Optical Interconnect Market by Product Category (Cable Assemblies, Connectors, Optical Transceivers), Interconnect Level, Fiber Mode, Data Rate, Distance, Application (Data Communication, Telecommunication), Region - Global Forecast to 2025

光相互接続の世界市場予測(~2025):製品カテゴリ別、インターコネクトレベル別、ファイバーモード別、データレート別、距離別、用途別、地域別

◆タイトル:Optical Interconnect Market by Product Category (Cable Assemblies, Connectors, Optical Transceivers), Interconnect Level, Fiber Mode, Data Rate, Distance, Application (Data Communication, Telecommunication), Region - Global Forecast to 2025
◆商品コード:SE 4656
◆調査・発行会社:MarketsandMarkets
◆発行日:2020年5月28日
◆ページ数:183
◆レポート形式:PDF / 英語
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【レポートの概要】

MarketsandMarkets社は光相互接続の世界市場が2020年90億ドルから2025年171億ドルまで、年平均13.7%成長すると見込んでいます。本調査レポートでは、光相互接続の世界市場を詳細に調査・分析し、イントロダクション、調査手法、エグゼクティブサマリー、プレミアムインサイト、市場概要、ケーススタディ、製品カテゴリー別(ケーブルアセンブリ、コネクタ、光トランシーバー、自由空間光学・ファイバー・ウェーブガイド)分析、エンドユース産業別分析、相互接続レベル別分析、ファイバーモード別分析、データレート別分析、距離別分析、用途別分析、地域別分析、競争状況、会社評価マトリックス、企業概要などを含め、提供しております。
・イントロダクション
・調査手法
・エグゼクティブサマリー
・プレミアムインサイト
・市場概要
・ケーススタディ
・光相互接続の世界市場規模:製品カテゴリー別(ケーブルアセンブリ、コネクタ、光トランシーバー、自由空間光学・ファイバー・ウェーブガイド)
・光相互接続の世界市場規模:エンドユース産業別
・光相互接続の世界市場規模:相互接続レベル別
・光相互接続の世界市場規模:ファイバーモード別
・光相互接続の世界市場規模:データレート別
・光相互接続の世界市場規模:距離別
・光相互接続の世界市場規模:用途別
・光相互接続の世界市場規模:地域別
・競争状況
・会社評価マトリックス
・企業概要

“The optical interconnect market is projected to grow at CAGR of 13.7% from 2020 to 2025.”
The optical interconnect market is projected to grow from USD 9.0 billion in 2020 to USD 17.1 billion by 2025; it is expected to grow at a CAGR of 13.7% from 2020 to 2025. Key factors fueling the growth of this market include the rise in the global deployment of datacenters and surge in the global adoption of cloud computing, big data analytics, and IoT. However, high deployment costs of optical interconnects are expected to hinder the growth of the market.

“The 41 Gbps to 100 Gbps data rate segment held the largest share of the optical interconnect market in 2019.”
The 41 Gbps to 100 Gbps segment of the optical interconnect market is projected to grow at the highest CAGR from 2020 to 2025. The growth of this segment can be attributed to the increased deployment of 41 Gbps to 100 Gbps optical interconnects in datacenters and 5G network infrastructures as they offer high data transfer rate with a small footprint and low power consumption. Companies offering these optical interconnects are focusing on developing highly efficient interconnects to fulfill the increased demand for high data transfer rates from end users. For instance, in September 2019, Fujitsu Optical Component Limited (a subsidiary of Fujitsu Ltd. (Japan)) expanded its optical interconnect portfolio by adding I-Temp 100G QSFP28 transceiver to it. Initiatives like these are expected to drive the growth of the market in coming years.

“The board-to-board and rack-level optical interconnect segment held the largest share of the optical interconnect market in 2019.”
In 2019, the board-to-board and rack-level optical interconnect segment held the largest share of the optical interconnect market. The growth of this segment of the market can be attributed to the increased demand for optical interconnects for data communication in datacenters, as well as in high-performance computing and cloud computing applications. Moreover, the growing global adoption of AI, machine learning, and IoT has also contributed significantly to the increased demand for high-performance computing applications and datacenters, thereby leading to the growth of the board-to-board and rack-level optical interconnect segment of the market.

“The PIC-based interconnects segment of the optical interconnect market is projected to grow at the highest CAGR during the forecast period.”
The PIC-based interconnects segment of the market is projected to grow at the highest CAGR during the forecast period. The major factor contributing to the growth of this segment is the growing adoption of PIC-based interconnects in 5G, cloud-computing services, IoT, Industry 4.0, car-to-car communication, and intra-datacenter interconnections. These PIC-based interconnects are easy and cost-effective to manufacture, thereby leading to their high-volume production.

“The optical interconnect market in APAC is projected to grow at the highest CAGR during the forecast period.”
The optical interconnect market in APAC is projected to grow at the highest CAGR from 2020 to 2025. The growth of the market in this region can be attributed to the increased adoption of advanced technologies such as AI, IoT, and big data in the region that have led to rise in the deployment of datacenters in APAC. Major datacenter companies such as Amazon (US), Facebook (US), Alibaba (China), and Baidu (China) have already established their datacenters in the region, thereby driving the growth of the optical interconnect market in APAC. The growth of the market in APAC can also be attributed to the increased demand for high bandwidth networks for broadband and mobile connectivity in China and India. Moreover, initiatives to roll out 5G network services across 50 cities in China are also fueling the growth of the market in APAC.

Breakdown of profiles of primary participants:
• By Company: Tier 1 = 45%, Tier 2 = 35%, and Tier 3 = 20%
• By Designation: C-level Executives = 35%, Managers = 43%, and Others (sales managers, marketing managers, and product managers, as well as members of various organizations) = 22%
• By Region: North America= 33%, Europe= 30%, APAC= 24%, and RoW= 13%

Major players profiled in this report:
• II-VI Incorporated (US)
• Lumentum Operations LLC (US)
• Molex, LLC (US)
• InnoLight Technology (Suzhou) Ltd. (China)
• NVIDIA Corporation (US)
• Fujitsu Ltd. (Japan)
• Sumitomo Electric Industries, Ltd. (Japan)
• Broadcom Inc. (US)
• TE Connectivity (Switzerland)
• Infinera Corporation (US)

Research coverage
This report offers detailed insights into the optical interconnect market based on product category, interconnect level, fiber mode, data rate, distance, application, and region. Based on the product category, the optical interconnect industry has been segmented into cable assemblies; connectors; optical transceivers; free space optics, fiber, and waveguides; silicon photonics; PIC-based interconnects; and optical engines. Based on the interconnect level, the market has been divided into metro and long-haul optical interconnect, board-to-board and rack-level optical interconnect, and chip- and board-level optical interconnect. Based on fiber mode, the optical interconnect market has been classified into single mode fiber and multimode fiber. Based on the data rate, the optical interconnect market has been classified into less than 10 Gbps, 10 Gbps to 40 Gbps, 41 Gbps to 100 Gbps, and more than 100 Gbps. Based on distance, the optical interconnect market has been segmented into less than 1 km, 1 km to 10 km, 11 km to 100 km, and more than 100 km. Based on application, the optical interconnect market has been classified into data communication and telecommunication. The market has been studied for North America, Europe, APAC, and RoW.

Reasons to buy the report
The report is expected to help market leaders/new entrants in this market in the following ways:
1. This report segments the optical interconnect market comprehensively and provides the closest approximations of the overall size of the market, as well as its segments and subsegments.
2. The report is expected to help stakeholders understand the pulse of the market and provide them with information about key drivers, restraints, challenges, and opportunities.
3. This report aims at helping stakeholders in obtaining an improved understanding of their competitors and gaining insights to enhance their position in the market. The competitive landscape section includes the competitor ecosystem of the market, as well as growth strategies such as new product launches and developments, acquisitions, collaborations, contracts, and expansions adopted by key market players.

【レポートの目次】

1 INTRODUCTION (Page No. – 21)
1.1 STUDY OBJECTIVES
1.2 MARKET DEFINITION AND SCOPE
1.2.1 INCLUSIONS AND EXCLUSIONS
1.3 MARKETS COVERED
1.3.1 GEOGRAPHIC SCOPE
1.3.2 YEARS CONSIDERED
1.4 CURRENCY
1.5 LIMITATIONS
1.6 MARKET STAKEHOLDERS
1.7 SUMMARY OF CHANGES

2 RESEARCH METHODOLOGY (Page No. – 26)
2.1 RESEARCH DATA
2.1.1 SECONDARY DATA
2.1.1.1 List of major secondary sources
2.1.1.2 Secondary sources
2.1.2 PRIMARY DATA
2.1.2.1 Breakdown of primaries
2.1.2.2 Key data from primary sources
2.2 MARKET SIZE ESTIMATION
2.2.1 BOTTOM-UP APPROACH
2.2.1.1 Approach for capturing market size using bottom-up analysis (demand side)
2.2.2 TOP-DOWN APPROACH
2.2.2.1 Approach for capturing market share using top-down analysis (supply side)
2.3 MARKET BREAKDOWN AND DATA TRIANGULATION
2.4 RESEARCH ASSUMPTIONS

3 EXECUTIVE SUMMARY (Page No. – 37)

4 PREMIUM INSIGHTS (Page No. – 41)
4.1 ATTRACTIVE GROWTH OPPORTUNITIES IN OPTICAL INTERCONNECT MARKET
4.2 MARKET, BY COUNTRY
4.3 MARKET, BY REGION
4.4 MARKET, BY APPLICATION AND REGION

5 MARKET OVERVIEW (Page No. – 43)
5.1 INTRODUCTION
5.2 MARKET DYNAMICS
5.2.1 DRIVERS
5.2.1.1 Rise in global deployment of datacenters
5.2.1.2 Surge in global adoption of cloud computing, big data analytics, and IoT
5.2.2 RESTRAINTS
5.2.2.1 High deployment costs of optical interconnects
5.2.2.2 Data losses suffered during high-frequency long-distance data transmission
5.2.3 OPPORTUNITIES
5.2.3.1 Increase in use of optical interconnects in high-performance computing applications
5.2.3.2 Rise in demand for chip-level optical interconnects used in multicore processors and 3D chips
5.2.3.3 Continuous developments in 5G network infrastructures
5.2.4 CHALLENGES
5.2.4.1 Continuous requirement to optimize size of optical interconnects
5.3 VALUE CHAIN ANALYSIS
5.3.1 OPTICAL INTERCONNECT VALUE CHAIN
5.4 COVID-19 IMPACT ON OPTICAL INTERCONNECT MARKET

6 CASE STUDIES (Page No. – 52)
6.1 INTRODUCTION
6.2 OAK RIDGE NATIONAL LABORATORY (US)
6.3 OLYMPIA EYE & LASER CENTRE (NAMIBIA)
6.4 EUROPEAN CENTRE FOR MEDIUM-RANGE WEATHER FORECASTS (UK)

7 OPTICAL INTERCONNECT MARKET, BY PRODUCT CATEGORY (Page No. – 53)
7.1 INTRODUCTION
7.2 CABLE ASSEMBLIES
7.2.1 INDOOR CABLE ASSEMBLIES
7.2.1.1 High demand for indoor cable assemblies for intra-datacenter interconnections
7.2.2 OUTDOOR CABLE ASSEMBLIES
7.2.2.1 Rise in adoption of outdoor cable assemblies for long-distance data transmission
7.2.3 ACTIVE OPTICAL CABLES
7.2.3.1 Surge in demand for AOCs for short-distance multilane data communication and interconnection applications
7.2.4 MULTI-SOURCE AGREEMENTS
7.2.4.1 QSFP
7.2.4.1.1 QSFP multi-source agreements support Ethernet, fiber channels, and SONET/SDH standards
7.2.4.2 CXP
7.2.4.2.1 High demand for CXP multi-source agreements for 100G applications
7.2.4.3 CFP
7.2.4.3.1 CFP multi-source agreements enable 40, 100, and 400 Gbps data transmissions
7.2.4.4 CDFP
7.2.4.4.1 Increase in adoption of CDFP multi-source agreements in telecommunication applications
7.2.4.5 Others
7.3 CONNECTORS
7.3.1 LC CONNECTORS
7.3.1.1 Significant demand for LC connectors owing to low insertion losses and high density
7.3.2 SC CONNECTORS
7.3.2.1 Increased adoption of SC connectors in telecommunication networks
7.3.3 ST CONNECTORS
7.3.3.1 Surged demand for ST connectors in LAN and data processing network applications
7.3.4 MPO/MTP CONNECTORS
7.3.4.1 Increased adoption of MPO/MTP connectors in telecommunication and Gigabit Ethernet applications
7.4 OPTICAL TRANSCEIVERS
7.4.1 SIGNIFICANT DEVELOPMENTS IN OPTICAL TRANSCEIVERS WITH ADVENT OF TRANSCEIVERS WITH 10, 40, 100, AND 400 GBPS DATA RATE
7.5 FREE SPACE OPTICS, FIBER, AND WAVEGUIDES
7.5.1 FREE SPACE OPTICS, FIBERS, AND WAVEGUIDES USE FREE AIR TO TRANSMIT DATA
7.6 SILICON PHOTONICS
7.6.1 LOW- COST AND HIGH-VOLUME ASSEMBLY OF SEMICONDUCTORS ENABLED BY SILICON PHOTONICS
7.7 PIC-BASED INTERCONNECTS
7.7.1 PIC-BASED INTERCONNECTS SEGMENT OF MARKET TO GROW AT HIGHEST CAGR FROM 2020 TO 2025
7.8 OPTICAL ENGINES
7.8.1 OPTICAL ENGINES COMPRISE LOW POWER CONSUMPTION AND HIGHEST-DENSITY OPTICAL INTERFACES

8 OPTICAL INTERCONNECT MARKET, BY INTERCONNECT LEVEL (Page No. – 64)
8.1 INTRODUCTION
8.2 METRO AND LONG-HAUL OPTICAL INTERCONNECT
8.2.1 RISE IN ADOPTION OF METRO AND LONG-HAUL OPTICAL INTERCONNECT FOR TELECOMMUNICATION NETWORKS
8.3 BOARD-TO-BOARD AND RACK-LEVEL OPTICAL INTERCONNECT
8.3.1 INCREASE IN DEMAND FOR BOARD-TO-BOARD AND RACK-LEVEL OPTICAL INTERCONNECTIONS FOR FAST AND GREEN SYSTEMS
8.4 CHIP- AND BOARD-LEVEL OPTICAL INTERCONNECT
8.4.1 SURGE IN USE OF CHIP- AND BOARD-LEVEL OPTICAL INTERCONNECTIONS FOR DATACENTERS

9 OPTICAL INTERCONNECT MARKET, BY FIBER MODE (Page No. – 74)
9.1 INTRODUCTION
9.2 SINGLE MODE FIBER
9.2.1 SINGLE MODE FIBERS REDUCE DATA LOSSES IN LONG-DISTANCE DATA TRANSMISSIONS
9.3 MULTIMODE FIBER
9.3.1 STEP-INDEX MULTIMODE FIBER
9.3.1.1 Rise in use of step-index multimode fibers in short-distance applications
9.3.2 GRADED-INDEX MULTIMODE FIBER
9.3.2.1 Surge in demand for graded-index multimode fibers for less attenuation and high bandwidth signal transmissions

10 OPTICAL INTERCONNECT MARKET, BY DATA RATE (Page No. – 79)
10.1 INTRODUCTION
10.2 LESS THAN 10 GBPS
10.2.1 HIGH DEMAND FOR OPTICAL INTERCONNECTS WITH LESS THAN 10 GBPS DATA RATE OWING TO THEIR LOW POWER CONSUMPTION
10.3 10 GBPS TO 40 GBPS
10.3.1 INCREASE IN DEPLOYMENT OF OPTICAL INTERCONNECTS WITH 10 GBPS TO 40 GBPS DATA RATE IN TELECOMMUNICATION APPLICATIONS
10.4 41 GBPS TO 100 GBPS
10.4.1 RISE IN ADOPTION OF OPTICAL INTERCONNECTS WITH 41 GBPS TO 100 GBPS DATA RATE BY CLOUD SERVICE PROVIDERS
10.5 MORE THAN 100 GBPS
10.5.1 INCREASE IN ADOPTION OF MORE THAN 100 GBPS OPTICAL INTERCONNECTS IN 5G INFRASTRUCTURES

11 OPTICAL INTERCONNECT MARKET, BY DISTANCE (Page No. – 83)
11.1 INTRODUCTION
11.2 LESS THAN 1 KM
11.2.1 INCREASE IN DEPLOYMENT OF OPTICAL INTERCONNECTS IN DATACENTERS FOR LESS THAN 1 KM DATA TRANSMISSION
11.3 1 KM TO 10 KM
11.3.1 RISE IN USE OF OPTICAL INTERCONNECTS WITH 1 KM TO 10 KM DISTANCE RANGE FOR INTRA-DATACENTER INTERCONNECTIONS
11.4 11 KM TO 100 KM
11.4.1 SURGE IN DEMAND FOR OPTICAL INTERCONNECTS WITH DATA TRANSMISSION DISTANCE RANGING FROM 11 KM TO 100 KM
11.5 MORE THAN 100 KM
11.5.1 INCREASE IN DEMAND FOR OPTICAL INTERCONNECTS CAPABLE OF TRANSMITTING DATA FOR DISTANCE OF MORE THAN 100 KM

12 OPTICAL INTERCONNECT MARKET, BY APPLICATION (Page No. – 87)
12.1 INTRODUCTION
12.2 DATA COMMUNICATION
12.2.1 DATACENTERS
12.2.1.1 Surged demand for data storage and transfer to contribute to increased use of optical interconnects in datacenters
12.2.2 HIGH-PERFORMANCE COMPUTING (HPC)
12.2.2.1 Increased demand for aggregated computing to fuel use of optical interconnects in high-performance computing applications
12.3 TELECOMMUNICATION
12.3.1 DEVELOPMENTS IN 5G NETWORK INFRASTRUCTURES TO FUEL DEMAND FOR OPTICAL INTERCONNECTS USED IN TELECOMMUNICATION APPLICATIONS

13 GEOGRAPHIC ANALYSIS (Page No. – 103)
13.1 INTRODUCTION
13.2 NORTH AMERICA
13.2.1 US
13.2.1.1 US to lead market in North America from 2020 to 2025
13.2.2 CANADA
13.2.2.1 Surged demand for high-speed wired and wireless networking services to drive growth of market in Canada
13.2.3 MEXICO
13.2.3.1 Increased adoption of 5G network services in Mexico
13.3 EUROPE
13.3.1 UK
13.3.1.1 Significant investments for development of infrastructure to support 5G technology and datacenters in UK
13.3.2 GERMANY
13.3.2.1 Increased adoption of connected and IoT-enabled devices to drive growth of optical interconnect market in Germany
13.3.3 FRANCE
13.3.3.1 Presence of leading telecom operators to facilitate 5G communication in France
13.3.4 NETHERLANDS
13.3.4.1 Initiatives undertaken by government to contribute to growth of optical interconnect market in Netherlands
13.3.5 REST OF EUROPE
13.4 APAC
13.4.1 CHINA
13.4.1.1 Presence of key datacenter companies fueling growth of market in China
13.4.2 JAPAN
13.4.2.1 Transition of manufacturing industry toward high-speed networks to spur growth of optical interconnect market in Japan
13.4.3 INDIA
13.4.3.1 Increased Internet penetration to fuel demand for optical interconnects in India
13.4.4 SOUTH KOREA
13.4.4.1 Early adoption of 5G network services driving demand for optical interconnects in South Korea
13.4.5 REST OF APAC
13.5 REST OF THE WORLD (ROW)
13.5.1 SOUTH AMERICA
13.5.1.1 Initiatives undertaken by 5G service providers to create demand for optical interconnects in South America
13.5.2 MIDDLE EAST AND AFRICA
13.5.2.1 Surged demand for high-speed data communication in Middle East and Africa

14 COMPETITIVE LANDSCAPE (Page No. – 129)
14.1 INTRODUCTION
14.2 MARKET RANKING ANALYSIS, 2019
14.3 MARKET EVALUATION FRAMEWORK
14.3.1 PRODUCT LAUNCHES AND DEVELOPMENTS
14.3.2 ACQUISITIONS
14.3.3 COLLABORATIONS AND CONTRACTS
14.3.4 EXPANSIONS

15 COMPANY EVALUATION MATRIX (Page No. – 137)
15.1 OVERVIEW
15.2 COMPANY EVALUATION MATRIX DEFINITION AND METHODOLOGY
15.2.1 MARKET SHARE/RANKING
15.2.2 STAR
15.2.3 PERVASIVE
15.2.4 EMERGING LEADERS
15.2.5 BURGEONING PLAYERS
15.3 COMPANY EVOLUTIONS MATRIX, 2019
15.4 STRENGTH OF PRODUCT PORTFOLIO
15.5 BUSINESS STRATEGY EXCELLENCE

16 COMPANY PROFILES (Page No. – 142)
16.1 KEY PLAYERS
(Business Overview, Products/Solutions/Services offered, Recent Developments, SWOT Analysis, and MnM View)*
16.1.1 II-VI INCORPORATED
16.1.2 LUMENTUM OPERATIONS LLC
16.1.3 MOLEX, LLC
16.1.4 INNOLIGHT TECHNOLOGY (SUZHOU) LTD.
16.1.5 NVIDIA CORPORATION
16.1.6 SUMITOMO ELECTRIC INDUSTRIES, LTD.
16.1.7 BROADCOM INC.
16.1.8 TE CONNECTIVITY
16.1.9 FUJITSU LTD.
16.1.10 INFINERA CORPORATION
* Business Overview, Products/Solutions/Services offered, Recent Developments, SWOT Analysis, and MnM View might not be captured in case of unlisted companies.
16.2 RIGHT TO WIN
16.3 OTHER KEY PLAYERS
16.3.1 ACACIA COMMUNICATIONS, INC.
16.3.2 ACCELINK TECHNOLOGY CO. LTD.
16.3.3 JUNIPER NETWORKS, INC.
16.3.4 AMPHENOL CORPORATION
16.3.5 NEOPHOTONICS CORPORATION
16.4 STARTUP ECOSYSTEM
16.4.1 OPTOSCRIBE LTD.
16.4.2 SMITHS INTERCONNECT
16.4.3 CAILABS
16.4.4 FIBERPLEX TECHNOLOGIES, LLC
16.4.5 CLEERLINE TECHNOLOGY GROUP



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