• Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
Converge Digest
Friday, July 17, 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 » Intel integrates 224G SerDes with NewPhotonics’ Engine

Intel integrates 224G SerDes with NewPhotonics’ Engine

December 6, 2023
in Optical
A A

Intel and NewPhotonics announced a milestone achievement: the integration of Intel new 224Gbps electrical SerDes design with NewPhotonics’ Photonics Engine, resulting in an end-to-end direct modulation electrical-to-optical link utilizing PAM4 modulation.

The electrical-to-optical link incorporates a wide bandwidth photodetector (PD) and Modulator, supporting the end-to-end 224Gbps data transfer.

“We are thrilled to have achieved the successful integration of our photonics technology with Intel most advanced 224Gbps SerDes.” Yaniv Ben Haim, CEO and Founder of NewPhotonics, said, – “The end-to-end electrical-to-optical link at exceptional performance is a key innovation for products with the lowest power consumption, virtually no processing delay, and cost-effective advanced photonics-based products.”

Noam Avni, Intel Vice President, added, “Our advanced SerDes designs, combined with NewPhotonics optical engine, demonstrates the power of pushing the boundaries of technology. The ability to establish an end-to-end electrical-to-optical link at 224Gbps direct modulation over 10 kilometers is a testament to our commitment to innovation and the advancement of high-speed data transmission solutions.”

Tags: IntelNew Photonics
ShareTweetShareSummarizeSummarize
Previous Post

Nokia and Orange achieve 800G on 6,600km Dunant subsea cable

Next Post

Oracle opens Bogotá Hyperscale Region

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

Semiconductors

Intel Ships First High-Volume Logic Chips Built with ASML High NA EUV

July 15, 2026
Screenshot
All

Intel Commits €5 Billion to Expand Intel 3 Manufacturing Capacity in Ireland

July 13, 2026
All

Intel Advances Multi-Die Packaging Strategy

June 21, 2026
All

Intel Taps Former SK hynix CEO to Lead Advanced Packaging 

June 18, 2026
Semiconductors

Cadence, Intel Foundry Deepen Partnership on Intel 14A

June 8, 2026
Corporate Strategies

Intel Appoints Client Computing Chief and CTO

May 4, 2026
Next Post

Video: 3 Types of Data Center Pluggable Optics

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