Intel reported earlier this week that the corporate was profitable in powering a single compute tile of its next-gen Meteor Lake CPUs. Again in March, Intel taped in the first 7nm Compute Tile so this marks one other milestone within the growth of Intel’s next-generation x86 structure and CPU household.
Intel Meteor Lake Compute Tile Achieves Energy-On, CPU Delivers Excellent Efficiency ‘Proper The place We Anticipated’, Says CEO
Meteor Lake is Intel’s 14th technology Core processor that’s expected to launch in 2023. The chip itself makes use of progressive know-how with its Intel 4 (7nm) manufacturing course of. Intel’s testing was stated to achieve success and on track with their present fabrication plans, particularly for nearly two years forward of launch exhibiting precise computational energy.
On Intel 4, we had taped out our compute tile for Meteor Lake and this quarter it got here out of the fab and powered up inside half-hour with excellent efficiency, proper the place we anticipated it to be. All advised, this is likely one of the finest lead product startups we now have seen in latest reminiscence, which speaks to the well being of the method.
—Pat Gelsinger, Intel CEO, throughout the firm’s earnings name that was held this week
For Intel, this breakthrough with their Meteor Lake processor is a brand new step in the direction of the potential of witnessing silicon chips processing data and being extraordinarily steady. Nevertheless, the idea does increase pessimism of whether or not it’ll present above anticipated efficiency and even stay steady. Ultimately, builders can be anticipated to change in addition to present extra components and know-how to Meteor Lake. The biggest hurdle proper now could be the price of manufacturing, particularly on this case with the present chip scarcity and excessive price of components and units.
Here is All the pieces We Know About The 14th Gen Meteor Lake 7nm CPUs
We already obtained some particulars from Intel akin to the truth that Intel’s Meteor Lake line of desktop and mobility CPUs are anticipated to be based mostly on a brand new line of Cove core structure. That is rumored to be often known as the ‘Redwood Cove’ and can be based mostly on a 7nm EUV course of node. It’s acknowledged that the Redwood Cove is designed from the bottom as much as be an agnostic node which signifies that it may be fabricated at totally different fabs. There are references talked about that time out to TSMC to be a backup or perhaps a partial provider for the Redwood Cove-based chips. This would possibly inform us why Intel is stating a number of manufacturing processes for the CPU household.
The Meteor Lake CPUs could probably be the primary CPU technology from Intel to say farewell to the ring bus interconnect structure. There are additionally rumors that Meteor Lake might be a totally 3D-Stacked design and will make the most of an I/O die sourced from an exterior fab (TSMC sighted once more). It’s highlighted that Intel can be formally using its Foveros Packaging Expertise on the CPU to inter-connect the varied dies on the chip (XPU). This additionally aligns with Intel referring to every tile on 14th Gen chips individually (Compute Tile = CPU Cores).
The Meteor Lake Desktop CPU household is predicted to retain help on the LGA 1700 socket which is identical socket utilized by Alder Lake & Raptor Lake processors. We are able to anticipate DDR5 reminiscence and PCIe Gen 5.0 help. The platform will help each DDR5 & DDR4 reminiscence with the mainstream and funds tier choices going for DDR4 reminiscence DIMMs whereas the premium & high-end choices going for DDR5 DIMMs. The positioning additionally lists down each Meteor Lake P and Meteor Lake M CPUs that can be aimed toward mobility platforms.
Intel Mainstream Desktop CPU Generations Comparability:
| Intel CPU Household | Processor Course of | Processors Cores/Threads (Max) | TDPs | Platform Chipset | Platform | Reminiscence Help | PCIe Help | Launch |
|---|---|---|---|---|---|---|---|---|
| Sandy Bridge (2nd Gen) | 32nm | 4/8 | 35-95W | 6-Collection | LGA 1155 | DDR3 | PCIe Gen 2.0 | 2011 |
| Ivy Bridge (third Gen) | 22nm | 4/8 | 35-77W | 7-Collection | LGA 1155 | DDR3 | PCIe Gen 3.0 | 2012 |
| Haswell (4th Gen) | 22nm | 4/8 | 35-84W | 8-Collection | LGA 1150 | DDR3 | PCIe Gen 3.0 | 2013-2014 |
| Broadwell (fifth Gen) | 14nm | 4/8 | 65-65W | 9-Collection | LGA 1150 | DDR3 | PCIe Gen 3.0 | 2015 |
| Skylake (sixth Gen) | 14nm | 4/8 | 35-91W | 100-Collection | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2015 |
| Kaby Lake (seventh Gen) | 14nm | 4/8 | 35-91W | 200-Collection | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2017 |
| Espresso Lake (eighth Gen) | 14nm | 6/12 | 35-95W | 300-Collection | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2017 |
| Espresso Lake (ninth Gen) | 14nm | 8/16 | 35-95W | 300-Collection | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2018 |
| Comet Lake (tenth Gen) | 14nm | 10/20 | 35-125W | 400-Collection | LGA 1200 | DDR4 | PCIe Gen 3.0 | 2020 |
| Rocket Lake (eleventh Gen) | 14nm | 8/16 | 35-125W | 500-Collection | LGA 1200 | DDR4 | PCIe Gen 4.0 | 2021 |
| Alder Lake (twelfth Gen) | Intel 7 | 16/24 | 35-125W | 600 Collection | LGA 1700 | DDR5 | PCIe Gen 5.0 | 2021 |
| Raptor Lake (thirteenth Gen) | Intel 7 | 24/32 | 35-125W | 700-Collection | LGA 1700 | DDR5 | PCIe Gen 5.0 | 2022 |
| Meteor Lake (14th Gen) | Intel 4 | TBA | 35-125W | 800 Collection? | LGA 1700 | DDR5 | PCIe Gen 5.0? | 2023 |
| Arrow Lake (fifteenth Gen) | Intel 4? | 40/48 | TBA | 900-Collection? | TBA | DDR5 | PCIe Gen 5.0? | 2024 |
| Lunar Lake (sixteenth Gen) | Intel 3? | TBA | TBA | 1000-Collection? | TBA | DDR5 | PCIe Gen 5.0? | 2025 |
| Nova Lake (seventeenth Gen) | Intel 3? | TBA | TBA | 2000-Collection? | TBA | DDR5? | PCIe Gen 6.0? | 2026 |