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Silicon Photonics Market by Product, Application and by Geography - Global Trends and Forecasts to 2014 - 2020 - Product Image

Silicon Photonics Market by Product, Application and by Geography - Global Trends and Forecasts to 2014 - 2020

  • ID: 2738854
  • February 2015
  • Region: Global
  • 165 Pages
  • Markets and Markets
The overall silicon photonics market is expected to increase at a CAGR of 27.74% from 2014 to 2020.

FEATURED COMPANIES

  • 3S Photonics
  • Das Photonics
  • Finisar Corp.
  • Hamamatsu Photonics K.K.
  • IBM
  • Infinera Corporation
  • MORE

Silicon Photonics Market by Product (Photonic Wavelength, Optical Modulators, Optical Interconnects, WDMF, LED, and Others), Application (Telecommunication, Data Communication, and Others) and by Geography - Global Trends and Forecasts to 2014 - 2020

The silicon photonics market report analyzes the ecosystem of the silicon photonics technology; and the key market, by product, includes silicon photonic waveguides, silicon optical modulators, silicon optical interconnects, wavelength division multiplexer filters, silicon led, silicon photo-detectors, and others. The report also provides the geographic view for the major regions, such as the Americas, Europe, Asia-Pacific (APAC), and the Rest of the World (RoW). It also discusses the burning issues, market dynamics, and winning imperatives for the silicon photonics market.

Silicon photonics is garnering more value due to its various features and wide range of applications. It offers various advantages, such as high speed data transfer, data integration, and small factor form; moreover, since it is an emerging technology, it has managed to attract the new industrial users. The telecommunication application held the highest READ MORE >

Note: Product cover images may vary from those shown
The overall silicon photonics market is expected to increase at a CAGR of 27.74% from 2014 to 2020.

FEATURED COMPANIES

  • 3S Photonics
  • Das Photonics
  • Finisar Corp.
  • Hamamatsu Photonics K.K.
  • IBM
  • Infinera Corporation
  • MORE

1 Introduction
1.1 Objectives of the Study
1.2 Market Definition
1.3 Markets Covered
1.4 Stakeholders
1.5 Market Scope
1.5.1 Year Consideration
1.5.2 Currency
1.5.3 Limitation

2 Research Methodology
2.1.1 Secondary Data
2.1.1.1 Key Data From Secondary Sources
2.1.2 Primary Data
2.1.2.1 Key Data From Primary Sources
2.1.2.2 Key Industry Insights
2.2 Factor Analysis
2.2.1 Introduction
2.2.2 Demand-Side Analysis
2.2.2.1 Reductions in the Cost For Optical Transmission
2.2.2.2 Growth in the 4G/LTE Deployments
2.3 Market Size Estimation
2.3.1 Bottom-Up Approach
2.3.2 Top-Down Approach
2.4 Market Breakdown & Data Triangulation
2.5 Research Assumptions and Limitations
2.5.1 Assumptions

3 Executive Summary

4 Premium Insights
4.1 Attractive Opportunities in the Silicon Photonics Market
4.2 Silicon Photonics Technology Segment
4.3 Silicon Photonics Market in North America
4.4 APAC to Command Over One-Third of the Market Share By 2020
4.5 Silicon Photonics Market: Technologies (2020)
4.6 Silicon Photonics Market: Developed vs. Developing Nations
4.7 Silicon Photonics Market: Technology(2020)

5 Market Overview
5.1 Introduction
5.2 Evolution
5.3 Market Segmentation
5.3.1 Market Segmentation: By Product
5.3.2 Market Segmentation: By Application
5.4 Market Dynamics
5.4.1 Drivers
5.4.1.1 Noticeable Rise in the Data Communication Application
5.4.1.2 Demand to Increase the Data Center Interconnect Speeds
5.4.1.3 Growing Bandwidth Requirements and Large Data Rate Transmission
5.4.1.4 Reduction in the Power Consumption of the Traditional Optical Devices
5.4.2 Restraints
5.4.2.1 Limited Commercialization
5.4.2.2 Risk of Thermal Effect
5.4.3 Opportunities
5.4.3.1 Funding Provided By the Governments
5.4.3.2 Emerging Applications of Silicon Photonics
5.4.4 Challenges
5.4.4.1 Inefficient Electroluminescence
5.4.5 Burning Issue
5.4.5.1 Adaptable to Different Communication Systems

6 Industry Trends
6.1 Introduction
6.2 Value Chain Analysis
6.3 Supply Chain Analysis
6.4 Key Influencers
6.5 Porter’s Five Forces Analysis
6.5.1 Threat of New Entrants
6.5.2 Threat of Substitutes
6.5.3 Bargaining Power of Suppliers
6.5.4 Bargaining Power of Buyers
6.5.5 Intensity of Competitive Rivalry

7 Market, By Product
7.1 Introduction
7.2 Silicon Photonic Waveguides
7.2.1 Planar Waveguides
7.2.2 Strip Waveguides
7.2.3 RIB Waveguides
7.2.4 Fiber Waveguide
7.3 Silicon Optical Modulators
7.3.1 Absorptive Modulators
7.3.1.1 Franz-Keldysh Effect
7.3.1.2 Quantum-Confined Stark Effect
7.3.1.3 Plasma Dispersion Effect
7.3.2 Refractive Modulators
7.3.2.1 Electro-Optic Effect
7.3.2.2 Magneto-Optic Effect
7.3.2.3 Thermo-Optic Effect
7.3.2.4 Polarization Change in Liquid Crystals
7.4 Silicon Optical Interconnects
7.4.1 Intra-Chip Interconnects
7.4.2 Inter-Chip Interconnects
7.4.3 Backplane Interconnects
7.5 Wavelength Division Multiplexer Filters
7.6 Silicon LED
7.7 Silicon Photo-Detectors
7.8 Other Silicon Photonics Product Devices

8 Market By Application (Page No. - 94)
8.1 Introduction
8.2 Telecommunications
8.3 Data Communication
8.4 Commercial Video
8.5 Metrology & Sensors
8.6 Consumer Electronics
8.7 Medical
8.8 Robotics
8.9 Military
8.1 Others
8.11 Emerging Silicon Photonics Applications

9 Market By Geography
9.1 Introduction
9.2 America
9.3 Europe
9.4 Asia-Pacific
9.5 ROW

10 Competitive Landscape
10.1 Overview
10.2 Market Share Analysis Silicon Photonics Market
10.3 Competitive Situation and Trends
10.3.1 New Product Launches
10.3.2 Agreements,Partnerships,Collaborations,& Joint Ventures
10.3.3 Mergers and Acquisitions
10.3.4 Expansions
10.3.5 Others

11 Company Profiles
11.1 Introduction
11.2 Das Photonics
11.2.1 Business Overview
11.2.2 Products Portfolio
11.2.3 Key Strategy
11.3 Finisar Corp.
11.3.1 Business Overview
11.3.2 Products Portfolio
11.3.3 Recent Developments
11.3.4 MNM View
11.3.4.1 Key Strategy
11.3.4.2 SWOT Analysis
11.4 Hamamatsu Photonics K.K.
11.4.1 Business Overview
11.4.2 Products Portfolio
11.4.3 Recent Developments
11.4.4 MNM View
11.4.4.1 Key Strategy
11.4.4.2 SWOT Analysis
11.5 Intel Corporation
11.5.1 Business Overview
11.5.2 Products Portfolio
11.5.3 Recent Developments
11.5.4 MNM View
11.5.4.1 Key Strategy
11.5.4.2 SWOT Analysis
11.6 IBM
11.6.1 Business Overview
11.6.2 Products Portfolio
11.6.3 Recent Developments
11.6.4 MNM View
11.6.4.1 Key Strategy
11.6.4.2 SWOT Analysis
11.7 Luxtera Incorporated
11.7.1 Business Overview
11.7.2 Products Portfolio
11.7.3 Recent Developments
11.7.4 Key Strategy
11.8 Mellanox Technologies
11.8.1 Business Overview
11.8.2 Products Portfolio
11.8.3 Recent Developments
11.8.4 Key Strategy
11.9 3S Photonics
11.9.1 Business Overview
11.9.2 Productsportfolio
11.9.3 Recent Developments
11.9.4 Key Strategy
11.1 Oclaro, Inc.
11.10.1 Business Overview
11.10.2 Products and Services
11.10.3 Recent Developments
11.10.4 Key Strategy
11.11 Stmicroelectronics.
11.11.1 Business Overview
11.11.2 Products & Services
11.11.3 Recent Developments
11.11.4 MNM View
11.11.4.1 Key Strategy
11.11.4.2 SWOT Analysis
11.12 Infinera Corporation
11.12.1 Business Overview
11.12.2 Products & Services
11.12.3 Recent Developments
11.12.4 Key Strategy

12 Appendix
12.1 Insights of Industry Experts
12.2 Discussion Guide
12.3 Introducing RT: Real Time Market Intelligence
12.4 Available Customizations
12.5 Related Reports

List of Tables (70 Tables)

Table 1 Regional 4G Connections Growth, 2013 vs. 2018
Table 2 Demand to Increase the Data Center Interconnect Speeds is Driving the Growth of the Silicon Photonics Market
Table 3 the Risk of Thermal Effect is Restraining the Growth of Silicon Photonics
Table 4 Emerging Applications of Silicon Photonics Are Encouraging New Growth Avenues For Players in the Silicon Photonics Market
Table 5 Quantification of the Porter’s Five Forces Analysis
Table 6 Silicon Photonics, Market By Product, 2014-2020 ($Million)
Table 7 Silicon Waveguides Market Size in Silicon Photonics Market, By Types, 2014-2020 ($Million)
Table 8 Silicon Waveguides Market, By Application (2014-2020) $Million
Table 9 Silicon Photonic Waveguides Market, By Geography, 2014 – 2020 ($Million)
Table 10 Silicon Photonic Planar Waveguides Market, By Geography, 2014 – 2020 ($Million)
Table 11 Silicon Photonic Strip Waveguides Market, By Geography,2014 – 2020 ($Million)
Table 12 Silicon Photonic RIB Waveguides Market, By Geography 2014 – 2020 ($Million)
Table 13 Silicon Photonic Fiber Waveguides Market, By Geography 2014 – 2020 ($Million)
Table 14 Silicon Photonic Optical Modulators Market, By Types, 2014-2020 ($Million)
Table 15 Optical Modulator Market, By Application (2014-2020) $Million
Table 16 Silicon Photonic Optical Modulators Market, By Geography, 2014 – 2020 ($Million)
Table 17 Silicon Photonic Absorptive Modulators Market, By Geography, 2014 – 2020 ($Million)
Table 18 Silicon Photonic Absorptive Modulators Market, By Type, 2014-2020 ($Million)
Table 19 Silicon Photonic Franz-Keldysh Market, By Geography, 2014 – 2020 ($Million)
Table 20 Silicon Photonic Quantum-Confined Stark Market, By Geography, 2014 – 2020 ($Million)
Table 21 Silicon Photonic Plasma Dispersion Absorptive Modulators Market, By Geography 2014 – 2020 ($Million)
Table 22 Silicon Photonic Refractive Modulators Market, By Type, 2014-2020 ($Million)
Table 23 Silicon Photonic Refractive Modulators Market, By Geography, 2014 – 2020 ($Million)
Table 24 Silicon Photonic Electro-Optic Market, By Geography 2014 – 2020 ($Million)
Table 25 Silicon Photonic Magneto-Optic Market, By Geography 2014 – 2020 ($Million)
Table 26 Silicon Photonic Thermo-Optic Market, By Geography 2014– 2020 ($Million)
Table 27 Silicon Photonic Polarization Changes in Liquid Crystals Market, By Geography 2014 – 2020 ($Million)
Table 28 Silicon Photonic Optical Interconnects Market, By Product Type 2014-2020 ($Million)
Table 29 Silicon Optical Interconnects Market, By Application 2014-2020($Million)
Table 30 Silicon Photonic Optical Interconnects Market, By Geography 2014 – 2020 ($Million)
Table 31 Wavelength Division Multiplexer Filters Market, By Application 2014-2020 ($Million)
Table 32 Silicon Photonic Wavelength Division Multiplexer Filters Market, By Geography 2014 – 2020 ($Million)
Table 33 Silicon LED Market, By Application 2014-2020 ($Million)
Table 34 Silicon Photonic LED Market, By Geography 2014 – 2020 ($Million)
Table 35 Silicon Photo-Detectors Market, By Application 2014-2020 ($Million)
Table 36 Silicon Photonic Photo-Detector Market, By Geography 2014 – 2020 ($Million)
Table 37 Others Market, By Application 2014-2020 ($Million)
Table 38 Silicon Photonic Others Market, By Geography 2014 – 2020 ($Million)
Table 39 Silicon Photonics Market Size, By Devices 2014-2020 $(Million)
Table 40 Silicon Photonics, Market By Application 2014-2020 ($Million)
Table 41 Telecommunication Market, By Product 2014-2020 ($Million)
Table 42 Data Communication Market By Product 2014-2020 $(Million)
Table 43 Commercial Video Market By Product 2014-2020 $(Million)
Table 44 Metrology & Sensors Market By Product 2014-2020 $(Million)
Table 45 Consumer Electronics Market By Product 2014-2020 $(Million)
Table 46 Medical Market By Product 2014-2020 $(Million)
Table 47 Robotics Market By Product 2014-2020 $(Million)
Table 48 Military Market, By Product (2014-2020) $(Million)
Table 49 Others Market By Product 2014-2020 $(Million)
Table 50 Emerging Applications of Silicon Photonics
Table 51 Silicon Photonic Market, By Geography, 2014 – 2020 ($Million)
Table 52 North America: SI Photonics Market Revenue, By Products, 2014– 2020 ($Million)
Table 53 North America: SI Photonic waveguide Market, By Type, 2014– 2020 ($Million)
Table 54 North America: SI Optical Modulator Market, By Type, 2014– 2020 ($Million)
Table 55 North America: Silicon Photonic Absorptive Modulators Market, By Type, 2014 – 2020 ($Million)
Table 56 Europe: SI Photonics Market Revenue, By Products, 2014– 2020 ($Million)
Table 57 Europe: Silicon Photonic Absorptive Modulators Market, By Type, 2014 – 2020 ($Million)
Table 58 APAC: SI Photonics Market Revenue, By Products, 2014– 2020 ($Million)
Table 59 APAC: SI Photonic waveguide Market, By Type, 2014– 2020 ($Million)
Table 60 APAC: SI Optical Modulator Market, By Type, 2014– 2020 ($Million)
Table 61 APAC: Silicon Photonic Absorptive Modulators Market, By Type, 2014 – 2020 ($Million)
Table 62 ROW: SI Photonics Market Revenue, By Products, 2014– 2020 ($Million)
Table 63 ROW: SI Photonic waveguide Market, By Type, 2014– 2020 ($Million)
Table 64 ROW: SI Optical Modulator Market, By Type, 2014– 2020 ($Million)
Table 65 ROW: Silicon Photonic Absorptive Modulators Market, By Type, 2014 – 2020 ($Million)
Table 66 New Product Launches, 2014
Table 67 Agreements, Partnerships, Collaborations, & Joint Ventures,2013-2014
Table 68 Mergers and Acquisitions, 2011-2014
Table 69 Expansions, 2012 and 2013
Table 70 Awards, 2014

List of Figures (90 Figures)

Figure 1 Silicon Photonics Market, By Application
Figure 2 Research Methodology
Figure 3 Breakdown of Primary Interviews: By Company Type, Designation & Region
Figure 4 Reduction in the Size of DRAM
Figure 1 Mobile Data Traffic, By Technology, 2013-2018
Figure 2 Operational and Planned 4G/LTE Networks, By Region, 2013
Figure 3 Market Size Estimation Methodology: Bottom-Up Approach
Figure 4 Market Size Estimation Methodology: Top-Down Approach
Figure 5 Assumptions
Figure 6 Silicon Photonics Products Market Snapshot (2014 vs. 2020): Market For Silicon Wavelength Division Multiplexer Filters is Expected to Double During the Forecast Period
Figure 7 Devices Market Snapshot (2013 vs. 2020): the Market For Optical Switches is Expected to Double During the Forecast Period
Figure 8 Silicon Photonics Market, By Application, 2014
Figure 9 Silicon Photonics Market Share, 2014
Figure 10 Emerging Opportunities in the Silicon Photonics Market
Figure 11 The Medical Application to Grow at A Faster Rate in the Silicon Photonics Market
Figure 12 The Telecommunication Application Captured the Major Share in the Emerging North American Market in 2014
Figure 13 The APAC Region is Expected to Hold Over One-Third of the Market Share
Figure 14 The Silicon Photonics Wavelength Division Multiplexers Will Continue to Dominate the North American Market
Figure 15 The Developing Markets to Grow Two Times Faster Than the Developed Ones
Figure 16 The Absorptive Modulators Have A Promising Future in the Emerging Economies of the ROW Region
Figure 17 Evolution of Silicon Photonics
Figure 18 Market Segmentation: By Product
Figure 19 Silicon Photonics Market: By Application
Figure 20 Reference Diagram
Figure 21 Value Chain Analysis (2014): Major Value is Added During Designing and Fabrication
Figure 22 Supply Chain: Direct Distribution is the Most Preferred Strategy Followed By the Prominent Players
Figure 23 Porter’s Five Forces Analysis of the Silicon Photonics Market
Figure 24 Threat of New Entrants
Figure 25 Threat of Substitutes
Figure 26 Bargaining Power of Suppliers
Figure 27 Bargaining Power of Buyers
Figure 28 Intensity of Competitive Rivalry
Figure 29 WDMF is Expected to Dominate the Silicon Photonics Market Till 2020
Figure 30 Silicon Photonics: Market By Product
Figure 31 Data Communication is Expected to Dominate the Silicon Waveguides Market By 2020
Figure 32 APAC is Expected to Grow Fast in Silicon Photonic Planar Waveguides Market
Figure 33 Europe Will Dominate Silicon Photonic RIB Waveguides Market By 2020
Figure 34 Refractive Modulators Are Expected to Grow at A Faster Rate in Silicon Photonics Optical Modulators Market
Figure 35 North America Dominated the Silicon Photonics Optical Modulators Market in 2014
Figure 36 Telecommunication and Data Communication Applications Are Driving the Growth of Absorptive Modulators Market
Figure 37 North America Dominated the Franz-Keldysh Effect Based Absorptive Modulators Market in 2014
Figure 38 APAC is Expected to Grow the Fastest in Refractive Modulators Market
Figure 39 Operating Modes in Refractive Modulators
Figure 40 North America Will Dominate Thermo-Optic Effect Based Refractive Modulators Market in 2020
Figure 41 Intra-Chip Optical Interconnects Would Have Huge Potential in the Development of Integrated Circuits and Processes in Coming Years
Figure 42 High Speed Data Communication is Driving the Growth of Optical Interconnects in APAC
Figure 43 Silicon Optical Interconnects Types
Figure 44 Data Communication Will Dominate the WDMF Market By 2020
Figure 45 Europe is Expected to Grow at A Faster Rate Than Other Region in WDMF Market
Figure 46 North America Accounted Largest Share in the Silicon Photonic LED Market in 2014
Figure 47 APAC is Expected to Grow at A Faster Rate in Silicon Photonic Photo-Detector Market
Figure 48 Optical Switches is Expected to Dominate Silicon Photonics Market, By Devices in 2020
Figure 49 Types of Applications
Figure 50 Growing Bandwidth Requirements is Driving the Growth of Data Communication in Silicon Photonics Market
Figure 51 WDMF Will Continue to Dominate the Data Communication Application Market Till 2020
Figure 52 Silicon LED Market is Expected to Grow Faster Than Other Products in Commercial Video Application
Figure 53 WDMF Accounted the Largest Share in Medical Application For Silicon Photonics Market
Figure 54 Silicon LED Products Market is Expected to Grow at A Faster Rate in Robotics Application
Figure 55 Market By Geography
Figure 56 APAC is Expected to Grow at A Faster Rate With Highest CAGR
Figure 57 North America Market Snapshot: Demand Will Be Driven By Voltage Source Converters Technology By 2020
Figure 58 Silicon LED to Likely to Witness the Highest Growth in the North America Si Photonics Market
Figure 59 Absorptive Modulators Occupies A Large Share of Si Optical Modulator Market in 2014
Figure 60 Silicon LED Market to Grow is Expected to Grow in Future High CAGR
Figure 61 Plasma Dispersion Effect to Grow at A Faster Rate in Europe Contributing to Si Photonics Absorptive Modulators Market
Figure 62 Asia-Pacific Silicon Photonics Market Snapshot
Figure 63 Silicon LED to Witness A High Growth in APAC Region By 2020
Figure 64 Refractive Modulators is Expected to Grow By 2020 in Si Optical Modulator Market
Figure 65 Silicon Waveguides is Expected to Grow in ROW By 2020
Figure 66 RIB Occupy A Large Share in 2014 But Planar is Expected to Grow By 2020
Figure 67 Quantum Confined Stark Effect to Grow in ROW By 2020 at Highest CAGR
Figure 68 Companies Adopted Product Innovation and Partnerships, Agreements, and Collaborations as the Key Growth Strategies, Over the Last Three Years
Figure 69 IBM Grew at the Fastest Rate Between 2010 and 2013
Figure 70 Silicon Photonics Market Share, By Key Player, 2013
Figure 71 Battle For Market Share: New Product Launches Was the Key Strategy Between 2011 and 2014
Figure 72 Battle For Market Share: New Product Launches Was the Key Strategy
Figure 73 Geographic Revenue Mix of Top 5 Market Players
Figure 74 Competitive Benchmarking of Key Market Players(2010-2013): Intel Corp. and Finisar Corp. to Grow at A Faster Rate
Figure 75 Das Photonics: Business Overview
Figure 76 Powermat Technologies Ltd: Business Overview
Figure 77 Finisar Corp: SWOT Analysis
Figure 78 Hamamatsu Photonics K.K.: Business Overview
Figure 79 Hamamatsu Photonics K.K: SWOT Analysis
Figure 80 Intel Corporation.: Business Overview
Figure 81 Intel Corporation: SWOT Analysis
Figure 82 IBM: Business Overview
Figure 83 IBM: SWOT Analysis
Figure 84 Luxtera Incorporated : Business Overview
Figure 85 Mellanox Technologies.: Business Overview
Figure 86 3S Photonics: Business Overview
Figure 87 Oclaro, Inc.: Business Overview
Figure 88 Stmicroelectronics.: Business Overview
Figure 89 Stmicroelectronics: SWOT Analysis
Figure 90 Infinera Corporation: Business Overview

Note: Product cover images may vary from those shown
The overall silicon photonics market is expected to increase at a CAGR of 27.74% from 2014 to 2020.

FEATURED COMPANIES

  • 3S Photonics
  • Das Photonics
  • Finisar Corp.
  • Hamamatsu Photonics K.K.
  • IBM
  • Infinera Corporation
  • MORE

Silicon photonics is perceived as a long-term strategic solution for the high speed data transfer, using optical rays in order to transfer data between different computer chips and peripherals. It offers various products including silicon photonics waveguides, silicon optical modulators, silicon optical interconnects, wavelength division multiplexer filters, silicon LED, and silicon photo- detectors. It focuses on the data integration and cost reduction occurred by various components together, and presents it in a small factor form. The silicon photonics wavelength division multiplexer filter products are expected to be used extensively in the coming future, as these devices are one of the major components used in the ever growing telecommunication and data communication application sectors. These products will be followed by the silicon modulators and interconnects due to their potential use in the long haul optical networks.

In the market for silicon photonics applications, telecommunication held the largest share in 2013; however, the data communication application is expected to grow in the future due to its potential to satisfy the need for high performance computing and higher data transfer rates required by the data communication application. The telecommunication and data communication applications are expected to be high in the coming seven years. Americas is the leader in the silicon photonics market by geography, while the APAC region is expected to grow by 2020.

This report describes the market trends, drivers, restraints, opportunities, and challenges for the silicon photonics market; and forecasts of this market from 2014 to 2020 on the basis of the product, application, and geography. This report covers geographies such as Americas, Europe, APAC, and RoW (Rest of the World).

The major companies involved in this market are Intel Corporation (U.S.), Hamamatsu Photonics, K.K (Japan), Finisar Corporation (U.S.), IBM Corp. (U.S.), Luxtera, Inc. (California), ST Microelectronics (Switzerland), 3s Photonics (France), Oclaro Inc. (U.S.), Mellanox technologies (U.S.), and Infinera Inc. (U.S.).

The overall silicon photonics market is expected to increase at a CAGR of 27.74% from 2014 to 2020. The high speed data transfer, data integration, availability of compact devices, and increased adoption by the major industry players are the main reasons behind the increase in this market.

Note: Product cover images may vary from those shown
The overall silicon photonics market is expected to increase at a CAGR of 27.74% from 2014 to 2020.

- 3S Photonics
- Das Photonics
- Finisar Corp.
- Hamamatsu Photonics K.K.
- IBM
- Infinera Corporation
- Intel Corporation
- Luxtera Incorporated
- Mellanox Technologies
- Oclaro, Inc.
- Stmicroelectronics.

Note: Product cover images may vary from those shown
Note: Product cover images may vary from those shown

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