Conversion of Data in Computers – Binary Translator

Conversion of Data in Computers – Binary Translator

A binary code is the representation of data that helps the computer understand and transfer data. A Computer can not understand human language directly hence it converts the data into smaller parts that are used in data transfer and much more. A binary translator is used in every computer to make sure the data conversion is smooth and does not hinder the process of work

For humans, the computer language is challenging to understand. It will take too much time for any person to convert such data manually hence binary translator is used to assisting people to make the process of reading the data more accessible.

Binary code

A binary code is a numbering system that represents any number in the form of numbers of only 0 and 1. Each character in the computer is represented by multiple values of 0 & 1 combined together. Computers use this numbering system to understand and use the data that is inserted into it for later use.

The computing system uses these codes to search for the result of the input from the user. The binary code was created in the 17th century by a mathematician. It became the foundation for the computers that were invented in the 19th century. As computers become more sophisticated binary codes were used to make it easier for the computer and people to work together.

India, China, and Egypt used the binary method in the past for various purposes. But since the invention of computers, it has become the language of electronics. The text and visuals you see on the computer screen or on any electronic device are the binary codes that have been decoded by the translator to make it easy for people to understand them.

Why Use a Convertor

As said above the market in today’s society mostly use digital networking to earn money. A computer use said information and converts it into binary numbers or other. The converter then translates the result generated by the computer and presents it to the user in a readable form.

The computer uses binary digits called “bit” to compute any kind of data. The binary numbers are formed by computing a number of digits 0 and 1 and converting it into the form of 1001 to represent a character within the computer. When a large number of the said bits combine, they form a complete sentence that the computer can easily understand.

A set of instructions given to the computer to perform any task is called a computer program. The program is in machine language and is used by the computer to perform any task. The translator converts this set of instructions into a binary form so the computer can easily understand it which results in the working of the computer.

Encoding

The storing of data within the computers is in the form of binary form. In the machine code, all the information related to music, audio, and documents is in the form of a stream of binary numbers. The encoding formats are used to convert these files into a more presentable form that can be accessed and is compatible with multiple platforms.

  • WAV, mp3, and AAC is the encoded format of audio files.
  • MPEG4 and H264 are the encoded formats of video files.
  • Unicode and ASCII are two encoded formats of text in which it is converted into character sets.
  • BMP, PNG, and JPNG are the image file’s encoded formats.

ASCII

An encoding standard for electronic communication is called ASCII. ASCII stands for American Standard Code for Information Interchange. It is the most commonly used standard data encoding format on computers. It has a unique code for 128 numeric, alphabetic, and additional characters. ASCII was developed in the US based on predominantly used symbols of typography.

Use of ASCII

When simply put, ASCII is used to convert the binary text of the computer into human understandable text like different languages. It is used to share text between multiple computers without having any trouble. Different regions use different languages hence the computer of the said region will also have different language systems.

But at the end, they will be shared by being converted into binary numbers which will be translated by ASCII so a proper message can be sent. The possibility of an error occurring is extremely low unless the user types the message wrong.

Binary Advantage

The core of any electronic device is a binary number. Since the binary coding only uses 0 and 1 it becomes easier for the device to process the wording. In simple electronics, they can act as logic gates. 0 represents the close/false option while 1 represents the open/true option. The passage of the current depends on whether the switch is at 1 or not.

Conclusion

Within electronics, a binary translator is necessary since it helps a person understand the logic behind the machine language faster. While people can study and analyze machine language it takes too much time and in case of error, it has to be done again. 

Dinanath Singh: