Instructor-led live Computer Engineering training courses demonstrate through interactive discussion and hands-on practice the fundamentals of Computer Engineering. Experience the remote live training by way of interactive and remote desktop led by a human being!
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Raspberry Pi is a series of small single-board computers developed in the United Kingdom by the Raspberry Pi Foundation in association with Broadcom. The Raspberry Pi project originally leaned towards the promotion of teaching basic computer science in schools and in developing countries. The original model became more popular than anticipated, selling outside its target market for uses such as robotics. It is widely used in many areas, such as for weather monitoring, because of its low cost, modularity, and open design. It is typically used by computer and electronic hobbyists, due to its adoption of HDMI and USB devices.
When you turn on a computer its RAM is empty. In order for it to be able to do something at all it needs a program. By design a CPU of a IBM PC compatible always looks in the same place for this, namely a fixed address near the top of the 1 megabyte real-mode address space. Here it finds BIOS (Basic Input/Output System), the first program run in the computer. In the case of a cold start the first order of business is a full scale test, identification and initialization of all system components. All available RAM is tested and tallied up, interrupt and DMA controllers initialized as well as the rest of the chipset, video display card, keyboard, hard disk drive, optical disc drive and other basic hardware. BIOS then locates the boot loader software and gives it control of the PC.
Nanotechnology and nanoscience is about controlling and understanding matter on the sub-micrometer and atomic scale.
Why is nanotechnology such a 'hot' subject - and is it more hype than substance? This course gives a introduction to the visions of nanotechnology and why so many people are working on it around the world. This course on nanoscience and nanotechnology provides information about the various tools, methods and systems to provide students, researchers and everyone else an open-source handbook and overview guide to this vast interdisciplinary and expanding field - a course that can be adjusted as new things appear and improved by you!
This course discusses logic as a tool for computer science; a field that uses logic at all levels. It provides a survey of mathematical logic and its various applications. Some areas where it is particularly important include:
After covering basic material of propositional logic and first-order logic, the course presents the foundations of finite model theory and descriptive complexity.
A computer is a machine that can be instructed to carry out sequences of arithmetic or logical operations automatically via computer programming. Modern computers have the ability to follow generalized sets of operations, called programs. These programs enable computers to perform an extremely wide range of tasks. A "complete" computer including the hardware, the operating system (main software), and peripheral equipment required and used for "full" operation can be referred to as a computer system. This term may as well be used for a group of computers that are connected and work together, in particular a computer network or computer cluster.
Building a computer can be a very rewarding experience. Since you’re reading this, you’re probably thinking about building your next computer instead of buying one pre-built. This is a very viable option these days and can bring many benefits; you can learn a lot about computer hardware by building one, you get a totally personalized computer, you can choose better components and you may be able to save some money and have fun. Additionally, if you are the sort of person who wants to understand how things work, if you take broken stuff apart just to see how it all fits together, if you have a drawer somewhere full of “parts” you think may come in handy someday, then you just may be in the right place. Please look at the talk page before editing This course. The editors of This course have come up with guidelines to follow when editing This course, and a list of things that have to get done. New sections and content first go into Development.
This is a course about Computer Systems Engineering. A frequent occurrence in the design of computer systems is the challenge of building a system containing hardware and software components, possibly as part of a larger system. The development of computer systems themselves falls within this scope as does the development of a vast array of devices such as digital cameras, hand-held computers, location aware systems, robots and other types of embedded systems, and even such applications as web sites on spacecraft. In all of these cases decisions have to be made about how to design the system to have the maximum impact and effect. Decisions have to be made about alternative approaches, trade-offs need to be addressed, and decisions on all the many facets of design must be justified through technical and economic insight and judgment. Systems engineering is the discipline within which these matters are addressed in a carefully considered fashion. The IEEE Computer Society (IEEE-CS) and the Association for Computing Machinery (ACM), the two principle computer related professional associations, include a computer systems engineering requirement in their model computer engineering body of knowledge described in Computer Curriculum 2001. This course addresses that requirement; the Table of Contents closely follows the coverage of material in the computer systems engineering body of knowledge. It is intended primarily as a course for students in computer science and computer engineering, but it may also serve as a useful reference for professionals as they design and build computer based systems. The text assumes that students have a background including integral and differential calculus, basic probability, and are familiar with basic computer architecture. A third-year student in computer science or computer engineering would typically have this background and This course would be appropriate for a computer systems engineering course at that level.
Robots are devices that can sense their environment, reason about the acquired information, and act on their environment. This course is a multidisciplinary hardware project design experience in which small teams of electrical and computer engineering, mechanical engineering, and computer science students deliver an end-of-course demonstration of a final robotic system. Throughout the semester, the students configure, design, implement, test and evaluate in the laboratory a succession of mechatronic devices and subsystems culminating in the final integrated system. Lectures during the first half of the quarter will complement the laboratory experience with comparative surveys, operational principles, integrated design issues, and brainstorming associated with the spectrum of mechanism, electronics, and control components. Lecture coverage includes information needed to complete the main project: mechanisms, motors, motor drives, sensors, interface circuits, microcontroller programming, and control.
MPlayer is a multi-platform media player. It handles many file formats, and can play CDs, VCDs and DVDs. MPlayer also includes Mencoder which is a powerful video conversion program. Both MPlayer and Mencoder can be used from the command line (shell). MPlayer has one official graphical interface (GMplayer), however there are several third party graphic interfaces that allow access to some of Mencoder's functionality. There are three components to MPlayer: MPlayer itself, GMplayer (the graphical interface), and Mencoder (the video conversion utility). You may need to install each individually if they are not packaged together. Something else that you may find necessary are external codecs for video file formats not natively supported by MPlayer. MPlayer packages can be obtained through your linux distributions software manager (RPM DEB etc) or from the MPlayer website http://www.mplayerhq.hu/ which also contains versions for other operating systems (Windows, Apple, Amiga) as well as extra codecs you may require. Functionality of MPlayer in Windows is very similar to Linux.
iRule is an app that may be used to control a variety of home electronics including amplifiers, preamps and processors, TV, projectors, satellite dishes and cable boxes, and just about any other device that can be controlled with either infrared (IR), RS 232, or Ethernet networks. The app itself is free of charge and may be downloaded from the Apple App Store and is compatible with both the iPhone and the iPad.
This course will discuss the topic of Control Systems, which is an interdisciplinary engineering topic. Methods considered here will consist of both "Classical" control methods, and "Modern" control methods. Also, discretely sampled systems (digital/computer systems) will be considered in parallel with the more common analog methods. This course will not focus on any single engineering discipline (electrical, mechanical, chemical, etc.), although readers should have a solid foundation in the fundamentals of at least one discipline. This course will require prior knowledge of linear algebra, integral and differential calculus, and at least some exposure to ordinary differential equations. In addition, a prior knowledge of integral transforms, specifically the Laplace and Z transforms will be very beneficial. Also, prior knowledge of the Fourier Transform will shed more light on certain subjects. Wikibooks with information on calculus topics or transformation topics required for This course will be listed below:
This program provides the skills you need to advance your career in data engineering and recommends training to support your preparation for the industry-recognized Google Cloud Professional Data Engineer certification. Through a combination of presentations, demos, and labs, you will enable data-driven decision making by collecting, transforming, and publishing data; and you'll gain real world experience through a number of hands-on Qwiklabs projects. You'll also have the opportunity to practice key job skills, including designing, building, and running data processing systems; and operationalizing machine-learning models. Upon successful completion of this program, you will earn a certificate of completion to share with your professional network and potential employers. If you would like to become Google Cloud certified and demonstrate your proficiency to design and build data processing systems and operationalize machine learning models on Google Cloud Platform, you will need to register for, and pass the official Google Cloud certification exam. You can find more details on how to register and additional resources to support your preparation at cloud.google.com/certifications.
This Professional Certificate incorporates hands-on labs using our Qwiklabs platform. These hands on components will let you apply the skills you learn in the video lectures. Projects will incorporate topics such as Google BigQuery, which are used and configured within Qwiklabs. You can expect to gain practical hands-on experience with the concepts explained throughout the modules.
The HA SwitchPlate is a user-programmable LCD touchscreen you can mount into a standard North American work box in place of a light switch. It connects to your home automation system over WiFi to send and receive MQTT messages in response to user interactions on the screen or events happening in your home. The result is an attractive and highly-customizable controller for your home automation system which you can build yourself! The HA SwitchPlate ("HASP") utilizes a Nextion 2.4" LCD Touchscreen display mounted in a 3D-printed enclosure as a touchscreen panel for home control and information display. An ESP8266-based microcontroller provides WiFi connectivity and system control. The project has been developed to integrate with Home Assistant and OpenHAB but should be compatible with any other MQTT-enabled automation platform such as Domoticz, Node-Red, Wink, SmartThings, Vera, HomeKit, etc. The Arduino code for the ESP8266 provides a generic gateway between MQTT and the Nextion instruction set. A basic Nextion HMI display file has been included with several pages of various layouts to provide user controls or to present information in response to MQTT messages sent to the device.
In the field of Computer Engineering learning from a live instructor-led and hand-on training courses would make a big difference as compared with watching a video learning materials. Participants must maintain focus and interact with the trainer for questions and concerns. In Qwikcourse, trainers and participants uses DaDesktop , a cloud desktop environment designed for instructors and students who wish to carry out interactive, hands-on training from distant physical locations.
For now, there are tremendous work opportunities for various IT fields. Most of the courses in Computer Engineering is a great source of IT learning with hands-on training and experience which could be a great contribution to your portfolio.
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