The next generation of high-bandwidth memory, HBM4, was widely expected to require hybrid bonding to unlock a 16-high memory ...
Live Science on MSN
MIT's chip stacking breakthrough could cut energy use in power-hungry AI processes
Data doesn’t have to travel as far or waste as much energy when the memory and logic components are closer together.
Advanced packaging can be an alphabet soup of possible approaches, from heterogenous integration of multiple die types into a single package, to three-dimensional stacking of multiple dies on top of ...
Researchers have developed a stacking technology for a magneto-resistive random access memory (MRAM) to separately form a single-crystal tunnel magnetoresistive (TMR) thin film and then bond it to a ...
Morning Overview on MSN
MIT’s chip stacking leap could slash energy use for hungry AI chips
Artificial intelligence is colliding with a hard physical limit: the energy it takes to move data on and off chips. Training ...
(Nanowerk News) The magnetic, conductive and optical properties of complex oxides make them key to components of next-generation electronics used for data storage, sensing, energy technologies, ...
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