for publications, Structuring scientific papers, Scientific paper evaluation process, Presenting Structuring scientific papers, Scientific paper evaluation process, Presenting posters and papers on conferences, Publishing in academic and engineering posters and papers on conferences, Publishing in academic and engineering journals. Literature overviews, Reading and summarizing relevant papers, journals. Literature overviews, Reading and summarizing relevant papers, Objective and structure of a well-structured paper, Examples of well-structured Objective and structure of a well-structured paper, Examples of well-structured papers. Research philosophy. papers. Research philosophy.


Technical writing and research Technical writing and research methodologiesmethodologies


XX CompulsoryCompulsory 2+0+0+42+0+0+4 55 CSCS

ContentContent Academic writingAcademic writing. Quality assessment, Review of scientific work. Quality assessment, Review of scientific work, Constructive , Constructive criticism, Organizational and ethical rules, Rules for citations and references, criticism, Organizational and ethical rules, Rules for citations and references, Academic culture, Student-centred learningAcademic culture, Student-centred learning, Anti-discrimination and equal, Anti-discrimination and equal opportunities. Overview of intellectual properties and copyrights, Range and opportunities. Overview of intellectual properties and copyrights, Range and types of available publications, Search tools and indices, citations, bibliographies types of available publications, Search tools and indices, citations, bibliographies and citation search. Research process, Scientific research methods, Financial and citation search. Research process, Scientific research methods, Financial sources, Writing research proposals (projects), Assessment of proposals for sources, Writing research proposals (projects), Assessment of proposals for research projects, Planning f research projects, Selecting results for publications, research projects, Planning f research projects, Selecting results for publications, Structuring scientific papers, Scientific paper evaluation process, Presenting Structuring scientific papers, Scientific paper evaluation process, Presenting posters and papers on conferences, Publishing in academic and engineering posters and papers on conferences, Publishing in academic and engineering journals. Literature overviews, Reading and summarizing relevant papers, journals. Literature overviews, Reading and summarizing relevant papers, Objective and structure of a well-structured paper, Examples of well-structured Objective and structure of a well-structured paper, Examples of well-structured papers. Research philosophy. papers. Research philosophy.


Project ManagementProject Management SemesterSemester TypeType ClassesClasses CreditsCredits LanguageLanguage DepartmentDepartment

XX CompulsoryCompulsory 2+0+0+42+0+0+4 55 ECRPECRP


CompetenceCompetence Completing IT/IS projects on time, within budged and corresponding to a specified Completing IT/IS projects on time, within budged and corresponding to a specified quality, for a given amount of work tasks according to a work plan. Effective project quality, for a given amount of work tasks according to a work plan. Effective project planning and control. Defining the roles of the project manager and the other planning and control. Defining the roles of the project manager and the other project participants. Measuring the performances of project management. Tools and project participants. Measuring the performances of project management. Tools and techniques in project management. Project analysis and project documentation. techniques in project management. Project analysis and project documentation. Economic evaluation of a project. Economic evaluation of a project.

ContentContent Leading and managing in a contemporary organizational culture. Identifying Leading and managing in a contemporary organizational culture. Identifying different leadership styles for leading a project. ISO 100006 standard. different leadership styles for leading a project. ISO 100006 standard. ProjectProject Management Body of Knowledge (PMBOK) guide to project management. Project Management Body of Knowledge (PMBOK) guide to project management. Project and project planning of IT/IS projects. Project organization. Organizing groups into and project planning of IT/IS projects. Project organization. Organizing groups into teams. Project Manager. Total Quality Management (TQM) System Principles. TQM teams. Project Manager. Total Quality Management (TQM) System Principles. TQM concepts and methods. The influence of TQM on the process improvement. concepts and methods. The influence of TQM on the process improvement. Introduction of a Quality management system. Technical documentation of projects. Introduction of a Quality management system. Technical documentation of projects. Types and forms of the documentation. Limitations of the different documentation Types and forms of the documentation. Limitations of the different documentation types. Work plan and program. Short-term, mid-term and long-term plans. Business types. Work plan and program. Short-term, mid-term and long-term plans. Business plan. Project documentation, tender offers, offers and contracts. Turn-key, DBOT plan. Project documentation, tender offers, offers and contracts. Turn-key, DBOT projects and corresponding documentation. Commercial, technical, social, projects and corresponding documentation. Commercial, technical, social, institutional, financial and economic aspects of projects. Environmental aspects. institutional, financial and economic aspects of projects. Environmental aspects. Methodological fundamentals of project analysis. Cost-benefit analysis. Cash flow. Methodological fundamentals of project analysis. Cost-benefit analysis. Cash flow. Pay-back period and profitability of IT/IS projects. Methods for project Evaluation Pay-back period and profitability of IT/IS projects. Methods for project Evaluation Risk Management. Risk types and sources. Risk planning. Risk Identification. Risk Management. Risk types and sources. Risk planning. Risk Identification. Qualitative and quantitative risk analysis. Risk matrix. Statistical fundamentals of Qualitative and quantitative risk analysis. Risk matrix. Statistical fundamentals of risk management. Case studies. risk management. Case studies.


Elective courses descriptionElective courses description


Process computersProcess computers


IXIX ElectiveElective 2+0+2+12+0+2+1 55 CSCS


CompetenceCompetence

ContentContent Review of basic process physical measures which are subject of measurement. Review of basic process physical measures which are subject of measurement. Interface for receiving signals from transducers. Processing the signals from the Interface for receiving signals from transducers. Processing the signals from the transducers. Standard architectures of system buses in process computers. 8-bit transducers. Standard architectures of system buses in process computers. 8-bit and 16-bit microcontrollers, Memory, I/O, assembly programming. Computer and 16-bit microcontrollers, Memory, I/O, assembly programming. Computer networks in industry conditions. Applications in the industry conditions. Real-time networks in industry conditions. Applications in the industry conditions. Real-time work. Student projects.work. Student projects.


Digital system design Digital system design with HDLwith HDL




CompetenceCompetenceUsing HDL languages for digital system design. Conceptual knowledge of Verilog, Using HDL languages for digital system design. Conceptual knowledge of Verilog, VHDL, System Verilog and SystemC.VHDL, System Verilog and SystemC.

ContentContent Introduction to HDL languages. Overview of Verilog and VHDL. Using Verilog and Introduction to HDL languages. Overview of Verilog and VHDL. Using Verilog and VHDL for digital system design. Overview of SystemVerilog, SystemC.VHDL for digital system design. Overview of SystemVerilog, SystemC.Using high level languages for digital system design. Examples of using C and Using high level languages for digital system design. Examples of using C and Matlab for digital system design.Matlab for digital system design.Software tools for simulation and testing of digital system. IP-cores design with Software tools for simulation and testing of digital system. IP-cores design with HDL. Using IP-cores for system on chip design.HDL. Using IP-cores for system on chip design.System on chip design with HDL. Examples of open source HDL designs.System on chip design with HDL. Examples of open source HDL designs.


System reliabilitySystem reliability


XX ElectiveElective 2+0+2+12+0+2+1 55 CSCS


CompetenceCompetenceAnalysis of system reliability. Designing a highly reliable systems. Analysis and Analysis of system reliability. Designing a highly reliable systems. Analysis and modeling software reliability. Designing highly reliable software.modeling software reliability. Designing highly reliable software.

ContentContent Definition and measures for reliability and availability. Reliability and modeling Definition and measures for reliability and availability. Reliability and modeling availability. Error detection and error correction codes. Design of confidential availability. Error detection and error correction codes. Design of confidential system: transient vs. permanent hardware errors. Sources of errors in software, system: transient vs. permanent hardware errors. Sources of errors in software, error tolerance techniques, VLSI devices confidentiality . air control systems error tolerance techniques, VLSI devices confidentiality . air control systems confidentiality, telecommunication system, application for industry control confidentiality, telecommunication system, application for industry control confidentiality. confidentiality. Software approaches and software confidentiality. Software approaches and software confidentiality. Models Models for software reliability. Methods for software reliability. Data bases and for software reliability. Methods for software reliability. Data bases and distributive system confidentiality. distributive system confidentiality. Design of tests. Design of tests. Methods for tests Methods for tests generation. Automatic Test Pattern Generation (ATPG). System level tests and generation. Automatic Test Pattern Generation (ATPG). System level tests and diagnosis. Software testing. Test specifications. Black box testing. White box diagnosis. Software testing. Test specifications. Black box testing. White box testing. Random tests. Test coverage. testing. Random tests. Test coverage. MaintenanceMaintenance. Analysis of risks and . Analysis of risks and danger exposure, risk reducing strategies. Inevitability of maintenance of certain danger exposure, risk reducing strategies. Inevitability of maintenance of certain systems. Schemas for behavior related to maintenance – hardware, software, systems. Schemas for behavior related to maintenance – hardware, software, communication. Nature of maintenance: fixing a defect, rebuilding, improving. communication. Nature of maintenance: fixing a defect, rebuilding, improving. Configuration management and version control in engineering systems. Tools Configuration management and version control in engineering systems. Tools support. Expertise building, later reuse, problems, balances, possibilities. support. Expertise building, later reuse, problems, balances, possibilities.


Wireless and ad-hoc computer Wireless and ad-hoc computer networksnetworks




CompetenceCompetence Knowledge of characteristics of wireless and ad-hoc networks.Knowledge of characteristics of wireless and ad-hoc networks.

ContentContent Wireless communication systems. Standards for wireless networking. Review of Wireless communication systems. Standards for wireless networking. Review of 802.11 wireless networks. 802.11 MAC. 802.15. Personal wireless networks. 802.11 wireless networks. 802.11 MAC. 802.15. Personal wireless networks. 802.16. Broad band wireless networks. Ad hoc wireless networks. Sensor 802.16. Broad band wireless networks. Ad hoc wireless networks. Sensor networks. Protocols. Quality of service and multimedia support. Mobile IP. networks. Protocols. Quality of service and multimedia support. Mobile IP. Wireless networks security.Wireless networks security.


Dedicated networksDedicated networks




CompetenceCompetenceKnowledge of different kinds of dedicated networks in different fields. Dedicated Knowledge of different kinds of dedicated networks in different fields. Dedicated networks projecting. networks projecting.

ContentContent Fields where dedicated networks are of a great use. Air navigation networks: civil Fields where dedicated networks are of a great use. Air navigation networks: civil and military. Airplane networks: civil and military. Optical networks. Industry and military. Airplane networks: civil and military. Optical networks. Industry networks. Software for dedicated networks. Dedicated networks security.networks. Software for dedicated networks. Dedicated networks security.


Digital electrical circuits designDigital electrical circuits design




CompetenceCompetenceKnowledge of different languages and environments for projecting digital Knowledge of different languages and environments for projecting digital circuits. Projecting digital circuits. circuits. Projecting digital circuits.

ContentContent Languages for description of digital circuits. Environments for projecting and Languages for description of digital circuits. Environments for projecting and development of digital integrated circuits. Practical examples of projecting development of digital integrated circuits. Practical examples of projecting integrated circuits.integrated circuits.


CryptographyCryptography





ContentContent Elements of number theory. Elements of algebra (finite fields, Gaola fields. Elements of number theory. Elements of algebra (finite fields, Gaola fields. Elements of complexity theory (algorithmic complexity and probability, Elements of complexity theory (algorithmic complexity and probability, computing complexity and probability). Algorithms with secret keys (symmetric computing complexity and probability). Algorithms with secret keys (symmetric algorithms). Example: AES. Algorithms with public keys. Example: RSA. Pseudo-algorithms). Example: AES. Algorithms with public keys. Example: RSA. Pseudo-randomness. randomness.


Contemporary methods for network Contemporary methods for network analysisanalysis




CompetenceCompetence Knowledge of Knowledge of contemporary methods for network analysiscontemporary methods for network analysis. .

ContentContent Network analysis (Min-Plus algebra applied in queuing systems in Network analysis (Min-Plus algebra applied in queuing systems in computer/communication networks). Stochastic analysis of networks. Example: computer/communication networks). Stochastic analysis of networks. Example: analysis of TC/IP protocol. Elements of networks optimization theory. Maximizing analysis of TC/IP protocol. Elements of networks optimization theory. Maximizing the network fluctuations for usability. Elements of game and network theory. the network fluctuations for usability. Elements of game and network theory. Network coding. Random networks. Example: calculating capacity of wireless Network coding. Random networks. Example: calculating capacity of wireless networks.networks.


NanotechnologyNanotechnology





Knowledge of characteristics and fabrication of micro and nano-elements, Knowledge of characteristics and fabrication of micro and nano-elements, especially with the technology of sillicium integrated circuits. Understanding of especially with the technology of sillicium integrated circuits. Understanding of dimension impact on physical characteristics of elements and capability of dimension impact on physical characteristics of elements and capability of performing basic calculations of their parameters. performing basic calculations of their parameters.

ContentContent Introduction. Materials and processes. Crystals, ionic implantation, diffusion, Introduction. Materials and processes. Crystals, ionic implantation, diffusion, oxidation, lithography, deposition, decay. oxidation, lithography, deposition, decay. NanostructuresNanostructures. FIB-systems, . FIB-systems, nanotubes and wires, photon crystals, hetero structures and quantum pits. nanotubes and wires, photon crystals, hetero structures and quantum pits. Integration of technologies. Integration of technologies. BiCMOS – process, integrated optoelectronics. BiCMOS – process, integrated optoelectronics. MOS-condensator. Modern MOS-transistors. MOS-condensator. Modern MOS-transistors. Shallow source and drain. Shallow source and drain. Materials with large dielectric constant. Overtensed Si and SiGe. SOI-structures.Materials with large dielectric constant. Overtensed Si and SiGe. SOI-structures.


Analog and mixed signals designAnalog and mixed signals design


XX ElectiveElective 2+0+2+12+0+2+1 55 EE



Active and passive components in CMOS and their parasite elements when Active and passive components in CMOS and their parasite elements when modeling transistors for starting handmade design and boundary of applicability. modeling transistors for starting handmade design and boundary of applicability. Designing basic primitives of analogue circuits. Design of CMOS Op-Amp. Designing basic primitives of analogue circuits. Design of CMOS Op-Amp. Practical problems with A/D and D/A converters with voltage and current scaling.Practical problems with A/D and D/A converters with voltage and current scaling.

ContentContent Review of modeling devices with CMOS processing; Moulding MOS transistors Review of modeling devices with CMOS processing; Moulding MOS transistors with big and small signals. Basics of CMOS amplifiers; Reinforcement and with big and small signals. Basics of CMOS amplifiers; Reinforcement and throughput; Cascade degrees; Differential amplifier; Device compatibility. Current throughput; Cascade degrees; Differential amplifier; Device compatibility. Current and voltage sources; Basic current mirrors; Current mirrors with high and voltage sources; Basic current mirrors; Current mirrors with high performances; Simple voltage references. CMOS operational amplifiers; General performances; Simple voltage references. CMOS operational amplifiers; General considerations; Simple two-stage architecture; Stability and compensation of considerations; Simple two-stage architecture; Stability and compensation of dominant pole; Output buffers; One-stage amplifiers; Complete differential dominant pole; Output buffers; One-stage amplifiers; Complete differential amplifiers. Noise within MOS circuits; General considerations; Thermal 1/f device amplifiers. Noise within MOS circuits; General considerations; Thermal 1/f device noise; Amplifier’s noise; Noise within amplifier degrees; Stabilizing chopper for 1/f noise; Amplifier’s noise; Noise within amplifier degrees; Stabilizing chopper for 1/f noise; kT/C noise. Circuits for data conversion; General considerations; Simple noise; kT/C noise. Circuits for data conversion; General considerations; Simple current and voltage scaling in D/A; Comparators; Integral A/D; A/D with charge current and voltage scaling in D/A; Comparators; Integral A/D; A/D with charge redistribution; Flash A/D; Sigma-Delta A/D. Filters with switching capacitor; Filters redistribution; Flash A/D; Sigma-Delta A/D. Filters with switching capacitor; Filters with continual time.with continual time.

tempus jep 41107_2006 master degree syllabus in system on chip ass. prof. dimitar trajanov prof....

Documents

embedded operating systems

embedded systems programming

embedded systems history

digital system design

system design models

chip design techniques

embedded linux

design verification