惯性聚合 高效追踪和阅读你感兴趣的博客、新闻、科技资讯
阅读原文 在惯性聚合中打开

推荐订阅源

aimingoo的专栏
aimingoo的专栏
Google DeepMind News
Google DeepMind News
S
SegmentFault 最新的问题
Project Zero
Project Zero
D
DataBreaches.Net
I
InfoQ
L
Lohrmann on Cybersecurity
OSCHINA 社区最新新闻
OSCHINA 社区最新新闻
酷 壳 – CoolShell
酷 壳 – CoolShell
Stack Overflow Blog
Stack Overflow Blog
The Register - Security
The Register - Security
Recorded Future
Recorded Future
Vercel News
Vercel News
博客园 - 司徒正美
freeCodeCamp Programming Tutorials: Python, JavaScript, Git & More
I
Intezer
The Hacker News
The Hacker News
F
Fortinet All Blogs
Microsoft Azure Blog
Microsoft Azure Blog
P
Proofpoint News Feed
Help Net Security
Help Net Security
cs.CV updates on arXiv.org
cs.CV updates on arXiv.org
Application and Cybersecurity Blog
Application and Cybersecurity Blog
Scott Helme
Scott Helme
T
Threatpost
爱范儿
爱范儿
N
Netflix TechBlog - Medium
D
Docker
云风的 BLOG
云风的 BLOG
C
Cisco Blogs
K
Kaspersky official blog
H
Help Net Security
S
Secure Thoughts
T
Threat Research - Cisco Blogs
钛媒体:引领未来商业与生活新知
钛媒体:引领未来商业与生活新知
S
Security @ Cisco Blogs
Cyberwarzone
Cyberwarzone
N
News and Events Feed by Topic
G
Google Developers Blog
Forbes - Security
Forbes - Security
博客园 - 三生石上(FineUI控件)
博客园 - 叶小钗
B
Blog
Google DeepMind News
Google DeepMind News
Recent Announcements
Recent Announcements
Simon Willison's Weblog
Simon Willison's Weblog
S
Securelist
P
Privacy International News Feed
Spread Privacy
Spread Privacy
The Last Watchdog
The Last Watchdog

Hacker News: Best

madhadron - The seven programming ur-languages GitHub - smol-machines/smolvm: Tool to build & run portable, lightweight, self-contained virtual machines. I Measured Claude 4.7's New Tokenizer. Here's What It Costs You. Introducing Claude Design by Anthropic Labs It Is Time to Ban the Sale of Precise Geolocation The creative software industry has declared war on Adobe Isaac Asimov: The Last Question Newly unsealed records reveal Amazon’s price-fixing tactics, California attorney general claims Clojure - Documentary Android CLI and skills: Build Android apps 3x faster using any agent Qwen3.6-35B-A3B on my laptop drew me a better pelican than Claude Opus 4.7 Codex for almost everything Introducing Claude Opus 4.7 Qwen Studio The Future of Everything is Lies, I Guess: Where Do We Go From Here? Virginia Bans Sale of Geolocation Data YouTube now lets you turn off Shorts Burgers | マクドナルド公式 ChatGPT for Excel Ask HN: Who is using OpenClaw? Live Nation illegally monopolized ticketing market, jury finds Google Broke Its Promise to Me. Now ICE Has My Data. Open Source Isn't Dead. The Future of Everything is Lies, I Guess: New Jobs Unexpected €54k billing spike in 13 hours: Firebase browser key without API restrictions used for Gemini requests IPv6 – Google Your Backpack Got Worse On Purpose Good sleep, good learning, good life Fixing a 20-year-old bug in Enlightenment E16. Does Gas Town 'steal' usage from users' LLM credits & paid services to improve itself? Tell HN: Fiverr left customer files public and searchable Cybersecurity Looks Like Proof of Work Now Getting the Flock out Release OpenSSL 4.0.0 · openssl/openssl Internet será irrespirable los días de fútbol y otros deportes. Telefónica extiende los bloqueos a Champions, tenis y golf. Automate work with routines - Claude Code Docs The Future of Everything is Lies, I Guess: Work Thousands of rare concert recordings are landing on the Internet Archive — listen now What is jj and why should I care? Backblaze has quietly stopped backing up your data Cal.com Goes Closed Source: Why AI Security Is Forcing Our Decision | Cal.com - Scheduling Software for Online Bookings Codex Hacked a Samsung TV The Future of Everything is Lies, I Guess: Safety GitHub - sterlingcrispin/nothing-ever-happens: Polymarket bot that buys "No" on all non-sports markets. For entertainment only, mostly a meme. Make tmux Pretty and Usable - Ham Vocke Microsoft isn't removing Copilot from Windows 11, it's just renaming it Servo is now available on crates.io - Servo aims to empower developers with a lightweight, high-performance alternative for embedding web technologies in applications. We May Be Living Through the Most Consequential Hundred Days in Cyber History, and Almost Nobody Has Noticed All elementary functions from a single binary operator 奈拜提耶市 Seven countries now generate 100% of their electricity from renewable energy Pro Max 5x Quota Exhausted in 1.5 Hours Despite Moderate Usage Tell HN: docker pull fails in spain due to football cloudflare block Bring Back Idiomatic Design @adlrocha - How the "AI Loser" may end up winning Apple update turns Czech mate for locked-out iPhone user Cache TTL silently regressed from 1h to 5m around early March 2026, causing quota and cost inflation The peril of laziness lost AI Will Be Met With Violence, and Nothing Good Will Come of It Center for Responsible, Decentralized Intelligence at Berkeley The disturbing white paper Red Hat is trying to erase from the internet – OSnews The Future of Everything is Lies, I Guess: Annoyances 447 Terabytes per Square Centimetre at Zero Retention Energy: Non-Volatile Memory at the Atomic Scale on Fluorographane Show HN: Pardonned.com – A searchable database of US Pardons 20 Years on AWS and Never Not My Job Artemis II crew splashes down near San Diego after historic moon mission Molotov Cocktail Is Hurled at Home of Sam Altman, OpenAI’s CEO France to ditch Windows for Linux to reduce reliance on US tech On filing the corners off my MacBooks Installing every* Firefox extension Chimpanzees in Uganda locked in vicious 'civil war', say researchers linux/Documentation/process/coding-assistants.rst at master · torvalds/linux GitHub - callumlocke/json-formatter: Makes JSON easy to read. A compelling title that is cryptic enough to get you to take action on it GitHub - Keychron/Keychron-Keyboards-Hardware-Design: Industrial design files for Keychron keyboards and mice. 100+ models with CAD assets in STEP, DXF, DWG, and PDF. Source-available, with commercial use allowed for original compatible accessories within the license terms. [ANNOUNCE] WireGuardNT v0.11 and WireGuard for Windows v0.6 Released 1D-Chess Helium Is Hard to Replace FBI used iPhone notification data to retrieve deleted Signal messages Microsoft suspends dev accounts for high-profile open source projects Why you can’t trust Privacy & Security Serenity Forge (@serenityforge.com) A new trick brings stability to quantum operations OpenAI Backs Bill That Would Limit Liability for AI-Enabled Mass Deaths or Financial Disasters Netflix Prices Went Up Again – I Bought a DVD Player Instead DOJ Wants to Scrap Watergate-Era Rule That Makes Presidential Records Public EFF is Leaving X How NASA built Artemis II’s fault-tolerant computer Meta removes ads for social media addiction litigation How Pizza Tycoon simulated traffic on a 25 MHz CPU Claude mixes up who said what, and that's not OK Reallocating $100/Month Claude Code spend to Zed and OpenRouter Help Keep Thunderbird Alive! Why Are Flock Employees Watching Our Children? The Pentagon Threatened Pope Leo XIV’s Ambassador With the Avignon Papacy Fragments: April 2 Native Instant Space Switching on MacOS Bitcoin miners are losing $19,000 on every BTC produced as difficulty drops 7.8% God sleeps in the minerals Apple Silicon and Virtual Machines: Beating the 2 VM Limit
IBM Debuts World’s First Sub-1 Nanometer Chip Technology
porridgerais · 2026-06-25 · via Hacker News: Best

Built with revolutionary “nanostack” 3D chip architecture, IBM’s sub-1 nm chip to propel semiconductor industry forward for the next decade

Jun 25, 2026

YORKTOWN HEIGHTS, NY, June 25, 2026 IBM (NYSE: IBM) today unveiled a major semiconductor breakthrough with the introduction of the world’s first sub-1 nanometer (nm) chip technology, featuring a revolutionary transistor architecture at the 0.7 nm, or 7 angstrom node. The achievement marks a landmark moment for an industry facing the physical limits of traditional chip scaling. Semiconductors play critical roles in everything from computing, to appliances, to communication devices, transportation systems, and critical infrastructure.

IBM’s new sub-1 nm chip packs nearly 100 billion transistors onto a chip the size of a fingernail, nearly twice the density of IBM’s 2 nm chip, unveiled in 2021. Enabled by a series of structural and material innovations, including IBM’s groundbreaking three-dimensional nanostack architecture, the technology demonstrates how continued gains in performance and efficiency remain possible even as chip features approach atomic dimensions. 

Published technical results report the new chip is projected to offer a substantial leap in capability—up to 50 percent more performance, or 70 percent greater energy efficiency than IBM’s 2 nm node chips[1]—supercharging compute for applications ranging from generative AI and cloud infrastructure to next-generation electronic devices.

IBM’s latest chip breakthrough marks a landmark moment in computing, pushing technology beyond the nanometer era to the scale of atoms. With our new nanostack architecture, we’re not just making smaller transistors, we’re reinventing how chips are built to deliver dramatically more power and energy efficiency,” said Jay Gambetta, Director of IBM Research and IBM Fellow. “This industry-first innovation continues IBM’s legacy of leading in next-generation technologies and sets the foundation for the next era of computing.

Nanostack, an Industry Breakthrough in Chip Design

To produce this chip, IBM researchers developed an entirely new transistor architecture, called “nanostack,” the industry’s first known three-dimensional, nanosheet-based design. Nanostack represents a major advance beyond nanosheet technology, the industry’s current leading-edge architecture, invented by IBM. The nanostack design vertically stacks and staggers transistors, taking advantage of 3D sequential integration to pack more transistors onto a chip. The design also unlocks the use of different material combinations within each stacked layer, optimizing performance and power efficiency of each transistor independent of the other.

IBM’s nanostack architecture was experimentally validated through ultra-thin dielectric bonding in CMOS integration, demonstration of dual-channel engineering capability, and functional CMOS inverter operation with expected switching performance. Together, these results confirm the nanostack technology can be physically built and supports real computation.

Additionally, in new research presented at VLSI 2026, IBM researchers demonstrated that the nanostack architecture provides 40 percent scaling in SRAM,[2] unlocking the ability of chip designers to create much more efficient chips while also supporting the high-bandwidth data demands of advanced AI workloads.

With this groundbreaking structure, logic technology can extend for the first time below the 1 nm node, advancing the era of angstrom-level scaling, where dimensions approach the size of individual atoms. While transistor nodes now refer to a generation of manufacturing technology versus an exact physical dimension, IBM’s 0.7 nm technology—also referred to as 7 angstroms—demonstrates how continued scaling remains possible. With the new nanostack architecture, IBM’s semiconductor roadmap projects at least a decade of future scaling.

Building on Decades of Leadership in Semiconductor Innovation

This breakthrough is the latest testament to IBM as a leader in semiconductor R&D. IBM has led the world in developing the chips that power computing systems for decades, from early semiconductors in the 1960s to the world’s first 2 nm node chip. IBM continues to innovate at the cutting edge of silicon, AI hardware, logic, and quantum processors developed to power the future of computing.

IBM and its partners conduct this work at a leading semiconductor research facility in Albany, New York, which will soon be home to a High Numerical Aperture Extreme Ultraviolet (High NA EUV) lithography tool, essential for the future of logic scaling. Developed by ASML, this technology enables ultra‑precise circuit printing, supporting the creation of smaller, more powerful chips. IBM and partners including Lam Research Corp. (Nasdaq: LRCX), Tokyo Electron (TEL), and SCREEN Semiconductor Solutions, Ltd. have been working together to develop new High NA EUV processes and tools that have already yielded working devices.

IBM also recently announced a plan to form Anderon, the world’s first pure-play quantum foundry. Anderon, a standalone IBM company, will draw on IBM’s industry-leading quantum computing and semiconductor expertise to help position the United States to manufacture most of the world’s quantum wafers.

With the expectation of the earliest adoption of nanostack technology at the sub-1 nm node, IBM sees a path to production in as early as the next 5 years.

About IBM

IBM is a leading provider of global hybrid cloud and AI, and consulting expertise. We help clients in more than 175 countries capitalize on insights from their data, streamline business processes, reduce costs and gain the competitive edge in their industries. More than 4,000 government and corporate entities in critical infrastructure areas such as financial services, telecommunications and healthcare rely on IBM's hybrid cloud platform and Red Hat OpenShift to affect their digital transformations quickly, efficiently and securely. IBM's breakthrough innovations in AI, quantum computing, industry-specific cloud solutions and consulting deliver open and flexible options to our clients. All of this is backed by IBM's long-standing commitment to trust, transparency, responsibility, inclusivity and service. Visit www.ibm.com for more information.
 

[1] S. Reboh et al "NanoStack Transistor Architecture for CMOS 7A Node and Beyond" VLSI 2025

[2] Chen Zhang et al “Area and Performance of Staggered-Channel Nanostack SRAM Bitcells” VLSI 2026
 

Media contacts:

Willa Hahn
IBM Communications 
willa.hahn@ibm.com

Brittany Forgione
IBM Communications 
brittany.forgione@ibm.com