Title :
On the performance of a rate 8/10 matched spectral null code for class-4 partial response
Author :
Thapar, H. ; Rae, J. ; Shung, C. ; Karabed, R. ; Siegel, P.
Author_Institution :
IBM, San Jose, CA, USA
fDate :
9/1/1992 12:00:00 AM
Abstract :
The authors present the application and performance of a rate 8/10 matched-spectral null (MSN) trellis code in conjunction with class-4 partial response (PR4) signaling. Details of the encoder and decoder functions are presented, as well as the reduced-complexity trellis structure underlying the Viterbi detector for the coded system. Implementation issues involved in the design of a VLSI chip embodying the encoder, decoder, and Viterbi detector for the trellis-coded system are discussed. Results of experiments using synthesized PR4 waveforms are presented, and it is shown that the rate 8/10 code can provide about a 3-dB advantage relative to the class-4 partial response maximum likelihood detection in the presence of additive white Gaussian noise as well as additive synthesized adjacent track interference
Keywords :
decoding; encoding; error correction codes; magnetic recording; maximum likelihood estimation; trellis codes; white noise; VLSI chip; Viterbi detector; additive synthesized adjacent track interference; additive white Gaussian noise; class-4 partial response; decoder functions; design; encoder functions; performance; rate 8/10 matched spectral null code; reduced-complexity trellis structure; synthesized PR4 waveforms; trellis code; Additive noise; Additive white noise; Convolutional codes; Decision feedback equalizers; Gaussian noise; Magnetic recording; Maximum likelihood detection; Modulation coding; Signal synthesis; Signal to noise ratio;
Journal_Title :
Magnetics, IEEE Transactions on
