Switch Fabric Market: Global Industry Size, Shares, Strategies, and Forecasts, 2010 to 2016

switch fabrics at $317 million in 2009 are anticipated to reach $920 million by 2016, growing in response to decreases in unit costs and increases in integrated IC functionality. Some applications are in high growth market segments, including data center consolidation, security, high definition video, and high speed video applications. Switch fabrics are poised to make people more productive in security environments, help increase productivity with faster desktop access capabilities, and decrease storage seek times.

The new 2010 study on switch fabrics, has 329 pages, 111 tables and figures. Worldwide markets are poised to achieve significant growth as data managers move to more cost efficient switching modalities. Vendors are building out localized switch fabrics that support an information system with devices that contain virtual output queuing (VOQ) and prioritized flow control.

Switch fabrics provide a method to switch the packets from input ports to output ports. The switch fabric must arbitrate traffic when more than one packet arrives concurrently if both are destined for the same output port. Switch fabrics provide sufficient buffering to handle situations where the packet input rate is greater than the switch fabric’s throughput capability.

The two possible locations for buffering are at the input of the switch fabric (input queuing) or internally to the switch fabric (shared-memory). Switch fabrics control quality of service (QoS).

The switch fabric is responsible for receiving data from a line card and routing it to the proper destination. OEMs outsource the fabric to semiconductor suppliers. Switch fabric solutions integrate advanced queuing and scheduling, a serial crossbar, and multiple channels of high-speed serial link technology in a two-component fabric chip set.

The multi-service provisioning platform (MSPP) is an emerging product category specifically designed to address the needs of service providers for reliable transport of data and telecom services between dissimilar networks. New platforms of this type are employing standards-based packet switching systems designed to transfer voice and data over IP between PSTN, mobile, core and IP networks. Because the access points of a converged network use different protocols for transporting data and voice (that is, ATM, IP, and SONET).

The task of the MSPP is to seamlessly transfer the media streams at port speed between the various network interfaces while supporting QoS guarantees. It is the move to higher layer switching to incorporate QoS along with the higher port speeds (OC-48, OC-192) that is driving the need for MSPPs with advanced network processing engines and intelligent switch fabric devices.

The intelligent switch fabric devices contain virtual output queuing (VOQ) and prioritized flow control. This supports the ability to provide high-capacity (160 Gbps), non-blocked, class of service based switching. Vitesse GigaStream family of switch fabrics is a product in this category.

The ongoing convergence of communications technologies and proliferation of digital media is introducing radical changes to the consumer electronic market. These changes are redefining traditional ideas of what we can expect from familiar products such as televisions, personal computers and cell phones. Advances in semiconductor technology are driving this transformation by bringing capabilities to which we are already accustomed (such as Web browsing, recording video, and getting driving directions) into new device contexts.

Markets for switch fabrics at $317 million in 2009 are anticipated to reach $920 million by 2016, growing in response to decreases in unit costs and increases in integrated IC functionality. Some applications are in high growth market segments, including data center consolidation, security, high definition video, and high speed video applications. Switch fabrics are poised to make people more productive in security environments, help increase productivity with faster desktop access capabilities, and decrease storage seek times.

Switch fabric markets are forecast to grow as the quantity of data traversing the Internet grows. The Internet data is doubling every 5 months. Quantities of data are increasing from petabytes per day to exabytes per day. The technology needed to handle this includes switch fabrics. Cloud computing and HD TV represent the most significant market driving forces for growth of switch fabrics.

Table of Content

Plant factory, vertical farming executive summary 46

Plant factory, vertical farming market driving forces 46

Plant factory vertical farming benefits 48

Harvested leafy vegetables 52

Plant factory spectral output and color temperature of light can be adjusted  53

Plant factory vertical farming challenges 55

Commitment to sustainable agriculture 58

Wheat, maize and rice  59

Efficiency of led grow lights 60

Plant factory vertical farming market shares 60

Plant factory market forecasts 62

  1. PLANT FACTORY MARKET DESCRIPTION AND DYNAMICS  64

1.1 Plant Factories Allow Three-Dimensional Cultivation 64

1.2 High-Tech Urban Farming Solution: Vertical Farming 68

1.2.1 Plant Factory Self-Sufficient Farming 70

1.2.2 Vertical Farming  70

1.3 Plant Factory Definition 73

1.4 Container System Anytime, Healthy And Quality Seedling Production  76

1.4.1 Artificial Seedling Cultivation System Using A Container Provides Cost Performance  77

1.4.2 Compact Seedling Vegetable Cultivation System 78

1.5 Vertical Farming: Cities Could Be Food Producers 81

1.6 Photosynthesis 82

1.7 Light Reactions Increase Plant Yield 82

1.8 Japanese Plant Factory 84

1.8.1 Plant Factories  85

1.9 Organic Farming  89

1.9.1 Size Fan For Traditional Lighting System 90

1.9.2 LED Lighting System 91

1.10 Hydroponics 91

2 Plant Factory, Vertical Farming Market Shares and Forecasts

2.1 Plant Factory, Vertical Farming Market Driving Forces

2.1.1 Plant Factory Vertical Farming Benefits

2.1.2 Harvested Leafy Vegetables

2.1.3 Plant Factory Spectral Output And Color Temperature Of Light Can Be Adjusted

2.1.4 Plant Factory Vertical Farming Challenges

2.1.5 Commitment To Sustainable Agriculture

2.1.6 Wheat, Maize And Rice

2.2 Plant Factory Vertical Farming Market Shares

2.2.1 Japanese Plant Factory

2.2.2 Japan Has the Most Plant-Factories

2.2.3 Taiwan Has The World’s Most Advanced Plant-Factory Technologies

2.2.4 Taiwan Plant Factory

2.2.5 Plant Factory China Changchun Agricultural Expo Park

2.2.6 Ever Light Electronics Co. Ltd. Plant Farm

2.2.7 LED Manufacturer: Everlight Electronics

2.2.8 Spread Co

2.2.9 Han Hai Precision

2.2.10 Pacific Construction Company

2.2.11 Gotham Greens

2.2.12 AeroFarms

2.2.13 Granpa Co

2.2.14 Nihon Advanced Agri Life Science Business

2.2.15 Iwasaki Revenue

2.2.16 Iwasaki EYE Hortilux

2.2.17 Philips Plant Sensitivity For Colors Of Light

2.2.18 Philips Agrosun® Gold

2.2.19 Best Green Life Vegetable Garden LED Kit for Indoor Garden

2.2.20 Efficiency of LED Grow Lights

2.3 Plant Factory Market Forecasts

2.3.1 Plant Factory Market Segment Forecasts Dollars, Worldwide,

2.3.2 Large Warehouse Plant Factory Market Segment Forecasts Dollars, Worldwide,

2.3.3 Home / Restaurant / Apartment Plant Factory Market Forecasts

2.3.4 Community, Grocery, Employee Garden Plant Factory Market Forecasts

2.3.5 Green House – Vertical Farm Plant Factory Market Forecasts

2.3.6 Dialysis Patients

2.3.7 Development Of Plant Factories Has Challenges

2.3.8 Plant Factories Are Not Meant To Replace Traditional Agriculture

2.3.9 Visible Natural Light Has A Spectrum For Growth

2.3.10 Growth Light Spectrum Positioning

2.4 Plant Factory Prices

2.5 Plant Factory Market Control Systems

2.5.1 Plant Factory Construction Market

2.5.2 Ubiquitous Environment Control Systems

2.5.3 HPS

2.5.4 MH

2.5.5 Operating Cost Per Hour For A Light

2.5.6 Plant Factory Control Systems Solutions

2.6 Plant Factory Regional Analysis

2.6.1 Growth Markets

2.6.2 Plant Factory Operations in Japan

2.6.3 Taiwan

2.6.4 New Plant factory Construction in Japan

  1. Plant Factory Description

3.1 Plant Factories Japan

3.2 Spread Co.

3.3 Grandpa Dome

3.3.1 Granpa Co Business Description

3.3.2 Granpa Co Plant Factory Features

3.3.3 JGC / Granpa Co., Ltd.

3.4 Nihon Advanced Agri Co.,Ltd

3.4.1 Nihon Advanced Agri Life Science Business

3.4.2 Nihon Advanced Agri Control of Light Quality

3.4.3 Nihon Advanced Agri Wave Length “Wide-Band” LED Lamps

3.4.4 Nihon Advanced Agri HEFL

3.4.5 Nihon Advanced Agri Vegetable Cultivation System Using HEFL Lighting Units

3.4.6 Nihon Advanced Agri Efficient, Energy-Saving HEFL

3.4.7 Nihon Advanced Agri Cultivation Without Using Agrichemicals

3.4.8 Nihon Advanced Agri Scheduled Production For Stable Supply

3.4.9 Nihon Advanced Agri LED and HEFL Lighting System

3.5 Cosmo Farm Iwamizawa City, Hokkaido

3.6 Social Welfare Corporation Cupid-Fair Plant Factory-

3.7 Iwasaki EYE Hortilux

3.7.1 Iwasaki Electric, Ltd

3.8 Aizufujikako Co., Ltd

3.9 Ryobi Group

3.10 Plant Factories Taiwan

3.11 Ever Light Electronics Co. Ltd. Plant Farm

3.11.1 Everlight Electronics License To Develop IEDA Home Based Plant Factories

3.12 Genesis Photonics Company Taiwan Plant Factory

3.13 Han Hai Precision

3.13.1 Hon Hai Partners

3.14 Pacific Construction Company

3.15 Nano Bio Light Technology Co., Ltd.

3.16 Taiwan YaSai Lab Plant Factory Information Systems

3.17 Red Plum Plant Factory

3.18 J&D Restaurant Plant Factory Taiwan

3.19 Cal-Comp Biotech Plant Factory Taiwan

3.20 Ting-Mao Plant Factory Taiwan

3.21 Genesis Photonics Plant Farm

3.22 Wei Chuan Foods

3.22.1 Wei Chuan Foods Plant Factory Meeting Exhibit

3.23 Delta Electronics Inc (台達電) Plant Factory in Taiwan

3.24 Epistar

3.25 Formosa Epitaxy

3.26 Chinese Plant Factories

3.27 Jingpeng Plant Factory

3.28 Korea

3.29 JiSung Global Co., Ltd

3.29.1 JiSung Global BioFarm Seedling Set LED Indoor House Plant Cultivator Module

3.30 Robotech

3.31 Insung Tech Co Ltd

3.32 Best Green Life Co., Ltd.

3.32.1 Best Green Life LED Hydroponic Cultivator

3.32.2 Best Green Life LED Hydroponic Cultivator

3.32.3 Best Green Life Vegetable Garden LED Kit for Indoor Garden

3.33 Gimpo EUM Plant Factory

3.34 Chinese Plant Factories

3.35 Beijing IEDA Protected Horticulture Home Based Plant Factory

3.35.1 Institute of Environment and Sustainable Development in Agriculture (IEDA) Home-Based Plant Factory

3.35.2 Changchun Agricultural Expo Park

3.36 India

3.37 US Plant Factories

3.38 Gotham Greens

3.38.1 Gotham Greens’ Integration with Whole Foods Market

3.39 AeroFarms

3.39.1 AeroFarms Aeroponics Grows Plants In A Mist

3.39.2 AeroFarms Cloth Root Medium

3.39.3 AeroFarms LED Lighting

3.39.4 AeroFarms Modularity

3.40 Green Spirit Farms (GSF) Michigan and Pennsylvania Vertical Farms

3.40.1 Pennsylvania Builds World’s Largest Vertical Farm

3.40.2 Green Spirit Farms

3.41 Google Vertical Farms

3.42 Philips In the US

3.43 Alterrus Systems and subsidiary Local Garden Vancouver

3.44 The Greenhouse Vertical Farm in Florida

3.45 MIT CityFARM Indoor Farming

3.46 Farmed Here Vertical Farm In Bedford Park, Illinois

3.47 The Plant Vertical Farm In Illinois

3.48 Green Spirit Farms in New Buffalo, Michigan

3.49 Mega’ Indoor Vertical Farm: Chicago Suburb

3.50 Vertical ‘Pinkhouses Urban Farming

3.51 Purdue University

3.52 Caliber Biotherapeutics

3.53 Famgro Farms

3.54 Alegría Farm’s Vertical Units

3.55 European Plant Factories

3.56 Philips and Greenhouse Grower Deliscious

3.56.1 Philips / Deliscious Case Study

3.56.2 Philips Vitro Plus Plant Factory

3.56.3 Philips Plant Factory From seedling to plant under LED lighting

3.56.4 Philips Horticulture Lamps

3.57 Netherlands Plant Factories

3.57 LEDHydroponics.co.uk

3.57.1 LEDHydroponics Benefits Of LED Grow Light Technology

3.57.2 Quantum LED Lights Growing Results

3.57.3 Quantum LED Light Absorption

 

  1. Plant Factory Technology

4.1 Plant Factory Technology Leverages Buildings

4.2 Urban Vertical Plant Farm Concept

4.2.1 Mithun Architecture Vision of Urban Farming

4.3 Vertical Farming Key Technologies

4.3.1 Production Line for Plants

4.3.2 Plant Factory Light Source Control System

4.3.3 Modular Plant Factories

4.3.4 AeroFarms Aeroponics Grows Plants In A Mist

4.4 Green Spirit Farms (GSF) Vertical Farms Example

4.5 White LED Light Provides Good Wave Length For Leafy Vegetables

4.6 Red-White LED Light Good For All Vegetables

4.7 Healthy Foods

4.7.1 Plant Factory Growing of Stalk of Tsuburina

4.7.2 Salt content in Tsuburina

4.7.3 Cultivation of Tsuburina

4.7.4 Tsuburina Ingredients Have Prophylactic Effects

4.7.5 Inositol Group of Foods

4.7.6 Beta-carotene

4.7.7 Vitamin K

4.7.8 Proline

4.7.9 Minerals

4.8 Blue-white LED Light Used For Healthy Forming And Increasing Vitamins

4.9 HELF Units Relation Between Lighting Distance vs PPF

  1. Agricultural Plant Factory Company Profiles

5.1 AeroFarms

5.2 Aizufujikako Co., Ltd.

5.2.1 Aizufujikako Business Description

5.2.2 Aizufujikako Features and Selling Points

5.3 Everlight Electronics

5.3.1 Everlight Electronics Revenue

5.4 Genesis Photonics (GPI)

5.4.1 Genesis Photonics Year 2014 Revenue

5.4.2 Genesis Photonics 3D COB

5.5 Gotham Greens

5.6 Granpa Co., Ltd.

5.6.1 Business description

5.6.2 Granpa Co Features

5.6.3 JGC / Granpa Co., Ltd.

5.7 Hon Hai

5.7.1 Hon Hai Precision Ind. Co. Ltd.

5.7.2 Hon Hai Precision Industry Ltd / Foxconn

5.7.3 Hon Hai Group Plant Factories

5.7.4 Hon Hai Partners

5.7.5 Hon Hai Establishes First LED Street Light Production Line in Guizhou

5.8 Hydrofarm

5.8.1 Hydrofarm Manufacturer Of Hydroponics Equipment And High-Intensity Grow Lights

5.8.2 Hydrofarm AgroSun Gold Halide

5.9 Inventec

5.10 Iwasaki Electric

5.10.1 Iwasaki Revenue

5.10.2 Iwasaki’s Quality Oriented Culture

5.10.3 Iwasaki EYE Hortilux™

5.10.4 EYE Lighting International of North America

5.11 JGC

5.11.1 JGC / Granpa Co., Ltd.

5.12 Jingpeng Solar Powered Plant Factory

5.13 Natural Vitality

5.14 Nihon Advanced Agri Corporation

5.14.1 Nihon Advanced Agri Evolves Agriculture Into Cosmetics And Wellness

5.14.2 Nihon Advanced Agri

5.14.3 Business Description

5.14.4 Nihon Advanced Agri Features

5.14.5 Nihon Advanced Agri Plant Factory Business

5.15 Ozu Corporation

5.16 Philips Horticulture Lamps

5.16.1 Philips Lighting Positioning

5.16.2 Royal Philips Electronics of the Netherlands

5.16.3 Philips Enables Consumer Lifestyle

5.16.4 Philips Lighting

5.16.5 Philips Market Opportunity

5.16.6 Phiips Visicu

5.16.7 Philips Addresses Healthcare Landscape

5.16.8 Philips/Respironics Monitoring Solution Powered By Cinterion TC65i:

5.16.9 Royal Philips Revenue

5.16.10 Philips Healthcare Revenue

5.16.11 Philips Lighting Revenue

5.16.12 Philips Partnerships and Acquisitions

5.16.13 Philips Accelerate! Positioning

5.17 Rockwool® Group

5.17.1 Grodan Rockwool Grow Blocks

5.18 Rambridge

5.19 Ringdale ActiveLED®

5.20 Ryobi Holdings

5.20.1 Ryobi Holdings Co., Ltd. Company Information

5.20.2 Ryobi Holdings Business Description

5.20.3 Ryobi Holdings Features

5.21 Spread Co., Ltd. Company Information

5.21.1 Spread Co Business Description

5.21.2 Spread Co Features

5.22 Tingyi International / Wei Chuan Foods

List of Tables and Figures

Table ES-1
Switch Fabric Market Driving Forces
Figure ES-2
Time-Division Multiplexed (TDM) Time-Slot-Interchanger (TSI) Switch
Fabric IC Shipments Market Shares, Worldwide, Dollars, First Three Quarters 2009
Figure ES-3
Ethernet Switch Fabric IC Shipments Market Shares, Worldwide, Dollars,
First Three Quarters 2009
Table ES-4
Packet Switch Fabric IC Shipments
Market Shares, Worldwide, Dollars, First Three Quarters 2009
Figure ES-5
Switch Fabric Market Forecasts, Worldwide, Dollars,
2009-2015
Table 1-1
Data-Intensive Computing And Communications
Applications and Platforms
Table 1-2
Data-Intensive Computing And Communications Devices
Table 2-1
Switch Fabric Market Driving Forces
Figure 2-2
Time-Division Multiplexed (TDM) Time-Slot-I
nterchanger (TSI) Switch Fabric IC Shipments
Market Shares, Worldwide, Dollars, First Three Quarters 2009
Table 2-3
Time-Division Multiplexed (TDM) Time-Slot-Interchanger
(TSI) Switch Fabric IC Shipments Market Shares,
Worldwide, Dollars, First Three Quarters 2009
Figure 2-4
Ethernet Switch Fabric IC Shipments Market Shares,
Worldwide, Dollars, First Three Quarters 2009
Table 2-5
Ethernet Switch Fabric IC Shipments
Market Shares, Worldwide, Dollars, First Three
Quarters 2009
Table 2-6
Packet Switch Fabric IC Shipments
Market Shares, Worldwide, Dollars, First Three
Quarters 2009
Table 2-7
Packet Switch Fabric IC Shipments
Market Shares, Worldwide, Dollars, First Three Quarters 2009
Figure 2-8
Switch Fabric Market Forecasts, Worldwide, Dollars,
2009-2015
Table 2-9
Switch Fabric Market Forecasts, Worldwide, Dollars,
2009-2015
Table 2-10
Competitive Factors In Cloud Computing Markets
Table 2-11
Competitive Forces In Cloud Computing Markets
Table 2-12
Cloud Computing Forces Driving Adoption
Table 2-13
Types of Internet Connected Devices Likely to be
Using Mid IR Sensors That Need SOA Software To
Achieve Connectivity
Table 2-13 (Continued)
Using Mid IR Sensors That Need SOA Software To
Achieve Connectivity
Figure 3-1
Vitesse GigaStream® Chip Set Is A High Performance Synchronous Switch Fabric
Table 3-2
Vitesse GigaStream® Chip Set Is A High Performance Synchronous Switch Fabric Functions
Table 3-3
Vitesse GigaStream® Chip Set Is A High Performance Synchronous Switch Fabric Applications
Vitesse 6
Figure 3-6
Vitesse Port and Fabric Processing Blocks
Figure 3-7
Vitesse Switch Fabric
Figure 3-8
Vitesse Switch Fabric Multistage Path Alternatives
Figure 3-9
AppliedMicro Switch Fabrics
Figure 3-10
AppliedMicro Switch Fabrics
Table 3-11
AppliedMicro PRS 5G/C48X Switch Fabric Device Features
Table 3-12
AppliedMicro Switch Fabric Applications
Table 3-13
AppliedMicro PRS 20G/C192X Switch Fabric Device Features
Table 3-14
AppliedMicro PRS 20G/C192X Switch Fabric Device Applications
Table 3-15
AppliedMicro PRS 80G Switch Device
AppliedMicro PRS 5G/C48X Switch Fabric Device Applications
AppliedMicro PRS Q-80G Features
Table 3-18
AppliedMicro PRS Q-80G Switch Device Configuration
AppliedMicro PRS Q-80G Switch Device Applications
Figure 3-20
Broadcom Switch Fabric Architecture for ACTA, Access, and Embedded Applications
Broadcom Switch Fabric BCM56720 Features
Broadcom Switch Fabric BCM56720 Features
Table 3-23
Broadcom Switch Fabric BCM56720 Benefits
Table 3-24
Broadcom Switch Fabric BCM56720 Benefits
Figure 3-25
Broadcom Multiport, Multi Layer Ethernet Switching
Table 3-26
Broadcom Multiport Multilayer Ethernet Switching Functions
Table 3-27
Multiport Multilayer Ethernet Switching ContentAware™ Engine Functions
Table 3-28
Broadcom Switch Fabric BCM56720 Tunnel Support
Table 3-29
Broadcom Switch Fabric BCM56720 Service Aware Flow Control
Figure 3-30
Broadcom Multiport Multilayer Ethernet Switching Fabric
Table 3-31
Broadcom Ethernet Switch Fabrics
Table 3-32
Broadcom Switch Fabrics
Table 3-33
Broadcom BCM88130 System HIGH-PERFORMANCE PACKET SWITCH FABRIC Functions
Table 3-34
Broadcom Switch Fabric Engines provide line-card future-proofing
Table 3-35
Streaming Multicast/Broadcast Services for IPTV Efficient Multicast Capabilities
Table 3-36
Broadcom SBX fabric Applicable To The Next-Generation Carrier
Table 3-37
Broadcom BCM88130 Systems Operating Characteristics
Figure 3-38
Broadcom BCM 130 System Fabric Diagram
Figure 3-39
Broadcom BCM 130 System Line Cards and Fabric Cards
Table 3-40
Broadcom Four-Port 10-GbE/HiGig+ Multilayer Switch Features
Table 3-41
Broadcom Four-Port 10-GbE/HiGig+ Multilayer Switch Functions
Table 3-42
Broadcom Switch Fabric Enterprise Features
Table 3-43
Broadcom Switch Fabric Enterprise Applications
Table 3-45
Marvell Prestera-DX Processor Key Features
Table 3-46
Marvell Prestera-EX Multi-Layer Enterprise Switching Packet Key Features
Figure 3-47
Integrated Device Technologies Switch Fabric
Figure 3-49
Altera Switch Fabric
Table 3-50
Altera 16-Port, 256-GBPS HIGIG™/HIGIG2™ Switch Fabric Architecture
Table 3-51
Altera 16-Port, 256-GBPS HIGIG™/HIGIG2™ Switch Fabric Features
Table 3-52
Altera 16-Port, 256-GBPS HIGIG™/HIGIG2™ Switch Fabric Functions
Table 3-54
Erlang Switch Fabric Performance –
Table 3-55
Erlang Covered Attack Types for Detections –
Erlang Blocking
Figure 3-57
Erlang Technology PS2K Architecture
Table 3-58
Erlang Network Element Technology (ENET) SeI-CSIX™ Switch Fabric Advantages
Table 3-59
Erlang Network Element Technology (ENET) SeI-CSIX™ Features Switch Fabric
Figure 3-60
Erlang Network Element Technology (ENET) Switch Fabric Traffic Configuration
Table 3-61
Erlang Network Element Technology (ENET) Xe™ Switch Fabric ENET Xe™
Chipset Key Benefits
Table 3-62
Erlang Network Element Technology (ENET) ENET Xe™ Chipset Features
Table 3-55
Erlang Covered Attack Types for Detections –
Erlang Blocking
Figure 3-57
Erlang Technology PS2K Architecture
Table 3-58
Erlang Network Element Technology (ENET) SeI-CSIX™ Switch Fabric Advantages
Table 3-59
Erlang Network Element Technology (ENET) SeI-CSIX™ Features Switch Fabric
Figure 3-60
Erlang Network Element Technology (ENET) Switch Fabric Traffic Configuration
Table 3-61
Erlang Network Element Technology (ENET) Xe™ Switch Fabric ENET Xe™
Chipset Key Benefits
Table 3-62
Erlang Network Element Technology (ENET) ENET Xe™ Chipset Features
Figure 4-1
Network Service Platforms
Figure 4-2
Data Flow Through One Line Card to the System Switch Fabric Card
Figure 4-3
10G Backplane with Switch Fabric
Figure 4-4
Backplane Interface on Line Card
Figure 4-5
Backplane Interface on Switch Fabric Card
Table 4-5
Switch Fabric Technology Foundations:
Figure 5-1
Applied MicroCircuits Product Selector Guide
Figure 5-2
Broadcom Vertical Integration
Figure 5-3
Broadcom Global Presence
Figure 5-4
Broadcom Target Markets
Figure 5-5
Broadcom Diversified Revenue Distribution
Figure 5-6
Broadcom Communications Overview
Figure 5-7
Broadcom Customer Base Of Industry Leaders
Figure 5-8
Broadcom Mobile Platforms Overview
Figure 5-9
Broadcom Enterprise Networking Overview
Figure 5-10
Broadcom Wireless Connectivity Overview
Figure 5-11
Zarlink Growth Strategy

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