AMD’s next-generation Ryzen APUs for high-performance laptops will include the Zen-4 powered Phoenix-H and Raphael-H families. In a tweet from Greymon55, we received further confirmation that AMD will indeed increase the core count of its mobile family to compete with Intel’s hybrid architecture. AMD’s next-gen Ryzen APUs for high-performance laptops include Zen 4 Powered Phoenix-H with 8 cores and Raphael-H with 16 cores with Alder Lake CPUs the 12th to its hybrid design that is both Golden Cove and Includes Gracemont Cores. AMD plans to increase the number of its own laptop APU cores, but that upgrade won’t come anytime soon. The upcoming Rembrandt-H Ryzen 6000 APU family will keep the 8-core and 16-thread count, although they are based on the brand new Zen 3+ architecture on the 6nm process node, so one a better performance boost is to be expected, but Intel will offer chips with up to 14 cores and 20 threads. SK Hynix HBM3 memory module presented at the OCP Summit 2021 – 12-Hi-Stack, 24 GB module with 6400 Mbit / s transmission speed Phoenix-H5nm Zen4 to 8C 16TTDP <40W Raphael-H5nm Zen4bis 16C 32TTDP≥45W - Greymon55 (@ greymon55 November 11, 2021 To tackle Intel, AMD's answer will come in the form of Raphael-H, a brand new high-end laptop APU family designed with higher core counts in mind. We have heard from several & well-known leakers that Raphael-H will carry up to 16 cores and 32 threads. But at the time of launch, the family could be competing with Intel's Raptor Lake-H or even Meteor Lake-H CPUs and their further increased core / thread counts. With that in mind, Zen 4 is expected to offer a huge leap in IPC, leaving the battle between the two opponents in the laptop segment head-to-head. So let's talk about what AMD has in its pocket with the Zen 4 architecture for the laptop APU segment. AMD Phoenix-H Ryzen APUs with up to 8 Zen 4 cores The reason we say Phoenix APUs will fall under the AMD Ryzen 7000 banner is because they come after Rembrandt, the successor to the Ryzen 5000 'Cezanne '-APUs. If AMD doesn't skip a naming convention until Phoenix, the lineup would definitely fall under the Ryzen 7000 banner, but it's still considered the 6th generation Zen APU offering as Renoir is 3rd generation and Cezanne is 4th. Generation is. New Raptoreum Crypto Mining Algorithm Turns AMD Ryzen CPUs With Huge L3 Caches into Money Makers The Phoenix range of notebook APUs is being developed for the FP8 platform. AMD's Rembrandt APUs are said to land on the FP7 socket, which means that the FP7 would only last a single generation of APUs. The Phoenix APUs are expected to feature the 5 nm Zen 4 processor architecture with up to 8 cores and 16 threads as well as an updated Navi GPU architecture. These APUs will hit the market around 2023 and come with TDPs below 40W. AMD Raphael-H Ryzen APUs with up to 16 Zen 4 cores AMD is expected to launch its Zen 4 core architecture not only for the Phoenix APU series, which are geared towards low-power and high-end mobility platforms but also an end segment that will be known as the Raphael-H, which is also powered by Zen 4 cores. The AMD Raphael code name has been specific to the desktop AM5 platform since it was leaked. But the latest rumors tell us that Raphael will also go to high-performance laptops with Raphael-H chips. Not much is known, but we do know that like Rembrandt and Phoenix, the Raphael chips will also have built-in graphics support, although they may have fewer CUs with higher clock speeds compared to their standard APU counterparts. The Raphael H chips are said to offer up to 16 Zen 4 cores, which will bring AMD's mobility lineup on par with its desktop offerings. The existing lineup is limited to 8-core and 16-thread laptops, and that may be the case for Phoenix, so it makes sense to bring a high-core-count lineup under the Rapahel-H branding. The APUs receive TDPs of 45 W and more and are aimed at the high-end spectrum of laptop designs. AMD Ryzen H-Series Mobility CPUs: CPU Family NameAMD Raphael H-SeriesAMD Phoenix H-SeriesAMD Rembrandt H-SeriesAMD Cezanne H-SeriesAMD Renoir H-SeriesAMD Picasso H-SeriesAMD Raven Ridge H-Series Family BrandingAMD Ryzen 7000 (H-Series) AMD Ryzen 7000 (H-Series) AMD Ryzen 6000 (H-Series) AMD Ryzen 5000 (H-Series) AMD Ryzen 4000 (H-Series) AMD Ryzen 3000 (H-Series) AMD Ryzen 2000 (H-Series) Process Nodes5nm5nm6nm7nm7nm12nm14nm CPU Core architectureZen 4Zen 4Zen 3 + Zen 3Zen 2Zen + Zen 1 CPU cores / threads (max.) 16/32? 8/16? 8/168/168/164/84/8 L2 cache (max.) 4 MB4 MB4 MB4 MB4 MB2 MB2 MB L3 cache (max.) 32 MB16 MB16 MB16 MB8 MB4 MB4 MB Max. CPU clocks TBATBATBA 4.80 GHz (Ryzen 9 5980HX) 4.3 GHz (Ryzen 9 4900HS) 4.0 GHz (Ryzen 7 3750H) 3.8 GHz (Ryzen 7 2800H) GPU core architectureRDNA 2 6nm iGPURDNA 2 6nm iGPURDNA 2 6nm iGPUVega Enhanced 7nmVega Enhanced 7nmVega 14nmVega 14nm Max GPU cores TBATBATBA8 CUs (512 cores) 512 cores (512 cores) 8 CUs CUs2 (704 cores) Max z1300 MHz TDP (cTDP Down / Up) 35W-45W (65W cTDP) 35W-4 5W (65W cTDP) 35W-45W (65W cTDP) 35W -54W (54W cTDP) 35W-45W (65W cTDP) 12-35W (35W cTDP) 35W-45W (65W cTDP) Introduction Q1 2023? Q1 2023? Q1 2022? Q1 2021Q2 2020Q1 2019Q4 2018
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