IRIS publication 103228168
All-Optical Header Processing in a 42.6Gb/s Optoelectronic Firewall
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TY - JOUR - Webb, R.P., Dailey, J.M., Manning, R.J., Maxwell, G.D., Poustie, A.J., Lardenois, S., Harmon, R., Harrison, J., Kopidakis, G., Athanasopoulos, E., Krithinakis, A. , Doukhan F. , Omar, M., Vaillant, D., Di Nallo, F., Koyabe, M., Di Cairano-Gilfedde C. - 2011 - Unknown - IEEE Journal of Selected Topics In Quantum Electronics - All-Optical Header Processing in a 42.6Gb/s Optoelectronic Firewall - In Press - () - A novel architecture to enable future network security systems to provide effective protection in the context of continued traffic growth and the need to minimise energy consumption is proposed. It makes use of an all-optical pre-filtering stage operating at the line rate under software control to distribute incoming packets to specialised electronic processors. An experimental system that integrates software controls and electronic interfaces with an all-optical pattern recognition system has demonstrated the key functions required by the new architecture. As an example, the ability to sort packets arriving in a 42.6Gb/s data stream according to their service type was shown experimentally. DA - 2011/NaN ER -
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@article{V103228168,
= {Webb, R.P. and Dailey, J.M. and Manning, R.J. and Maxwell, G.D. and Poustie, A.J. and Lardenois, S. and Harmon, R. and Harrison, J. and Kopidakis, G. and Athanasopoulos, E. and Krithinakis, A. and Doukhan F. , Omar and M., Vaillant and D., Di Nallo and F., Koyabe and M., Di Cairano-Gilfedde C. },
= {2011},
= {Unknown},
= {IEEE Journal of Selected Topics In Quantum Electronics},
= {All-Optical Header Processing in a 42.6Gb/s Optoelectronic Firewall},
= {In Press},
= {()},
= {{A novel architecture to enable future network security systems to provide effective protection in the context of continued traffic growth and the need to minimise energy consumption is proposed. It makes use of an all-optical pre-filtering stage operating at the line rate under software control to distribute incoming packets to specialised electronic processors. An experimental system that integrates software controls and electronic interfaces with an all-optical pattern recognition system has demonstrated the key functions required by the new architecture. As an example, the ability to sort packets arriving in a 42.6Gb/s data stream according to their service type was shown experimentally.}},
source = {IRIS}
}Data as stored in IRIS
| AUTHORS | Webb, R.P., Dailey, J.M., Manning, R.J., Maxwell, G.D., Poustie, A.J., Lardenois, S., Harmon, R., Harrison, J., Kopidakis, G., Athanasopoulos, E., Krithinakis, A. , Doukhan F. , Omar, M., Vaillant, D., Di Nallo, F., Koyabe, M., Di Cairano-Gilfedde C. | ||
| YEAR | 2011 | ||
| MONTH | Unknown | ||
| JOURNAL_CODE | IEEE Journal of Selected Topics In Quantum Electronics | ||
| TITLE | All-Optical Header Processing in a 42.6Gb/s Optoelectronic Firewall | ||
| STATUS | In Press | ||
| TIMES_CITED | () | ||
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| ABSTRACT | A novel architecture to enable future network security systems to provide effective protection in the context of continued traffic growth and the need to minimise energy consumption is proposed. It makes use of an all-optical pre-filtering stage operating at the line rate under software control to distribute incoming packets to specialised electronic processors. An experimental system that integrates software controls and electronic interfaces with an all-optical pattern recognition system has demonstrated the key functions required by the new architecture. As an example, the ability to sort packets arriving in a 42.6Gb/s data stream according to their service type was shown experimentally. | ||
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