How Does IoT Technology Impact Demand for Photonic Integrated Circuit?
In 2021, the photonic integrated circuit in the industry contributes $7,639.5 million, and it is expected to rise at a rate of 20.5%, to generate $41,037.7 million revenue by 2030. The massive demand for such components in biomedical, telecommunications, and data center facilities, resulting in a growing inclination toward autonomous vehicles, electronic device miniaturization, and rapid automation in numerous sectors boosts the industry growth.
Under the raw material segment, the iii-V material category holds a significant share of the industry. It is led by the technological advancements of 3D depth sensing in, automotive lighting, consumer electronics, horticultural lighting, IR LED, and LiDar applications.
In addition, the silica-on-silica category captures the next significant photonic IC industry, owing to the affordable cost of setting up and operating photonic integrated circuits made by this material. In addition, such components can easily be integrated into electronic devices, and hence provides numerous opportunities to industry players.
Moreover, the rising number of telecommunications networks, increasing data center demand, and growing adoption of high-performance computers enable high-speed data flow, economic cost, large bandwidth, and enhanced energy efficiency. Thus, photonics integration into electronics offers quick data transfer and leads to increasing demand for III-V raw materials.
Read More: https://www.psmarketresearch.com/market-analysis/photonic-integrated-circuit-ic-market
In 2021, the photonic integrated circuit in the industry contributes $7,639.5 million, and it is expected to rise at a rate of 20.5%, to generate $41,037.7 million revenue by 2030. The massive demand for such components in biomedical, telecommunications, and data center facilities, resulting in a growing inclination toward autonomous vehicles, electronic device miniaturization, and rapid automation in numerous sectors boosts the industry growth.
Under the raw material segment, the iii-V material category holds a significant share of the industry. It is led by the technological advancements of 3D depth sensing in, automotive lighting, consumer electronics, horticultural lighting, IR LED, and LiDar applications.
In addition, the silica-on-silica category captures the next significant photonic IC industry, owing to the affordable cost of setting up and operating photonic integrated circuits made by this material. In addition, such components can easily be integrated into electronic devices, and hence provides numerous opportunities to industry players.
Moreover, the rising number of telecommunications networks, increasing data center demand, and growing adoption of high-performance computers enable high-speed data flow, economic cost, large bandwidth, and enhanced energy efficiency. Thus, photonics integration into electronics offers quick data transfer and leads to increasing demand for III-V raw materials.
Read More: https://www.psmarketresearch.com/market-analysis/photonic-integrated-circuit-ic-market
How Does IoT Technology Impact Demand for Photonic Integrated Circuit?
In 2021, the photonic integrated circuit in the industry contributes $7,639.5 million, and it is expected to rise at a rate of 20.5%, to generate $41,037.7 million revenue by 2030. The massive demand for such components in biomedical, telecommunications, and data center facilities, resulting in a growing inclination toward autonomous vehicles, electronic device miniaturization, and rapid automation in numerous sectors boosts the industry growth.
Under the raw material segment, the iii-V material category holds a significant share of the industry. It is led by the technological advancements of 3D depth sensing in, automotive lighting, consumer electronics, horticultural lighting, IR LED, and LiDar applications.
In addition, the silica-on-silica category captures the next significant photonic IC industry, owing to the affordable cost of setting up and operating photonic integrated circuits made by this material. In addition, such components can easily be integrated into electronic devices, and hence provides numerous opportunities to industry players.
Moreover, the rising number of telecommunications networks, increasing data center demand, and growing adoption of high-performance computers enable high-speed data flow, economic cost, large bandwidth, and enhanced energy efficiency. Thus, photonics integration into electronics offers quick data transfer and leads to increasing demand for III-V raw materials.
Read More: https://www.psmarketresearch.com/market-analysis/photonic-integrated-circuit-ic-market
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