• Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
Converge Digest
Tuesday, July 14, 2026
  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search
No Result
View All Result
Converge Digest
No Result
View All Result

Home » Argonne Leads DOE-Funded Project to Pioneer Extreme-Scale Memory

Argonne Leads DOE-Funded Project to Pioneer Extreme-Scale Memory

January 11, 2025
in Semiconductors
A A

The U.S. Department of Energy’s (DOE) Argonne National Laboratory will spearhead two groundbreaking microelectronics research projects aimed at advancing hardware and software co-design for next-generation computing. Funded through the CHIPS and Science Act of 2022, these projects will support transformative breakthroughs in energy efficiency, data processing speed, and resilience under extreme conditions. Argonne will lead these initiatives as part of the DOE’s Microelectronics Science Research Centers, a $160 million investment announced in December 2024.

The two projects, titled “Ultra Dense Memory: Atom Scale Material Dynamics and Systems Consequences” and “BIA: A Co-Design Methodology to Transform Materials and Computer Architecture Research for Energy Efficiency”, will collaborate with leading academic and industry partners to push the boundaries of microelectronics design. The research will focus on developing next-generation memory architectures and methodologies for energy-efficient computing, supporting high-performance computing and advanced sensor technologies.

Key Highlights of the Argonne Microelectronics Projects:

• Ultra Dense Memory Project:

• Led by Supratik Guha, senior adviser at Argonne.

• Focus: Developing extreme-scale memory for faster data processing.

• Partners: University of Chicago, Purdue University, Georgia Institute of Technology, Chicago State University.

• Industry Collaborators: IBM and Micron Technologies.

• BIA Project for Energy Efficiency:

• Led by Valerie Taylor, Distinguished Fellow and Director of Argonne’s Mathematics and Computer Science Division.

• Goal: Develop a co-design methodology for vertically stacked microelectronics, improving energy efficiency.

• Partners: Fermi National Accelerator Laboratory, University of Chicago, Northwestern University, Rice University.

• Industry Advisory Board: AMD, NVIDIA, Lam Research, Northrop Grumman, Enosemi.

These projects position Argonne at the forefront of microelectronics research, accelerating innovation in high-performance computing, AI, and sensor technologies while ensuring energy-efficient, scalable solutions for the next generation of information systems.

Tags: Memory
ShareTweetShareSummarizeSummarize
Previous Post

Deutsche Telekom Unifies Wholesale Operations Under ‘T Wholesale’

Next Post

Ericsson and Global Telecom Giants Launch Aduna for APIs

Jim Carroll

Jim Carroll

Editor and Publisher, Converge! Network Digest, Optical Networks Daily - Covering the full stack of network convergence from Silicon Valley

Related Posts

Screenshot
Corporate Strategies

SK Hynix Raises $26.5 Billion as AI Memory Demand Drives U.S. Listing

July 10, 2026
Semiconductors

Alphawave demos 9.2 Gbps HBM3E, 1.2 TBps memory bandwidth

June 20, 2024
Semiconductors

Rambus unveils 9.6 Gbps HBM3 Memory Controller IP

October 25, 2023
Semiconductors

SK hynix previews 321-layer 4D NAND

August 9, 2023
All

Video: Advancing Composable Memory Systems

October 19, 2022
All

Rambus expands its line of DDR5 memory interface chips

July 19, 2022
Next Post

Ericsson and Global Telecom Giants Launch Aduna for APIs

Categories

  • 5G / 6G / Wi-Fi
  • AI Infrastructure
  • All
  • Automotive Networking
  • Blueprints
  • Clouds and Carriers
  • Corporate Strategies
  • CPO
  • Data Centers
  • Enterprise
  • Explainer
  • Feature
  • Hot Start-ups
  • Last Mile / Middle Mile
  • Legal / Regulatory
  • Optical
  • Optical I/O
  • Pluggable Optics
  • Quantum
  • Research
  • Security
  • Semiconductors
  • Silicon Photonics
  • Space Networking & Orbital Data Centers
  • Subsea
  • Sustainability
  • Video
  • Webinars
Converge Digest

A private dossier for networking and telecoms

Follow Us

  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search

© 2026 Converge Digest - A private dossier for networking and telecoms.

No Result
View All Result
  • Home
  • About
  • Events Calendar
  • Blueprint Guidelines
  • Privacy Policy
  • Manage Email Delivery
  • NextGenInfra.io
  • buzzwords
  • Archives
  • Milestones
  • On This Day
  • Video Search

© 2026 Converge Digest - A private dossier for networking and telecoms.

This website uses cookies. By continuing to use this website you are giving consent to cookies being used. Visit our Privacy and Cookie Policy.
Go to mobile version