@techreport{TD:100677,
	att_abstract={{We use Monte Carlo simulations of quasi-static traffic growth to study concentration of regenerator sites in dynamic photonic networks supporting service velocity.  Idle regenerators can be reduced by >60% compared to unrestricted regeneration sites.}},
	att_authors={mf2182, ac2182, gl1464, rs5419, sw1213, wz1750},
	att_categories={C_NSS.12, C_NSS.8},
	att_copyright={{Optical Society of America}},
	att_copyright_notice={{The definitive version was published in OFC/NFOEC2012 conference. {{, 2012-03-04}}
}},
	att_donotupload={},
	att_private={false},
	att_projects={},
	att_tags={Fiber optics communications, Optical networks, ROADM, wavelength-routed networks},
	att_techdoc={true},
	att_techdoc_key={TD:100677},
	att_url={http://web1.research.att.com:81/techdocs_downloads/TD:100677_DS1_2011-10-06T21:16:59.149Z.pdf},
	author={Mark Feuer and Balagangadhar Bathula and Daniel Bihon and Angela Chiu and Inwoong Kim and Guangzhi Li and Paparao Palacharla and Rakesh Sinha and Xi Wang and Sheryl Woodward and Weiyi Zhang},
	institution={{OFC/NFOEC2012 conference}},
	month={March},
	title={{Simulations of a Service Velocity Network Employing Regenerator Site Concentration}},
	year=2012,
}