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Intel’s Raptor Lake-S desktop processors, which will be part of the 13th generation Core family and will include up to cores based on the Raptor Cove & Gracemont base architecture, have been disclosed by AdoredTV.
13th Gen Raptor Lake-S Desktop Processors Powered by Intel Raptor Cove Core with up to 24 Cores, Full Line Leak
Replacing the 12th generation Intel Alder Lake-S Core family, the Intel Raptor Lake-S line will be part of the 13th generation Core family and will feature two new base architectures. These architectures will include Raptor Cove as performance kernels and an enhanced Gracemont kernel which will serve as efficiency kernels.
Intel Raptor Lake-S Desktop Processor Line and Configurations
According to the leaked data, the lineup will consist of three segments which were disclosed in recent horsepower recommendations. These include “K” series enthusiast SKUs rated at 125W, consumer SKUs of 65W, and low-power 35W SKUs. As for the high-end variants, we’ll have up to ’24-core, followed by 16-core, 10-core, 4-core, and 2-core variants. The SKUs are detailed below:
- Intel Core i9 K-Series (8 Golden + 16 Grace) = 24 cores / 32 threads / 36 MB
- Intel Core i7 K-Series (8 Golden + 8 Grace) = 16 cores / 24 threads / 30 MB
- Intel Core i5 K-Series (6 Golden + 8 Grace) = 14 cores / 20 threads / 24 MB
- Intel Core i5 S-Series (6 Golden + 4 Grace) = 14 cores / 16 threads / 21 MB
- Intel Core i3 S-Series (4 Golden + 0 Grace) = 4 cores / 8 threads / 12 MB
- Intel Pentium S-Series (2 Golden + 0 Grace) = 4 cores / 4 threads / 6 MB
The enthusiastic 125W Intel Raptor Lake-S Desktop SKUs will feature Core i9 models with up to 8 Raptor Cove cores and 16 Gracemont cores for a total of 24 cores and 32 threads. Intel’s Core i7 lineup will feature 16 cores (8 + 8), Core i5 models will feature 14 cores (6 + 8) and 10 cores (6 + 4) and finally we have the Core i3 models which will feature 4 cores but without any kernel of efficiency. The lineup will also include Pentium SKUs which will include only 2 Raptor Cove cores. All Core variants will feature an enhanced 32 EU Xe integrated GPU (256 cores). Some Core i5 and Pentium variants will also be configured with 24 EU and 16 EU iGPUs.
Comparison of 12th Gen Intel Alder Lake-S and 13th Gen Raptor Lake-S Desktop Processors (Preliminary):
| Processor name | Number of P cores | Number of electronic cores | Total core / wire | Base P-Core / Boost (Max) | P-Core Boost (all heart) | E-Core / Boost base | E-Core Boost (all heart) | Hide | TDP | Price |
|---|---|---|---|---|---|---|---|---|---|---|
| Intel Core i9-13900K | 8 | 16 | 24/32 | TBD / 5.5 GHz? | To be determined | To be determined | To be determined | 36 MB | 125W (PL1) 228W (PL2) |
To be determined |
| Intel Core i9-12900K | 8 | 8 | 16/24 | To be confirmed / 5.3 GHz | 5.0 GHz (all cores) | To be confirmed / 3.9 GHz | 3.7 GHz (all cores) | 30 MB | 125W (PL1) 228W (PL2) |
To be determined |
| Intel Core i7-13700K | 8 | 8 | 16/24 | TBD / 5.2 GHz? | To be determined | To be determined | To be determined | 30 MB | 125W (PL1) 228W (PL2) |
To be determined |
| Intel Core i7-12700K | 8 | 4 | 16/20 | To be confirmed / 5.0 GHz | 4.7 GHz (all cores) | To be confirmed / 3.8 GHz | 3.6 GHz (all cores) | 25 MB | 125W (PL1) 228W (PL2) |
To be determined |
| Intel Core i5-13600K | 6 | 8 | 14/20 | TBD / 5.1 GHz? | To be determined | To be determined | To be determined | 21 MB | 125W (PL1) 228W (PL2) |
To be determined |
| Intel Core i5-12600K | 6 | 4 | 12/16 | TBD / 4.9 GHz | 4.5 GHz (all cores) | To be confirmed / 3.6 GHz | 3.4 GHz (all cores) | 20 MB | 125W (PL1) 228W (PL2) |
To be determined |
Intel Raptor Lake-S Desktop Processor Platform Details
Other details include a larger L2 cache which will be marked as Intel’s own ‘game cache’ for the main processors and clock speeds will include a 200 MHz clock boost bump, so we can expect at boost clocks up to 5.5 GHz considering Alder Lake-S desktop processors will peak at 5.3 GHz. Intel Raptor Lake-S chips will also support faster DDR5 memory speeds of up to 5600 Mbps (6500 Mbps LPDDR5 (X)). It looks like there will be three main dies that will be configured in these SKUs, starting with an upper “Large” die made up of 8 Cove and 16 Atom cores, a “Mid” die with 8 cores and 8 Atom cores, and finally , a “Small” die with 6 Cove cores and no Atom cores.
Intel Raptor Lake-S Desktop Processor Power Requirements
When it comes to power requirements, the Intel Raptor Lake-S 125W variant will feature a PL1 rating of 125W (125W in performance mode), PL2 rating of 188W (253W in performance mode), and PL4 rating of 238W (314W in performance mode). You may notice that the PL4 rating is lower due to the newly introduced responsive operation, but the PL2 rating has increased slightly compared to Intel Alder Lake (253W vs. 241W).
The same goes for the 65W Alder Lake chips which have a PL1 rating of 65W (65W in perf mode), a PL2 rating of 133W (219W in perf mode) and a PL4 rating of 179W ( 277 W in perf mode). In the end, we have the Intel Alder Lake-S 35W variants which have a PL1 rating of 35W (35W in perf mode), a PL2 rating of 80W (106W in perf mode) and a PL4 rating of 118W (152W in perf mode). .
Intel Raptor Lake Desktop Processor Ratings
| TDP segment of the processor | 125W | 65W | 35W |
|---|---|---|---|
| Alder Lake PL2 | 188W (241W Perf) | 126W (202W Perf) | 78W (106W performance) |
| Raptor Lake PL2 | 188W (253W Perf) | 133W (219W Performance) | 80W (106W Perf) |
| Alder Lake PL4 | 283W (359W Perf) | 195W (311W Perf) | 131W (171W Perf) |
| Raptor Lake PL4 | 238W (314W Perf) | 179W (277W Perf) | 118W (152W Perf) |
| Maximum power increase (Alder Lake vs Raptor Lake PL2 Perf) | + 5% | + 5.5% | + 2.5% |
| Peak power increase (Alder Lake vs Raptor Lake PL4 Perf) | -19% | -9% | -11% |
Comparison of generations of mainstream Intel desktop processors:
| Intel processor family | Processor process | Core / Thread Processors (Max) | TDP | Platform chipset | Platform | Memory support | PCIe support | To throw |
|---|---|---|---|---|---|---|---|---|
| Sand bridge (2nd generation) | 32 nm | 4/8 | 35-95W | Series 6 | LGA 1155 | DDR3 | PCIe Gen 2.0 | 2011 |
| Ivy bridge (3rd generation) | 22 nm | 4/8 | 35-77W | Series 7 | LGA 1155 | DDR3 | PCIe Gen 3.0 | 2012 |
| Haswell (4th generation) | 22 nm | 4/8 | 35-84W | 8 series | LGA 1150 | DDR3 | PCIe Gen 3.0 | 2013-2014 |
| Broadwell (5th generation) | 14 nm | 4/8 | 65-65W | Series 9 | LGA 1150 | DDR3 | PCIe Gen 3.0 | 2015 |
| Skylake (6th generation) | 14 nm | 4/8 | 35-91W | 100-Series | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2015 |
| Kaby Lake (7th generation) | 14 nm | 4/8 | 35-91W | 200-Series | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2017 |
| Coffee Lake (8th generation) | 14 nm | 6/12 | 35-95W | 300-Series | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2017 |
| Coffee Lake (9th generation) | 14 nm | 8/16 | 35-95W | 300-Series | LGA 1151 | DDR4 | PCIe Gen 3.0 | 2018 |
| Comet Lake (10th generation) | 14 nm | 10/20 | 35-125W | 400 series | LGA 1200 | DDR4 | PCIe Gen 3.0 | 2020 |
| Rocket Lake (11th generation) | 14 nm | 8/16 | 35-125W | 500 series | LGA 1200 | DDR4 | PCIe generation 4.0 | 2021 |
| Alder Lake (12th generation) | Intel 7 | 16/24 | 35-125W | 600 series | LGA 1700 | DDR5 | PCIe Gen 5.0 | 2021 |
| Raptor Lake (13th generation) | Intel 7 | 24/32 | 35-125W | 700-Series | LGA 1700 | DDR5 | PCIe Gen 5.0 | 2022 |
| Lake Meteor (14th generation) | Intel 4 | To be determined | 35-125W | 800 series? | LGA 1700 | DDR5 | PCIe generation 5.0? | 2023 |
| Arrow Lake (15th generation) | Intel 4? | 40/48 | To be determined | 900 series? | To be determined | DDR5 | PCIe generation 5.0? | 2024 |
| Lunar Lake (16th generation) | Intel 3? | To be determined | To be determined | 1000 series? | To be determined | DDR5 | PCIe generation 5.0? | 2025 |
| Nova Lake (17th generation) | Intel 3? | To be determined | To be determined | 2000 series? | To be determined | DDR5? | PCIe generation 6.0? | 2026 |
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