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CEC Semenster Undefined

ARM Cortex-M0

Paul Nickelsberg -
2012
Bit Difference, an Overview
This discussion shows by example the advantages of the CORTEX-M0 architecture over older 8- or 16-bit small computer embedded architectures. Performance and code style advantages will be discussed. On-chip peripheral features of older devices will be contrasted with those of toDay's modern devices. Our objective is to provide a well rounded understanding of the new 32-bit CORTEX-M0 landscape.
Course Resources
Special Educational Materials
Listen/Download Archive (mp3)
2012
M0 Structure, Discussion 1
This discussion is the first of three views into the details of the CORTEX-M0 processor features. Presented from the point of view of an embedded system designer, this discussion will address four different aspects of the CORTEX-M0 processor. They include the instruction set, the memory map, the register set, and the execution modes.
Course Resources
Special Educational Materials
Listen/Download Archive (mp3)
2012
CORTEX-M0 Structure, Discussion 2
This discussion is the second of three views into the details of the CORTEX-M0 processor features. Presented from the point of view of an embedded system designer, this discussion will address the following features of the CORTEX-M0 processor: the SYSTICK core peripheral, the NVIC core peripheral, the SCB core peripheral, and the MPC core peripheral.
Course Resources
Special Educational Materials
Listen/Download Archive (mp3)
2012
CORTEX-M0 Structure, Discussion 3
This discussion is the third of three views into the details of the CORTEX-M0 processor features. Presented from the point of view of an embedded system designer, this discussion will address four of the key features of the CORTEX-M0 processor, which provide the competitive advantage the M0 is famous for. Those areas are power management, exception handling, stack structures, and SVC/WFE/WFI instructions.
Course Resources
Special Educational Materials
Listen/Download Archive (mp3)
2012
CORTEX-M0 in Commercial Components, Summer 2012
This discussion presents an overview of commercial CORTEX-M0 components. We present component families from Freescale, Nuvoton, NXP, and ST Microelectronics. This discussion provides insight into toDay's available product. Our objective is to provide information about toDay's commercial devices and how a designer might select a particular part.
Course Resources
Special Educational Materials
Listen/Download Archive (mp3)
Instructor
Paul Nickelsberg