市场调查报告书
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1378182
全球硅光子市场(2016-2030):按产品应用、最终用途、频宽、最终用户产业和地区划分的机会和预测Silicon Photonics Market Assessment, By Product Application, By End-user Application, By Wavelength Band, By End-use Industry, By Region, Opportunities and Forecast, 2016-2030F |
全球硅光子产业近年来经历了显着成长,预计未来将保持强劲的成长速度。全球硅光子市场规模预计将从2022年的约15.6亿美元成长到2030年的74.6亿美元,预测期内复合年增长率为21.6%。
硅光子学的优点包括增加频宽、降低功耗以及将光学元件整合到半导体晶片上。对资料中心、5G 技术和高速通讯的需求不断增长推动了市场的成长。此外,硅光子学投资的增加、医疗保健、汽车和消费性电子产品的应用以及研发的进步等因素也促进了市场的快速成长。
光缆在推动硅光子市场成长方面发挥关键作用。对高速资料传输和光互连解决方案的需求持续成长,尤其是在资料中心和通讯领域。硅光子技术能够有效地利用光进行资料传输,越来越多地被采用来满足这些需求。
5G技术的快速扩张也是硅光子产业的主要驱动力。硅光子能够实现高效、高速的光通信,使其成为 5G 基础设施的关键推动者,因为 5G 网路需要高速、低延迟的资料传输。硅光子是满足下一代无线技术需求的重要元素,因此参与5G技术的进步,这将彻底改变各领域的通信,推动硅光子市场的成长。
此外,对先进军事通讯解决方案不断增长的需求也为硅光子市场创造了巨大的机会。该技术的高速资料传输能力和能源效率非常适合现代军事行动的需求。硅光子学在军事应用中也是宝贵的资产,因为它提供安全、快速和可靠的通讯。
本报告调查了全球硅光子市场,并提供了市场定义和概述、市场规模趋势和预测、各个细分市场和地区的详细分析、行业结构、影响市场成长的因素分析、案例研究、竞争格局、主要简介公司等
Global silicon photonics industry has experienced significant growth in recent years and is expected to maintain a strong pace of expansion in the coming years. With a projected worth of approximately USD 1.56 billion in 2022, the market is forecasted to reach a value of USD 7.46 billion by 2030, displaying a solid CAGR of 21.6% from 2023 to 2030.
Silicon photonics offers compact, energy-efficient, and high-speed data transfer solutions. Its benefits include increased bandwidth, reduced power consumption, and integration of optical components onto semiconductor chips. The market is driven by the growing demand for data centers, 5G technology, and high-speed communication. Additionally, the rise in investments in silicon photonics, and applications in healthcare, automotive, and consumer electronics, coupled with advancements in R&D, are contributing to the rapid growth of the market.
Silicon photonics involves a plethora of highly upgraded technologies. Hence, the organizations are focusing on silicon photonics by investing a hefty sum of money. For example, in July 2022, Quantifi Photonics disclosed its focus on the testing of high-speed datacom and telecom equipment in the field of silicon photonics. The company confirmed the successful closure of a series C venture funding round, securing USD 15 million in investments.
Optical cables play a key role in propelling the growth of the silicon photonics market. The demand for high-speed data transmission and optical interconnect solutions, particularly in data centers and telecommunications, is rising continuously. Silicon photonics technology, which leverages the efficient use of light for data transfer, is increasingly adopted to meet these demands. As a result, the expanding usage of optical cables is regarded as a key driver of the market, enabling faster and more efficient data communication across various industries. According to a survey conducted by the Fiber Broadband Association, in December 2022, on fiber optic providers, it was found that optical fiber technology is used by 43% of households in the United States.
The rapid expansion of 5G technology is a primary driving force in the silicon photonics industry. Silicon photonics, with its capacity to deliver efficient and high-speed optical communication, is a critical enabler of 5G infrastructure as 5G networks demand high-speed and low-latency data transfer. Its involvement in the advancement of 5G technology, which is poised to revolutionize communication across numerous sectors, is fueling the growth of the silicon photonics market as it becomes a vital component in fulfilling the needs of the next-generation wireless technology.
For example, integrated photonics plays a vital role in the establishment of 5G networks across the globe. Integrated photonics allows photonic circuits to handle and transmit light, much like electronic integrated circuits managing electronic signals. Unlike electrons, photons move at the speed of light without disruption. It means that information can be transmitted more quickly and efficiently while consuming less energy.
The increasing need for advanced military communication solutions has opened up significant opportunities in the silicon photonics market. The technology's high-speed data transmission capabilities and energy efficiency align well with the demands of modern military operations. Silicon photonics offers secure, fast, and reliable communication, making it a valuable asset in defense applications. As a result, the growing demand for military communication solutions is driving the adoption of silicon photonics, creating substantial prospects for market growth in this sector.
For example, in August 2022, DustPhotonics, a prominent developer of silicon photonics technology, collaborated with MaxLinear, a leading semiconductor firm specializing in communication applications. Together, they have showcased silicon photonics chipset featuring integrated lasers that can be directly controlled by a DSP (Digital Signal Processor) without requiring an external driver chip. The innovative approach offers outstanding total system performance in the defense sector.
North America has established its dominance in the global silicon photonics market. This supremacy can be attributed to a robust ecosystem of technology companies, research institutions, and significant investments in R&D. The region's leadership in data centers, telecommunications, and high-performance computing has driven the demand for silicon photonics. Additionally, North America's proactive approach to adopting emerging technologies and its role as an innovation hub has contributed to its leading position in the market.
For example, in June 2022, Intel Labs unveiled a significant breakthrough in integrated photonics research, a vital area in expanding data transmission capabilities. They describe this field as the "next frontier" for enhancing communication bandwidth between computing silicon in data centers and across networks. Intel envisions this advancement as offering a future input/output (I/O) interface with enhanced energy efficiency, and greater bandwidth.
Government initiatives play a crucial role in fostering market growth. These initiatives are essential as they foster R&D, support the growth of domestic silicon photonics companies, and incentivize the adoption of this technology in critical sectors like telecommunications, defense, and healthcare. Moreover, government backing can provide funding for research, create favorable regulatory environments, and stimulate collaboration between academia and industry. Such support is vital in harnessing the potential of silicon photonics to drive economic growth, enhance national security, and promote innovation in various applications, ultimately benefiting both industries and society.
For example, the OUSD KANAGAWA program has played a vital role in fostering innovation and advancement in the silicon photonics market. By promoting collaboration between the U.S. Department of Defense, private industry, and academic institutions, the program has accelerated research, development, and deployment of silicon photonics technology, contributing to its growth and broader adoption in various critical sectors.
Before the COVID-19 pandemic, the global silicon photonics market was steadily expanding, fueled by the growing demand for high-speed data transmission in various sectors. However, the pandemic initially disrupted the market with supply chain disruptions, production challenges, and economic uncertainties. Many companies faced setbacks in their deployment and expansion plans. In the post-COVID-19 landscape, the market rebounded and experienced renewed growth. The pandemic accelerated the need for reliable and efficient data transmission, particularly in remote work, online education, and telehealth, driving investment in data centers and infrastructure. Moreover, silicon photonics, with its capacity for high-speed and energy-efficient data transfer, became a pivotal technology, and its applications in emerging technologies like 5G, IoT, and AI further fueled the market's expansion, solidifying its role in the present and future of global telecommunications and data transmission.
The silicon photonics market is expanding at a rapid rate, primarily due to the increasing significance of the IT and telecommunications industry. The market's rapid growth is further fueled by substantial corporate investments aimed at improving R&D capabilities, fostering collaboration, enhancing marketing strategies, and expanding distribution networks. These combined factors are actively propelling the market's substantial and rapid expansion rate.
In September 2023, at a conference in California, Intel unveiled a 528-thread processor featuring 1TB/s silicon photonics interconnects , designed to efficiently handle extensive analytics workloads while maintaining low power consumption. The processor was specially designed using a customized RISC architecture to support DARPA's Hierarchical Identity Verify Exploit (HIVE) program, a U.S. military initiative aimed at developing a graph analytics processor capable of processing streaming data 100 times faster as compared to the traditional compute architectures.
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Companies mentioned above DO NOT hold any order as per market share and can be changed as per information available during research work.