connecting advanced optical satellite communications into the … · 2017-01-19 · 7 estimating...

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Connecting Advanced Optical Satellite Communications Into The Global Telecommunications Grid

Robert “Bob” Brumley, Development, CEO

Pacific Telecommunications Conference, 2017, Honolulu, Hawaii

January 18, 2017

LASER LIGHT™ COMMUNICATIONS

This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data. This presentation does not represent an offer to buy or sell securities.

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HALO Direct Connect

Global Access

48 *

200Gbps

Inter Sat

Service

Links

100

Ground

Nodes

72 *

100Gbps

Service

Links

20-25

Regional

SD-

WAN’s

8 – 12 MEO

Sat’s, 7.2

Tbps

Capacity

XGNS

Terrestrial

Fibre

Network

“OSaaS”

SD-WAN’S

StarBeam Optical

Operating System

US Patent Granted

Lowest Latency

Best Route

INTRODUCING OPTICAL SATTELLITE AS A SERVICE, “OSaaS”

HALO Global Access Circuits

This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data.

This presentation does not represent an offer to buy or sell securities.

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This presentation is PROPRIETARY, prepared for informational purposes, and is based on preliminary assessment of provided data. This presentation does not represent an offer to buy or sell securities.

Global SD-WANs Interconnected by HALO SpaceCable™

This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data. This presentation does not represent an offer to buy or sell securities.

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TRAFFIC DISTRIBUTION DIRECT CONNECT Via STAREDGE™ GROUND NODES

1. StarEdge Regional Ground Nodes are located at Customer designated locations at the Point of Traffic Origination (Premise, PoP) and interconnected to available terrestrial fiber.

2. Each Ground Node can mutually support other Ground Nodes as diverse transmit/receive locations. In a given market area, e.g. Asia-Pacific, Africa

3. Each Ground Node is simultaneously connected via satellite and fiber to the NOC/SOC

4. Upon potential impact due to adverse atmospherics, an effected Ground Node will be shut-down, hours prior to the impact, and the StarBeam OS will automatically re-route satellite traffic to an more suitable Node by means of slewing HALO Up/Down link transceivers.

This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data.

This presentation does not represent an offer to buy or sell securities.

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Star Edge Ground Node (PROTOTYPE) Overview

There are several

Ground Node

configurations based on

customer need.

The fully optioned

configuration is shown

with individually routable

10 Gbps wavelengths

and fully configurable

customer PEP

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HALO CUSTOMER TRAFFIC AGGRAGATION WITHIN SD-WAN’s

• Regional HALO SD-WAN’s

interconnected within approx. 20-25

Regional WAN/Metro Terrestrial

Fiber.

• Serve Primarily as Distribution Hub

for customers within the SD-WAN,

e.g. Sydney, Rio, Cape Town, Kuwait

City.

• Customer traffic will be routed from

the Customer premise/PoP on fiber

to a SD-WAN Data Center, to be

uplinked to the HALO Optical

Satellite System for transport to

customer’s designated Point of

Disaggregation of Premise/PoP.

• HALO SD-WAN locations will have

greater capacity than a single

Ground Node, e.g. up to 500Gbps

from a single satellite

This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data. This presentation does not represent an offer to buy or sell securities.

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Estimating SD-WAN Performance

If sites with 70% CFLOS availability are chosen, as few as 4 sites in the SD-WAN are needed to get better than 99% on-net availability, and as few as 6 sites can provide 99.9% availability.

If sites with 50% CFLOS availability are chosen, it takes at least 7 sites to get better than 99% on-net, and 10 sites to get 99.9% on-net.

Note: The overall availability is at least 5 9’s, because the system uses fiber whenever off-net. This just illustrates the relationship between siting, weather, and on-net availability.

Number of SD-WAN Sites with this availability

Local Availability 2 3 4 5 6 7 8 9 10 11

70% 91.00% 97.30% 99.19% 99.76% 99.93% 99.98% 99.99% 99.998% 99.999% 100.00%

58% 82.36% 92.59% 96.89% 98.69% 99.45% 99.77% 99.90% 99.96% 99.98% 99.99%

50% 75.00% 87.50% 93.75% 96.88% 98.44% 99.22% 99.61% 99.80% 99.90% 99.95%

44% 68.64% 82.44% 90.17% 94.49% 96.92% 98.27% 99.03% 99.46% 99.70% 99.83%

25% 43.75% 57.81% 68.36% 76.27% 82.20% 86.65% 89.99% 92.49% 94.37% 95.78%

20% 36.00% 48.80% 59.04% 67.23% 73.79% 79.03% 83.22% 86.58% 89.26% 91.41%

Data assumes site cloud cover is independent between sites (uncorrelated). The distance needed for decorrelation varies by latitude

This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data. This presentation does not represent an offer to buy or sell securities.

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POINTS OF CONTACT

• Robert “Bob” Brumley, CEO, Laser Light Global Ltd., +1-202-441-6687, robert.brumley@laserlightcomms.com

• Ove Ericsson, COO, Laser Light Global Ltd., +44 7762 765 153,

ove.ericsson@laserlightcomms.com

• Matthew Rocksbourough-Smith, Chief Strategic Finance Officer, Laser Light Global Ltd., +44 7974 976 161, matthewrock@laserlightcomms.com

• Rich Rosenthal, CTO, Laser Light Communications LLC, +1-703-362-2508, rich.rosenthal@laserlightcomms.com

• Fletcher Brumley, SVP, Global Partnerships, Laser Light Global Ltd., +1-202-570-

2776, fletch@laserlightcomms.com This presentation is prepared for informational purposes, and is based on preliminary assessment of provided data.

This presentation does not represent an offer to buy or sell securities.