Intel is prepping its 14th Generation Meteor Lake processors for the second half of this year. A product of the chipmaker’s Intel 4 (formerly 7nm) manufacturing process, Meteor Lake will be released in both laptop and desktop formats, with the former likely coming first.Excavated by Hardware Detectives momomo_uswe get the first peak with what are purported to be two Meteor Lake processors for mobile devices.
Intel continues down the hybrid path with Meteor Lake. Featuring a multi-tile design, Meteor Lake employs Redwood Cove performance cores (P-cores) to handle heavy workloads, saving Cresmont’s efficient cores (E-cores) for simpler tasks . This design maximizes performance without sacrificing power consumption. However, Meteor Lake could feature his third type of core which is currently rumored to be LP E Core (Low Power Efficient Core). Intel’s patent shows two additional of his Cresmont cores within the SoC tile, supposedly with a larger process node, so it looks like this rumor is real.
Meteor Lake has four tiles: Graphics, SoC, CPU, and IOE. The LP E core resides within his SoC tile and performs the equivalent of his I/O die (IOD) in AMD Ryzen processors. According to a previously leaked document, Meteor Lake will support “low-power island CPU offloads” and the LP E core’s job is to handle processes when the processor is in idle or sleep mode. It has been suggested that it may include If it’s accurate, it can help your laptop consume a lot less power. Meteor Lake, like the hybrid chips before it, has a higher core count across the board, which makes it look better. For Meteor Lake, we also take into account the LP E cores.
of First Meteor Lake sample appeared with 14 cores that will likely follow a 4P + 8E design, Second meteor lake sample has 16 cores and should follow a 6P + 8E layout. The remaining two cores in both engineering sample (ES) processors are from LP E cores. The 14-core Meteor Lake chip will reportedly feature 14MB of L2 cache and 16MB of L3 cache. The processor clock speed is 3.26 GHz. This processor is very likely the recently leaked Core Ultra 5 1003H. The 16-core version, on the other hand, appears to have 18MB of L2 cache and 24MB of L3 cache. It runs at a base clock of 3.07 GHz and a boost clock of 4.2 GHz.
However, the SiSoftware benchmark report does not detect Meteor Lake’s L4 cache (ADM or Adamantine). Intel’s patent doesn’t specifically mention Meteor Lake, but an early Linux patch suggests the presence of ADM in the upcoming 7nm processors.
Intel is hosting a series of Vision 2023 regional events this month, starting May 8-10 in Orlando, with three more on the chipmaker’s list: Taipei (May 24, 2020). May 25th to May 25th, Shanghai) (May 30th to May 30th) So we may be able to learn more about Meteor Lake in the coming weeks.
