New analog neuromorphic chips maintain performance despite temperature changes.
Tommaso Rizzo, Sebastiano Strangio, Alessandro Catania
― 5 min read
Cutting edge science explained simply
New analog neuromorphic chips maintain performance despite temperature changes.
Tommaso Rizzo, Sebastiano Strangio, Alessandro Catania
― 5 min read
Learn how DFModel enhances efficiency in large-scale systems.
Sho Ko, Nathan Zhang, Olivia Hsu
― 5 min read
Learn how the Translation Lookaside Buffer improves computer memory access speed.
Melkamu Mersha, Tsion Abay, Mingziem Bitewa
― 5 min read
This innovative computer enhances CubeSat missions in challenging environments.
Victor O. Costa, Mauren D'Ávila, Douglas Arena
― 6 min read
HPCNeuroNet improves particle physics data processing with advanced computing techniques.
Murat Isik, Hiruna Vishwamith, Jonathan Naoukin
― 5 min read
A new method optimizes lookup tables using 'don't care' conditions.
Oliver Cassidy, Marta Andronic, Samuel Coward
― 6 min read
Discover how smarter memory is changing computing for speed and efficiency.
Onur Mutlu, Ataberk Olgun, Geraldo F. Oliveira
― 5 min read
Explore the journey from single-core to advanced domain-specific architectures.
Jefferson Ederhion, Festus Zindozin, Hillary Owusu
― 8 min read
In-field testing is crucial for reliable chip performance in critical applications.
Tobias Strauch
― 6 min read
Meet RACA, a game changer in AI that cuts energy use while boosting performance.
Peng Dang, Huawei Li, Wei Wang
― 6 min read
Discover how DRAM-PIM and IMTP are changing data processing for faster computing.
Yongwon Shin, Dookyung Kang, Hyojin Sung
― 6 min read
Learn how older GPUs can cut carbon emissions in AI operations.
Tianyao Shi, Yanran Wu, Sihang Liu
― 6 min read
New models combine state-space techniques with memristive devices for efficient computing.
Sebastian Siegel, Ming-Jay Yang, John-Paul Strachan
― 4 min read
Discover how customized processors are changing the tech landscape.
Chongxiao Li, Di Huang, Pengwei Jin
― 6 min read