AMD put out a release yesterday, justifiably crowing that one if its EPYC "Venice" processors was the first HPC product to ...

According to TechInsights, Intel's 18A could offer higher performance, whereas TSMC's N2 may provide higher transistor density. Analysts at TechInsights believe that TSMC's N2 offers a high ...

Given how SRAM-intensive modern designs are, SRAM cell size and density are major characteristics of new fabrication technologies. Apparently, the SRAM density of Intel's 18A manufacturing process ...

Kevin O'Buckley, senior vice president and general manager of Intel Foundry Services, confirmed that risk production has begun for the company's upcoming 18A semiconductor node. The ...

Oh, and if you still care, the Switch 2 launches June 5.

Intel’s 18A “high-density” versions are now said to report ... PowerVia provides optimized power routing to improve performance and transistor density. RibbonFET provides better transistor density ...

The 18A node is a part of Intel’s aggressive “five nodes in four years” strategy, and introduces advanced manufacturing techniques such as RibbonFET gate-all-around transistors and PowerVia backside ...

which is arguably as significant as the node's improvements in transistor density. In that regard, 18A reminiscent of Intel's notorious 10nm node and not in a good way. 10nm was also highly ...

This is because TSMC's 2nm chips have a higher transistor density than Intel's 18A (313 MTr/mm² vs 238 MTr/mm²). In other words, TSMC's chips are more power efficient for its output, making it a ...

When you buy through links on our articles, Future and its syndication partners may earn a commission. Intel's Kevin O'Buckley, Senior Vice President of Foundry Services, announces progress on the ...

The 18A node represents a major technological leap for Intel, incorporating innovations such as RibbonFET transistor architecture ... per watt and 30% higher chip density compared to earlier ...

According to the analyst, Broadcom and Nvidia—two AI chip powerhouses—are considering using Intel's 18A (1.8 nm-class ... lower defect density, and potentially higher yields.