Newsgather
BackPeking University Researchers Develop All-Optical Interconnect System for Chips
Peking University Researchers Develop All-Optical Interconnect System for Chips
En desarrollo
SCMP News59 dk önceTecnología1 dk okumaChina

Peking University Researchers Develop All-Optical Interconnect System for Chips

En resumen

  • Peking University researchers have created an all-optical interconnect system that links standard electronic chips, accelerating AI inference speeds by over 100 times and reducing computational resource needs by nine times.
  • Published in National Science Review, the system uses FPGA chips and custom hardware components for signal conversion.

Resumen generado por IA

Por qué importa

Chinese researchers have developed a new all-optical interconnect system linking standard electronic chips, boosting AI distributed inference speeds by over 100 times while using just one-ninth of the typical computational resources.

Tamaño de fuente

Chinese researchers have developed a new all-optical interconnect system linking standard electronic chips, boosting AI distributed inference speeds by over 100 times while using just one-ninth of the typical computational resources.

As AI models permeate ever more applications, the industry’s appetite for computational power has grown insatiable. The conventional response has been to pile on more GPUs and build ever-larger data centres in a seemingly endless race for energy and brute force.

But a new study from Peking University suggests a radically different path: by optically linking chips with specific algorithms, they boost inference speeds by a factor of over 100 while slashing compute needs to just one-ninth.

The work was published in the journal National Science Review, and its corresponding authors include Shu Haowen and Wang Xingjun from Peking University. (A digital object identifier for the paper appears at the end of the story.)

The team’s “Lego” building blocks were Field-Programmable Gate Array (FPGA) chips: programmable devices widely used in fields that demand high parallel-processing capability, such as missile guidance, autonomous driving and data centres.

Space computing: what is it, why move computing into orbit and where does China stand?

The “joints” connecting these FPGAs are two custom-designed communication hardware components. The first is a silicon photonic transceiver chip running at 400 gigabits per second, responsible for converting electrical signals to optical and vice versa.

Qué observar

Perspectiva de IA — posibilidades, no hechos

  • Widespread adoption of optical interconnects in AI hardware.

    Probable · Medio plazo

Preguntas abiertas

  • Scalability of the system?
  • Commercialization timeline?
  • Integration with existing infrastructure?

Temas relacionados

This article was originally published by SCMP News.

Noticias relacionadas

Edge AI 智慧手錶市場快速成長 Apple 佔九成市佔
En desarrollo·1 sa önce

Edge AI 智慧手錶市場快速成長 Apple 佔九成市佔

市場研究機構 Counterpoint Research 最新報告指出,具備 Edge AI 功能的智慧手錶市場正快速成長,預計 2026 年第一季出貨量年增 70%,佔整體市場 25%。Apple Watch 憑藉其 Neural Engine 引擎,在 Edge AI 智慧手錶市場中佔有約 90% 的市佔率,大幅領先其他品牌。健康監測是 Edge AI 最重要的發展方向,未來有望實現非侵入式血糖監測等技術。

自由时报
《寶可夢Go》推出十週年:從虛擬捕捉到現實連結
Tecnología·2 sa önce

《寶可夢Go》推出十週年:從虛擬捕捉到現實連結

《寶可夢Go》迎來推出十週年,這款結合GPS與AR技術的行動遊戲已吸引超過10億次下載。遊戲不僅讓玩家走出戶外捕捉虛擬寶可夢,更成為社群連結的平台,促成玩家相識、建立關係,甚至影響心理健康。儘管曾面臨伺服器負荷及疫情衝擊,遊戲仍持續吸引玩家參與大型線下活動,累計探索距離超過1,000億公里。

BBC中文
Más sobre este temaartificial intelligence