Počet kreditů 6
Vyučováno v Winter
Rozsah výuky 2P+2L
Garant předmětu
Přednášející Jan Fischer, Vojtěch Petrucha
Cvičící Jan Fischer, David Novotný, Vojtěch Petrucha

The course deals with design of embedded systems using ARM based microcontrollers.

B4B35APO Architektura počítačů

To teach principles od embedded systems design.

1. Introduction to embedded systems, motivation of their design, examples. ES properties and design phases. Microprocessor basics (how a CPU works, RISCxCISC, pipelining, etc.). Microprocessor x microcontroller x SOC (System-On-Chip).
2. Description of the ARM core and its philosophy. Example of a ARM-based microcontroller. Basic hardware peripherals and their usage (TPU, UART, PWM, CAN, watchdog?). JTAG interface.
3. ARM assembler basics. Main differences between C and Java languages from programmer's point of view. Phases of C program compilation. Introduction to C. Basic structure of a C program.
4. Pointers and their correspondence with assembler code. Arrays and strings. Scope of a variable. Functions, function calls, function parameters. Code decomposition, makefile.
5. ARM exceptions and interrupts handling in the C language, writing an interrupt handler, Atmel Advanced Interrupt Controller (AIC). Volatile-type variables, program safety.
6. Advanced C programming techniques. Inline code. C code portability. Real-time operations. Electrical and mechanical requirements on embedded systems. Reliability, safety and testing of embedded systems.

1. Introduction, how to use IDE Keil
2. LED blinking,
3. Project_2 Schodišťový automat.
4. Project_3 7- segment LED
5. Project 4 Control unit with LCD and RS232.
6. Project 5 (from 9. week.) DAQ system

Kelley A., Pohl I.: A Book on C,

[3] ARM: Cortex-M3 Devices, Generic User Guide, ARM DUI 0552A
http://infocenter.arm.com/help/topic/com.arm.doc.dui0552a/DUI0552A_cortex_m3_dgug.pdf

Rozvrh předmětu
Po
Út
St
Čt
PřednáškyCvičení