The industry is working on promising new materials and chip architectures. But this also means that novel electronic ...
Atomically thin 2D transistors stayed efficient at chip-scale widths, easing a key hurdle for more powerful, lower-energy ...
IBM has introduced what it describes as the world’s first chip technology below 1 nanometer, designed to fit nearly 100 ...
Abstract: The design of a high-performance Dielectrically Modulated Field Effect Transistor (DMFET) with smaller device dimension (channel length ≤ 100nm) has recently drawn significant research ...
IBM shows what future chips could look like. Performance, efficiency, and transistor density increase enormously.
Rather than continuing to shrink components along a flat plane, IBM is stacking transistors vertically. That change comes as ...
Researchers developed a flexible AI computing patch that analyzes health data directly on the body, enabling near-instant ...
International Business Machines Corp. IBM on Thursday unveiled what it said is the world’s first sub-1-nanometer chip ...
Innovations spanning DRAM and advanced packaging enable the 3D architectures behind cutting-edge AI chipsA new epitaxy system optimized for DRAM fabs adds a critical logic-class step-boosting memory ...
IBM (IBM) unveiled what it called the world's first sub-1 nanometer, or nm, chip technology, featuring a revolutionary ...
The company, along with others, is pursuing a new paradigm for cramming more transistors on chips—building up.
Abstract: A 2-D device simulation for organic thin-film transistors (OTFTs) was carried out to reveal the characteristic difference between staggered and planar structures. Assuming the OTFT with ...
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