ηEO - Power conversion efficiency |
1% |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |
ηT - Transponder efficiency |
1.5 (W/Gbps) |
[2727 [27] Heddeghem, H. et al., Power consumption modeling in optical multilayer networks, Photon Netw. Commun. 24 (2012) 86-102.] |
- Energy per gate operation |
0.69 ptV2 (fJ) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
- Energy per register access |
3.43 ptV2 (fJ) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
B - Transmitted file size |
100 (GB) |
[2828 [28] Guan, K. B. S. G. Pillai, A. Vishwanath, D. C. Kilper and J. Llorca, The impact of error control on energy-efficient reliable data transfers over optical networks, Proc. Int. Conf. Communications (ICC'13), Budapest, June 2013, doi: 10.1109/ICC.2013.6655200 https://doi.org/10.1109/ICC.2013.6655200...
] |
Nf - Number of frames |
10 7(frames) |
[2828 [28] Guan, K. B. S. G. Pillai, A. Vishwanath, D. C. Kilper and J. Llorca, The impact of error control on energy-efficient reliable data transfers over optical networks, Proc. Int. Conf. Communications (ICC'13), Budapest, June 2013, doi: 10.1109/ICC.2013.6655200 https://doi.org/10.1109/ICC.2013.6655200...
] |
hs - Header size |
64 (B) |
[2828 [28] Guan, K. B. S. G. Pillai, A. Vishwanath, D. C. Kilper and J. Llorca, The impact of error control on energy-efficient reliable data transfers over optical networks, Proc. Int. Conf. Communications (ICC'13), Budapest, June 2013, doi: 10.1109/ICC.2013.6655200 https://doi.org/10.1109/ICC.2013.6655200...
] |
ε - Spectral efficiency |
1, 2, 3, 4, 5, 6 (b/s/Hz) |
[1414 [14] Zhao, J. et al, Distance-adaptive routing and spectrum assignment in ofdm-based flexible transparent optical networks Photonic Network Communications, Springer, v. 27, n. 3, p. 119-127, 2014.] |
EPS - Parallel/serial conversion |
4.0/ ε.FS (J/bit) |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |
FD - DAC figure of merit |
1.56 ×1012 (J/conv) |
[2929 [29] Walden, R., Analog-to-digital converter survey and analysis, IEEE J. Sel. Areas Commun. 17 (1999) 539-550.] |
nd - DAC resolution |
4, 6, 8 (bits) |
[2929 [29] Walden, R., Analog-to-digital converter survey and analysis, IEEE J. Sel. Areas Commun. 17 (1999) 539-550.] |
FS - Sampling frequency |
2R/ε (Hz) |
[2929 [29] Walden, R., Analog-to-digital converter survey and analysis, IEEE J. Sel. Areas Commun. 17 (1999) 539-550.] |
Vcc - Modulator driver supply voltage |
5.2 (V) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
Vpp - Modulator peak swing voltage |
8 (V) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
RT - Modulator termination resistance |
50 () |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |
Lmod - Optical excess loss |
2.5 (dB) |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |
ℜ - Photodiode responsivity |
0.9 (A/W) |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |
Vbias - Photodiode bias voltage |
3.3 (V) |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |
CLDPC- Code rate |
0.83 |
[3030 [30] Kuschnerov, M. T. Bex and P. Kainzmaier, Energy e±cient digital signal processing, Proc. OFC 2014, March 2014, Paper Th3E.7.] |
nADC - DAC resolution |
8 (bits) |
[3030 [30] Kuschnerov, M. T. Bex and P. Kainzmaier, Energy e±cient digital signal processing, Proc. OFC 2014, March 2014, Paper Th3E.7.] |
ELO - Local oscillator consumption |
5/ε.FS (pJ/bit) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
ECD - CD compensation consumption |
324/ε.FS (pJ/bit) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
ETR - TR consumption |
104/ ε.FS (pJ/bit) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
EPMD - PMD compensation consumption |
246/ε.FS (pJ/bit) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
ECR - Carrier recovery consumption |
56/ε.FS (pJ/bit) |
[1818 [18] Pillai B. S. G. et Al, End-to-end energy modeling and analysis of long-haul coherent transmission systems, Journal of Lightwave Technology, VOL. 32, NO. 18, SEPTEMBER 15, 2014] |
Psat - EDFA power saturation |
16 (dBm) |
[3131 [31] Pereira, H. D. Chaves, C. Bastos-Filho and J. Martins-Filho, OSNR model to consider physical layer impairments in transparent optical networks, Photon. Netw. Commun. 18 137-149, 2009.] |
G0- Spectral EDFA gain |
15 |
[2121 [21] Durand F. and A. Taufik, Energy efficiency analysis in adaptive FEC based lightpath elastic optical networks, Journal of Circuits, Systems and Computers, v. 24, n. 09, p. 1550133, 2015.] |
ηEPCE- EDFA conversion efficiency |
1% |
[66 [6] Tucker, R. S., Green optical communications—part i: Energy limitations in transport. IEEE Journal of selected topics in quantum electronics, IEEE, v. 17, n. 2, p. 245-260, 2011.] |