DC BALANCED TRANSITION ENCODING

Organization Name

Samsung Display Co., Ltd.

Inventor(s)

Aliazam Abbasfar of Santa Clara CA (US)

DC BALANCED TRANSITION ENCODING - A simplified explanation of the abstract

This abstract first appeared for US patent application 17831354 titled 'DC BALANCED TRANSITION ENCODING

Simplified Explanation

The abstract describes a system and method for DC balanced transition encoding in a patent application. Here is a simplified explanation of the abstract:

• The system and method aim to encode raw data words in a way that maintains a balance between the number of ones and zeros in the encoded result.
• The method involves generating a set of candidate encoding keys for the raw data words.
• A first encoding key is selected from the set of candidate encoding keys based on a measure called "disparity contribution."
• The raw data words are then encoded using the selected encoding key, and the disparity contribution is calculated as the difference between the number of ones and zeros in the encoded result.

Potential applications of this technology:

• Data transmission systems: The DC balanced transition encoding can be used in communication systems to ensure a balanced distribution of ones and zeros, which can improve the reliability and efficiency of data transmission.
• Storage systems: This encoding method can be applied in storage systems to maintain a balanced representation of data, reducing the risk of data corruption and improving data integrity.

Problems solved by this technology:

• Maintaining balance: The technology solves the problem of maintaining a balanced distribution of ones and zeros in encoded data, which can prevent issues such as signal distortion and data corruption.
• Efficient encoding: By selecting encoding keys based on disparity contribution, the method optimizes the encoding process and ensures a more efficient representation of the raw data.

Benefits of this technology:

• Improved data integrity: The balanced encoding helps to minimize errors and data corruption during transmission or storage, leading to improved data integrity.
• Enhanced reliability: By maintaining a balanced distribution of ones and zeros, the technology improves the reliability of data transmission or storage systems.
• Efficient encoding: The method optimizes the encoding process by selecting encoding keys based on disparity contribution, resulting in more efficient data representation.

Original Abstract Submitted

A system and method for DC balanced transition encoding. In some embodiments, the method includes: generating a set of candidate encoding keys for a set of raw data words; selecting a first encoding key, of the set of candidate encoding keys, based on a first disparity contribution; and encoding the raw data words with the first encoding key, the first disparity contribution being a difference between the number of ones and the number of zeros in the result of encoding the set of raw data words with the first encoding key.