Programmable Devices

Semestr: Summer

Range: 14+4s


Credits: 4

Programme type: Undefined

Study form: Parttime

Course language:


Programmable devices enable the use of custom devices even in small-scale production. Anything from simple decoder to complex processor can be realized in a simple laboratory. The course informs about device types, their construction principles, feasibility for particular application, and design methodologies using CAD software.


Course syllabus:

1. Makimoto's wave, digital design styles and their comarison
2. Technologies of programmable devices, programming circuitry
3. Devices with sum-of-products architecture (SPLD, CPLD, XPLA)
4. Design techniques for SPLD and CPLD
5. FPGA devices - an overview
6. FPGA architectures, the granularity problem
7. Programmable blocks in FPGA devices
8. Programmable interconnection in FPGA devices
9. Design techniques for FPGA devices
10. Application-specific FPGA devices, devices and design techniques for low-power operation
11. The interoperation and communication of an FPGA block with the rest of the chip - a quantitative analysis
12. Dynamically reconfigured systems
13. Codesign techniques and design for dynamically reconfigured systems
14. Typical applications

Seminar syllabus:

Seminars marked "assignment" consist of individual work at the lab, consulting the lecturer
1. Simple design and verification tools for CPLD/SPLD
2. Technology demonstration, 1st assignment given (design and verification)
3. 1st assignment
4. 1st assignment
5. Presentation of the 1st assignment
6. Physical design tools for FPGA, explanation and demonstration
7. Simple experiment with FPGA physical design
8. System level design tools, the target platform, 2nd assignment given (system level design)
9. 2nd assignment
10. 2nd assignment
11. 2nd assignment
12. 2nd assignment
13. Presentation of the 2nd assignment
14. Presentation of the 2nd assignment


1. Brown, S. D., Francis, R. j., Rose, J., Vranesic, Z. G.:
Field-Programmable Gate Arrays, Kluwer 1992
This book is outdated. I have heard that prof. Rose writes a newer one, due
in 2004