chanelink logo
CHANELINK
日本語

Sivers will develop laser arrays for artificial intelligence and deliver prototypes in 2024

169
2024-03-18 14:04:31
翻訳を見る

Sivers Optics, a subsidiary of Sivers Semiconductors, has signed a product development agreement with an undisclosed company.

Starting from the initial contract worth $1.3 million, the prototype will be delivered in 2024, and it is expected that the agreement will grow rapidly in 2025 before transitioning to mass production. After entering full production, customers expect the annual chip production to exceed millions by 2026.

Sivers is an advanced custom laser manufacturer for high-speed optical solutions. The company stated that it is ready to fully leverage the growing demand for next-generation laser chips, which can meet the urgent needs of artificial intelligence computing. The company's optical communication technology has provided support for applications that require high bandwidth and low latency data transmission. The new collaboration will further expand Sivers' footprint to the rapidly developing field of artificial intelligence hardware.

Anders Storm stated, "As optical solutions become crucial for advanced artificial intelligence workloads, our technology will help drive the speed of light data transmission required for this new computing paradigm. This is an excellent opportunity in the short term and a huge opportunity for sustained growth starting from 2026." Sivers Semiconductor Group CEO.

Source: Laser Net

関連のおすすめ

  • Scientists have used 3D integration technology to bring ultra-low noise lasers without isolators to silicon photonics

    After electronic integrated circuits (Eics), silicon (Si) photonics technology is expected to achieve photonic integrated circuits (PIC) with high density, advanced functions and portability. Although various silicon photonics fountifiers are rapidly developing PIC capabilities to enable mass production of modulators, photodetectors and, more recently, lasers, silicon PIC has not yet met the strin...

    2023-08-04
    翻訳を見る

  • Laser induced 2D material modification: from atomic scale to electronic scale

    Background IntroductionTwo dimensional materials have attracted widespread attention due to their atomic level thickness and unique properties, such as high binding energy, tunable bandgap, and new electronic degrees of freedom (valley electronics). They have many application prospects in fields such as microelectronics, nanophotonics, and nanoenergy. Various two-dimensional materials have their o...

    2024-02-23
    翻訳を見る

  • On demand ultra short laser flash: controllable optical pulse pairs from a single fiber laser

    Set up a dual comb fiber laser oscillator, external pulse combination, and real-time detection.In innovative methods for controlling ultra short laser flashes, researchers from Bayreuth University and Konstanz University are using soliton physics and two pulse combs in a single laser. This method has the potential to greatly accelerate and simplify laser applications.Traditionally, the pulse inter...

    2024-01-12
    翻訳を見る

  • New progress in in-situ identification and quantitative research of methane carbon isotopes in the ocean

    Recently, Zhang Xin's research team from the Institute of Oceanography, Chinese Academy of Sciences, based on the in-situ laser Raman spectroscopy technology, made new progress in the in-situ recognition and quantification of methane carbon isotopes by using the significant differences in the Raman spectra of methane carbon isotopes (13CH4 and 12CH4). The relevant results were recently published i...

    2023-10-13
    翻訳を見る

  • The LANL laboratory in the United States uses quantum light emitters to generate single photon light sources

    Recently, the Los Alamos National Laboratory (LANL) in the United States has developed a method for quantum light emitters, which stacks two different atomic thin materials together to achieve a light source that generates circularly polarized single photon streams. These light sources can also be used for various quantum information and communication applications.According to Han Htoon, a researc...

    2023-09-01
    翻訳を見る