The IEEE Worldwide Electron Gadgets Assembly (IEDM) is taken into account the premier discussion board the place scientists and engineers come collectively to reveal, talk about, and debate the perfect latest R&D work in electron units, semiconductors, and microelectronic applied sciences. The 71st annual IEEE IEDM convention can be held December 6-10, 2025, on the Hilton San Francisco Union.
Supporting the theme “100 Years of FETs: Shaping the Way forward for Gadget Improvements,” the 2025 IEDM technical program will encompass 295 shows, plus a bunch of occasions.
“This yr’s IEDM gives a preview of the following computing paradigm. We’re witnessing the convergence of atomic-scale fabrication, 3D integration, and neuromorphic design, shifting us past yesterday’s know-how and even classical computing. From monolithic CFETs that redefine transistor density to in-memory computing that may mitigate the von Neumann bottleneck, extra clever and extra environment friendly know-how is being constructed right here,” stated Gaudenzio Meneghesso, IEDM 2025 Publicity Chair, and Head of the Division of Data Engineering on the College of Padova.
“As AI is demanding unprecedented effectivity, the gadget neighborhood is rising to the problem. IEDM 2025 showcases applied sciences that may energy the following AI decade: from GaN chiplets for energy supply and silicon photonics for knowledge switch to 3D DRAM and FeFETs for in-memory computing. These gadget applied sciences will make the algorithms of tomorrow potential.”
“The pursuit of Moore’s Regulation has developed from a easy race to shrink transistors into engineering in a number of dimensions. IEDM 2025 showcases this new period: we’re scaling up with 3D stacking like CFETs and 3D DRAM, scaling laterally with atomic-layer-deposited channel supplies, and scaling previous CPUs with novel architectures like in-memory computing,” stated John Paul Strachan, IEDM 2025 Publicity Co-Chair, Director of Peter Grünberg Institute, Forschungszentrum Jülich, and Professor at RWTH Aachen College. “That is the fruits of a century of FET innovation, pushing the boundaries of what’s bodily potential to compute.”
