WinterGreen Research announces that it has published a
new study G.fast Chips: Market Shares, Strategy, and Forecasts, Worldwide, 2014
to 2020. The 2014 study has 256 pages, 109 tables and figures. Worldwide G.fast
Chip markets are increasingly diversified, poised to achieve significant growth
as broadband is used in every industry segment. End to end broadband networks
leverage a combination of optical infrastructure in the long haul and copper
infrastructure in the last few meters from the distribution box to the home.
Fiber has had rapid advance but does not work in the end,
it is too expensive to the home. FTTH is too expensive and DSL continues to be
a viable alternative, with DSL set to be replaced at the high end initially by
G.fast.
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Copper based broadband technologies promise to last for a
long long time. Though for many years FTTH has threatened to make xDSL
obsolete, this has not proven to be the case. Broadband Internet is used in all
corners of the world. It is set to be used by everyone by 2025. There is a lot
left to be done. Networking services company Akamai says the second quarter of
2014 marks the first time the global average broadband speed jumped over the
4-megabit mark. South Korea occupies the top broadband user category in both
average bandwidth (24.6 megabits) and proportion of the population on a
broadband connection (95 percent, tied with Bulgaria). Smaller islands, the
Philippines, countries with lots of rural areas, like India, are struggling to
deliver useful speeds.
The U.S. falls behind East Asia, ranking somewhere in the
middle, with the Nordic countries, in terms of broadband speed and penetration.
Inside the U.S., Delaware appears well equipped with broadband the Mid-Atlantic
state ranked first in every category: average speed, peak speed, connectivity
and even "4K readiness," referring to the 15 megabit speed that can
handle ultra high-def broadcasts. The slowest US state is Arkansas. Copper
represents an installed infrastructure worth trillions and too expensive to
just replace. Fiber is too expensive to use it to replace all the copper. FTTH
DSL and G.fast, the copper works in many cases and does not need to be
re3placed. xDSL markets will be strong for some long time to come as copper
remains a transport line.
G.fast leverages copper infrastructure that is everywhere
in the telecommunications network. Copper provide connectivity to all
residences. Copper is still the primary wireless backbone transport means,
meaning it continues to be vital as new wireless systems continue to expand
their markets. It predominates in the local loop, creating demand for systems
that are able to support high speed signal transport over copper wire. Copper based
broadband is and will remain for the foreseeable future, the dominant broadband
access technology across the globe. Broadband service providers who rely on
copper loops for broadband access have to improve broadband performance and
extend its life. Choices between DSL technologies and G.fast are based on cost.
Fiber technologies are used to come to the curb. DSL and G.fast represent a
hybrid rooted in a network planning.
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According to Susan Eustis, lead author of the WinterGreen
Research team that prepared the study, The opportunity to participate in G.fast
Chips markets is compelling. G.fast provides the ability to leverage outdated
copper infrastructure to breathe new life into existing investment. This market
is evolving as new G.fast technology and vectoring are implemented. Growth in
this market based on technical breakthroughs and innovation. Technology
platforms are rapidly evolving. Consideration of G.fast chips market forecasts
indicates that markets at $31 million in 2014 will reach $2.9 billion by 2020.
Growth comes as every industry achieves leveraging broadband to make social media
and smart phones work to grow the business. G.fast is able to make the benefits
of broadband available to consumers and support network flexibility for
consumers, data centers, and cell tower backbone communications. G.fast
networks are flexible and support broadband that is able to reach.
Table Of Content
1. G.Fast Chip Market Dynamics and Market Description
32
1.1 G.fast Chips
1.1.1 Demand for Broadband Services and Market Opportunities for Service
Providers
1.1.2 High-Performance Communications Processing
1.1.3 Key Benefits of G.fast Technology
1.1.4 Improving Time-To-Market With Programmable Systems-Level Products
1.1.5 G.fast Provides Cost-Effective, High-Performance Transmission Over
Existing Copper Lines
1.1.6 End-to-End DSL Products
1.2 G.fast Design Wins
1.2.1 Carrier Networking
1.2.2 Enterprise Networking
1.2.3 Cloud Computing
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2. G.Fast Chips Market Shares and Market Forecasts 55
2.1 G.FAST At Hundreds Of Meg Demoed By British Telecom & Huawei
2.1.1 France Telecom Wants Fiber To The Basement, Not All The Way Home
2.1.2 Broadcast / G.Fast Interference
2.1.3 Vectoring Costs From $300 (Dense) To $1500 (Fiber To The Farm)
2.2 Broadband Networks: End To End
2.2.1 DSL Set To Give Way To G.Fast
2.2.2 Vendor G.Fast Positioning
2.2.3 Data And Video Traffic Surpass Voice Traffic
3. G.Fast Chips: Product Description 109
3.1 Sckipio G.Fast
3.1.1 G.fast Chipsets Sckipio Creates New Era of Affordable Gigabit Ultra
Broadband
3.1.2 FTTH vs. G.Fast Costs for Services Providers
3.1.3 Sckipio G.fast Devices
3.1.4 Lantiq Residential Gateway Reference Design Based on Sckipio G.fast
Solution
3.1.5 Sckipio 16-Port G.fast Demonstration
3.1.6 Lantiq Residential Gateway Reference Design Based on Sckipio G.fast
Solution
4. DSL Chip Technology 133
4.1 Google Vectoring Memory Efficiency
4.1.1 Google Approach to Vectoring Mitigation Of Crosstalk Inherent In
Twisted-Pair DSL Networks
4.1.2 Google Approach to Changing DSL Characteristics and Operating Conditions
4.1.3 Google DSL Non-Uniform Symbol Usage Distribution
4.2 Gigabit (or 1,000 Mbps) FTTP Deployments
4.3 VDSL G.Fast and Vectoring 2.0
4.3.1 G.fast – Uses 106mhz Of Phone Wire Spectrum To Deliver Gigabit Broadband
4.3.2 G.fast – Uses 106mhz Of Wire Spectrum To Deliver Gigabit Broadband
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