Subject description - A2M34NIS

Summary of Study | Summary of Branches | All Subject Groups | All Subjects | List of Roles | Explanatory Notes               Instructions
A2M34NIS Integrated Systems Design
Roles:PO, V Extent of teaching:2P+2C
Department:13134 Language of teaching:CS
Guarantors:  Completion:Z,ZK
Lecturers:  Credits:5
Tutors:  Semester:L


Main tasks of integrated circuits designer; design abstraction levels - Y chart. Definitions of specification, feasibility study, criteria for technology and design kits selection. Integrated systems design and simulation methodologies. Main features of full custom design, gate array, standard cells, programmable array logic. Design aspects of RF and mobile low power systems. Verilog-A, Verilog-AMS, VHDL-A. Logic and physical synthesis. Frond End and Back End design. Floorplanning, place and route, layout, parasitic extraction, time analysis, testbenches design and verification.

Course outlines:

1. Main tasks of analogue and digital integrated circuits designer; design methodologies (top down, bottom up), design abstraction levels - Y chart.
2. Application specific integrated circuits systems types, full custom design, gate array, standard cells, programmable array logic; main features, economical aspect of the design.
3. Full customs integrated systems, feasibility study, specification, criteria for technology and design kits selection.
4. World standards and CAD tools for analog and mix-signal integrated circuits design, design of RF and mobile low power systems.
5. Design tools for automatic generation of analog behavior models, bottom up design methodology, macro blocks.
6. Design principles of mix-signal integrated circuits, purpose of hierarchical design, digital and analogue block interface, CAD design tools for automatic circuit generation; functional and static time analysis, formal verification; Verilog-A, Verilog-AMS, VHDL-A.
7. Design aspects of radiofrequency integrated circuits ( RFIC WLAN), design methodologies, main architectures, technologies, Sectre RF simulator.
8. Design tools and methodologies for digital integrated circuits and systems; language VHDL, Verilog; library cells; parameters extractions for library cells development.
9. Frond end design - functional specification, RTL, logic synthesis, Gate-level netlist, behavioral stimulus extraction.
10. Back End design - specification of Design Kit, mapping of the design, Floorplanning, place and route, layout, parasitic extraction, layout versus schema check (LVS).
11. Methods of physical synthesis, placement of functional blocks, power lines design and distribution, simulation of interconnect continuity, design verification.
12. Distribution of clock signal, calculating of delay, static and dynamic timing analysis.
13. Testing, design of testbenches, design verification methods.
14. Tape out and fabrication, integrated systems verification, scaling and design mapping to different technologies.

Exercises outline:

1. CADENCE design system
2. CMOS Design kit description, library cells
3. Demonstration of mix-signal design - hierarchical structuring, design cells abstraction.
4. Demonstration of mix-signal design - simulations, interface definition, Spectre AMS simulator.
5. Demonstration of mix-signal design - corner analysis.
6. Analogue layout, parasitic extraction, design rule check.
7. Digital layout (Back End design), Floorplanning, routing, timing analysis.
8. Student project - design of mix-signal IC.
9. Student project - design of mix-signal IC.
10. Student project - design of mix-signal IC.
11. Student project - design of mix-signal IC.
12. Student project - design of mix-signal IC.
13. Student project - design of mix-signal IC.
14. Student project presentation, final assessment.


Michael Smith: Application-Specific Integrated Circuits, Addison-Wesley, 1998
P. Gray, P Hurst, s. Lewis, R. Mayer: Analysis and Design of Analog Integrated Circuits, John Wiley and Sons, 2000
E. Sinencio, A. Andreou: Low-Voltage/Low-Power Integrated Circuits and Systems, John Wiley and Sons, 1998 Mark Zwolinski : Digital System Design and VHDL , Prentice-Hall, 2000



Subject is included into these academic programs:

Program Branch Role Recommended semester
MPIB Common courses V
MPKME3 Electronics PO 2
MPEEM1 Technological Systems V 2
MPEEM5 Economy and Management of Electrical Engineering V 2
MPEEM4 Economy and Management of Power Engineering V 2
MPEEM3 Electrical Power Engineering V 2
MPEEM2 Electrical Machines, Apparatus and Drives V 2
MPKYR4 Aerospace Systems V 2
MPKYR1 Robotics V 2
MPKYR3 Systems and Control V 2
MPKYR2 Sensors and Instrumentation V 2

Page updated 26.2.2021 17:52:17, semester: Z/2020-1, L/2021-2, L/2020-1, Z/2021-2, Send comments about the content to the Administrators of the Academic Programs Proposal and Realization: I. Halaška (K336), J. Novák (K336)