Intel’s upcoming CPU architecture for desktop PCs, known as Arrow Lake, is scheduled to hit the market in the second half of 2024. While details about the 15th generation chips are scarce, it is expected to expand on the latest Meteor Lake design. Similar to AMD’s chiplet approach, Arrow Lake will house multiple tiles, including compute, graphics, SoC, and IO, using the Foveros packaging system.
One notable feature of Arrow Lake is its use of Intel’s 20A process node, making it the first commercial product manufactured using this technology. The 20A process node marks a significant shift from the FinFET design, which has been in use for the past decade, to a Gate-all-around (GaaFET) architecture called RibbonFET. This change aims to improve performance and reduce internal voltage drop.
Additionally, Arrow Lake will introduce PowerVia, a backside power delivery technique. By separating input/output signaling connections and power lines, this method allows chips to operate at higher clock speeds while minimizing voltage drop.
Although specific details about Arrow Lake’s performance and configurations are unknown, predictions suggest that it could feature eight P-cores and 16 E-cores, with potential for expansion in the future. The graphics tile is also expected to be more advanced than its predecessor, potentially utilizing a newer architecture or offering enhanced shader capabilities.
While Intel claims that Arrow Lake will be the “world’s first gaming processor with an AI accelerator,” it’s worth noting that AMD’s Ryzen 7 8700G processor, announced recently, also boasts AI capabilities. Despite the marketing hype, many are excited to see the advantages of Intel’s 20A process node and anticipate improvements in power efficiency and overall performance.
With its release still a few years away, Arrow Lake has the potential to be a game-changer in the world of gaming CPUs. If Intel successfully addresses power consumption concerns with its new processor design, it could potentially deliver a powerful and efficient gaming chip, catering to the needs of gamers worldwide.
The source of the article is from the blog mivalle.net.ar