This course received a major update in Feb 2018 based on the feedback provided. Welcome to this course on Hands-on Embedded Systems with Atmel SAM4s ARM Processor. At the end of this course you will be comfortable with the ARMprocessor core, processor model, exception model, reset sequence, general and special registers, and also a master in the ADCperipheral. This course has been made from the ground-up to help you transition from the world of Arduino into the world of 32 bit Atmel SAM4s ARMmicrocontrollers. Who am I?Im Akshay, and Ill be your instructor for this course. I have been fascinated with micro controllers since I was a child, and now I consider it lucky to have it as my profession. I currently write firmware for safety critical systems that go inside electric cars. With my knowledge of embedded systems over the past 10+ years, and working in Silicon Valley, I have gained a unique insight into what the industry needs and what the students are lacking. Course StructureThis course has 8 sections. Section 1will help you understand the differences between Arduino and 32 bit ARMCortex. You will also understand the Cortex-Minstruction set. Section 2 is dedicated to the setup of the development environment and hardware. This section also contains reference documents that you will be using for the rest of the course. Section 3 is about the processor fundamentals. At the end of this section you will be comfortable with the inner workings of the processor, the general and special registers that do all the magic inside the processor. You will learn how to interpret the assembly instructions and how they work inside the processor. Section 4 is about the peripherals. You will learn the theory behind the ADC(Analog to DigitalConverter)peripheral. Section 5 is the first project of this course where you will sample an analog voltage using ASFlibraries in Atmel studio and understand how the peripheral and processor work together to convert this into a digital code. Section 6 is the second project in this course where you will understand how an analog voltage is sampled and implement it by directly writing to the registers. (No library use here)Section 7 is the third project in this course where you will understand how to sample real time temperature and how the processor interprets the value in degrees Cof F. You will implement it using ASFcode. Section 8 is a homework project in which you will implement temperature sensing using direct register access. Solutions are provided for reference. This course content was generated from scratch in a way to get the point across to you, in the most efficient, exciting and engaging way! Is this course for me?If you are an embedded systems enthusiast, professional or student who is struggling to start programming on the ARM Cortex-M platform, this course if for you. If you have worked with Arduino before, and have basic working knowledge of embedded systems, this course is for you. If you have already been working with ARM Cortex microcontrollers and want to gain a deeper understanding of the processors fundamentals as well as the ADCperipheral, then this course is for you! Can I use another development board?Iuse the Atmel SAM4sXplained Pro development board in this course which houses a ARMCortex-M4 processor. You may choose any other microcontroller of your choice that works with Atmel Studio. If you need help selecting a board, let me know and Ican help you out. My personalguaranteeI am proud to say that I stand behind this course 100%, and guarantee you that you will get valuable informationfrom thiscourse. There is also a 30 day money back guarantee from Udemy. With this, you can feel confident about your purchase and know that it is a valuable find.