Windows 8 Transformation Pack 6.5 download





Windows 8 Transformation Pack will convert your XP, Vista or Windows 7 based system to look like Windows 8 and some of its features emulated. You don’t have to purchase Windows 8 or any 3rd-party applications to get Windows 8 UI experiences. This will update your Windows system with Windows 8 GUI by adding some themes and replacing system files.
Bring to your desktop the fresh and cool look of Microsoft’s Windows 8 operating system, including Windows 8 Boot Screen, Login Screen, Themes, Wallpapers, Icons, Sounds, Metro UI (Newgen), Aero’s Auto-Colorization, Taskbar UserTile and more. Windows 8 TP comes with self Metro configurator UI that can make everything done in one step. The program also has been configured to set user tile image matching to current user picture and optimize default tiles in Metro desktop for 1024×768 resolution. These features require .NET Framework 4.0 to be installed so if you’re using Windows XP, make sure you have it installed first.
Features:
  • Seamless installation and uninstallation giving users safe transformation
  • Easily configurable in single click with intelligence Metro UI design
  • Designed for all editions of Windows XP/Vista/7 including Server Editions
  • Genuine Windows 8 system resources with Metro touches
  • Smart system files updating with auto-repair and Windows Update friendly
  • Fresh start for Vista/Seven Transformation Pack users with updated Windows 8 themes and resources
  • UxStyle memory patching
  • Windows 8 themes, wallpaper and logon screen
  • UserTile with current user auto-configured on login
  • Metro UI desktop emulation with pre-configured gadgets
  • Aero’s auto-colorization feature
  • And much more
What's New:
  • Added ‘Transformation Pack Notes’ in readme about temporary disabling antivirus software
  • Changed default Immersive UI back to Charms Bar
  • Fixed default user account configuration not checking requirements causing improper configuration
  • Fixed font installation using method from version 5.0 with improved API code
  • Fixed launcher incompatibilities with limited user account
  • Fixed permission problems with 3rd-party applications
  • Fixed Windows version checking error that allows installation on Windows 8
  • Removed Aero Frame UI from default configuration as some machines find it not stable enough
  • Updated Metro Inspirat theme for Windows XP having Modern UI updated on taskbar and start menu


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Basic Logic Gates



Basic Logic Gates with Truth Table


A logic gate is an idealized or physical device implementing a Boolean function, that is, it performs a logical operation on one or more logic inputs and produces a single logic output. Depending on the context, the term may refer to an ideal logic gate, one that has for instance zero rise time and unlimited fan-out, or it may refer to a non-ideal physical device.

Logic gates are primarily implemented using diodes or transistors acting as electronic switches, but can also be constructed using electromagnetic relays (relay logic), fluidic logic, pneumatic logic, optics, molecules, or even mechanical elements. With amplification, logic gates can be cascaded in the same way that Boolean functions can be composed, allowing the construction of a physical model of all of Boolean logic, and therefore, all of the algorithms and mathematics that can be described with Boolean logic.

Logic circuits include such devices as multiplexers, registers, arithmetic logic units (ALUs), and computer memory, all the way up through complete microprocessors, which may contain more than 100 million gates. In practice, the gates are made from field-effect transistors (FETs), particularly MOSFETs (metal–oxide–semiconductor field-effect transistors).

Compound logic gates AND-OR-Invert (AOI) and OR-AND-Invert (OAI) are often employed in circuit design because their construction using MOSFETs is simpler and more efficient than the sum of the individual gates.

Download and Print Logic Gates Pin Config and Truth Table:

Basic Logic Gates | 348.0 Kb

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Basic Electronics Symbol and Description





An electronic symbol is a pictogram used to represent various electrical and electronic devices (such as wires,batteries, resistors, and transistors) in a schematic diagramof an electrical or electronic circuit. These symbols can (because of remaining traditions) vary from country to country, but are today to a large extent internationally standardized. Some symbols represent components which ceased to be used routinely as newer technologies were introduced (such as vacuum tubes).

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 Basic Electronics Components | 155.0 Kb  | View File


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The Five Generations of Computers




The history of computer development is often referred to in reference to the different generations of computing devices. Each generation of computer is characterized by a major technological development that fundamentally changed the way computers operate, resulting in increasingly smaller, cheaper, more powerful and more efficient and reliable devices. Read about each generation and the developments that led to the current devices that we use today.

First Generation (1940-1956) Vacuum Tubes

The first computers used vacuum tubes for circuitry and magnetic drums for memory, and were often enormous, taking up entire rooms. They were very expensive to operate and in addition to using a great deal of electricity, generated a lot of heat, which was often the cause of malfunctions.

First generation computers relied on machine language, the lowest-level programming language understood by computers, to perform operations, and they could only solve one problem at a time. Input was based on punched cards and paper tape, and output was displayed on printouts.

The UNIVAC and ENIAC computers are examples of first-generation computing devices. The UNIVAC was the first commercial computer delivered to a business client, the U.S. Census Bureau in 1951.


The first computers used vacuum tubes for circuitry and magnetic drums for memory, and were often enormous, taking up entire rooms. They were very expensive to operate and in addition to using a great deal of electricity, generated a lot of heat, which was often the cause of malfunctions.


First generation computers relied on machine language, the lowest-level programming language understood by computers, to perform operations, and they could only solve one problem at a time. Input was based on punched cards and paper tape, and output was displayed on printouts.


The UNIVAC and ENIAC computers are examples of first-generation computing devices. The UNIVAC was the first commercial computer delivered to a business client, the U.S. Census Bureau in 1951.

Second Generation (1956-1963) Transistors

Transistors replaced vacuum tubes and ushered in the second generation of computers. The transistor was invented in 1947 but did not see widespread use in computers until the late 1950s. The transistor was far superior to the vacuum tube, allowing computers to become smaller, faster, cheaper, more energy-efficient and more reliable than their first-generation predecessors. Though the transistor still generated a great deal of heat that subjected the computer to damage, it was a vast improvement over the vacuum tube. Second-generation computers still relied on punched cards for input and printouts for output.

Second-generation computers moved from cryptic binary machine language to symbolic, or assembly, languages, which allowed programmers to specify instructions in words. High-level programming languages were also being developed at this time, such as early versions of COBOL and FORTRAN. These were also the first computers that stored their instructions in their memory, which moved from a magnetic drum to magnetic core technology.

The first computers of this generation were developed for the atomic energy industry.


Transistors replaced vacuum tubes and ushered in the second generation of computers. The transistor was invented in 1947 but did not see widespread use in computers until the late 1950s. The transistor was far superior to the vacuum tube, allowing computers to become smaller, faster, cheaper, more energy-efficient and more reliable than their first-generation predecessors. Though the transistor still generated a great deal of heat that subjected the computer to damage, it was a vast improvement over the vacuum tube. Second-generation computers still relied on punched cards for input and printouts for output.


Second-generation computers moved from cryptic binary machine language to symbolic, or assembly, languages, which allowed programmers to specify instructions in words. High-level programming languages were also being developed at this time, such as early versions of COBOL and FORTRAN. These were also the first computers that stored their instructions in their memory, which moved from a magnetic drum to magnetic core technology.


The first computers of this generation were developed for the atomic energy industry.

Third Generation (1964-1971) Integrated Circuits

The development of the integrated circuit was the hallmark of the third generation of computers. Transistors were miniaturized and placed on silicon chips, called semiconductors, which drastically increased the speed and efficiency of computers.

Instead of punched cards and printouts, users interacted with third generation computers through keyboards and monitor sand interfaced with an operating system, which allowed the device to run many different applications at one time with a central program that monitored the memory. Computers for the first time became accessible to a mass audience because they were smaller and cheaper than their predecessors.


The development of the integrated circuit was the hallmark of the third generation of computers. Transistors were miniaturized and placed on silicon chips, called semiconductors, which drastically increased the speed and efficiency of computers.


Instead of punched cards and printouts, users interacted with third generation computers through keyboards and monitors and interfaced with an operating system, which allowed the device to run many different applications at one time with a central program that monitored the memory. Computers for the first time became accessible to a mass audience because they were smaller and cheaper than their predecessors.


Fourth Generation (1971-Present) Microprocessors

The microprocessor brought the fourth generation of computers, as thousands of integrated circuits were built onto a single silicon chip. What in the first generation filled an entire room could now fit in the palm of the hand. The Intel 4004 chip, developed in 1971, located all the components of the computer—from the central processing unit and memory to input/output controls—on a single chip.

In 1981 IBM introduced its first computer for the home user, and in 1984 Apple introduced the Macintosh. Microprocessors also moved out of the realm of desktop computers and into many areas of life as more and more everyday products began to use microprocessors.

As these small computers became more powerful, they could be linked together to form networks, which eventually led to the development of the Internet. Fourth generation computers also saw the development of GUIs, the mouse and handheld devices.


The microprocessor brought the fourth generation of computers, as thousands of integrated circuits were built onto a single silicon chip. What in the first generation filled an entire room could now fit in the palm of the hand. The Intel 4004 chip, developed in 1971, located all the components of the computer—from the central processing unit and memory to input/output controls—on a single chip.


In 1981 IBM introduced its first computer for the home user, and in 1984 Apple introduced the Macintosh. Microprocessors also moved out of the realm of desktop computers and into many areas of life as more and more everyday products began to use microprocessors.


As these small computers became more powerful, they could be linked together to form networks, which eventually led to the development of the Internet. Fourth generation computers also saw the development of GUIs, the mouse and handheld devices.

Fifth Generation (Present and Beyond) Artificial Intelligence

Fifth generation computing devices, based on artificial intelligence, are still in development, though there are some applications, such as voice recognition, that are being used today. The use of parallel processing and superconductors is helping to make artificial intelligence a reality. Quantum computation and molecular and nanotechnology will radically change the face of computers in years to come. The goal of fifth-generation computing is to develop devices that respond to natural language input and are capable of learning and self-organization.


Fifth generation computing devices, based on artificial intelligence, are still in development, though there are some applications, such as voice recognition, that are being used today. The use of parallel processing and superconductors is helping to make artificial intelligence a reality. Quantum computation and molecular and nanotechnology will radically change the face of computers in years to come. The goal of fifth-generation computing is to develop devices that respond to natural language input and are capable of learning and self-organization.


Artificial intelligence (AI) is the intelligence of machines and the branch of computer science that aims to create it. AI textbooks define the field as “the study and design of intelligent agents” where an intelligent agent is a system that perceives its environment and takes actions that maximize its chances of success. John McCarthy, who coined the term in 1956, defines it as “the science and engineering of making intelligent machines.”


The field was founded on the claim that a central property of humans, intelligence—the sapience of Homo sapiens—can be so precisely described that it can be simulated by a machine. This raises philosophical issues about the nature of the mind and the ethics of creating artificial beings, issues which have been addressed by myth, fiction and philosophy since antiquity. Artificial intelligence has been the subject of optimism, but has also suffered setbacks and, today, has become an essential part of the technology industry, providing the heavy lifting for many of the most difficult problems in computer science.



AI research is highly technical and specialized, deeply divided into subfields that often fail to communicate with each other. Subfields have grown up around particular institutions, the work of individual researchers, the solution of specific problems, longstanding differences of opinion about how AI should be done and the application of widely differing tools. The central problems of AI include such traits as reasoning, knowledge, planning, learning, communication, perception and the ability to move and manipulate objects. General intelligence (or “strong AI”) is still among the field’s long term goals.

DID YOU KNOW...?

An integrated circuit (IC) is a small electronic device made out of a semiconductor material. The first integrated circuit was developed in the 1950s by Jack Kilby of Texas Instruments and Robert Noyce of Fairchild Semiconductor.

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What is Computer?

COMPUTERS

make our life EASIER and more ENJOYABLE!




Computer offer a wide range of functions.We use it for word processing.Internet and communications, digital video and audio composition, and desktop publishing among others.
The computer word processing capabilities are awesome. It automatically corrects your spelling and grammar. When revising, its cut and paste feature is simple to execute,and very helpful.
With desktop publishing, you can create page layouts for an entire book on your home computer.
The Internet is considered one of the greatest inventions. The internet is a massive connection of computers, all around the globe.
Audio and Video editing and composition have been made much easier by computers.Now, emerging musicians have the ability to compose their own songs and publish them. Amateur filmmakers can produce work from their own homes. Graphics engineers can use computers to create three-dimensional models, or even to generate short or full-length films.
With the aid of computers, humankind is entering a new era enlightenment.
Computers have made life easier, but not all of its effects are beneficial.


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MozTour @ Eulogio "Amang" Rodriguez Institute of Science and Technology


Eulogio "AMANG" Rodriguez Institute of Science and Technology,Main Campus


Nagtahan, Sampaloc, Manila, Philippines


March 09, 2013


The Eulogio “Amang” Rodriguez Institute of Science and Technology will have a MozTour this coming 09th day of March 2013 in EARIST Amphi-Theater (1pm – 5pm). To promote the Mozilla Projects and its mission and also to inspire my fellow EARISTians to support free and open source software.
This event is organized by our Mozilla Student Reps from EARIST and also called as Volunteer Student Assistant (VSA) Rhaymand Tatlonghari and Raymark Palaña with cooperation of our Organization President – Association of Computer Engineering Students (ACES) Joanne Arcilla.


TOPICS:

-Introduction to Mozilla
-Localization
-FirefoxOS
-Student Reps
-ReMo
-Firefox Flicks
-Firefox Add-Ons for Improved Browsing



Click Here to GET your Free Ticket. ------> Eventbrite - MozTour @ Eulogio "Amang" Rodriguez Institute of Science and Technology

Thank you All. God Bless Us.

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MikroBasic Pro for PIC

INTRODUCING NEW VERSION 5.8.0

New microcontrollers

New PIC microcontrollers are supported from this release. Most of them are from enhanced mid-range PIC16 family.

New Libraries

TFT library now supports HX8347G, ILI9340 and ILI9481 controllers. We provided source code of low level TFT functions.

IDE improvements

We added shortcut for Package Examples, Code Assistant for pointer to structures, value hint for pointers, etc.

Live Update service

Waiting is over. With newly integrated Live Update tool you can receive new features and improvements instantly!


 mikroBasic PRO for PIC compiler
          Your PIC best friend


mikroBasic PRO for PIC is a full-featured Basic compiler which makes Microchip® PIC development suitable for everyone. Popular basic programing language is the best choice for beginners because of the simple syntax and clear code. Comfortable IDE with a comprehensive help file, and a free lifetime technical support mean a lot when you are making your first steps into world of PIC microcontrollers. Not to mention over 500 ready-to-use library functions and examples that will help you in your development.
 compiler does all the work for you
         Beginners are experts

Compiler is designed to be smart and efficient, so you can rely on it to do the hard work. It features four levels of optimizations that can reduce your code size up to 20%.





 comfortable and intuitive IDE
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User is our main concern. Having the user as the center of attention, we developed the best IDE: intuitive, fast and rich in features. You’ll feel very comfortable while working.

 lots and lots of libraries
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What’s the point of compiler if you have to write libraries from scratch? With our compilers, you’ll have over 500 library functions, and a head start in development.


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