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The codename of the development, codenamed Comet Lake-S, can be described this way, but a new control bridge is also being adapted to modern needs.
Intel’s Comet Lake-S codename development has long been rumored in the industry, and the company has repeatedly expressed that the tenth-generation Desktop Core series is imminent, but only now is it being officially unveiled, thanks to a new coronavirus epidemic that has shocked him a little. The originally rumored schedule. However, this doesn’t matter much, the point is that the new development is done at a 14nm node and doesn’t bring dramatic innovations compared to the previous Coffee Lake-S option. Practically the processor cores are the same that the integrated graphics controller has not changed. The benefits are actually in two additional cores, while Coffee Lake-S scales to eight and Comet Lake-S to ten cores.
Intel has put the system on a new basis, so new processors are already using LGA1200 enclosures. This doesn’t seem to make much sense, but it’s actually a useful step forward because additional needles will come in handy in the later generation of Rocket Lake-S, and LGA1151v2 motherboards wouldn’t have been good anyway due to power requirements changing. From now on, the so-called PL2 consumption limit is 250 watts, and at full load, the processor can also consume 270 watts for a short time. With more factory-certified configurations, none of the Comet Lake-S chip-based models will ask for more than that, but motherboard manufacturers plan to power up to 300 watts or even more for additional tuning capabilities. There will also be some very serious core products from partners in this, of course very expensive, but this is unlikely to be a surprise. Now with these motherboards, Intel’s factory defaults can be overridden, so if the specific power supply allows, partners can go up to 350 watts, which means factory turbo clock levels can be keep longer. This also means that there can be a significant power difference between each motherboard, as it doesn’t matter if the maximum power consumption limit for the processor is 270 or 350 watts.
So the new LGA1200 socket is really compelling and useful, and the Z490 control bridge connected to the CPU via DMI 3.0 links keeps up with the times. It offers an integrated USB 3.1 Gen2 controller, among others, and is compatible with Wi-Fi IEEE 802.11ax, Bluetooth 5.0, Thunderbolt 3 and other common ports and technologies. Additionally, the company is offering a 2.5 gigabit Ethernet adapter with i225-V to partners, and an improved version based on B2 step-by-step was added here, which will no longer have any issues with 2.5 gigabit tempo anywhere. .
For PCI Express 3.0, Intel only specifies the number of lanes at the platform level. Specifically, there are 40 pieces to look out for, but the motherboard manufacturers have taught us that 24 of them are located on the control bridge, and the processor provides the remaining 16.
A tile of Comet Lake-S [+]
The parameters for the incoming 10th generation desktop Core processors are detailed in the following table:
type | Clock / Max Clock | Hyperthreading | L3 cache | consumption | UHD Graphics 630 base / turbo watch | List price (dollars) |
---|---|---|---|---|---|---|
i9-10900K (core 10) | 3.7 / 5.3 GHz | there is | 20 MB | 125 W | 350/1200 MHz | 488 |
i9-10900KF (core 10) | 3.7 / 5.3 GHz | there is | 20 MB | 125 W | – | 472 |
i9-10900 (10 mag) | 2.8 / 5.2 GHz | there is | 20 MB | 65 W | 350/1200 MHz | 439 |
i9-10900F (10 cores) | 2.8 / 5.2 GHz | there is | 20 MB | 65 W | – | 422 |
i9-10900T (10 cores) | 1.9 / 4.6 GHz | there is | 20 MB | 35 W | 350/1200 MHz | 439 |
i7-10700K (8 cores) | 3.8 / 5.1 GHz | there is | 16 MB | 125 W | 350/1200 MHz | 374 |
i7-10700KF (8 cores) | 3.8 / 5.1 GHz | there is | 16 MB | 125 W | – | 349 |
i7-10700 (8 cores) | 2.9 / 4.8 GHz | there is | 16 MB | 65 W | 350/1200 MHz | 323 |
i7-10700F (8 cores) | 2.9 / 4.8 GHz | there is | 16 MB | 65 W | – | 289 |
i7-10700T (8 cores) | 2 / 4.5 GHz | there is | 16 MB | 35 W | 350/1200 MHz | 325 |
i5-10600K (6 cores) | 4.1 / 4.8 GHz | there is | 12 MB | 125 W | 350/1200 MHz | 262 |
i5-10600KF (6 mag) | 4.1 / 4.8 GHz | there is | 12 MB | 125 W | – | 237 |
i5-10600 (6 mag) | 3.3 / 4.8 GHz | there is | 12 MB | 65 W | 350/1200 MHz | 213 |
i5-10600T (6 mag) | 2.4 / 4 GHz | there is | 12 MB | 35 W | 350/1200 MHz | 213 |
i5-10500 (6 mag) | 3.1 / 4.5 GHz | there is | 12 MB | 65 W | 350/1150 MHz | 192 |
i5-10500T (6 mag) | 2.3 / 3.8 GHz | there is | 12 MB | 35 W | 350/1150 MHz | 192 |
i5-10400 (6 cores) | 2.9 / 4.3 GHz | there is | 12 MB | 65 W | 350/1100 MHz | 182 |
i5-10400F (6 cores) | 2.9 / 4.3 GHz | there is | 12 MB | 65 W | – | 157 |
i5-10400T (6 cores) | 2 / 3.6 GHz | there is | 12 MB | 35 W | 350/1100 MHz | 182 |
i3-10320 (4 mag) | 3.8 / 4.6 GHz | there is | 8 MB | 65 W | 350/1150 MHz | 154 |
i3-10300 (4 cores) | 3.7 / 4.4 GHz | there is | 8 MB | 65 W | 350/1150 MHz | 143 |
i3-10300T (4 cores) | 3 / 3.9 GHz | there is | 8 MB | 35 W | 350/1100 MHz | 143 |
i3-10100 (4 mag) | 3.6 / 4.3 GHz | there is | 6 MB | 65 W | 350/1100 MHz | 122 |
i3-10100T (4 cores) | 3 / 3.8 GHz | there is | 6 MB | 35 W | 350/1100 MHz | 122 |
type | Clock / Max Clock | Hyperthreading | L3 cache | consumption | UHD Graphics 630 base / turbo watch | List price (dollars) |
---|---|---|---|---|---|---|
G6600 (2 cores) | 4.2 / – GHz | there is | 4 MB | 58 W | 350/1100 MHz | 86 |
G6500 (2 cores) | 4.1 / – GHz | there is | 4 MB | 58 W | 350/1100 MHz | 75 |
G6500T (core 2) | 3.5 / – GHz | there is | 4 MB | 35 W | 350/1050 MHz | 75 |
type | Clock / Max Clock | Hyperthreading | L3 cache | consumption | UHD Graphics 630 base / turbo watch | List price (dollars) |
---|---|---|---|---|---|---|
G6400 (core 2) | 4 / – GHz | there is | 4 MB | 58 W | 350/1050 MHz | 64 |
G6400T (core 2) | 3.4 / – GHz | there is | 4 MB | 35 W | 350/1050 MHz | 64 |
type | Clock / Max Clock | Hyperthreading | L3 cache | consumption | UHD Graphics 610 base / turbo watch | List price (dollars) |
---|---|---|---|---|---|---|
G5920 (2 cores) | 3.5 / – GHz | not | 2 MB | 58 W | 350/1050 MHz | 52 |
G5900 (2 cores) | 3.4 / – GHz | not | 2 MB | 58 W | 350/1050 MHz | 42 |
G5900 (core 2) | 3.2 / – GHz | not | 2 MB | 35 W | 350/1000 MHz | 42 |
The LGA1200 encapsulated CPUs use a dual-channel DDR4 memory controller that can support an effective clock of up to 2933 MHz, but must be reached at 2667 MHz on the Celeron and Pentium models. The K mark generally indicates free multiplication, so these models can be adjusted, while the F mark refers to a product with a disabled IGP. A significant change is that Intel uses a thicker metal cap for new processors, which in principle could result in better heat transfer.
Intel has put tuning at the heart of the platform and is trying to benefit potential customers with an extreme tuning utility that allows you to disable Hyper-Threading, change PCI Express and DMI clocks, and allow users to play around with values. voltage, among other things.
Delivery of the processors detailed above will start soon, but there is no exact date for this. The arrival of motherboards based on the Z490 control bridge will also be continuous, but this depends mainly on the partners.