Intel Core-B Processors: 8th Gen BGA with 65W TDP
by Ian Cutress on April 12, 2018 7:00 AM EST- Posted in
- CPUs
- Intel
- Embedded
- 65W
- BGA
- Core 8th Gen
- Coffee Lake
- 8th Gen
- Core-B
During the mêlée of last week and Intel announcing the next wave of 8th Gen Core processors, there were a few products that Intel did not include in the official announcement. The ones that we caught were the Pentium Gold and Celeron desktop product line, but over the weekend we have also noticed that Intel is introducing a new line of ‘B’ processors.
The key features of the B processors are that they are named and perform similarly to the desktop processors the names are based on, but are not designed for socketed desktops: they use BGA mounting, similar to notebook processors. The high-end notebook processors, Core-H, are historically denoted by their 45W TDP, while these new Core-B processors have a 65W TDP. Intel has stated that this is not a ‘new B-series’ of processors, however they do not fall into the standard Core-S desktop definition, nor do they really qualify as notebook processors, siting above the Core-H line in a high-power segment that Intel defines for All-in-One types of systems (monitor with the PC embedded in the back).
The goal of the Core-B line, as we were told, is to offer embedded versions of desktop processors for AIO-type form factors with a lower z-height, enabling a more streamlined and premium design for integrated desktops. In the past this segment was supplied by Core-H or socketed Core-S processors. It is a little strange though – Intel’s own processor model tracking system, ARK, has a field for ‘embedded options available’ with the desktop processors, suggesting that they could have just said ‘yes’ and kept the name the same. But on a positive side, we can now identify which AIOs are using socketed parts compared to those using embedded parts, identified by the Core-B CPUs.
The initial run of the Core-B line will have a Core i7-8700B, Core i5-8500B, and Core i5-8400B.
| AnandTech | Core i7-8700B |
Core i5-8500B |
Core i5-8400B |
| TDP | 65 W | 65 W | 65W |
| Cores | 6C / 12T | 6C / 6T | 6C / 6T |
| Base Frequency | 3.20 GHz | 3.00 GHz | 2.80 GHz |
| Turbo Frequency | 4.60 GHz | 4.10 GHz | 4.00 GHz |
| iGPU | UHD 630 | UHD 630 | UHD 630 |
| iGPU Base/Turbo | 350 / 1200 MHz | 350 / 1100 MHz | 350 / 1050 MHz |
| DRAM Support | DDR4-2666 | DDR4-2666 | DDR4-2666 |
| Optane Support | Yes | Yes | Yes |
In all respects, these are identical to their 65W desktop equivalents. That includes core counts, base frequencies, turbo frequencies, memory support, Optane support, and integrated graphics. The only difference however is that these CPUs are likely to be placed into TDP-limited scenarios enabled through firmware.
For example, take the MSI Vortex G25 system. I saw this at the end of last year at an Intel event in London, and noticed it had the Core i7-8700 processor in it. Based on our initial 8th Generation review and internal testing, I knew that the Core i7-8700 in a thermally unrestricted desktop drew a lot of power depending on how the BIOS was configured – somewhere north of 120W when the system was loaded and Intel’s all-core turbo was in play. So in spending 10 minutes with the Vortex system, I was able to determine that the Core i7-8700 in it was limited at the BIOS level to 65W maximum. As a result, for anything approaching serious multi-core workloads, the system was running at 3.2 GHz.
This ultimately made sense – the system design, with a big GPU inside, is limited by the ability to remove heat. The system was also designed by MSI’s laptop team, so they do know a thing or two about adjusting TDP limits using the BIOS. However, we were now in a situation where the Core i7-8700 in the MSI Vortex would perform significantly worse (up to 33%) on certain workloads due to the TDP limitation compared to a thermally unrestricted Core i7-8700 in a desktop allowed to implement the standard turbo profile.
The net result here is that systems like the Vortex will transition to these new Core-B processors. The upside is that the system design could be more efficient, and that when we see a B-series processor, we could ascertain that the turbo performance (especially multi-core turbo) might be lower than the desktop equivalent. The downside is the user will not be getting unrestricted i7-8700 performance.
A Small Chipset Announcement
Also on Intel’s cards, but not in the official announcements, was the CM246 mobile chipset, used by the new 8th Gen Core laptops that have Xeon-E processors in them. This chipset is a beefed up version of the HM370 chipset, supporting 24 PCIe lanes, six USB 3.1 (10 Gbps) ports, eight SATA ports, vPro, and Intel’s RST Enterprise. Intel rates the chipset at a 3W TDP. We are still waiting for the full announcement of the Xeon-E line, however.
Related Reading
- The AnandTech Coffee Lake Review: Initial Numbers on the Core i7-8700K and Core i5-8400
- Intel Expands 8th Gen Core: Core i9 on Mobile, Iris Plus, Desktop, Chipsets, and vPro
- Dell's Spring Range: New 8th Gen Alienware, Laptops, and Monitors
- Samsung Odyssey Z Gaming Notebook: Going For Gamers with 8th Gen and Max-Q
- MSI's GT75 Titan DTR Laptop Gets Coffee Lake Treatment: Core i9 + GeForce GTX 1080
- ASUS ROG Spring System Updates: Gaming Big and Small
- HP Spring 2018 Range: ZBook, ZBook, ZBook
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Valantar - Thursday, April 12, 2018 - link
Yay! Even more non-upgradeable/non-serviceable parts in product segments where this doesn't actually give any kind of tangible benefit. I can kinda-sorta accept soldered CPUs in thin-and-light laptops, but for AIOs? Don't be silly. If the ~5mm savings of leaving out the socket and retention mechanism is what's making your AIO design fat, you're doing something wrong.jordanclock - Thursday, April 12, 2018 - link
It's like you've never heard of embedded systems. Besides, AIO absolutely can benefit. The typical owner of an AIO is not going to upgrade their CPU, so saving some space for better thermal management is great.Valantar - Thursday, April 12, 2018 - link
Embedded systems already have existing CPU options, and this series is not for those. Also, better thermal management? How? Last I looked AIOs don't stack their HSFs on top of the CPU, so that point is moot.meacupla - Thursday, April 12, 2018 - link
People upgrade their cheap AIO systems? that is news to me.Valantar - Thursday, April 12, 2018 - link
_Cheap_ AIO systems don't have CPUs like these, but rather U-series mobile chips (that are already BGA). These are obviously premium options, for iMacs and their ilk.Elstar - Thursday, April 12, 2018 - link
If you don't care about the ~5mm savings, then you're not the target market.Valantar - Thursday, April 12, 2018 - link
If you can actually use the performance benefits of these CPUs over an U-series, you're going to need a cooling solution that'll take up way more than those 5 mm anyhow. So the point is moot; this is a silly change, but in tune with the trend toward ever more locked-down hardware and less serviceability.Flunk - Thursday, April 12, 2018 - link
AIOs already mostly use soldered CPUs. They're not designed with upgradablity in mind.name99 - Thursday, April 12, 2018 - link
I can assure you that few people are opening up their iMacs to swap processors.THAT is the target sort of market.
Valantar - Thursday, April 12, 2018 - link
Sure, but some are. And after the rest are prematurely scrapped, socketed CPUs can be easily harvested and reused. This will take some serious hardware to remove without damage. In short: the "gains" from this are immaterial and unnecessary, while the drawbacks are significant.