tecnologías de fibra Óptica hacia el futuro 400gbps · tecnologías de fibra Óptica hacia el...

Tecnologías de Fibra Óptica hacia el futuro 400Gbps

Andrés Francisco Mariño

Senior Field Application Engineer

RCDD/NTS

ANSI/TIA Standards

Fuente: ANSI/TIA-568.3-D / Octubre 2016

PRIVATE AND CONFIDENTIAL © 2017 CommScope, Inc | v1.13

OM1 OM2 OM3 OM4 OM5 OS2

G651.1 G651.1 G651.1 G651.1 G651.1 G654D (LWP)

60793-2-10

Type A1b

60793-2-10

Type A1a.1

60793-2-10

Type A1a.2

60793-2-10

Type A1a.3

60793-2-10

Type A1a.4

60793-2-50

Type B1.3

TIA Standard492AAAA

Class Ia

492AAAB

Class Ia

492AAAC

Class Ia

492AAAD

Class Ia

492AAAE

Class Ia

492CAAB

Class IVa

62,5um 50um 50um 50um 50um 8.8 to 9.3

@850nm NA

@953nm 2.3 dB/km NA

@1300nm / ISP-I/O-OSP 1.0 / 0.5 / 0.4 dB/km

@1383nm / ISP-I/O-OSP 1.0 / 0.5 / 0.4 dB/km

@1550nm / ISP-I/O-OSP 1.0 / 0.5 / 0.4 dB/km

3.0dB/km

1.5 dB/km

Fiber Type

ITU-T Standard

IEC Standard

Core (MFD)

NA

Optical Cable IL

NA

NA

• 0.75dB (Mated Pair), 0.3dB (Splice)

• 20dB (RL MM), 35dB (RL SM), 55dB (CATV)

• TIA 598D (Addenda -1): Olive (13), Magenta (14), Tan (15), Lime (16)

• FOCIS / TIA-604-x series: -2 (ST), -3 (SC, SCA), -5 (MPO 12,24,72), -10 (LC), -18 (MPO-16)

Standard Fiber Performance

Fuente: CISCO VNI 2015

Crecimiento global del tráfico de datos móviles

x10 Times

1EB = 109 GB

Fiber Ports in Building and Data Center Will Grow at CAGR of 8%

• Strong growth in

10/40/100G fiber ports


Con más y más conexiones ópticas a combatir, el desafío se convierte en cómo agregar densidad óptica mientras se mantiene la accesibilidad apropiada, flexibilidad y manejabilidad al costo más bajo.

• Cantidad de fibras

• Densidad

• Reduciendo la disponibilidad y el costo de operación

Desafíos del Data Center

Access Layer

(Switches)

Aggregation Layer

(Switches)

Core Layer

(Routers)

Traditional -tier Tree Network

No

rth

-So

uth

Servers and

Compute (w/

NICs)

New -tier Leaf-Spine Network

East-West

Servers and

Compute (w/

NICs)

New Architectures in Hyperscale Data Centers

40 Gb/s

2010

50 Gb/s

2018-2019 (est)

100 Gb/s

2010

200 Gb/s

2018-2019 (est)

400 Gb/s

2017 (est)

3.2 Tb/s

>20201.6 Tb/s

>2020

800Gb/s

>2020

Ethernet Roadmap 2016 – courtesy of Ethernet Alliance

Roadmap Ethernet

Ethernet Speed

Speed in Development

Possible Future Speed

10 Gb/s

2002

25 Gb/s

2016

>10 Tb/s

Parallel

Zona de Transición

Duplex

ethernet alliance6.4 Tb/s

>2020

http://www.google.com/url?sa=i&rct=j&q=&esrc=s&source=images&cd=&cad=rja&uact=8&ved=0ahUKEwis9qvLgKbOAhVJLmMKHcPPAO8QjRwIBw&url=http://www.elpeus.com/mtp-cable-information/&psig=AFQjCNEd4hojy7tts0BsmQJKQEwljfNYgA&ust=1470339679576335

25GBASE-SR10GBASE-SR

40GBASE-SR4

100GBASE-SR10

100GBASE-SR4

400GBASE-SR16

PAM-4

1

2

4

8

10

16

10 Gb/s 25 Gb/s

NRZEncoding >

Lane rate >

# lanes

Data Center multimode speed roadmap


40GBASE-SR4

100GBASE-SR10

400GBASE-SR16

PAM-4

1

2

4

8

10

16

10 Gb/s 25 Gb/s 50 Gb/s

NRZEncoding >

Lane rate >

# lanes

50GBASE-SR

100GBASE-SR2

200GBASE-SR4

40GBASE-SWDM4 100G-SWDM4



40GBASE-SR4

100GBASE-SR10

100GBASE-SR4

400GBASE-SR16

PAM-4

1

2

4

8

10

16

10 Gb/s 25 Gb/s 50 Gb/s

NRZEncoding >

Lane rate >

# lanes

50GBASE-SR

100GBASE-SR2

200GBASE-SR4

40GBASE-SWDM4 100G-SWDM4 200G-SWDM4?

400G-SWDM4?

400G-SWDM4?

800G-SWDM4?



40GBASE-SR4

100GBASE-SR10

100GBASE-SR4

400GBASE-SR16

PAM-4

1

2

4

8

10

16

10 Gb/s 25 Gb/s 50 Gb/s

NRZEncoding >

Lane rate >

# lanes

50GBASE-SR

100GBASE-SR2

200GBASE-SR4

40GBASE-SWDM4 100G-SWDM4 200G-SWDM4?

400G-SWDM4?

400G-SWDM4?

800G-SWDM4?

100 Gb/s

100 Gb/s?

200 Gb/s?

400 Gb/s?

800 Gb/s?

1 Tb/s?



IEEE Optical applications up to 400GRate PMD Media Reach #Fibers Wlengths Lane rate IEEE Project

25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)

SR4.2 4-pair MMF 100 m 8 2 50G NGMMF SG (Mar '18)

SR8 8-pair MMF 100 m 16 1 50G NGMMF SG (Mar '18)

SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G


IEEE Optical applications up to 400GMultimodeRate PMD Media Reach #Fibers Wlengths Lane rate IEEE Project

25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)



SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G


IEEE Optical applications up to 400GMultimode

Singlemode

Rate PMD Media Reach #Fibers Wlengths Lane rate IEEE Project

25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)



SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G



Singlemode

Duplex


25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)



SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G



Singlemode

Duplex

Parallel


25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)



SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G



Singlemode

Duplex

Parallel

Multi-wavelength


25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)



SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G



Singlemode

Duplex

Parallel

IEEE Stud Group for Ne t Generation 400 and 200 Gb/s over

fewer multimode pairs

200 Gb/s:

200GBASE-SR1.4 proposed

400 Gb/s:

400GBASE-SR4.2 and SR8 adopted as objectives

Multi-wavelength


25G SR 1-pair MM 100 m 2 1 25G 802.3by (2016)

SR4 4-pair MM 150 m 8 1 10G 802.3ba (2010)

FR 1-pair SM 2 km 2 1 40G 802.3bg (2011)

LR4 1-pair SM 10 km 2 4 10G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 10G 802.3bm (2015)

SR 1-pair MM 100 m 2 1 50G 802.3cd (2018)

FR 1-pair SM 2 km 2 1 50G 802.3cd (2018)

LR 1-pair SM 10 km 2 1 50G 802.3cd (2018)

SR2 2-pair MM 100 m 4 1 50G 802.3cd (2018)

SR4 4-pair MM 100 m 8 1 25G 802.3bm (2015)

SR10 10-pair MM 150 m 20 1 10G 802.3ba (2010)

DR 1-pair SM 500 m 2 1 100G 802.3cd (2018)

LR4 1-pair SM 10 km 2 4 25G 802.3ba (2010)

ER4 1-pair SM 40 km 2 4 25G 802.3ba (2010)

SR1.4 1-pair MM 100 m 2 4 50G MSA?

SR4 4-pair MM 100 m 8 1 50G 802.3cd (2018)

DR4 4-pair SM 500 m 8 1 50G 802.3bs (2017)

FR4 1-pair SM 2 km 2 4 50G 802.3bs (2017)

LR4 1-pair SM 10 km 2 4 50G 802.3bs (2017)



SR16 16-pair MM 100 m 32 1 25G 802.3bs (2017)

DR4 4-pair SM 500 m 8 1 100G 802.3bs (2017)

FR8 1-pair SM 2 km 2 8 50G 802.3bs (2017)

LR8 1-pair SM 10 km 2 8 50G 802.3bs (2017)

40G

50G

100G

200G

400G


IEEE considering WDM for 200G and 400G

IEEE

lingle_nea_01a_0517


Continued Deployment & Growth of OM3/OM4 MMF

Source: Matthew Burroughs North America Multimode Reports

1H2017 volume annualized * Dates are ANSI/TIA standardization dates, not ISO/IEC


Source: Dale Murray, Light Counting January 2018

Data Center connectivity through 2022

likely to be mix of duplex and parallel

Parallel

Duplex

40G Module Market example

http://www.google.com/url?sa=i&rct=j&q=&esrc=s&source=images&cd=&cad=rja&uact=8&ved=0ahUKEwis9qvLgKbOAhVJLmMKHcPPAO8QjRwIBw&url=http://www.elpeus.com/mtp-cable-information/&psig=AFQjCNEd4hojy7tts0BsmQJKQEwljfNYgA&ust=1470339679576335

Multimode Fiber WBMMF

TIA-492AAAE

>>> ISO 11801-1 Ed3 (OM5)

IEC 60793-2-10: Sectional specification

for category A1 multimode fibres

Sub-category A1a applies to 50 m fibre. Four bandwidth grades are defined as models A1a.1, A1a.2, A1a.3 and A1a.4:

• Those models with suffix "a" are specified to meet traditional macrobend loss performance levels

• Those models with suffix "b" are specified to meet enhanced macrobend loss (i.e. lower loss) performance levels

• Model A1a.4 supports single wavelength or multi-wavelength transmission systems in the range of 850 nm to 950 nm

Technologies Enabling Higher Capacity per MMF

PAM4 More Efficient Modulation

NRZ

PAM4

Enabling 50Gb per lane

SWDMMore Efficient Fiber Usage

Enabling 4 per fiber

MU

X

4 4

3 3

2 2

1 1

DE

MU

X

WBMMF OM5More Efficient Fiber

850880

910940

Ba

nd

wid

th E

qu

av

ale

nt

Wavelength (nm)

Conceptual Bandwidth Comparison

Supporting 4 per fiber

to practical distances

850 nm

880 nm

910 nm

940 nm

OM4 Fiber using SWDM

850 nm

910 nm

940 nm

880 nm

OM5 Fiber using SWDM


The SWDM Alliance is a collection of companies who believe that the adoption of

shortwave wavelength division multiplexing (SWDM) is a cost-effective means of

transmitting multiple channels on one duplex multimode fiber pair.

www.swdm.org

SWDM Alliance

http://www.swdm.org/

SWDM Alliance: MSA Technical Specifications

40G-SWDM4 MSA Technical Specifications

[1] Per IEC 60793-2-10

100G-SWDM4 MSA

[1] Per IEC 60793-2-10

parallel fiber transmission

WDM transmission

WDM + parallel transmission

Data

Rate

10G

NRZ

ParallelTX RX

25G

NRZ

ParallelTX RX

50G PAM4

ParallelTX RX

10, 25, 50G

WDM & ParallelTX RX

N/AN/A40G

100G

400G

200G

Applications Evolution Roadmap


40G/100G Applications and Multimode FiberMaximum reach based on Standards, MSAs and/or vendor specifications

OM3 100 m

OM4/OM5 150 m

40G

100G

Standard # fibers maximum distance

40GBASE-SR4 (8)

OM3 100 m*

OM4 150 m*40G-BiDi (2)

OM3 300 m

OM4/OM5 400 m

40GBASE-eSR4 (8)

40G-SWDM4 (2)

OM5 440 m

OM3 240 m*

OM4 350 m*

OM3 100 m

OM4/OM5 150 m

OM3 70 m

OM4/OM5 100 m100GBASE-SR4 (8)

100GBASE-SR10 (20)

OM3 200 m

OM4/OM5 300 m

100GBASE-eSR4 (8)

OM5 150 m

100G-SWDM4 (2) OM3 75 m*

OM4 100 m* *OM3/OM4 effective modal bandwidth

only specified at 850 nm

“In addition to supporting the same 850nm and 1300nm applications as OM4, OM5 provides advantage in the support of future applications using

WDM in the wavelength range 850nm to 953nm” (FDIS ISO/IEC 11801-1)

OM5 200 m

Duplex to Parallel Migration Example

100GBASE-SR4

LEAFCross-ConnectOM4 Trunk OM4 Trunk

SPINE

10GBASE-SR

OM4 TrunkOM4 Trunk

LEAFSPINE Cross-Connect

Trunk cabling is retained

10GBASE-SR

WBMMF OM5 TrunkWBMMFOM5 Trunk LEAF

SPINECross-Connect

10G to 100G Migration using SWDM & OM5

All cabling is retained (continues to require only 2 strands)

100GBASE-SWDM4

WBMMF OM5 TrunkWBMMFOM5 Trunk LEAF

SPINECross-Connect

10G to 100G Migration using SWDM & OM5

Andrés Francisco Mariño, RCDD/NTS

[email protected]

Mobile: +57-315-353-5736

Gracias

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