This book is about the digital logic design of microprocessors. It is intended to provide both an understanding of
the basic principles of digital logic design, and how these fundamental principles are applied in the building of
complex microprocessor circuits using current technologies. Although the basic principles of digital logic design
have not changed, the design process, and the implementation of the circuits have changed.
During the early years of microprocessors, there were few engineers with
education and experience in the applications of microprocessor technology.
Now that microprocessors and microcontrollers have become pervasive in so
many devices, the ability to use them has become almost a requirement for
many technical people.
Modern electronic systems are increasingly digital: digital microprocessors,
digital logic, digital interfaces. Digital logic is easier to design and understand,
and it is much more ﬂexible than the equivalent analog circuitry would be.
As an example, imagine trying to implement any kind of sophisticated micro-
processor with analog parts. Digital electronics lets the PC on your desk
execute different programs at different times, perform complex calculations,
and communicate via the World Wide Web....
During the early years of microprocessor technology, there were few engineers with education and experience in the application of microprocessor technology.Now that microprocessors and microcontrollers have become pervasive in many types of equipment, it has become almost a requirement that many technical people have the ability to use them. Today the microprocessor and the microcontroller have become two of the most powerful tools available to the scientist and
A Circuits and Systems perspective presents broad and in-depth coverage of the entire field of modern CMOS VLSI Design. The authors draw upon extensive industry and classroom experience to introduce today’s most advanced and effective chip design practices. They present extensively updated coverage of every key element of VLSI design, and illuminate the latest design challenges with 65 nm process examples. This book contains unsurpassed circuit-level coverage, as well as a rich set of problems and worked examples that provide deep practical insight to readers at all levels....
Tham khảo bài thuyết trình 'design and implementation of vlsi systems_lecture 04: mos transistor theory', kỹ thuật - công nghệ, cơ khí - chế tạo máy phục vụ nhu cầu học tập, nghiên cứu và làm việc hiệu quả
Tham khảo bài thuyết trình 'design and implementation of vlsi systems_lecture 06: circuit characterization and performance estimation', kỹ thuật - công nghệ, cơ khí - chế tạo máy phục vụ nhu cầu học tập, nghiên cứu và làm việc hiệu quả
Being a computer science or electrical engineering student, you have probably assembled a PC. You have gone
out to purchase the motherboard, CPU, memory, disk drive, video card, sound card and other necessary parts. You
have assembled them together, and have made yourself a state-of-the-art working computer. But have you ever
wonder how the circuits inside those IC (integrated circuit) chips are designed? You know how the PC works at the
system level by installing the operating system and seeing your machine comes to life.
Modern embedded systems come with contradictory design constraints. On one hand, these systems often target mass production and battery-based devices, and therefore should be cheap and power efficient. On the other hand, they still need to show high (sometimes real-time) performance, and often support multiple applications and standards which requires high programmability.
Tham khảo bài thuyết trình 'design and implementation of vlsi systems_lecture 05: circuit characterzation performace estimation', kỹ thuật - công nghệ, cơ khí - chế tạo máy phục vụ nhu cầu học tập, nghiên cứu và làm việc hiệu quả
Tham khảo bài thuyết trình 'design and implementation of vlsi systems_lecture 07: sequential circuit sign', kỹ thuật - công nghệ, cơ khí - chế tạo máy phục vụ nhu cầu học tập, nghiên cứu và làm việc hiệu quả
The concept of data or information processing arises in a variety of fields. Understanding the principles
behind this concept is fundamental to computer design, communications, manufacturing process control,
biomedical engineering, and an increasingly large number of other areas of technology and science. It is
impossible to imagine modern life without computers for generating, analyzing, and retrieving large
amounts of information, as well as communicating information to end users regardless of their location....
We found that students entering our senior design course who had the expectation of something “real” being built were unprepared for doing prototyping activities or for incorporating a microcontroller component into their designs. We did offer a course in microcontrollers, but it was an elective senior-level course and many students had not taken that course previous to senior design. In spring 2002, the Computer Engineering Steering committee reexamined our goals for the first course in microprocessors and the approach for this book was developed.
Compression of executable code in embedded microprocessor systems, used in the past mainly to reduce the memory footprint of embedded software, is gaining interest for the potential reduction in memory bus traffic and power consumption. We propose three new schemes for code compression, based on the concepts of static (using the static representation of the executable) and dynamic (using program execution traces) entropy and compare them with a state-of-the-art compression scheme, IBM’s CodePack.
(BQ) The best-selling computer organization book is thoroughly updated to provide a new focus on the revolutionary change taking place in industry today: the switch from uniprocessor to multicore microprocessors. The book updates all processor performance examples using the SPEC CPU2006 suite.
Microcontroller is a computer that is integrated on a chip, it is often used to control electronic devices. Microcontroller, in essence, is a system including a processor with enough performance and low cost (other than multi-purpose microprocessors used in computers) combined with peripheral blocks as the remember, the modular input / output, the module to change the analog and analog to digital, ... In the computer modules are usually built by the chips and circuits.