Name: 글로벌 시장 동향
SKU: ICT2435
Availability: InStock

보고서 요약(국문)

시장 개요
광 인터커넥트 기술은 고대역폭, 빠른 전송 속도, 그리고 전 세계 여러 지역 간 대용량 데이터 처리 요구 사항에 부응하기 위해 기존의 전기 인터커넥트를 대체해 왔습니다. 특히 통신 분야에서 이는 당연하고도 필요한 단계였습니다. 광대역 통신 시스템과 데이터 센터는 광 인터커넥트를 점점 더 많이 사용하고 있습니다. 광 신호를 송수신할 수 있는 트랜시버는 일반적으로 상호 연결된 레이저와 검출기를 통해 광섬유 케이블에 연결됩니다.
트랜시버는 다양한 사양, 속도, 폼 팩터 및 프로토콜을 지원합니다. 데이터 전송 유형, 이상적인 속도 및 거리는 애플리케이션에 적합한 송신기를 선택하는 주요 결정 요인입니다.

광 인터커넥트 시장 동향 및 추세
통신 대역폭에 대한 수요 증가가 광 인터커넥트 시장 점유율 성장을 견인하고 있습니다.

광 인터커넥트는 빠른 전송 속도를 가능하게 하는 대용량 대역폭에 대한 수요를 충족하고 전 세계 데이터 센터에서 대량의 데이터를 관리해야 하는 요구 사항을 충족하기 위해 기존의 전기 인터커넥트를 대체했습니다. 현재 관련 기술은 군사, 항공우주, 자동차와 같은 최종 사용자 산업에 연결 솔루션을 제공하고 있습니다. 또한 통신 및 데이터 통신 애플리케이션에 사용됩니다.
다양한 유형의 통신 및 부가 가치 서비스를 위한 여러 신규 서비스의 도입으로 대역폭 수요가 그 어느 때보다 증가했습니다. 전기 인터커넥트와 비교하여 광 인터커넥트는 컴퓨터 성능을 향상시키면서 더 높은 대역폭을 제공할 수 있습니다.
고속, 고대역폭 데이터 전송에 대한 막대한 수요는 클라우드 컴퓨팅 활동의 증가, 산업 및 기업 부문의 투자 급증, 데이터 센터 기능 확장을 위한 기술 요구로 인해 발생했습니다. 이러한 요인으로 인해 전 세계 시장에서 광 연결 수요가 증가했습니다.
Ciena, Huawei, Nokia와 같은 공급업체는 확장성이 뛰어나고 효율적인 인터커넥트를 제공함으로써 현대 광학 기술의 한계를 뛰어넘고 광 인터커넥트 기술 개발을 가능하게 해 왔습니다. Ciena와 Infinera를 포함한 경쟁 업체들은 차세대 광 인터커넥트를 이끌어갈 수 있는 800G 지원 코히런트 솔루션을 개발하고 있습니다.

관련 기술들이 초기 단계에 있다는 점은 광 인터커넥트의 성장에 있어 매우 어려운 환경을 조성합니다.
최근 국제 IT 산업은 상당한 변화를 겪고 있습니다. 각국 정부는 빅데이터 분석 및 사물 인터넷(IoT)과 같은 최첨단 시스템을 통합하여 역량을 강화하고 있으며, 이 과정에서 광 인터커넥트의 정확성에 중점을 두고 있습니다.
현재 다양한 개발 단계에 있는 수많은 광 연결 기술이 존재합니다. III-V 양자 우물은 가장 최첨단 기술로 꼽힙니다. 고굴절률 대비 설계 또한 다양한 칩 레이아웃에 사용되고 있습니다. 나머지 기술들은 현재 기초 또는 응용 연구 단계에 머물러 있어 아직 시장 출시 준비가 되지 않았습니다. 성능 향상을 위해서는 광범위한 연구가 필요합니다.
신뢰할 수 있는 집적 회로에 광 인터커넥트를 사용하는 데 있어 가장 큰 제약은 현재의 CMOS 기술로는 성숙한 III-V 반도체 소재를 경제적으로 생산할 수 없다는 점입니다. 광 인터커넥트를 사용하는 부품을 통합하고 집적 회로를 개발하기 위해서는 상당한 연구 투자가 필요합니다.
실리콘 기반 광 인터커넥트 기술이 최신 집적 회로 기술과 호환된다 하더라도, 그 효과는 아직 입증되지 않았습니다. 대부분의 응용 분야에서 광 인터커넥트는 최고 수준의 데이터 속도가 필요한 링크에 자주 사용됩니다. 이는 전기 인터커넥트 기술이 여전히 사용 가능하고 광 부품의 신뢰성과 성능을 크게 향상시켜야 하기 때문입니다. 사용되는 기술이 아직 초기 단계에 있기 때문에 시장 확장이 제한적입니다.
코로나19가 광 인터커넥트 시장에 미치는 영향
진행 중인 코로나19 팬데믹은 심각한 사회경제적 여파와 전 세계적인 질병 및 사망을 초래했습니다. 코로나19 팬데믹으로 인해 여러 제조 서비스가 중단되었고 수출입 감소는 광 연결 시장 점유율에 더욱 부정적인 영향을 미쳤습니다.
다른 시장과 달리 코로나19는 전 세계 광 연결 부문에 긍정적인 영향을 미쳤습니다. 팬데믹으로 인해 재택근무 열풍이 불면서 안전하고 보안이 유지된 데이터 전송에 대한 수요가 급증했습니다. 그 결과 전 세계 데이터 센터 수가 급증했고, 광 인터커넥트를 포함하여 데이터를 더 빠르게 전송하는 기술에 대한 수요가 증가했습니다.
코로나19 시대의 인터넷은 지연 시간 감소, 속도 및 대역폭 증가를 통해 안정적인 연결을 제공했습니다. 최근 독감 유행으로 인해 고객들이 평소보다 더 자주 온라인에 접속하게 되었습니다. Wi-Fi 액세스 포인트가 심각하게 손상되어 트래픽 정체가 발생하고 상호 연결 지점에 대한 수요가 증가했습니다.
또한 대역폭 수요가 전례 없는 수준으로 급증하면서 광 상호 연결 시장이 성장했습니다. 2020년 1분기 미국과 캐나다의 인터넷 사용량은 40~50% 증가했으며, 포르투갈, 스페인, 영국 모두 50% 증가했습니다. 가정에서 데이터 센터에 이르기까지 훨씬 더 많은 인터넷 트래픽이 업스트림으로 이동했습니다. 노키아에 따르면 2020년 3월 미국의 업스트림 트래픽은 30% 증가했습니다.
광 상호 연결 시장 세분화 분석
글로벌 광 상호 연결 시장은 제품, 상호 연결 레벨, 광섬유 모드 및 지역별로 세분화됩니다.

광 트랜시버는 -40°C에서 +90°C에 이르는 넓은 온도 범위에서 작동할 수 있으며 다양한 옵션을 제공하여 해당 부문의 성장을 촉진하고 있습니다.
글로벌 광 인터커넥트 시장은 광 엔진, 광 트랜시버, 실리콘 포토닉스, 커넥터, 케이블 어셈블리 및 기타 제품으로 구분됩니다. 광 트랜시버는 광 인터커넥트 시장에서 지배적인 위치를 차지하고 있습니다. 광 트랜시버는 데이터를 송수신할 수 있는 작지만 강력한 장치입니다. 정보는 광섬유를 통해 매우 빠른 속도로 장거리 전송됩니다. 트랜시버는 전기 신호를 광(빛) 및 전기 신호로 변환하며 광섬유 네트워크의 핵심 구성 요소입니다.
신호 송수신 기능을 갖춘 다른 데이터 네트워크 장치에 연결할 수 있습니다. 광 트랜시버는 다양한 폼 팩터, 크기 및 모양으로 제공됩니다. 필요한 데이터 유형, 속도 및 거리에 따라 적절한 폼 팩터를 선택해야 합니다. 프로토콜이라고 하는 다양한 규정은 다양한 데이터 유형의 전송 방식을 정의합니다. 광 트랜시버는 네트워크를 통해 대량의 데이터를 전송할 수 있기 때문에 통신 애플리케이션을 비롯한 대부분의 산업 분야에서 매우 중요합니다. 이 유연한 부품은 네트워크 장치에 삽입하거나 통합할 수 있습니다. 다양한 크기와 형태로 제공되며, 광 트랜시버의 폼 팩터는 그 종류를 결정짓는 중요한 요소입니다. 까다로운 환경을 위해 Radiall은 다양한 폼 팩터의 광 트랜시버를 제공합니다.
Radial의 광 트랜시버는 뛰어난 성능과 신뢰성을 바탕으로 광범위한 애플리케이션에 활용됩니다. -40°C에서 +90°C에 이르는 넓은 온도 범위에서 작동 가능하며 다양한 옵션을 제공합니다. 플러그형, 표면 실장형, 멀티소스 계약, 최대 10Gbps의 비트 전송률을 지원하는 맞춤형 패키지 등 다양한 패키지 옵션을 제공합니다.
광 인터커넥트 시장 지역별 점유율
아시아 태평양 국가들은 광섬유 백본 네트워크를 구축하여 이 지역의 광 인터커넥트 수요를 증가시키고 있습니다.
대부분의 아시아 태평양 국가들은 광섬유 백본 네트워크를 구축했습니다. 양자 협정을 통해 인접 국가 간에 수많은 국경 간 지상 광섬유 케이블 시스템이 구축되었습니다.
이러한 분산된 국경 간 지상 케이블을 연결하면 특히 내륙 국가의 경우 기존 국제 전송 회선의 용량을 늘릴 수 있을 뿐만 아니라 전송 비용을 절감하여 최종 사용자의 인터넷 접근성을 높일 수 있습니다. 연결된 지상 네트워크로 인해 지역의 인터넷 속도, 품질 및 안정성이 향상될 것입니다. 상호 연결은 주로 각 국가에 이미 구축된 국내 통신망을 활용하기 때문에 비용은 최소화될 것입니다.
유엔 회원국의 국가 및 지역 차원의 이니셔티브, 특히 아시아태평양경제사회위원회(ESCAP)의 노력으로 아시아태평양 지역의 정보통신기술(ICT) 연결은 최근 몇 년 동안 크게 증가했습니다.
ESCAP의 평가에 따르면 중국은 이 지역 고정 광대역 사용자의 50%를 차지하며, 고정 광대역 소비자의 75%는 동아시아와 동북아시아에 위치하고 있습니다. 대한민국에서는 주민 100명당 약 40명의 유선 광대역 사용자가 있습니다. 반면 ESCAP 회원국 18개국은 주민 100명당 유선 광대역 사용자가 2명 미만으로 매우 저조한 상황입니다.
아시아태평양 정보 고속도로(AP-IS) 이니셔티브는 아시아태평양 지역의 ICT 불균형 발전과 심화되는 디지털 격차를 해소하기 위해 추진되었습니다.
광 인터커넥트 기업 및 경쟁 환경
글로벌 광 인터커넥트 시장은 국내외 주요 기업들 간의 경쟁이 매우 치열합니다. 시장 성장에 기여하는 주요 기업으로는 INNOLIGHT, 3M, Molex, NVIDIA Corporation, Lumentum Holdings Inc., II-VI Incorporated, Smiths Interconnect, Cailabs, Fiberplex Technologies, LLC, Fujitsu Ltd., Broadcom Inc., TE Connectivity, Accelink Technology Co. Ltd, Infinera Corporation, CISCO SYSTEMS INC., Sumitomo Electric Industries, Ltd 등이 있습니다.

주요 기업들은 신제품 출시, 인수, 협력 등 다양한 성장 전략을 채택하여 전 세계 광 인터커넥트 시장의 성장에 기여하고 있습니다.
• 예를 들어, 스미토모 전기공업(Sumitomo Electric Industries, Ltd.)은 2021년 6월 1일 혁신적인 기술을 바탕으로 커넥터 접합면의 오염에 내성이 있는 광 성능을 갖춘 다중 광섬유 커넥터인 AirEB를 개발 및 출시했습니다. 이는 대규모 광섬유 네트워크 운영자의 비용 절감에 기여합니다.
II-VI 주식회사
개요: II-VI 주식회사는 엔지니어링 소재 및 광전자 부품을 제조하고 광통신, 생명과학, 반도체 장비, 항공우주 및 방위산업, 산업 및 소비자 시장을 포함한 다양한 산업 분야에 제품을 개발하는 기업입니다. 이 회사는 전 세계 18개국 75개 이상의 사업장에 진출해 있습니다.

이 회사는 광통신, 레이저 시스템, 전자 장치, 열전 소자, 광전자 장치, 레이저 가공 도구, 에피택셜 웨이퍼, 세라믹 및 복합재, 광학 부품, 레이저 부품, 탄화규소 기판 및 희귀 금속을 포함한 다양한 제품군을 취급합니다. 회사 매출의 대부분은 광자 솔루션에서 발생하며, 그 뒤를 화합물 반도체 및 기타 제품이 따릅니다.
제품 포트폴리오: 100G 100m SWDM4 QSFP28 광 트랜시버: 이 트랜시버 모듈은 100G 이더넷 오버 듀플렉스 모드용으로 설계되었으며 OM3~OM5 칩셋에서 75m~150m의 전송 거리를 지원합니다. 이 제품은 QSFP28 MSA 및 IEEE 802.3bm CAUI-4를 준수합니다. 또한, 애플리케이션 노트 AN-2171 및 QSFP28 MSA에 명시된 대로 I2C 인터페이스를 통해 디지털 진단 기능을 제공합니다.

주요 개발 사항
• 2021년 4월 23일, II-VI 주식회사는 상하이에 약 600명의 직원을 둔 II-VI 기술 연구 개발 센터를 개설했습니다. 이 센터는 엔지니어 및 선임 전문가를 포함한 폭넓은 인재 기반을 활용하여 기술 및 제품 개발 분야에서 세계적인 선두 주자가 될 것입니다.
글로벌 광 인터커넥트 시장 보고서는 약 61개의 시장 데이터 표, 54개의 그림 및 212페이지 분량으로 구성됩니다.

보고서 요약(영어 원문)

Market Overview
Optical interconnect technology has supplanted traditional electrical interconnects to meet the ever-growing market for high bandwidths, transfer speeds and the requirement to handle large volumes of data between locations globally. It was an obvious and necessary step, particularly in telecommunications. Broadband communication systems and data centers increasingly frequently use optical interconnects. Transceivers, which can send and receive optical signals, are typically coupled to fiber-optic cables via interconnected lasers and detectors.
There are many different specs, speeds, form factors and protocols for transceivers. The data transfer type, ideal speed and distance are the main determinants in choosing the right transmitter for an application.

Optical Interconnect Market Dynamics and Trends
The rising demand for communication bandwidth drives the market share for optical interconnect.
Rising demand for communication bandwidth drives the market share for optical interconnect
Optical interconnects have replaced traditional electrical interconnects to address the demand for large bandwidths that allow quick transfer speeds and fulfill the need to manage huge amounts of data across data centers globally. The relevant technology currently offers connectivity solutions in end-user industries like the military, aerospace and automotive. It is used in telecommunication and data communication applications.
The demand for bandwidth has expanded more than ever due to the introduction of several new services for various types of communications and their value-added entities. Compared to electrical interconnects, optical interconnect enables greater bandwidth provision while enhancing computer performance.
Massive demand for high-speed, high bandwidth data transfer was caused by increased cloud computing activities, rapidly rising investments from the industrial and enterprise sectors and the need for technology to extend data center capabilities. The corresponding factor has increased optical connectivity demand in the global market.
Vendors like Ciena, Huawei and Nokia have been pushing the boundaries of modern optics and enabling the development of optical interconnect technologies by providing highly scalable, effective interconnections. Competing vendors are developing 800G-capable coherent solutions that could power the next generation of optical interconnects, including Ciena and Infinera.
The infancy stage of technologies involved creates a huge challenging atmosphere for the growth of optical interconnect
The international IT industry has recently experienced significant disruptions. Governments are enhancing capabilities by integrating cutting-edge systems like Big Data Analytics and the Internet of Things (IoT), among others, focusing on the accuracy of optic interconnects.
There are numerous optical connectivity technologies in various phases of development right now. III-V quantum wells are said to be the most cutting-edge technology. High-index contrast designs are also being used in a variety of chip layouts. The rest technologies are currently in the fundamental or applied research stages; thus, they are not yet prepared for the market. They still need extensive research to perform better.
The use of optical interconnects in dependable integrated circuits is significantly hampered by the incapability of mature III-V semiconductor materials to be generated economically using current CMOS technology. Sizable research investments are required to integrate components and create integrated circuits employing optical interconnects.
The effectiveness of silicon-based technology for optical interconnects still has to be proven, even if it is compatible with modern integrated circuit technology. In most applications, optical interconnect are often employed for links needing the greatest data speeds because electrical interconnect technology is still acceptable and optical components' reliability and performance need to be greatly enhanced. Because the technologies used are still in their infancy, it limits market expansion.
COVID-19 Impact on Optical Interconnect Market
The ongoing COVID-19 pandemic has had serious socioeconomic repercussions and significant worldwide morbidity and mortality. Multiple manufacturing services have been put on hold because of the COVID-19 pandemic and the drop in exports and imports have further impacted the market share for optical connectivity.
In contrast to other markets, COVID-19 positively affected the worldwide optical connection sector. The pandemic sparked a new telecommuting craze that sharply increased the need for more data to be transported safely and securely. As a result, the number of data centers worldwide skyrocketed, increasing the need for technologies that carry data more quickly, including optical interconnects.
The COVID-19 era of the internet has brought about dependable connectivity with decreased latency, increased speed and bandwidth. Customers are online more often than usual due to the recent influenza epidemic. Wi-Fi access points have been severely damaged, resulting in traffic jams and heavier demands on interconnecting points.
Furthermore, demand for bandwidth soared to unprecedented levels, escalating the optical interconnect market. Internet usage increased between 40% and 50% in U.S. and Canada in the first quarter of 2020. Portugal, Spain and UK all saw a 50% increase in internet usage. From residences to data centers, much more internet traffic has been migrating upstream; according to Nokia, upstream traffic increased by 30% in U.S. in March 2020.
Optical Interconnect Market Segmentation Analysis
The global optical interconnect market is segmented on product, interconnect level, fiber mode and region.
Optical Transceivers can operate in a large temperature range of -40 to +90° C and are available with various options, which is boosting the segment’s growth
The global optical interconnect market is segmented based on products: optical engines, optical transceivers, silicon photonics, connectors, cable assemblies and others. Optical Transceivers hold a dominating position in the optical interconnect market. An optical transceiver is a small but powerful device that can transmit and receive data. The information is transmitted across an optical fiber at extremely fast speeds and over great distances in fiber optics. The transceiver transforms electrical impulses into optical (light) and electrical signals and is a crucial component of a fiber optic network.
It can be plugged into another data network device with a signal-sending and receiving capability. Optical transceivers are available in various form factors, sizes and shapes. The data type required speed and distance determine which form factor should be used. Different regulations, known as protocols, govern how various data types are conveyed. Since they can move large amounts of data through a network, optical transceivers are crucial in most industries in telecom applications. The adaptable part can be inserted into a network device or integrated into it. It is available in a range of sizes and shapes. The form factors of optical transceivers determine their wide varieties. For difficult situations, Radiall offers a variety of optical transceiver form factors.
They offer a wide range of applications with excellent performance and reliability. Radiall's Optical Transceivers can operate in a large temperature range of -40 to +90° C and are available with various options. Several package options are offered, including pluggable, surface mount, multisource agreements and specific custom packages covering bit rates up to 10 Gbps
Optical Interconnect Market Geographical Share
Asia-Pacific nations have constructed their fiber-optic backbone networks, which is boosting the demand for optical interconnect in the region
The majority of Asia-Pacific nations have constructed their fiber-optic backbone networks. Through bilateral agreements, numerous cross-border terrestrial fiber-optic cable systems have been created between neighboring nations.
In addition to increasing the capacity of current international transmission lines, particularly for landlocked nations, linking these scattered cross-border terrestrial cables will also lower the cost of transit, making the internet more accessible to end users. The region's Internet speed, quality and dependability will improve due to a connected terrestrial network. The cost will be minimal as the interconnection will primarily use the domestic telecommunications networks already in each country.
Through national and subregional initiatives of United Nations member states, the Economic and Social Commission for Asia and the Pacific (ESCAP), information and communications technology (ICT) connections in the Asia-Pacific have significantly increased in recent years.
According to ESCAP assessments, China accounts for 50% of the region's fixed-broadband users and 75% of the region's fixed-broadband consumers are located in East and North-East Asia. For every 100 residents, there are around 40 fixed-broadband users in the Republic of Korea. 18 ESCAP member states are at the other end of the spectrum, with fewer than 2 fixed-broadband customers per 100 residents.
The Asia-Pacific Information Superhighway (AP-IS) initiative has been put forth to address the uneven development of ICT and the widening digital divide in the Asia-Pacific.
Optical Interconnect Companies and Competitive Landscape
The global optical interconnect market is highly competitive with local and global key players. The key players contributing to the market's growth are INNOLIGHT, 3M, Molex, NVIDIA Corporation, Lumentum Holdings Inc., II-VI Incorporated, Smiths Interconnect, Cailabs, Fiberplex Technologies, LLC, Fujitsu Ltd., Broadcom Inc., TE Connectivity, Accelink Technology Co. Ltd, Infinera Corporation, CISCO SYSTEMS INC., Sumitomo Electric Industries, Ltd and others.
The major companies are adopting several growth strategies, such as product launches, acquisitions and collaborations, contributing to the global growth of the optical interconnect market.
• For instance, on June 01, 2021, Sumitomo Electric Industries, Ltd.'s innovative technologies developed and introduced AirEB, a multi-fiber connector with a developed beam that has optical performance tolerant to the contamination on the connector mating faces. It contributes to cost reduction for massive fiber optic network operators.
II-VI Incorporated
Overview: II-VI Incorporated is engaged in manufacturing engineered materials and optoelectronic components and developing products for various industries, including optical communications, life sciences, semiconductor capital equipment, aerospace & defense and industrial and consumer markets. The company has a presence in over 75 locations in 18 countries globally.
The company deals with various product categories, including Optical Communications, Laser Systems, Electronic Devices, Thermoelectrics, Optoelectronic Devices, Laser Processing Tools, Epitaxial Wafers, Ceramics & Composites, Optics, Laser Components, Silicon Carbide Substrates and Rare Metals. Majority of revenue for the company came from Photonic Solutions, followed by Compound Semiconductors and others.
Product Portfolio: 100G 100m SWDM4 QSFP28 Optical Transceiver: The transceiver module is designed for 100 G ethernet over duplex mode and can support a length of 75 meters to 150 m on OM3 to OM5. The product is compliant with QSFP28 MSA and IEEE 802.3bm CAUI-4. The product offers digital diagnostics functions via the I2C interface, as specified by the Application Note AN-2171 and QSFP28 MSA.
Key Development
• On April 23, 2021, II‐VI Incorporated inaugurated the II-VI Technology and R&D Center in Shanghai, with nearly 600 employees. The Center will leverage its broad talent base, including its engineers and seniors, to be a world leader in technology and product development.
The global optical interconnect market report would provide approximately 61 market data tables, 54 figures and 212 pages.

상세 목차

1. Methodology and Scope
1.1. Research Methodology
1.2. Research Objective and Scope of the Report
2. Market Definition and Overview
3. Executive Summary
3.1. Market Snippet by Product
3.2. Market Snippet by Interconnect Level
3.3. Market Snippet by Fiber Mode
3.4. Market Snippet by Region
4. Market Dynamics
4.1. Market Impacting Factors
4.1.1. Drivers
4.1.1.1. Rising demand for communication bandwidth drives the market share for optical interconnect
4.1.1.2. XX
4.1.2. Restraints
4.1.2.1. The infancy stage of technologies involved creates a huge challenging atmosphere for the growth of optical interconnect
4.1.2.2. XX
4.1.3. Opportunity
4.1.3.1. XX
4.1.4. Impact Analysis
5. Industry Analysis
5.1. Porter's Five Forces Analysis
5.2. Supply Chain Analysis
5.3. Pricing Analysis
5.4. Regulatory Analysis
6. COVID-19 Analysis
6.1. Analysis of COVID-19 on the Market
6.1.1. Before COVID-19 Market Scenario
6.1.2. Present COVID-19 Market Scenario
6.1.3. After COVID-19 or Future Scenario
6.2. Pricing Dynamics Amid COVID-19
6.3. Demand-Supply Spectrum
6.4. Government Initiatives Related to the Market During Pandemic
6.5. Manufacturers Strategic Initiatives
6.6. Conclusion
7. By Product
7.1. Introduction
7.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Product
7.1.2. Market Attractiveness Index, By Product
7.2. Optical Engines *
7.2.1. Introduction
7.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
7.3. Optical transceivers
7.4. Silicon Photonics
7.5. Connectors
7.6. Cable Assembly
7.7. Others
8. By Interconnect Level
8.1. Introduction
8.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Interconnect Level
8.1.2. Market Attractiveness Index, By Interconnect Level
8.2. Rack Level *
8.2.1. Introduction
8.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
8.3. Chip and broad level
8.4. Long-haul level
9. By Fiber Mode
9.1. Introduction
9.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Fiber Mode
9.1.2. Market Attractiveness Index, By Fiber Mode
9.2. Single-Mode Fiber *
9.2.1. Introduction
9.2.2. Market Size Analysis and Y-o-Y Growth Analysis (%)
9.3. Multimode Fiber
10. By Region
10.1. Introduction
10.1.1. Market Size Analysis and Y-o-Y Growth Analysis (%), By Region
10.1.2. Market Attractiveness Index, By Region
10.2. North America
10.2.1. Introduction
10.2.2. Key Region-Specific Dynamics
10.2.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Product
10.2.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Interconnect Level
10.2.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Fiber Mode
10.2.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
10.2.6.1. U.S.
10.2.6.2. Canada
10.2.6.3. Mexico
10.3. Europe
10.3.1. Introduction
10.3.2. Key Region-Specific Dynamics
10.3.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Product
10.3.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Interconnect Level
10.3.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Fiber Mode
10.3.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
10.3.6.1. Germany
10.3.6.2. UK
10.3.6.3. France
10.3.6.4. Italy
10.3.6.5. Spain
10.3.6.6. Rest of Europe
10.4. South America
10.4.1. Introduction
10.4.2. Key Region-Specific Dynamics
10.4.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Product
10.4.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Interconnect Level
10.4.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Fiber Mode
10.4.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
10.4.6.1. Brazil
10.4.6.2. Argentina
10.4.6.3. Rest of South America
10.5. Asia-Pacific
10.5.1. Introduction
10.5.2. Key Region-Specific Dynamics
10.5.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Product
10.5.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Interconnect Level
10.5.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Fiber Mode
10.5.6. Market Size Analysis and Y-o-Y Growth Analysis (%), By Country
10.5.6.1. China
10.5.6.2. India
10.5.6.3. Japan
10.5.6.4. South Korea
10.5.6.5. Rest of Asia-Pacific
10.6. Middle East and Africa
10.6.1. Introduction
10.6.2. Key Region-Specific Dynamics
10.6.3. Market Size Analysis and Y-o-Y Growth Analysis (%), By Product
10.6.4. Market Size Analysis and Y-o-Y Growth Analysis (%), By Interconnect Level
10.6.5. Market Size Analysis and Y-o-Y Growth Analysis (%), By Fiber Mode
11. Competitive Landscape
11.1. Competitive Scenario
11.2. Market Positioning/Share Analysis
11.3. Mergers and Acquisitions Analysis
12. Global Optical Interconnect Market- Company Profiles
12.1. INNOLIGHT*
12.1.1. Company Overview
12.1.2. End-User Portfolio and Description
12.1.3. Key Highlights
12.1.4. Financial Overview
12.2. 3M
12.3. Molex
12.4. NVIDIA Corporation
12.5. Lumentum Holdings Inc.
12.6. II-VI Incorporated
12.7. Smiths Interconnect
12.8. Cailabs
12.9. Fiberplex Technologies, LLC
12.10. Fujitsu Ltd(*LIST NOT EXHAUSTIVE)
13. Premium Insights
14. DataM Intelligence
14.1. Appendix
14.2. About Us and Services
14.3. Contact Us

언급된 주요 기업들

INNOLIGHT, 3M, Molex, NVIDIA Corporation, Lumentum Holdings Inc., II-VI Incorporated, Smiths Interconnect, Cailabs, Fiberplex Technologies, LLC

표 목록 (Tables)

List of Tables Table 1 Global Optical Interconnects Market Value, By Product, 2023, 2027 & 2031 (US$ Million)

Table 2 Global Optical Interconnects Market Value, By Interconnect Level, 2023, 2027 & 2031 (US$ Million)

Table 3 Global Optical Interconnects Market Value, By Fiber Mode, 2023, 2027 & 2031 (US$ Million)

Table 4 Global Optical Interconnects Market Value, By Data Rate, 2023, 2027 & 2031 (US$ Million)

Table 5 Global Optical Interconnects Market Value, By Distance, 2023, 2027 & 2031 (US$ Million)

Table 6 Global Optical Interconnects Market Value, By Application, 2023, 2027 & 2031 (US$ Million)

Table 7 Global Optical Interconnects Market Value, By Region, 2023, 2027 & 2031 (US$ Million)

Table 8 Global Optical Interconnects Market Value, By Product, 2023, 2027 & 2031 (US$ Million)

Table 9 Global Optical Interconnects Market Value, By Product, 2022-2031 (US$ Million)

Table 10 Global Optical Interconnects Market Value, By Interconnect Level, 2023, 2027 & 2031 (US$ Million)

Table 11 Global Optical Interconnects Market Value, By Interconnect Level, 2022-2031 (US$ Million)

Table 12 Global Optical Interconnects Market Value, By Fiber Mode, 2023, 2027 & 2031 (US$ Million)

Table 13 Global Optical Interconnects Market Value, By Fiber Mode, 2022-2031 (US$ Million)

Table 14 Global Optical Interconnects Market Value, By Data Rate, 2023, 2027 & 2031 (US$ Million)

Table 15 Global Optical Interconnects Market Value, By Data Rate, 2022-2031 (US$ Million)

Table 16 Global Optical Interconnects Market Value, By Distance, 2023, 2027 & 2031 (US$ Million)

Table 17 Global Optical Interconnects Market Value, By Distance, 2022-2031 (US$ Million)

Table 18 Global Optical Interconnects Market Value, By Application, 2023, 2027 & 2031 (US$ Million)

Table 19 Global Optical Interconnects Market Value, By Application, 2022-2031 (US$ Million)

Table 20 Global Optical Interconnects Market Value, By Region, 2023, 2027 & 2031 (US$ Million)

Table 21 Global Optical Interconnects Market Value, By Region, 2022-2031 (US$ Million)

Table 22 North America Optical Interconnects Market Value, By Product, 2022-2031 (US$ Million)

Table 23 North America Optical Interconnects Market Value, By Interconnect Level, 2022-2031 (US$ Million)

Table 24 North America Optical Interconnects Market Value, By Fiber Mode, 2022-2031 (US$ Million)

Table 25 North America Optical Interconnects Market Value, By Data Rate, 2022-2031 (US$ Million)

Table 26 North America Optical Interconnects Market Value, By Distance, 2022-2031 (US$ Million)

Table 27 North America Optical Interconnects Market Value, By Application, 2022-2031 (US$ Million)

Table 28 North America Optical Interconnects Market Value, By Country, 2022-2031 (US$ Million)

Table 29 South America Optical Interconnects Market Value, By Product, 2022-2031 (US$ Million)

Table 30 South America Optical Interconnects Market Value, By Interconnect Level, 2022-2031 (US$ Million)

Table 31 South America Optical Interconnects Market Value, By Fiber Mode, 2022-2031 (US$ Million)

Table 32 South America Optical Interconnects Market Value, By Data Rate, 2022-2031 (US$ Million)

Table 33 South America Optical Interconnects Market Value, By Distance, 2022-2031 (US$ Million)

Table 34 South America Optical Interconnects Market Value, By Application, 2022-2031 (US$ Million)

Table 35 South America Optical Interconnects Market Value, By Country, 2022-2031 (US$ Million)

Table 36 Europe Optical Interconnects Market Value, By Product, 2022-2031 (US$ Million)

Table 37 Europe Optical Interconnects Market Value, By Interconnect Level, 2022-2031 (US$ Million)

Table 38 Europe Optical Interconnects Market Value, By Fiber Mode, 2022-2031 (US$ Million)

Table 39 Europe Optical Interconnects Market Value, By Data Rate, 2022-2031 (US$ Million)

Table 40 Europe Optical Interconnects Market Value, By Distance, 2022-2031 (US$ Million)

Table 41 Europe Optical Interconnects Market Value, By Application, 2022-2031 (US$ Million)

Table 42 Europe Optical Interconnects Market Value, By Country, 2022-2031 (US$ Million)

Table 43 Asia-Pacific Optical Interconnects Market Value, By Product, 2022-2031 (US$ Million)

Table 44 Asia-Pacific Optical Interconnects Market Value, By Interconnect Level, 2022-2031 (US$ Million)

Table 45 Asia-Pacific Optical Interconnects Market Value, By Fiber Mode, 2022-2031 (US$ Million)

Table 46 Asia-Pacific Optical Interconnects Market Value, By Data Rate, 2022-2031 (US$ Million)

Table 47 Asia-Pacific Optical Interconnects Market Value, By Distance, 2022-2031 (US$ Million)

Table 48 Asia-Pacific Optical Interconnects Market Value, By Application, 2022-2031 (US$ Million)

Table 49 Asia-Pacific Optical Interconnects Market Value, By Country, 2022-2031 (US$ Million)

Table 50 Middle East & Africa Optical Interconnects Market Value, By Product, 2022-2031 (US$ Million)

Table 51 Middle East & Africa Optical Interconnects Market Value, By Interconnect Level, 2022-2031 (US$ Million)

Table 52 Middle East & Africa Optical Interconnects Market Value, By Fiber Mode, 2022-2031 (US$ Million)

Table 53 Middle East & Africa Optical Interconnects Market Value, By Data Rate, 2022-2031 (US$ Million)

Table 54 Middle East & Africa Optical Interconnects Market Value, By Distance, 2022-2031 (US$ Million)

Table 55 Middle East & Africa Optical Interconnects Market Value, By Application, 2022-2031 (US$ Million)

Table 56 Vanguard Group, Inc.: Overview

Table 57 Vanguard Group, Inc.: Product Portfolio

Table 58 Vanguard Group, Inc.: Key Developments

Table 59 Molex LLC: Overview

Table 60 Molex LLC: Product Portfolio

Table 61 Molex LLC: Key Developments

Table 62 Amphenol Corporation: Overview

Table 63 Amphenol Corporation: Product Portfolio

Table 64 Amphenol Corporation: Key Developments

Table 65 TE Connectivity Ltd.: Overview

Table 66 TE Connectivity Ltd.: Product Portfolio

Table 67 TE Connectivity Ltd.: Key Developments

Table 68 Go! Foton Holdings, Inc.: Overview

Table 69 Go! Foton Holdings, Inc.: Product Portfolio

Table 70 Go! Foton Holdings, Inc.: Key Developments

Table 71 Sumitomo Electric Industries Ltd.: Overview

Table 72 Sumitomo Electric Industries Ltd.: Product Portfolio

Table 73 Sumitomo Electric Industries Ltd.: Key Developments

Table 74 Cisco Systems, Inc.: Overview

Table 75 Cisco Systems, Inc.: Product Portfolio

Table 76 Cisco Systems, Inc.: Key Developments

Table 77 Corning Incorporated: Overview

Table 78 Corning Incorporated: Product Portfolio

Table 79 Corning Incorporated: Key Developments

Table 80 Coherent Corp.: Overview

Table 81 Coherent Corp.: Product Portfolio

Table 82 Coherent Corp.: Key Developments

Table 83 Huawei Technologies Co., Ltd.: Overview

Table 84 Huawei Technologies Co., Ltd.: Product Portfolio

Table 85 Huawei Technologies Co., Ltd.: Key Developments

그림 목록 (Figures)

List of Figures

Figure 1 Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 2 Global Optical Interconnects Market Share, By Product, 2022 & 2031 (%)

Figure 3 Global Optical Interconnects Market Share, By Interconnect Level, 2022 & 2031 (%)

Figure 4 Global Optical Interconnects Market Share, By Fiber Mode, 2022 & 2031 (%)

Figure 5 Global Optical Interconnects Market Share, By Data Rate, 2022 & 2031 (%)

Figure 6 Global Optical Interconnects Market Share, By Distance, 2022 & 2031 (%)

Figure 7 Global Optical Interconnects Market Share, By Application, 2022 & 2031 (%)

Figure 8 Global Optical Interconnects Market Share, By Region, 2022 & 2031 (%)

Figure 9 Global Optical Interconnects Market Y-o-Y Growth, By Product, 2022-2031 (%)

Figure 10 Connectors Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 11 Cable Assemblies Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 12 Optical Transceivers Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 13 Free Space Optics Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 14 Silicon Photonics Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 15 Optical Engines Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 16 Global Optical Interconnects Market Y-o-Y Growth, By Interconnect Level, 2022-2031 (%)

Figure 17 Metro and Long-haul Optical Interconnect Interconnect Level in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 18 Board-to-Board and Rank-level Optical Interconnect Interconnect Level in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 19 Chip-and Board-level Optical Interconnect Interconnect Level in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 20 Global Optical Interconnects Market Y-o-Y Growth, By Fiber Mode, 2022-2031 (%)

Figure 21 Single Mode Fiber Fiber Mode in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 22 Multimode Fiber Fiber Mode in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 23 Global Optical Interconnects Market Y-o-Y Growth, By Data Rate, 2022-2031 (%)

Figure 24 Less than 10 Gbps Data Rate in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 25 10 Gbps to 40 Gbps Data Rate in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 26 41 Gbps to 100 Gbps Data Rate in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 27 More than 100 Gbps Data Rate in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 28 Global Optical Interconnects Market Y-o-Y Growth, By Distance, 2022-2031 (%)

Figure 29 Less than 1 Km Distance in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 30 1 km to 10 km Distance in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 31 11 km to 100 km Distance in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 32 More than 100 Km Distance in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 33 Global Optical Interconnects Market Y-o-Y Growth, By Application, 2022-2031 (%)

Figure 34 Data Communication Application in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 35 Telecommunication Application in Global Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 36 Global Optical Interconnects Market Y-o-Y Growth, By Region, 2022-2031 (%)

Figure 37 North America Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 38 Asia-Pacific Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 39 Europe Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 40 South America Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 41 Middle East and Africa Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 42 North America Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 43 North America Optical Interconnects Market Share, By Product, 2022 & 2031 (%)

Figure 44 North America Optical Interconnects Market Share, By Interconnect Level, 2022 & 2031 (%)

Figure 45 North America Optical Interconnects Market Share, By Fiber Mode, 2022 & 2031 (%)

Figure 46 North America Optical Interconnects Market Share, By Data Rate, 2022 & 2031 (%)

Figure 47 North America Optical Interconnects Market Share, By Distance, 2022 & 2031 (%)

Figure 48 North America Optical Interconnects Market Share, By Application, 2022 & 2031 (%)

Figure 49 North America Optical Interconnects Market Share, By Country, 2022 & 2031 (%)

Figure 50 South America Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 51 South America Optical Interconnects Market Share, By Product, 2022 & 2031 (%)

Figure 52 South America Optical Interconnects Market Share, By Interconnect Level, 2022 & 2031 (%)

Figure 53 South America Optical Interconnects Market Share, By Fiber Mode, 2022 & 2031 (%)

Figure 54 South America Optical Interconnects Market Share, By Data Rate, 2022 & 2031 (%)

Figure 55 South America Optical Interconnects Market Share, By Distance, 2022 & 2031 (%)

Figure 56 South America Optical Interconnects Market Share, By Application, 2022 & 2031 (%)

Figure 57 South America Optical Interconnects Market Share, By Country, 2022 & 2031 (%)

Figure 58 Europe Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 59 Europe Optical Interconnects Market Share, By Product, 2022 & 2031 (%)

Figure 60 Europe Optical Interconnects Market Share, By Interconnect Level, 2022 & 2031 (%)

Figure 61 Europe Optical Interconnects Market Share, By Fiber Mode, 2022 & 2031 (%)

Figure 62 Europe Optical Interconnects Market Share, By Data Rate, 2022 & 2031 (%)

Figure 63 Europe Optical Interconnects Market Share, By Distance, 2022 & 2031 (%)

Figure 64 Europe Optical Interconnects Market Share, By Application, 2022 & 2031 (%)

Figure 65 Europe Optical Interconnects Market Share, By Country, 2022 & 2031 (%)

Figure 66 Asia-Pacific Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 67 Asia-Pacific Optical Interconnects Market Share, By Product, 2022 & 2031 (%)

Figure 68 Asia-Pacific Optical Interconnects Market Share, By Interconnect Level, 2022 & 2031 (%)

Figure 69 Asia-Pacific Optical Interconnects Market Share, By Fiber Mode, 2022 & 2031 (%)

Figure 70 Asia-Pacific Optical Interconnects Market Share, By Data Rate, 2022 & 2031 (%)

Figure 71 Asia-Pacific Optical Interconnects Market Share, By Distance, 2022 & 2031 (%)

Figure 72 Asia-Pacific Optical Interconnects Market Share, By Application, 2022 & 2031 (%)

Figure 73 Asia-Pacific Optical Interconnects Market Share, By Country, 2022 & 2031 (%)

Figure 74 Middle East & Africa Optical Interconnects Market Value, 2022-2031 (US$ Million)

Figure 75 Middle East & Africa Optical Interconnects Market Share, By Product, 2022 & 2031 (%)

Figure 76 Middle East & Africa Optical Interconnects Market Share, By Interconnect Level, 2022 & 2031 (%)

Figure 77 Middle East & Africa Optical Interconnects Market Share, By Fiber Mode, 2022 & 2031 (%)

Figure 78 Middle East & Africa Optical Interconnects Market Share, By Data Rate, 2022 & 2031 (%)

Figure 79 Middle East & Africa Optical Interconnects Market Share, By Distance, 2022 & 2031 (%)

Figure 80 Middle East & Africa Optical Interconnects Market Share, By Application, 2022 & 2031 (%)

Figure 81 Vanguard Group, Inc.: Financials

Figure 82 Molex LLC: Financials

Figure 83 Amphenol Corporation: Financials

Figure 84 TE Connectivity Ltd.: Financials

Figure 85 Go! Foton Holdings, Inc.: Financials

Figure 86 Sumitomo Electric Industries Ltd.: Financials

Figure 87 Cisco Systems, Inc.: Financials

Figure 88 Corning Incorporated: Financials

Figure 89 Coherent Corp.: Financials

Figure 90 Huawei Technologies Co., Ltd.: Financials