SYSTEM AND METHOD FOR TRANSITION ENCODING WITH FLEXIBLE WORD-SIZE

Organization Name

Samsung Display Co., Ltd.

Inventor(s)

Aliazam Abbasfar of San Jose CA (US)

Dale F. Stolitzka of San Jose CA (US)

SYSTEM AND METHOD FOR TRANSITION ENCODING WITH FLEXIBLE WORD-SIZE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18158883 titled 'SYSTEM AND METHOD FOR TRANSITION ENCODING WITH FLEXIBLE WORD-SIZE

Simplified Explanation

The abstract describes a method for encoding input data using a specific algorithm. Here are the key points:

• The method involves identifying an input packet, which consists of multiple input words.
• Each input word has three parts: pre bits, groupID bits, and post bits.
• The input words are organized into groups based on their groupID bits.
• A key group is identified based on the number of input words in each group.
• A key value is determined using the pre bits, groupID bits, and post bits of one input word from the key group.
• Finally, a set of coded words is generated using the key value and the input words.

Potential applications of this technology:

• Data compression: The encoding method can be used to compress input data, reducing its size for storage or transmission.
• Data encryption: The algorithm can be applied to encrypt sensitive data, making it more secure and protecting it from unauthorized access.
• Error correction: The encoding method can be used to add redundancy to the input data, allowing for error detection and correction during transmission.

Problems solved by this technology:

• Efficient encoding: The method organizes input data into groups and uses a key value to generate coded words, resulting in a more efficient encoding process.
• Data integrity: By incorporating redundancy into the encoded data, the method helps ensure the integrity of the information during transmission or storage.

Benefits of this technology:

• Improved data storage: The encoding method reduces the size of input data, allowing for more efficient storage and retrieval.
• Enhanced data security: The algorithm can be used for encryption, providing an additional layer of security for sensitive information.
• Reliable data transmission: The inclusion of redundancy in the encoded data helps detect and correct errors, ensuring the accuracy of transmitted information.

Original Abstract Submitted

A method of encoding input data includes identifying an input packet of the input data, the input packet including a plurality of input words, each of the input words including pre bits, groupID bits, and post bits, organizing the plurality of input words into a plurality of groups based on groupID bits of the plurality of input words, identifying a key group of the plurality of groups based on a number of input words in each of the plurality of groups, determining a key value based on the pre bits, the groupID bits, and the post bits of one of the plurality of input words corresponding to the key group, and generating a plurality of coded words based on the key value and the plurality of input words.