Abstract:

The course focuses on the basics of Embedded System Design and discusses the following topics: Introduction to firmware theory, mutuality between hardware and software, and their interaction, the structure of the DELFINO processor and its assembly language,

C code writing for this processor, code optimization and validation.

Abstract:

The course focuses on the complex digital hardware design methodology.

The main methodological tool of the course is VHDL language that taught

its advanced capabilities used to design large and complex systems under

the strict constraints, such as speed, area, power, etc. Hardware description languages,

in general and VHDL language in particular are central to modern digital design,

primarily because of the appearance of high-density programmable components.

Here are three main reasons that make the VHDL language so powerful:

A. Using behavioral description allows handling complex designs (until millions of gates)

in a relatively easy and makes the modular design and easy maintenance and modification.

B. The design is relatively rapidly, thereby reducing costs and risks.

C. This is the standard language and use of its capabilities allows, on one hand to

achieve design uniformity (by using Top-Down or Bottom-Up design approach),

Abstract:

The course focuses on the complex digital hardware design methodology.

The main methodological tool of the course is VHDL language that taughtits advanced capabilities used to design large and complex systems underthe strict constraints, such as speed, area, power, etc. Hardware description languages,in general and VHDL language in particular are central to modern digital design,primarily because of the appearance of high-density programmable components.

Here are three main reasons that make the VHDL language so powerful:

A. Using behavioral description allows handling complex designs (until millions of gates)in a relatively easy and makes the modular design and easy maintenance and modification.

B. The design is relatively rapidly, thereby reducing costs and risks.

Abstract:

In today's design methodology of high speed systems, a vast knowledge is required not only in digital, Analog or RF design concepts, but also in understanding the connection between different blocks in the design , the use of current available materials and the use of different simulation tools.

In high speed design of systems with frequencies around and above 1Ghz a design should not only be correct on paper and in concept, it should also be applicable.

Today the complete process of design from concept to a final working product could be simulated on conventional personal computers with dedicated software, and save money and time.

In this course we will use high speed layout systems.

A general knowledge of the basic concepts and the behavior of high frequency signals , will enable a deeper understanding of the PCB designers tasks to improve signal performance in the design of

multi layered PCB in high frequency systems.

Based on well-known standards for component definition,

Abstract:

The course focuses on the complex digital hardware design methodology.

The main methodological tool of the course is VHDL language that taught its advanced capabilities used to design large and complex systems under the strict constraints, such as speed, area, power, etc.

Hardware description languages, in general and VHDL language in particular are central to modern digital design, primarily because of the appearance of high-density programmable components. Here are three main reasons that make the VHDL language so powerful:

A. Using behavioral description allows handling complex designs (until millions of gates) in a relatively easy and makes the modular design and easy maintenance and modification.

B. The design is relatively rapidly, thereby reducing costs and risks.