Title :
A systolic Reed-Solomon encoder
Author :
Seroussi, Gadiel
Author_Institution :
Cyclotomics Inc., Berkeley, CA, USA
fDate :
7/1/1991 12:00:00 AM
Abstract :
An architecture for a Reed-Solomon (RS) encoder is presented, consisting of r+1 systolic cells, where r is the redundancy of the code. The systolic encoder is systematic, does not contain any feedback or other global signals, its systolic cells are of low complexity, and it is easily reconfigurable for variable redundancy and changes in the choice of generator polynomial of the code. The encoding algorithm is based on the Cauchy representation of the generator matrix of the code. This architecture is suitable for very high-speed applications where global signals (such as the feedback line present in the traditional RS encoder design) and the need for global synchronization may pose restrictions on the achievable switching speed of the encoder
Keywords :
encoding; error correction codes; systolic arrays; Cauchy representation; Reed-Solomon encoder; architecture; encoding algorithm; generator matrix; generator polynomial; high-speed applications; systolic encoder; variable redundancy; Clocks; Computer architecture; Encoding; Force feedback; Physics computing; Reed-Solomon codes; Signal design; Signal generators; Synchronization; Systolic arrays;
Journal_Title :
Information Theory, IEEE Transactions on
