Intel "Raptor Lake" Core i9-13900 De-lidded, Reveals a 23% Larger Die than Alder Lake

An Intel Core "Raptor Lake" engineering sample was de-lidded by Expreview giving us a first look at what will be Intel’s last monolithic silicon client processor before the company switches over to chiplets, with its next-generation "Meteor Lake." The chip de-lidded here is the i9-13900, which maxes out the "Raptor Lake-S" les, in featuring all 8 "Raptor Cove" noyaux P et 16 "Gracemont" E-cores physically present on the die, en même temps que 36 Mo de cache L3 partagé, and an iGPU based on the Xe-LP graphics architecture.

The "Raptor Lake-S" silicon is built on the same Intel 7 (10 nm amélioré SuperFin) silicon fabrication node as "Alder Lake-S." The "Raptor Lake-S" (8P+16E) die measures 23.8 mm x 10.8 mm, ou 257 mm² de surface, which is 49 mm² more than that of the "Alder Lake-S" (8P+8E) les (around 209 mm²). The larger die area comes from not just the two additional E-core clusters, but also larger L2 caches for the E-core clusters (4 MB vs. 2 MB), and larger L2 caches for the P-cores (2 MB vs. 1.25 MB); besides the larger shared L3 cache (36 MB vs. 30 MB). The "Raptor Cove" P-core itself could be slightly larger than its "Golden Cove" predecessor.