Why managing data in traditional design has been a pain point, and what to do about it.
The design cycle of electronic devices produces vast amounts of data. From a top-level view, this data can be broken down into basic blocks, including software, circuit board design, mechanical design, and others. These blocks contain extensive and complex information, including the types and amounts of individual data and information files, as well as their hierarchy structure. This data and information include database elements, library parts, manufacturing files, and more.
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Disaggregation and the wind-down of Moore’s Law have changed everything.
Different interconnect standards and packaging options being readied for mass chiplet adoption.
Continued expansion in new and existing markets points to massive and sustained growth.
Aging equipment and rising demand are pushing up prices and slowing production.
Experts at the Table: Designing for context, and geopolitical impacts on a global supply chain.
Interest in this particular ISA is expanding, but the growth of other open-source hardware is less certain.
Nanosheets are likeliest option throughout this decade, with CFETs and other exotic structures possible after that.
Hybrid bonding opens up whole new level of performance in packaging, but it’s not the only improvement.
Why this is becoming a bigger issue, and what can be done to mitigate the effects.
Some 300mm tools are converted to 200mm; equipment prices and chip manufacturing costs are rising.
From low resistance vias to buried power rails, it takes multiple strategies to usher in 2nm chips.
Manufacturing 3D structures will require atomic-level control of what’s removed and what stays on a wafer.
Disaggregation and the wind-down of Moore’s Law have changed everything.
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