Silicon Photonics Market with Recession Impact Analysis by Product (Transceivers, Switches, Sensors), Application (Data Centers & High-Performance Computing, Telecommunications), Waveguide, Component and Geography - Global Forecast to 2028
[218 Pages Report] The silicon photonics market was valued at USD 1.3 billion in 2022 and is projected to reach USD 5.0 billion by 2028, growing at a CAGR of 28.5% from 2023 to 2028. Factors such as the risk of thermal effect and complexity in the integration of on-chip laser function are restraints for the market's growth.
Silicon Photonics Market Forecast to 2028
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Market Dynamics:
Driver: Rising demand for CMOS-integrated silicon photonics technology in data centers
There has been a rising demand for CMOS-integrated silicon photonics technology in data centers due to its ability to address the challenges of high-speed data transmission (>100 Gbps) and energy efficiency. Silicon photonics technology combines the power of optical communications with the cost-effectiveness and scalability of CMOS technology, making it an attractive solution for data center operators.
Novel data centers worldwide are witnessing a growth requirement for next-generation data storage systems and high-speed data transfer rates. Datacom protocols are moving to high-speed signaling and surpassing 100 Gbps, giving rise to issues related to the range and signal integrity for both copper and optical cables. Thus, the requirements for low-cost, power-efficient, high-bandwidth interconnection networks pose challenges for data centers. However, the capability of optics to ensure high-bandwidth data transmission promotes the use of photonics to fulfill data center bandwidth requirements. Hence, silicon photonics technology can be integrated with conventional, complementary metal-oxide semiconductor (CMOS) devices to meet the demand for next-generation performance in data centers. Thus, the need for low-cost, high-speed interconnects supporting ever-increasing data rates beyond 100 Gbps is driving the growth of the silicon photonics market.
Restraint: Risk of thermal effect
Thermal effects are a concern in the Silicon Photonics market, especially as devices become smaller and more complex. The thermal effect arises due to the absorption of light by silicon, which can increase the temperature in the device. This increase in temperature can lead to a decrease in device performance or even device failure. One potential area of concern is the integration of electronic and photonic components on the same chip. The heat generated by the electronic components can impact the performance of the photonic components and vice versa. Additionally, high-powered laser sources can generate significant amounts of heat, which can cause thermal damage to the device.
Silicon photonics is extensively used in telecommunication and data communication servers that consume extremely high power, introducing thermal stress to servers. For instance, elevated temperature may alter the refractive index of optical light, which results in the loss of visual data. Thus, the impact of this restraint is currently moderate, but it will be low in the near future with the introduction of newer innovative packaging technologies. Liquid-crystal cladding can be used to reduce the thermal effect, which has a negative thermo-optic coefficient and low absorption at infrared wavelengths.
Opportunity: Emerging applications of silicon photonics
Datacom and telecom are the major applications of silicon photonics; recently, much effort has been made by research institutes and players operating in this field to explore opportunities in other application areas, such as medical and life sciences, and automotive LiDAR. Automotive LiDAR is used in self-driving cars. MIT Photonics Microsystem Group and DARPA are working to integrate mechanical LiDAR systems on a microchip that can be mass-produced in CMOS foundries.
Silicon photonics will revolutionize the medical diagnosis industry. It is because silicon photonics has many potential applications in enabling high-speed kits for home and laboratory settings and point-of-care testing. This is due to the speed, accuracy, versatility, and size with which silicon photonic biosensors can evaluate a variety of analytes. Along with it, most global health data will be derived from the imaging data generated in laboratories, hospitals, and imaging centers. This will require high-speed data transmission channels; silicon photonics technology will fulfill this need.
Challenges: Inefficient electroluminescence of bulk crystalline silicon
An optical network (fiber-optic or on-chip) requires light sources, and a photonic-integrated circuit (PIC) is incomplete without these sources. Bulk crystalline silicon has inefficient electroluminescence, so light sources have been critical for silicon photonics. Due to this, the creation of practical silicon light sources has been a primary focus in terms of R&D. Silicon lasers and amplifiers are useful in silicon photonics; however, intense optical pumping is required for on-chip devices. Thus, optical pumping is likely to be off-chip. Significant Si-based sources are being developed and will be available in the market in the next five years to manage on-chip optical pumping.
Silicon photonics market Map:
Switches to account for second-largest share of silicon photonics market, by product, during forecast period
Switches in by product segment account for the second-largest market share and are expected to retain their position during the forecast period. The growth of the switches segment can be attributed to the increasing demand for these switches by data center operators due to their higher bandwidth, lower latency, and lower power consumption. This is particularly important as data centers become more complex, with increasing data traffic flowing between servers and storage devices. Also, the switches segment is expanding with the increasing adoption of 5G technology, which requires high-speed, low-latency communication networks to support the substantial amounts of data generated by connected devices.
Telecommunications segment account for second-largest market share of silicon photonics market, by application, during forecast period
The telecommunication application segment accounts for the second-largest market share in the silicon photonics market by application segment and is expected to retain its position during the forecast period. The increasing demand for broadband services and the growing demand for high-speed internet services has prompted telecom service providers to invest in developing new network technologies, including silicon photonics. This helps provide high-speed broadband connections and many broadband services over the existing network infrastructure. Additionally, a growing number of internet users over the years has also resulted in rising investments to develop average downlink and uplink speeds to provide internet services to these users.
Asia Pacific region is expected to exhibit the highest CAGR during forecast period
The silicon photonics market in Asia Pacific is expected to grow at the highest rate, driven by the growing use of silicon photonics in telecommunication, data center, and high-performance computing applications. The silicon photonics market in Asia Pacific is also driven by the high number of internet users in China and India. The increasing use of high-speed broadband networks and mobile devices requires developed infrastructure supporting telecommunication and high-speed communication. Hence, Asia Pacific provides a massive opportunity for the silicon photonics market.
Silicon Photonics Market by Region
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Key Market Players
Cisco Systems, Inc. (US), Intel Corporation (US), MACOM Technology Solutions (US), GlobalFoundries Inc. (US), Lumentum Operations LLC (US), Marvell Technology, Inc. (US), Coherent Corporation (US), International Business Machines Corporation (IBM) (US), STMicroelectronics N.V. (US), Rockley Photonics Holdings Limited (US) are some key players operating in the Silicon Photonics Companies
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Report Metric |
Details |
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Estimated Value |
USD 1.3 billion |
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Expected Value |
USD 5.0 billion |
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Growth Rate |
CAGR of 28.5% |
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Market size available for years |
2019–2028 |
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Base year considered |
2022 |
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Forecast period |
2023–2028 |
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Forecast units |
USD Million/Billion |
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Segments covered |
Product, component, waveguide, application, and Region. |
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Regions covered |
North America, Asia Pacific, Europe, and RoW |
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Companies covered |
Cisco Systems, Inc. (US), Intel Corporation (US), MACOM Technology Solutions (US), Global Foundries Inc. (US), Lumentum Operations LLC (US), Marvell Technology, Inc. (US), Coherent Corporation (US), International Business Machines Corporation (IBM) (US), STMicroelectronics NV (US), Rockley Photonics Holdings Limited (US), Mellanox Technologies Ltd. (US), Sicoya GmbH (Germany), RANOVUS (Canada), Broadcom Inc. (US), Hamamatsu Photonics KK (Japan), Fujitsu Limited (Japan), EFFECT Photonics (Netherlands), AIO Core Co., Ltd. (Japan), NKT Photonics (Denmark), and so on are among the key players operating in the silicon photonics market. |
Silicon Photonics Market Highlights
This research report categorizes the silicon photonics market based on Product, Component, Waveguide, Application, and Region.
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Segment |
Subsegment |
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Silicon Photonics Market, Product |
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Silicon Photonics Market, Component |
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Silicon Photonics Market, By Waveguide |
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Silicon Photonics Market, By Application |
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Silicon Photonics Market, By Region |
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Recent developments
- In August 2022, Lumentum Operations LLC (US) completed its merger with NeoPhotonics Corporation (US) to expand its product portfolio in the market for optical components used in cloud and telecom network infrastructure.
- In May 2022, GlobalFoundries Inc. (US) announced the launch of GF Labs. This new program extends the development horizon of innovative, differentiated semiconductor technology and broadens the company’s portfolio of feature-rich and enablement solutions. GF Labs will focus on advancing recent technology and long-term roadmap differentiation, enabling GF customers to develop innovative products and accelerate their time-to-market.
Frequently Asked Questions (FAQ):
What are the key strategies adopted by key companies in the silicon photonics market?
Product launches, acquisitions, and collaborations have been and continue to be some of the major strategies adopted by the key players to grow in the silicon photonics market.
What region dominates the silicon photonics market?
The North American region will dominate the silicon photonics market.
What application dominates the silicon photonics market?
Data centers and high-performance computing applications are expected to dominate the silicon photonics market.
Which product from the product segment dominates the silicon photonics market?
Transceiver is expected to have the largest market size during the forecast period.
Who are the major companies in the silicon photonics market?
Cisco Systems, Inc. (US), Intel Corporation (US), MACOM Technology Solutions (US), GlobalFoundries Inc. (US), and Lumentum Operations LLC (US).
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The study involved four major activities in estimating the current size of the silicon photonics market—exhaustive secondary research collected information on the market and its peer and parent markets. The next step was to validate these findings, assumptions, and sizing with industry experts across the value chain through primary research. Both top-down and bottom-up approaches were employed to estimate the total market size. After that, market breakdown and data triangulation were used to estimate the market size of segments and subsegments.
Secondary Research
Various secondary sources have been referred to in the secondary research process for identifying and collecting information important for this study. These secondary sources include silicon photonics technology journals and magazines, annual reports, press releases, investor presentations of companies, white papers, certified publications and articles from recognized authors, and directories and databases such as Factiva, Hoovers, and OneSource.
Primary Research
Various primary sources from both supply and demand sides have been interviewed in the primary research process to obtain qualitative and quantitative information important for this report. The primary sources from the supply side included industry experts such as CEOs, VPs, marketing directors, technology and innovation directors, and related executives from key companies and organizations operating in the silicon photonics market. After complete market engineering (including calculations regarding market statistics, market breakdown, market size estimations, market forecasting, and data triangulation), extensive primary research was conducted to gather information as well as to verify and validate the critical numbers arrived at.
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Market Size Estimation
In the complete market engineering process, both top-down and bottom-up approaches have been implemented, along with several data triangulation methods, to estimate and validate the size of the silicon photonics market and other dependent submarkets listed in this report.
- Extensive secondary research has identified key players in the industry and market.
- In terms of value, the industry’s supply chain and market size have been determined through primary and secondary research processes.
- All percentage shares, splits, and breakdowns have been determined using secondary sources and verified through primary sources.
Silicon Photonics Market: Bottom-Up Approach
Silicon Photonics Market: Top-Down Approach
Data Triangulation
After arriving at the overall market size from the estimation process explained above, the global market has been split into several segments and subsegments. Market breakdown and data triangulation procedures have been employed wherever applicable to complete the overall market engineering process and arrive at exact statistics for all segments and subsegments. The data has been triangulated by studying various factors and trends identified from both the demand and supply sides.
Market Definition
Silicon photonics is a technology that uses semiconductor-grade silicon as a platform for the integration of photonic circuits with electronic components on a single microchip. This technology reduces the system’s power consumption and expands the bandwidth for transmission by using silicon as an optical medium for data transmission. Instead of electrical signals, the technology uses optical rays to transfer data because optical rays can transmit large volumes of data at a higher speed than electrical signals.
Key Stakeholders
- Component and material providers
- Semiconductor foundries
- Silicon photonics platform developers
- Silicon photonics product manufacturers and suppliers
- Assembly and testing vendors
- Original equipment manufacturers
- Research organizations and consulting companies
- Technology investors
- Associations, alliances, and organizations related to silicon photonics
- Analysts and strategic business planners
- End users
Report Objectives
The following are the primary objectives of the study.
- To describe and forecast the silicon photonics market size, in terms of value, by product, component, application, and region
- To describe and forecast the market size across four key regions, namely, North America, Europe, Asia Pacific, and the Rest of the World (RoW), along with their respective country-level market size, in terms of value
- To provide details regarding the silicon photonic waveguide range
- To provide detailed information regarding the drivers, restraints, opportunities, and challenges of the silicon photonics market
- To strategically analyze the micromarkets1 concerning the individual growth trends, prospects, and their contribution to the silicon photonics market
- To map competitive intelligence based on company profiles, key player strategies, and key developments
- To provide a detailed overview of the silicon photonics value chain and ecosystem
- To provide information about the key technology trends and patents related to the silicon photonics market
- To provide information regarding trade data related to the silicon photonics market
- To analyze opportunities in the market for stakeholders by identifying high-growth segments of the silicon photonics ecosystem
- To benchmark the market players using the proprietary company evaluation matrix framework, which analyzes them on various parameters within the broad categories of market ranking/share and product portfolio
- To analyze competitive developments such as contracts, acquisitions, product launches and developments, collaborations, and partnerships, along with research & development (R&D), in the silicon photonics market
- To analyze the impact of the recession on the growth of the silicon photonics market
Available Customizations
With the given market data, MarketsandMarkets offers customizations according to a company’s specific needs. The following customization options are available for the report:
Company Information:
- Detailed analysis and profiling of additional market players (up to 5)
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Growth opportunities and latent adjacency in Silicon Photonics Market
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