Course details
Advanced Digital Systems
PCS Acad. year 2014/2015 Winter semester 5 credits
Combinatorial and sequential logic design techniques, algorithms, and tools review. Review of digital design target technologies (ASIC, FPGA). Algorithms for minimization of digital circuits. Advanced synthesis techniques (pipelining, retiming). Constraint conditions. High-level synthesis (scheduling, allocation, binding). High-level synthesis (loop synthesis). Digital design using CatapultC environment (basic statements in C/C++). Digital design using CatapultC environment (loops, memory access). Low power design methodologies.
Reconfigurable computing. Verification of digital circuits (OVM methodology).
Guarantor
Language of instruction
Completion
Time span
Department
Subject specific learning outcomes and competences
The students are able to design complex constrained digital systems using contemporary design techniques, high-level description language (C/C++) and professional CAD tools (CatapultC).
Learning objectives
To give the students the knowledge of advanced digital systems design including hardware description languages, professional CAD tools, techniques for constrained design, and PLD technology.
Prerequisite knowledge and skills
Digital system design, basic programming skills.
Study literature
- Khatri S. P., Gulati K. (eds.): Advanced Techniques in Logic Synthesis, Optimizations and Applications, ISBN 978-1-4419-7517-1, 2011
- Rabaey J., Pedram M.: Low Power Design Methodologies, Kluwer, ISBN 0792396308, 1996
Fundamental literature
- Micheli G., High-Level Synthesis from Algorithm to Digital Circuit, ISBN 978-1-4020-8587-1, 2008
Syllabus of seminars
- Combinatorial and sequential logic design techniques, algorithms, and tools review.
- Review of digital design target technologies (ASIC, FPGA).
- Algorithms for minimization of digital circuits.
- Advanced synthesis techniques (pipelining, retiming).
- Constraint conditions.
- High-level synthesis (scheduling, allocation, binding).
- High-level synthesis (loop synthesis).
- Digital design using CatapultC environment (basic statements in C/C++).
- Digital design using CatapultC environment (loops, memory access).
- Low power design methodologies.
- Reconfigurable computing.
- Verification of digital circuits (OVM methodology).
Syllabus of computer exercises:
- Synthesis of the basic logic circuits, pipelining, retiming.
- Constraint conditions.
- Basic techniques for digital design using CatapultC environment.
- Advanced techniques for digital design using CatapultC environment.
- Verification of digital circuits.
Syllabus - others, projects and individual work of students:
- Individual project focused on digital design using CatapultC environment.
Progress assessment
Study evaluation is based on marks obtained for specified items. Minimimum number of marks to pass is 50.
Requirements for class accreditation are not defined.
Controlled instruction
Written mid-term exam and project in due dates.
Course inclusion in study plans