CEA-Leti 将在 ECTC 2026 上展示其在新一代芯片集成方面的最新进展

CEA-Leti Will Present Its Latest Advances On Next-Generation Chip Integration at ECTC 2026

CEA-Leti Original
摘要
CEA-Leti将在2026年ECTC会议上展示七项先进异构集成技术,包括首次实现1微米间距晶片对晶圆混合键合及低至100°C的超低温键合。研究涉及意法半导体等合作方,重点突破互连缩放极限,推动高性能3D封装。这些成果将赋能5G/6G和汽车雷达等毫米波应用,加速下一代芯片集成发展。

法国CEA-Leti将于2026年5月26日至29日在美国奥兰多举行的电子元器件与技术大会(ECTC)上,通过七篇论文与海报,发布其面向未来十年先进异构集成的前沿技术。这些研究覆盖混合键合互连、低温工艺、超导互连以及扇出型晶圆级封装等领域。

在混合键合方面,该机构将首次展示芯片到晶圆(Die‑to‑Wafer)混合键合测试载体,互连间距缩小至仅1微米,为多芯片堆叠集成铺平道路。同时,研究团队还将公布在低至100°C的超低温退火条件下实现直接混合键合的成果,这使得对温度敏感的材料(如聚合物和特定半导体)能够与标准CMOS工艺共存,从而将过去无法兼容的技术堆叠变为可能。

随着晶体管栅极尺寸微缩放缓,系统级集成通过先进封装带来性能、功耗和外形尺寸的提升。CEA‑Leti在混合键合上的研究反映出行业正将其视为下一代高性能封装的关键使能技术。此外,针对具体应用的集成进展同样突出:一款集成天线的雷达系统级封装(SiP)展示了面向毫米波应用(如5G/6G和汽车雷达)的扇出型晶圆级封装持续创新。其中,芯片到晶圆论文由Melissa Najem主讲,其他报告还包括与意法半导体合作的Mathieu Loyer等人的成果。

Summary
CEA-Leti will present seven papers at ECTC 2026 showcasing hybrid bonding advances including a 1µm pitch die-to-wafer demonstration and ultra-low 100°C bonding, enabling high-density 3D integration beyond micro-bump limits. Researchers like Melissa Najem and Mathieu Loyer (with STMicroelectronics) highlight applications in millimeter-wave radar for 5G/6G and automotive, while low-temperature processes allow stacking of previously incompatible materials. This aligns with industry's shift toward hybrid bonding as a key enabler for next-generation high-performance packaging and system-level scaling.

Grenoble-based research institute CEA-Leti will present seven papers and posters on next-generation heterogeneous integration at the Electronic Components and Technology Conference (ECTC) in Orlando, May 26–29, 2026. The work spans hybrid bonding, low-temperature processing, superconducting interconnects, and fan-out wafer-level packaging.

A highlight is the first demonstration of die-to-wafer hybrid bonding with a 1 µm pitch, detailed in the paper “Die-To-Wafer Hybrid Bonding Technology down to 1 μm pitch for Multi-Die Stacking Integration.” Researchers will also report the first successful direct hybrid bonding annealed at just 100°C, a breakthrough that allows temperature-sensitive materials like polymers and certain semiconductors to be integrated alongside standard CMOS. Hybrid bonding—where copper and dielectric layers fuse directly—is emerging as the main path for ultra-fine-pitch 3D integration now that micro-bump scaling is hitting limits.

On the applications side, a radar system-in-package with integrated antennas leverages fan-out wafer-level packaging for millimeter-wave use, targeting 5G/6G and automotive radar. This work is presented in collaboration with STMicroelectronics.

Key sessions include presentations by Margot Faure, Mathieu Loyer (ST), and Melissa Najem on the 1 µm pitch bonding, among others. The advances reflect industry-wide alignment on hybrid bonding as a critical enabler for high-performance packaging in the post-gate-scaling era.

Résumé
Le CEA-Leti dévoilera à l’ECTC 2026 sept communications, dont une première démonstration de collage hybride die-to-wafer à pas de 1 µm et un recuit record à 100°C, en partenariat avec STMicroelectronics. Ces travaux sur l’intégration hétérogène et le packaging avancé visent à repousser les limites de l’empilement 3D haute densité et à accélérer les systèmes millimétriques pour la 5G/6G et les radars automobiles.

ECTC - Electronic Components and Technology Conference

GRENOBLE, France – April 28, 2026– CEA-Leti will present seven papers and posters on technologies shaping the next decade of advanced heterogenous integration at the Electronic Components and Technology Conference (ECTC) May 26-29 in Orlando, Fla.

These developments cover a variety of technologies, including reducing interconnect pitches through hybrid bonding interconnection, for low-temperature processes, superconducting interconnects and fan-out wafer-level packaging.

Hybrid bonding, which is based on direct copper-to-copper and dielectric-to-dielectric connection technology, enables ultra-fine pitch vertical interconnects. It is emerging as the primary path for high-density 3D integration, as micro-bump approaches reach their scaling limits.

For example, in the paper “Die-To-Wafer Hybrid Bonding Technology down to 1 μm pitch for Multi-Die Stacking Integration"CEA-Leti will present its first demonstration of a die-to-wafer hybrid bonding test vehicle with a pitch as small as 1µm.

Low-temperature processing enables heterogeneous integration in which temperature-sensitive materials (polymers, certain semiconductors) must coexist with standard CMOS processes. The ability to form robust interconnects below typical thermal budgets opens pathways for stacking previously incompatible technologies. The first time successful direct hybrid bonding annealed at ultra-low temperatures down to 100 °C will be presented.

As transistor gate-scaling slows, system-level integration through advanced packaging delivers the performance, power, and form-factor improvements that end-users expect. CEA-Leti's research on hybrid bonding that will be presented at ECTC 2026 reflects growing industry alignment around hybrid bonding as a key enabler of next-generation, high-performance packaging.

Beyond foundational process development, CEA-Leti researchers will also present application-specific integration advances:

​RF/Wireless: The RADAR sys​​tem-in-package with integrated antennas demonstrates continued innovation in fan-out wafer-level packaging for millimeter-wave applications, critical for 5G/6G and automotive radar.​

Author: Margot Faure​Session 3Wednesday, May 27 from 9:30 AM – 9:50 AM

Session 3Author: Mathieu Loyer (in collaboration with STMicroelectronics)Wednesday, May 27 from 11:35 AM – 11:55 AM

Session 39 (Poster)Author: Arnaud Garnier​Wednesday, May 27 from 2:30 PM – 4:30 PM​

Session 40Author: Maria-Luisa Calvo-Munoz​Wednesday, May 27 from 4:45 PM – 5:05 PM

Session 39 (Poster)Author: Agathe Lerat​​Thursday, May 28 from 10:00 AM – 12:00 PM

Session 39, (Poster)Author: Pablo RenaudThursday, May 28​ from 10:00 AM – 12:00 PM

​​“Die-To-Wafer Hybrid Bonding Technology down to 1 μm pitch for Multi-Die Stacking Integration"Session 31Author: Melissa Najem​Friday, May 29​from 2:00 PM – 2:20 PM​

AI Insight
中文 EN
Core Point

CEA-Leti will present breakthroughs in hybrid bonding and advanced packaging at ECTC 2026, demonstrating sub-1µm pitch interconnects and ultra-low-temperature processes that extend 3D chip integration beyond current scaling limits.

Key Players
  • CEA-Leti — French microelectronics R&D institute, Grenoble.
  • STMicroelectronics — Global semiconductor manufacturer, collaborator on one paper.
Industry Impact
  • ICT: High — enables next-gen high-density, high-performance packaging for data centers and networks.
  • Computing/AI: High — 3D stacking and low-temp bonding accelerate heterogeneous integration for AI accelerators.
  • Automotive: Medium — fan-out wafer-level packaging advances mmWave radar for autonomous driving.
  • Terminals/Consumer Electronics: Medium — mmWave antenna-in-package supports future 5G/6G mobile devices.
Tracking

Strongly track — CEA-Leti’s results set near-term integration roadmaps, directly influencing high-end semiconductor packaging strategies.

Highlights
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Categories
半导体 电信 科研
AI Processing
2026-05-12 14:59
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