NewPhotonics' breakthrough technology, the NPG102 TOC, is designed to meet the growing demands of AI-era data centers, providing advanced optical solutions for faster data processing.
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| NewPhotonics introduces NPG102 transmitter-on-chip for DSP-based optical modules, enabling faster and more efficient data transmission in AI-era data centers. Image Courtesy: NewPhotonics |
Tel Aviv, Israel - September 23, 2024:
NewPhotonics has made a significant stride towards revolutionizing data center interconnects with the introduction of its NPG102 transmitter-on-chip (TOC). This innovative chip is designed to cater to the burgeoning demands of AI-era data centers by offering high-speed, energy-efficient, and low-latency optical connectivity.
The NPG102 TOC is equipped with a host of advanced features, including octal channel integration, auto-tunable lasers, and 224 Gbps PAM4 modulation. These features enable an aggregate bandwidth of 1.6 Tbps, which is crucial for handling the massive data loads generated by AI workloads. Additionally, the chip's internal ADC/DAC and on-chip thermal monitoring ensure precise channel control and efficient operation.
One of the standout features of the NPG102 TOC is its integrated lasers. By integrating lasers and modulators on a single chip, NewPhotonics has reduced the time-to-market for pluggable OSFP modules. This breakthrough in transceiver chip design is expected to accelerate the development and deployment of high-performance optical transceiver modules.
The NPG102 TOC is designed to meet the increasing demands of AI-era data centers, where the need for faster and more energy-efficient data processing is paramount. By offering low-latency data transmission with reduced channel loss, the chip can significantly enhance the performance of AI clusters.
NewPhotonics' Easy Access program ensures that the NPG102 TOC is readily available to customers, and the chip is expected to launch in Q2 2025. This timely availability is crucial for addressing the growing need for advanced optical connectivity solutions in data centers worldwide.
In conclusion, NewPhotonics' NPG102 TOC represents a significant step forward in the development of AI-era data center interconnects. Its high-speed, energy-efficient, and low-latency capabilities make it a promising solution for meeting the demanding requirements of modern data centers. As AI workloads continue to grow, the NPG102 TOC is poised to play a vital role in enabling faster and more efficient data processing.