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The optical transceivers market will more than double by 2025 driven by heavy investments in data centers

 

Extracted from :
Optical Transceivers for Datacom & Telecom 2020 report, Yole Développement
Silicon Photonics 2020 report, 2019, Yole Développement
Intel Silicon Photonic 100G CWDM4 QFSP28 Transceiver System Plus Consulting, 2020

OUTLINES :
• End of 2025, Yole Développement announces a US$17.7 billion market, with a 15% CAGR(1) during this period.
• Market driver is the high optical module cost erosion coupled with high volume adoption of high data rates modules by big cloud service operators and national telecom operators.
• The optical transceiver industry is very fragmented and tightly linked with other optical communication technologies.
• Technology status:
The integration of multiple technologies is the major technical trends identified by Yole Développement’s analysts.
Basically, three technology platforms – silicon photonics, InP, and VCSELs – are used in today’s optical modules and are targeting different applications.
Silicon photonics might represent a key enabling technology for future development.
• COVID-19 is affecting telecommunication globally. As a consequence, sales of optical transceiver modules will be negatively impacted in 2020.

“Revenue generated by optical transceivers reached around US$7.7 billion in 2019 and is expected to more than double to around US$17.7 billion by 2025 at a CAGR for 2019-2025 of 15%” asserts Martin Vallo, PhD, Technology & Market Analyst Solid-State Lighting technologies, within the Photonics, Sensing & Display division at Yole Développement (Yole). “This growth will be driven by high volume adoption of expensive high data rates including 400G and 800G, modules by big cloud service operators. Therefore, such players invest more and more in new datacenters and top of that telecom operators have also increased their investments into the 5G networks that use wireless optical transceivers”.
High demand from datacenter and telecom operators have been confirmed as follows:
• The datacom market growth, about 20% CAGR between 2019 and 2025, will be driven by the adoption of expensive higher data rate optical modules which migrate from core/spine networks down to inter-rack connections.
• The revenue growth of telecom optical modules will be driven by coherent technologies for DCI optical transport solutions and 5G optical transceivers deployment in Asia. Yole’s analysts announce 5% CAGR during this period.
• The sharp difference in growth revenues is caused by lower sales expectation in 2020 due to the COVID-19 pandemic.
In addition, the total revenue is expected to moderately increase in 2020 with the effect of the pandemia. Indeed, COVID-19 is naturally affecting telecommunications globally and sales of optical transceiver modules. However, demand for optical modules by data-center operators is very strong in China, pushed by the local government. Its strategy is mainly focused on the 5G deployment and the development of cloud data centers.

In this context, Yole and its partner System Plus Consulting deeply investigates the optical transceivers technologies and related markets. Today the photonics team delivers three dedicated reports to point out the latest innovations and underlines the business opportunities: Optical Transceivers for Datacom & Telecom 2020 reportSilicon Photonics 2020 reportIntel Silicon Photonic 100G CWDM4 QFSP28 Transceiver.
Released today, the Optical Transceivers for Datacom & Telecom 2020 report gives a deep understanding of the global landscape of fiber-optic communication and classifies its technologies for newcomers to this field. Analysts examine the application landscape, and associated technologies and propose a complete review of the optical transceiver industry and future trends. Including drivers of network traffic growth, macro trend analyses for both Datacom and Telecom, a review of trends in data centers impacting the optical module market, detailed ASP evolution, this report aims to reveal a detailed description of this industry.
What is the status of the optical transceivers industry? What are the main market and technical trends for both market segments, datacom and telecom? Who are the key suppliers to watch, and what technologies do they provide? What are the technical challenges? Yole presents today its vision of the optical transceivers industry.

According to Pars Mukish, Business Unit Manager, Solid-State Lighting (SSL) & Display at Yole: “The state of the art of fiber-optic communication technologies has advanced dramatically over the past 25 years. The highest capacity of commercial fiber-optic links available in the 1990s was only 2.5-10 Gb/s while today they can carry up to 800 Gb/s. The last decade of developments have enabled higher efficiency digital communication systems and solved problems with degraded signals”.
Network traffic growth has been increasing at an enormous pace over the decades and across all the network architectures from the long-haul, mobile access to intra-DC networks. This growth has been driven by streaming UHD(2) videos, which need ever higher data throughput, and now newly emerging digital applications and services requiring fast access to the digital networks. It appears that the success and demand for existing applications continuously drives scale and capacity of the underlying network infrastructure (including OTs) to points where further applications are enabled, renewing the cycle. Fiber optic networks consist of a set of optical network devices connected by optical fiber links, able to provide transport and related functionalities of optical channels carrying signals to final client. Datacom(3) is linked with cloud services in DCs(4) and often excludes voice services. Typical transmission distance is up to 100 km. Telecommunication is any communication over a distance, typically over 100 km. Telecom includes voice services, wireless networks as well as data communication. A transceiver gets its name from being both an optical transmitter that converts an electrical signal into a light signal, and an optical receiver that accepts the light signal and converts it back into an electrical signal. The OTs(5) are widely used in server network cards, switches, routers and wireless base station equipment in a variety of network architectures and applications. Distances covered start from less than 50 meters for server and storage interconnections in data centers and enterprise networks to more than 800 km in telecom networks.

ILLUS_OPTICAL_TRANSCEIVERS_2019-2025MarketRevenueForecast_YOLEGROUP_June2020

As analyzed by Yole’s team in the new Optical Transceivers for Datacom & Telecom 2020 report, the evolution of multiple technologies has enabled transmission speed of 400G and beyond in long haul and metro networks. Today’s trend of migration to 400G speeds stem from cloud operators’ demand to interconnect data centers. Furthermore, exponential increase of capacity of digital communication networks and growing numbers of optical ports impact optical module technology hugely. The new form factors are increasingly universal and designed to reduce their size and thus power consumption. Inside modules the optics and integrated circuits are getting closer together.
Therefore, silicon photonics might represent a key enabling technology for further development of optical interconnect solutions needed to address growing traffic. This technology will play an important role in 500m–80km distance applications. Industry is working on heterogeneous integration of InP lasers directly onto silicon chips. The advantage is scalable integration and elimination of the cost and complexity of the optical package. Reduced efficiency and lower optical power at high temperature are the typical challenges for these lasers.
For Eric Mounier, PhD, Fellow Analyst at at Yole: “Besides increasing speed by integrating amplifiers, the higher data throughput is also achieved by integrating state-of-the-art digital signal processing chips providing different multi-level modulation techniques such as PAM4 or QAM. Another technique to increase data rates is parallelization or multiplexing that enables increasing capacity using parallel fibers or different wavelengths onto a single fiber”.
Progress in integration of optical component technologies has led to dramatic reductions in complexity and cost of optical transceivers. The massive growth in bandwidth has yielded a 10 to 100-fold decrease in cost per transmitted bit.

All year long, System Plus Consulting and Yole Développement combine their expertise and deep understanding of the markets and disruptive technologies to publish numerous reports. In addition, our experts realize various key presentations and organize key conferences.
Save the date right now: Optical Transceivers & Silicon Photonics Forum 2020 on September 9 at 1PM, in Shenzhen, China, alongside the 22nd CIOE.
This Forum is the first conference focused on optical transceivers and silicon photonics. Therefore, Yole is proud to collaborate with the China International Optoelectronic Expo (CIOE) to organize an all-new Executive Forum on Optical Transceivers and Silicon Photonics. This event will explore optical transceiver applications within the optical communication industry. Discover the program on i-Micronews and well as the overall 2020 program.
Throughout the year, Yole Développement publishes numerous photonic-related reports including the optical transceiver and the silicon photonics ones. Make sure to be aware of the latest news coming from the industry and get an overview of our activities, including interviews with leading companies and more on i-Micronews. Stay tuned!

(1): CAGR : Compound Annual Growth Rate
(2): UHD : Ultra High Definition
(3): Datacom : Data Communication
(4): DC : Data Centers
(5): OT : Optical Transceivers

 

 

 

 

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