Finding the Target Cost for Sliceable Bandwidth Variable Transponders

Víctor López; Beatriz de la Cruz; Óscar González de Dios; Ori Gerstel; Norberto Amaya; George Zervas; Dimitra Simeonidou; Juan Pedro Fernandez-Palacios

doi:10.1364/JOCN.6.000476

Journal of Optical Communications and Networking
Vol. 6,
Issue 5,
pp. 476-485
(2014)
•https://doi.org/10.1364/JOCN.6.000476

Finding the Target Cost for Sliceable Bandwidth Variable Transponders

Víctor López, Beatriz de la Cruz, Óscar González de Dios, Ori Gerstel, Norberto Amaya, George Zervas, Dimitra Simeonidou, and Juan Pedro Fernandez-Palacios

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Víctor López, Beatriz de la Cruz, Óscar González de Dios, Ori Gerstel, Norberto Amaya, George Zervas, Dimitra Simeonidou, and Juan Pedro Fernandez-Palacios, "Finding the Target Cost for Sliceable Bandwidth Variable Transponders," J. Opt. Commun. Netw. 6, 476-485 (2014)

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Abstract

Elastic optical networking (EON) is a solution that promises to improve infrastructure utilization by implementing flexible spectrum allocation with small spectrum slots instead of the rigid 50 GHz fixed grid of current dense wavelength division multiplexing deployments. This new EON flexible grid supports bandwidth variable transponders (BVTs) that can tune their bit rate and bandwidth dynamically with a trade-off between reach and capacity. However, when BVTs need to transmit at low bit rates, part of their capacity is wasted. Therefore, the sliceable bandwidth variable transponder (SBVT) has been proposed, which can provide even higher levels of elasticity and efficiency to the network. SBVTs enable transmitting from one point to multiple destinations, changing the traffic rate to each destination and the number of destinations on demand. The aim of this work is to identify the target cost of $400 Gb / s$ and $1 Tb / s$ SBVTs to reduce, by at least 50%, transponder costs in a core network scenario. This target cost is calculated in relation to estimations for BVTs of $400 Gb / s$ and $1 Tb / s$ (non-sliceable). In light of our results, cost savings of 50% are feasible for $1 Tb / s$ transponders until 2020 with a higher cost than non-sliceable transponders. Savings of 50% for the $400 Gb / s$ case are possible in the short-term before $1 Tb / s$ SBVTs can appear in the market. Feasibility of such savings with a target cost higher than current non-sliceable transponders shows that SBVTs can be a reality. Moreover, this work assesses the IP port savings thanks to the utilization of the SBVTs.

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$T \times P$ Parameters	Cost	Cost per $Gb / s$
$40 Gb / s$ , 2,500 km, 50 GHz	6	0.15
$100 Gb / s$ , 2,000 km, 50 GHz	15	0.15
$400 Gb / s$ , 75 GHz, 500 km	22	0.055
$1, 000 Gb / s$ , 175 GHz, 500 km	25	0.025

		2014	2015	2016	2017	2018	2019	2020	2021
Full mesh	$40 Gb / s$	13%	25%	0%	10%	5%	4%	1%	1%
	$100 Gb / s$	63%	65%	23%	15%	10%	5%	4%	3%
IP	$40 Gb / s$	6%	10%	0%	5%	0%	1%	1%	0%
	$100 Gb / s$	38%	40%	6%	10%	7%	2%	3%	1%
IP bypasses	$40 Gb / s$	6%	15%	0%	8%	5%	4%	1%	1%
	$100 Gb / s$	38%	40%	10%	15%	12%	4%	4%	3%

Line Cards	Cost	Year	Cost per $Gb / s$
$10 \times 40 Gb / s$	31.98	2014	0.07995
$25 \times 40 Gb / s$	31.98	2018	0.03198
$4 \times 100 Gb / s$	36	2014	0.09
$10 \times 100 Gb / s$	36	2018	0.036
$1 \times 400 Gb / s$	34.28	2014	0.0857
$2 \times 400 Gb / s$	3428	2018	0.04285
$1 \times 1000 Gb / s$	36.42	2018	0.03642

$T \times P$ Parameters	Cost	Cost per $Gb / s$
$40 Gb / s$ , 2,500 km, 50 GHz	6	0.15
$100 Gb / s$ , 2,000 km, 50 GHz	15	0.15
$400 Gb / s$ , 75 GHz, 500 km	22	0.055
$1, 000 Gb / s$ , 175 GHz, 500 km	25	0.025

		2014	2015	2016	2017	2018	2019	2020	2021
Full mesh	$40 Gb / s$	13%	25%	0%	10%	5%	4%	1%	1%
	$100 Gb / s$	63%	65%	23%	15%	10%	5%	4%	3%
IP	$40 Gb / s$	6%	10%	0%	5%	0%	1%	1%	0%
	$100 Gb / s$	38%	40%	6%	10%	7%	2%	3%	1%
IP bypasses	$40 Gb / s$	6%	15%	0%	8%	5%	4%	1%	1%
	$100 Gb / s$	38%	40%	10%	15%	12%	4%	4%	3%

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Journal of Optical Communications and Networking