Title :
Architecture for VLSI Design of Reed-Solomon Encoders
Author_Institution :
Jet Propulsion Laboratory, California Institute of Technology
Abstract :
In this correspondence the logic structure of a universal VLSI chip called the symbol-slice Reed-Solomon (RS) encoder chip is presented. An RS encoder can be constructed by cascading and properly interconnecting a group of such VLSI chips. As a design example, it is shown that a (255, 223) RS encoder requiring around 40 discrete CMOS IC´s may be replaced by an RS encoder consisting of four identical interconnected VLSI RS encoder chips. Besides the size advantage, the VLSI RS encoder also has the potential advantages of requiring less power and having a higher reliability.
Keywords :
Data communication; Reed-Solomon encoders; VLSI architecture; data storage; error-correcting codes; space communications; CMOS integrated circuits; Concatenated codes; Error correction codes; Integrated circuit interconnections; Integrated circuit reliability; Interleaved codes; Propulsion; Reed-Solomon codes; Space technology; Very large scale integration; Data communication; Reed-Solomon encoders; VLSI architecture; data storage; error-correcting codes; space communications;
Journal_Title :
Computers, IEEE Transactions on
DOI :
10.1109/TC.1982.1675964
