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Course Overview

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Logistics

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References

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Schedule

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Project

 

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Webct

 

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Introduction to Embedded Computing
CSE 237a

 

Tajana Simunic Rosing, Instructor

    * please put CSE237a in the email subject line *

 

Lectures: TTh 9:30-10:50pm in EBU3B 2154
Office hrs: T/Th 12:30-1:30pm, CSE 2118

 

TA: Nima Nikzad

Email: nnikzad@ucsd.edu

Office hrs: M 1:00-2:30PM, W 3:00-4:00PM, CSE 3219 lab

 

Admin:Sheila Manalo
Email: shmanalo@cs.ucsd.edu

Office:CSE 2272

Phone:(858) 534-8873

 

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Course Overview and Goals:

Increasing integration of communications, multimedia and processing and relentless digitization of data (including even RF data) continues to expand the scope and complexity of embedded systems. To appreciate these advances, and to productively contribute to future advances of these systems, a critical appreciation of the underlying technology underpinning is a must. The goal of this course is to develop a comprehensive understanding of the technologies behind the embedded systems, particularly, those using computing elements (processor, DSP, or ASSPs). The students develop an appreciation of the technology capabilities and limitations of the hardware, software components for building embedded systems, and methods to evaluate design tradeoffs between different technology choices

 

Course Rationale and Relationship to CSE/CE Curriculum:

Continuing advances in system software and hardware components now present exciting opportunities in building embedded systems for applications ranging from embedded control, multimedia, networking and information and biomedical appliances. Building these systems, particularly for highly integrated micro-electronic technologies and mobile applications, presents a challenge at every of level abstraction from gate-level designs to complex runtime systems. Even with a detailed technical knowledge in a specific technology area that make up an embedded system, a good system design would require understanding of the design tradeoffs across choice in technologies that make up the system. This course fills this gap by presenting basic characteristics and usage model of the technologies that make up an embedded system and describing their relations

You can take this course to satisfy requirements for the depth sequence in Embedded Systems and Software (ESS). Other courses in this sequence:

  • CSE 237B: Software for Embedded Systems
  • CSE 237C: Validation and Prototyping of Embedded Systems
  • ECE 264 Wireless embedded and networked systems

 

Prerequisites:

The course does not have any official graduate course as a prerequisite. However, it assumes basic understanding of digital hardware (electrical components, storage elements), computer architecture (memory, cpu/processor, ISA, computer organization), programming (C/C++ preferred), algorithms (e.g. common graph algorithms).
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