• Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
Converge Digest
Tuesday, July 14, 2026
  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
No Result
View All Result
Converge Digest
No Result
View All Result

Home » Europe Backs STARLight Project to Lead 300mm Silicon Photonics

Europe Backs STARLight Project to Lead 300mm Silicon Photonics

September 23, 2025
in Optical, Silicon Photonics
A A

Europe has chosen the STARLight Project to take the lead in next-generation silicon photonics development on 300mm wafers, marking a major milestone in the region’s semiconductor and photonics strategy. The consortium brings together 24 leading technology companies and universities from 11 EU countries under the leadership of STMicroelectronics. Operating through 2028 and supported by the EU CHIPS Joint Undertaking, STARLight aims to establish a full-scale European manufacturing line for silicon photonics and create an end-to-end value chain spanning design, materials, fabrication, packaging, and applications. Initial applications will target datacenters, AI clusters, telecommunications, and automotive systems.

Silicon photonics combines the high-yield manufacturing benefits of CMOS silicon with the speed and energy efficiency of photonics. The STARLight program will tackle several technical challenges that currently limit scaling. These include high-speed modulation beyond 200Gbps per lane, integration of reliable on-chip lasers, and advanced packaging to minimize signal loss and power consumption. In addition, the consortium will explore new material platforms—including silicon-on-insulator (SOI), lithium niobate (LNOI), and barium titanate (BTO)—with contributions from major European R&D institutions such as CEA-LETI, imec, Université Paris-Saclay, III-V Lab, Lumiphase, and Soitec. By combining these approaches, the project aims to enable next-generation photonic integrated circuits (PICs) that can scale from 200G to 400G per lane and beyond.

In the datacenter domain, STMicroelectronics, Sicoya, and Thales will collaborate on PIC100 demonstrators capable of 200Gbps per channel, with a development path toward 400Gbps per lane optics. These will support future pluggable modules for AI clusters and hyperscale facilities. The project will also explore free-space optical transmission systems for both terrestrial and space-based communication. In AI acceleration, STARLight is targeting a photonic processor optimized for tensor operations—matrix-vector multiplication and multiply-accumulate—that promises reduced size, higher data throughput, and superior energy efficiency compared to today’s silicon-based processors. This effort directly aligns with the growing computational demands of large-scale neural networks.

Telecom applications will be advanced through Ericsson’s leadership in two areas: an integrated switch to enable optical offload within radio access networks, and radio-over-fiber solutions to relocate power-intensive processing away from antenna units. Both approaches promise to boost capacity and reduce embodied CO2 in mobile networks. Complementing these developments, MBryonics will deliver a free-space-to-fiber interface for optical communication systems, bridging space and terrestrial links. In automotive, the consortium will validate performance in sensing applications, particularly LiDAR. Steerlight will work closely with automakers to industrialize photonic-based sensors, while Thales will focus on advanced signal generation and processing for autonomous robotics and vehicles.

By consolidating efforts across multiple industries, STARLight underscores Europe’s ambition to reduce dependency on external foundries and secure its own supply chain for advanced photonics. The project’s success would establish Europe as a global player in silicon photonics manufacturing, enabling both economic resilience and technological leadership in the AI-driven data economy.

• 24-member consortium across 11 EU countries

• Led by STMicroelectronics under the EU CHIPS Joint Undertaking

• Target markets: datacenters, AI clusters, telecom, automotive, space

• Technical goals: >200Gbps per lane modulators, integrated lasers, advanced packaging, new materials (SOI, LNOI, BTO)

• Demonstrators: 200G/400G datacom optics, AI photonic processors, RAN optical offload, radio-over-fiber, LiDAR and robotics sensors

“Silicon Photonics technology is critical to put Europe at the crossroads to the AI factory of the future and the STARLight project represents a significant step for the entire value chain in Europe,” said Remi El-Ouazzane, President, Microcontrollers, Digital ICs and RF products Group at STMicroelectronics.

STARLight Consortium Members & Focus Areas

OrganizationCountryFocus Area(s)
STMicroelectronics (Lead)Switzerland/France/ItalyOverall leadership, datacenter demonstrators, 200G PICs
SicoyaGermanyDatacenter optics, 200G/400G modules
ThalesFranceDatacom optics, advanced sensors, autonomous robotics
EricssonSwedenTelecom, RAN optical offload, radio-over-fiber
MBryonicsIrelandFree-space-to-fiber optical interfaces
SteerlightFranceLiDAR sensors for automotive integration
SoitecFranceMaterials – SOI wafers for SiPho
CEA-LETIFranceResearch in new materials, packaging
imecBelgiumAdvanced photonics R&D, integration of novel materials
Université Paris-SaclayFranceAcademic research in photonic materials
III-V LabFranceIII-V materials integration, lasers
LumiphaseSwitzerlandBarium titanate modulators, advanced PIC materials

Note: This list highlights confirmed participants mentioned in the STARLight press release. The consortium spans 24 organizations; additional members will be added as their roles are detailed by the project.

https://www.starlight-h2020.eu

🌐 Analysis: STARLight aligns with Europe’s broader semiconductor autonomy efforts while responding to soaring demand for AI-ready optical interconnects. The initiative parallels U.S. investments in Intel’s silicon photonics and GlobalFoundries’ heterogeneous integration, as well as Asian scaling of photonics platforms by TSMC and Japanese research centers. If STARLight achieves its technical milestones, Europe could emerge as a key competitor in next-generation optical interconnects, especially in the race toward 224G and 448G lanes for hyperscaler AI clusters.

🌐 We’re tracking the latest developments in networking silicon. Follow our ongoing coverage at: https://convergedigest.com/category/semiconductors/

ShareTweetShareSummarizeSummarize
Previous Post

ECOC25: OIF Advances Linear Optics and Optical Module Control 

Next Post

Microsoft Announces Microfluidic Cooling for AI Chips

Jim Carroll

Jim Carroll

Editor and Publisher, Converge! Network Digest, Optical Networks Daily - Covering the full stack of network convergence from Silicon Valley

Related Posts

Screenshot
Clouds and Carriers

Zayo Taps Former Verizon Business Chief to Lead its Next Phase

July 14, 2026
Corporate Strategies

IBM Q2 Revenue Rises 1% as Mainframe and Software Sales Miss Expectations

July 14, 2026
Screenshot
Corporate Strategies

Ericsson Q2: Margin Expansion, Software Growth and AI-Driven Connectivity

July 13, 2026
Clouds and Carriers

euNetworks Opens Direct 1,057 km Fibre Route Between Paris and Milan

July 13, 2026
Enterprise

HPE Links AI Infrastructure Growth to Energy Efficiency and Governance

July 13, 2026
Enterprise

Lumen Integrates Black Lotus Labs Threat Intelligence with Palo Alto Networks 

July 13, 2026
Next Post

Microsoft Announces Microfluidic Cooling for AI Chips

Categories

  • 5G / 6G / Wi-Fi
  • AI Infrastructure
  • All
  • Automotive Networking
  • Blueprints
  • Clouds and Carriers
  • Corporate Strategies
  • CPO
  • Data Centers
  • Enterprise
  • Explainer
  • Feature
  • Hot Start-ups
  • Last Mile / Middle Mile
  • Legal / Regulatory
  • Optical
  • Optical I/O
  • Pluggable Optics
  • Quantum
  • Research
  • Security
  • Semiconductors
  • Silicon Photonics
  • Space Networking & Orbital Data Centers
  • Subsea
  • Sustainability
  • Video
  • Webinars
Converge Digest

A private dossier for networking and telecoms

Follow Us

  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search

© 2026 Converge Digest - A private dossier for networking and telecoms.

No Result
View All Result
  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search

© 2026 Converge Digest - A private dossier for networking and telecoms.

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version