Title :
Improvement in bit-error rate for optoelectronic multicomputer interconnection networks using cyclic redundancy code error detection
Author :
May, Phil ; Cross, Jeffrey ; Lopez-Lagunas, Abelardo ; Buchanan, Brent ; Wills, D. Scott ; Jokerst, Nan Marie ; Brooke, Martin
Author_Institution :
Sch. of Eng., Georgia Inst. of Technol., Atlanta, GA, USA
fDate :
6/1/1997 12:00:00 AM
Abstract :
This letter presents testing results of an integrated optoelectronic (OE) channel employing hop-by-hop error control circuitry based on cyclic redundancy codes (CRC) to improve the effective bit-error rate (BER). The use of OE interconnect in place of wires in multicomputer networks becomes more attractive as channel bandwidth and power efficiency are increased. But these improvements must be accomplished while maintaining an acceptable channel BER. Test results of an integrated OE channel incorporating CRC-based error control circuitry demonstrate a BER reduction of two orders of magnitude while incurring a 20% bandwidth overhead. This may lead to higher bandwidth and higher efficiency OE interconnects.
Keywords :
encoding; errors; integrated optoelectronics; multiprocessor interconnection networks; optical fibre networks; optical interconnections; telecommunication network routing; transport protocols; BER reduction; CRC-based error control circuitry; acceptable channel BER; bit-error rate; channel bandwidth; cyclic redundancy code error detection; cyclic redundancy codes; effective bit-error rate; higher efficiency OE interconnects; hop-by-hop error control circuitry; integrated OE channel; integrated optoelectronic channel; multicomputer networks; optical interconnections; optoelectronic multicomputer interconnection networks; power efficiency; Bandwidth; Bit error rate; Circuit testing; Cyclic redundancy check; Error correction; Error correction codes; Integrated circuit interconnections; Intelligent networks; Multiprocessor interconnection networks; Routing protocols;
Journal_Title :
Photonics Technology Letters, IEEE
