Computer Science Guide
Table of Contents forward notes about text code computer hardware operating systems networks databases graphics troubleshooting
Detailed Table of Contents forward notes about text formatting composition reading guide sources code overview design concepts conditionals loops classes style c++ python computer hardware overview cpu ram hard drives displays motherboards ports peripherals operating systems overview networks overview topography security protocols performance databases overview design security queries & SQL graphics overview troubleshooting overview desktops laptops displays tablets phones ?
Contents
forward
This is a compilation of online resources.
- resources may be cut and edited to better fit the philosophy of this text
This text is intended to:
- be simple
- help those that desire it
- expose concepts without complexity
- be accessible by print and web
- provide links to all sourced information
- be editable by those without malicious intent
It is not expected that you read this text sequentially or entirely.
- use this text in whatever way benefits you most
This is NOT a supplement for a traditional academic resource such as a textbook.
notes about text
formatting
citation
- source links are included above their quotes
note key
- (TODO: ) is used to indicate necessary changes
composition
reading guide
sources
Wikipedia is relied upon heavily. It was the fastest way to get this project going. Additional sources are welcome to be incorporated where appropriate.
code
overview
http://en.wikipedia.org/wiki/Computer_programming
Programming is a process that leads from an original formulation of a computing problem to executable programs. It involves activities such as analysis, understanding, and generically solving such problems resulting in an algorithm, verification of requirements of the algorithm including its correctness and its resource consumption, implementation (commonly referred to as coding[1][2]) of the algorithm in a target programming language. Source code is written in one or more programming languages (such as C, C++, C#, Java, Python, Smalltalk, JavaScript, etc.). The purpose of programming is to find a sequence of instructions that will automate performing a specific task or solve a given problem. The process of programming thus often requires expertise in many different subjects, including knowledge of the application domain, specialized algorithms and formal logic.
design
http://en.wikipedia.org/wiki/Software_design#Software_Design
Software design is both a process and a model. The design process is a sequence of steps that enable the designer to describe all aspects of the software to be built. It is important to note, however, that the design process is not simply a cookbook. Creative skill, past experience, a sense of what makes “good” software, and an overall commitment to quality are critical success factors for a competent design.
The design model is the equivalent of an architect’s plans for a house. It begins by representing the totality of the thing to be built (e.g., a three-dimensional rendering of the house) and slowly re?nes the thing to provide guidance for constructing each detail (e.g., the plumbing layout). Similarly, the design model that is created for software provides a variety of different views of the computer software. Basic design principles enable the software engineer to navigate the design process.
concepts
conditionals
http://en.wikipedia.org/wiki/Conditional_(computer_programming)#If-then-else_expressions Conditional statements are features of a programming language which perform different computations or actions depending on whether a boolean condition evaluates to true or false.