Fu-Ke Chang

Learn More
This paper presents a universal architecture for Reed–Solomon (RS) error-and-erasure decoder. In comparison with other reconfigurable RS decoders, our universal approach based on Montgomery multiplication algorithm can support not only arbitrary block length but various finite-field degree within different irreducible polynomials. Moreover, the decoder(More)
This paper presents the universal architecture for Reed Solomon (RS) error-and-erasure decoder that can accommodate any codeword with different code parameters and finite field definitions. In comparison with other reconfigurable RS decoders, the proposed design, based on the Montgomery multiplication algorithm, can support various finite field degrees,(More)
This paper presents a universal architecture for Reed-Solomon (RS) error-and-erasure decoder. In comparison with other reconfigurable RS decoders, our universal approach based on Montgomery multiplication algorithm can support not only arbitrary block length but various finite-field degree within different irreducible polynomials. Moreover, the decoder(More)
  • 1