English

Infinira launches an optical solution for 1.6 Tbps ICE-D data centers

1151
2024-03-18 13:47:36
See translation

Infinira, an expert in optical network solutions, announced the launch of a high-speed data center optical transmission module based on single-chip indium phosphide (InP) photonic integrated circuit (PIC) technology. The company claims that the module will connect at a speed of 1.6 terabits per second (Tb/s), while reducing the cost and power consumption per bit.

Yingfeilang stated that its data center's optical connectivity technology can achieve highly integrated solutions, combining multiple optical functions onto a single single chip. This technology is part of Infinira's flexible data center's optical brand ICE-D.

The official press release stated, "The ICE-D test chip has been launched and has been proven to reduce power consumption per bit by 75%, while also improving connection speed."

According to Infinira, this product reduces power consumption per bit by 75% and improves connection speed in AI driven interconnections. The company also mentioned that the optical components within the ICE-D data center are designed to support integration into various internal and campus data center optical solutions.

The company stated that it is using its experience in optical connectivity solutions to address the challenges of economically expanding connectivity within data centers, in order to support the bandwidth flooding brought about by artificial intelligence applications.

Infinira stated, "Our unique single-chip InP PIC technology puts us in an ideal position to develop innovative technologies to provide cost-effective, high-capacity data center connectivity solutions."

Source: Laser Net

Related Recommendations
  • E-22 uncertainty optical frequency divider

    The time/frequency unit is the most accurate among the seven basic units, so many measurement studies that pursue ultra-high accuracy and sensitivity will be transformed into frequency measurements to achieve higher measurement accuracy and sensitivity. For example, by measuring the relative changes in the ratio of different atomic transition frequencies, ultralight dark matter can be detected or ...

    2024-02-27
    See translation
  • Laser chip manufacturer Shijia Photon will make a profit of 65 million yuan in 2024

    Shijia Photon disclosed its 2024 annual performance forecast on the evening of January 17th, expecting to achieve a revenue of 1.074 billion yuan in 2024, a year-on-year increase of 42.36%; Net profit attributable to the parent company was 65 million yuan, with a loss of 47.55 million yuan in the same period last year; Deducting non net profit is expected to be 48.1 million yuan, with a loss of 66...

    01-21
    See translation
  • BWT's 3000W product speed surges by 200%

    In the era of speed and precision, the field of thin and medium plate processing is experiencing a revolutionary transformation. Today, let's explore a remarkably fast tool -- BWT’s Lightning 3000W@34μm fiber laser, and witness its impressive performance.On busy production lines, this product is completing complex cutting tasks at astonishing speeds. Its high-speed, high-efficiency, and high-quali...

    05-12
    See translation
  • Experimental verification of driving pressure enhancement and smoothing for hybrid driven inertial confinement fusion on a 100 kJ laser device

    The research teams from the Laser Fusion Research Center of the Chinese Academy of Engineering Physics, the Beijing Institute of Applied Physics and Computational Mathematics, Peking University, and Shenzhen University of Technology reported experimental verification of the driving pressure enhancement and smoothing of hybrid driven inertial confinement fusion on a 100 kJ laser equipment.The relev...

    2023-09-25
    See translation
  • Shanghai Optics and Machinery Institute has made progress in the research of new terahertz sources based on Yb lasers

    Recently, the State Key Laboratory of Intense Field Laser Physics of the Chinese Academy of Sciences Shanghai Institute of Optics and Fine Mechanics has made new progress in generating intense field terahertz waves based on Yb laser pumped organic crystals. The relevant research results were published in Applied Physics Letters under the title "Efficient strong field THz generation from DSTMS crys...

    2024-04-09
    See translation