Intel’s thirteenth Gen Raptor Lake Desktop CPU platform particulars leaked out throughout a ‘NAS Workshop’ presentation in Shenzen, China. The slide provides us an excellent have a look at the options one ought to count on from the upcoming processors however it’s also lacking one essential function.
Intel Raptor Lake Desktop CPU Platform Particulars Leak Out: DDR5-5600 Help Confirmed However No Phrase on PCIe Gen 5 M.2 Help
On paper, Intel’s thirteenth Gen Raptor Lake CPUs look to be an optimized model of the twelfth Gen Alder Lake CPUs. They are going to be based mostly on the identical 10nm ESF ‘Intel 7’ course of node, make the most of the identical P-Core & E-Core design, & can be supported on present motherboards. However there’s loads that is altering with Raptor Lake and we’re going to element every thing, from official particulars to rumored info that we find out about Alder Lake up to now and what you might count on from Intel’s subsequent desktop lineup which can be pitted proper towards AMD’s subsequent Ryzen CPU lineup for desktops too.
Intel thirteenth Gen Raptor Lake Desktop CPUs Anticipated Options:
- Up To 24 Cores & 32 Threads
- Model New Raptor Cove CPU Cores (Increased P-Core IPC)
- Primarily based on 10nm ESF ‘Intel 7’ course of node
- Supported on present LGA 1700 motherboards
- Twin-Channel DDR5-5600 Reminiscence Help
- 20 PCIe Gen 5 Lanes
- Enhanced Overclocking Options
- 125W PL1 TDP (Flagship SKUs)
Intel is sticking with its LGA 1700 platform for at the least another CPU lineup and that is Raptor Lake. Chipzilla confirmed that Raptor Lake CPUs can be appropriate with the prevailing LGA 1700 motherboards based mostly on the 600-series chipset. However like every era, motherboard makers can be providing a model new lineup of motherboards based mostly on the 700-series chipset which is able to include increased I/O lanes. Along with that, Raptor Lake chips can be supporting DDR5-5600 speeds which is a pleasant bump over the native DDR5-5200 speeds that Alder Lake helps. The CPUs may also proceed DDR4-3200 assist on the D4 collection motherboards.
This gives a pleasant improve path to customers who’re presently operating a mainstream Core i3 or Core i5 CPU and need to improve to a higher-end chip. They’ll merely exchange their present twelfth Gen CPU with a higher-end Core i7 or Core i9 SKU which is able to enhance the general efficiency of their PC.
Intel Desktop Platform Chipset Comparability
| Chipset Title | Raptor Lake-S (RPL-S) PCH / 700 Collection (Z790) | Alder Lake-S (ADL-S) PCH / 600 Collection (Z690) | Rocket Lake-S (RKL-S) PCH / 500 Collection (Z590) | Comet Lake-S (CML-S) PCH / 400 Collection (Z490) | Espresso Lake S (CNL-H) PCH / 300 Collection (Z390/H370, B360, Q370, H310) | Espresso Lake S (KBL-R) PCH / Z370 Platform |
|---|---|---|---|---|---|---|
| Course of Node | 14nm | 14nm | 14nm | 14nm | 14nm | 22nm |
| Processor | 24,16C,12C,10C,6C,4C (TBD) | 16C,12C,10C,6C,4C (Full company/client SKU stack at launch) | 8C, 6C (Full company/client SKU stack at launch) | 10C, 8C, 6C, 4C, 2C (Full company/client SKU stack at launch) | 8C, 6C, 4C, 2C (Full company/client SKU stack at launch) | 8C, 6C, 4C (6 Client SKUs at Launch) |
| Reminiscence | Up To DDR5-5600 (Native) Up To DDR4-3200 (Native)? |
Up To DDR5-4800 (Native) Up To DDR4-3200 (Native) |
Up To DDR4-3200 (Native) | Up To DDR4-2933 (Native) | Up To DDR4-2666 (Native) | Up To DDR4-2666 (Native) |
| Media, Show & Audio | eDP / 4DDI (DP, HDMI) Show Capabilities | eDP / 4DDI (DP, HDMI) Show Capabilities | DP 1.2 & HDMI 2.0, HBR3 HDCP 2.2 (HDMI 2.0a w/LSPCON) 12-bit AV1/HEVC & VP9 10-bit Enc/Dec, HDR, Rec.2020, DX12 Built-in Twin-Core Audio DSP With USB Audio offload SoundWire Digital Audio Interface |
DP 1.2 & HDMI 1.4 HDCP 2.2 (HDMI 2.0a w/LSPCON) HEVC & VP9 10-bit Enc/Dec, HDR, Rec.2020, DX12 Built-in Twin-Core Audio DSP SoundWire Digital Audio Interface |
DP 1.2 & HDMI 1.4 HDCP 2.2 (HDMI 2.0a w/LSPCON) HEVC & VP9 10-bit Enc/Dec, HDR, Rec.2020, DX12 Built-in Twin-Core Audio DSP SoundWire Digital Audio Interface |
DP 1.2 & HDMI 1.4 HDCP 2.2 (HDMI 2.0a w/LSPCON) HEVC & VP9 10-bit Enc/Dec, HDR, Rec.2020, DX12 Built-in Twin-Core Audio DSP |
| I/O & Connectivity | Built-in USB 3.2 Gen 2×2 (20G) Built-in Intel Wi-fi-AC (Wi-Fi6E/ 7 BT CNVio) with Gig+ Built-in SDXC 4.0 Controller Thunderbolt 4.0 |
Built-in USB 3.2 Gen 2×2 (20G) Built-in Intel Wi-fi-AC (Wi-Fi6E/ 7 BT CNVio) with Gig+ Built-in SDXC 4.0 Controller Thunderbolt 4.0 |
Built-in USB 3.2 Gen 2×2 (20G) Built-in Intel Wi-fi-AC (Wi-Fi6E/ BT CNVi) Built-in SDXC 3.0 Controller Thunderbolt 4.0 (Maple Ridge) |
Built-in USB 3.2 Gen 2 Built-in Intel Wi-fi-AC (Wi-Fi / BT CNVi) Built-in SDXC 3.0 Controller Thunderbolt 3.0 (Titan Ridge) w/ DP 1.4 |
Built-in USB 3.1 Gen 1 (5 Gbps) Built-in Intel Wi-fi-AC (Wi-Fi / BT CNVi) Built-in SDXC 3.0 Controller Thunderbolt 3.0 (Titan Ridge) w/ DP 1.4 |
Built-in USB 3.1 Gen 1 (5 Gbps) Thunderbolt 3.0 (Alpine Ridge) |
| Storage | Subsequent-Gen Intel Optane reminiscence PCIe 5.0 (CPU Lanes), 6x SATA 3.0 |
Subsequent-Gen Intel Optane reminiscence PCIe 5.0, 6x SATA 3.0 |
Subsequent-Gen Intel Optane reminiscence PCIe 4.0, 6x SATA 3.0 |
Subsequent-Gen Intel Optane reminiscence PCIe 3.0, 6x SATA 3.0 |
Subsequent Gen Intel Optane reminiscence PCIe 3.0, 6x SATA 3.0 |
Subsequent Gen Intel Optane reminiscence PCIe 3.0, 6x SATA 3.0 |
| Max PCH PCIe Lanes | Up To twenty (Gen 4) Up To eight (Gen 3) |
Up To 12 (Gen 4) Up To 16 (Gen 3) |
Up To 24 (Gen 3) | Up To 24 (Gen 3) | Up To 24 (Gen 3) | Up To 24 (Gen 3) |
| Max CPU PCIe Lanes | TBD | Up To 16 (Gen 5) Up To 4 (Gen 4) |
Up To twenty (Gen 4) | Up To 16 (Gen 3) | Up To 16 (Gen 3) | Up To 16 (Gen 3) |
| Max USB Ports | Up To five (USB 3.2 Gen 2×2) Up To 10 (USB 3.2 Gen 2×1) Up To 10 (USB 3.2 Gen 1×1) Up To 14 (USB 2.0) |
Up To 4 (USB 3.2 Gen 2×2) Up To 10 (USB 3.2 Gen 2×1) Up To 10 (USB 3.2 Gen 1×1) Up To 14 (USB 2.0) |
Up To three (USB 3.2 Gen 2×2) Up To 10 (USB 3.2 Gen 2×1) Up To 10 (USB 3.2 Gen 1×1) Up To 14 (USB 2.0) |
Up To 10 (USB 3.2) Up To 14 (USB 2.0) |
Up To 10 (USB 3.1) Up To 14 (USB 2.0) |
Up To 10 (USB 3.0) Up To 14 (USB 2.0) |
| Safety | N/A | N/A | N/A | Intel SGX 1.0 | Intel SGX 1.0 | Intel SGX 1.0 |
| Energy Administration | C10 & S0ix Help for Trendy Standby | C10 & S0ix Help for Trendy Standby | C10 & S0ix Help for Trendy Standby | C10 & S0ix Help for Trendy Standby | C10 & S0ix Help for Trendy Standby | C8 Help |
| Launch | 2022 | 2021 | 2021 | 2019 | 2018 | 2017 |
The thirteenth Gen CPU may also function enhanced overclocking capabilities. Alder Lake presently goes as much as 5.5 GHz with the upcoming Core i9-12900KS SKU which is rated at a most energy ranking of as much as 260W, the very best ever on the mainstream platform. Along with these, the Raptor Lake CPUs may also supply 16 PCIe Gen 5.0 lanes, 4 PCIe 4.0 lanes, and an x8 interconnect (Gen 4) for DMI. The PCH will carry extra PCI Gen 4.0 lanes along with growing USB 3.2 Gen 2×2 (20G) ports, PCIe 3.0, and SATA III connections.
There’s additionally a brand new AI M.2 module assist that is supported by Raptor Lake CPUs however the slide nowhere mentions PCIe Gen 5 assist for M.2 which is a bit odd. Lately, there have been rumors about Intel having Z790 motherboards with PCIe Gen 5 however contemplating that AMD goes Gen 5 with their 600-series platform, Intel could be very prone to supply Gen 5 M.2 SSD assist on its latest motherboards however these x16 Gen 5 CPU lanes are going to be cut up between the dGPU and the M.2 SSDs.
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 1700/1800 | DDR5 / DDR4 | PCIe Gen 5.0 | 2021 |
| Raptor Lake (thirteenth Gen) | Intel 7 | 24/32 | 35-125W | 700-Collection | LGA 1700/1800 | DDR5 / DDR4 | PCIe Gen 5.0 | 2022 |
| Meteor Lake (14th Gen) | Intel 4 | TBA | 35-125W | 800 Collection? | LGA 1851 | DDR5 | PCIe Gen 5.0 | 2023 |
| Arrow Lake (fifteenth Gen) | Intel 20A | 40/48 | TBA | 900-Collection? | LGA 1851 | DDR5 | PCIe Gen 5.0 | 2024 |
| Lunar Lake (sixteenth Gen) | Intel 18A | TBA | TBA | 1000-Collection? | TBA | DDR5 | PCIe Gen 5.0? | 2025 |
| Nova Lake (seventeenth Gen) | Intel 18A | TBA | TBA | 2000-Collection? | TBA | DDR5? | PCIe Gen 6.0? | 2026 |
Information Supply: HXL
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