AMD Zen 5 Ryzen Desktop APUs Codenamed Strix Point, Features Hybrid Core Architecture on 3nm Process Node

First details regarding AMD’s next-generation Zen 5 based ‘Strix Point’ Ryzen Desktop CPUs & APUs have hit the web. It looks like the successor to Zen 4 will have some big changes on both consumer CPU & APU lineups.

AMD Zen 5 Based Ryzen Desktop APUs Codenamed Strix Point, Rumored To Feature Hybrid Core Architecture & 3nm Process Node

Information reported by Moepc states that while Zen 4 based Phoenix APUs are expected next year for desktop and mobility platforms, the next-generation Zen 5 APUs are already in the early design & development phase. As per the rumor, the AMD Ryzen Desktop APUs based on the Zen 5 cores will be known as Strix Point.

Russia, In Partnership With ASRock, Has Released Its First Domestically-Produced AMD B450 Chipset Motherboard

The AMD Zen 5 chips will be fabricated on the brand new 3nm process node whereas Zen 4 chips are going to be based on the 5nm process node. The architecture is going to be a lot of changes in terms of design. It is stated by the source that AMD does bigger architectural revamps for its odd-numbered Zen architectures while even-numbered Zen cores get better optimizations. It is stated that the Zen 5 based Strix Point APUs are expected to be part of the Ryzen 8000 family but they’re going to include one major change.

That change is the inclusion of a hybrid architecture design. Just like Alder Lake CPUs launching later this year, the Zen 5 architecture is said to be the first to feature a big. LITTLE-esque design. The AMD Strix Point Ryzen APUs are expected to feature 8 large Zen 5 cores and 4 smaller cores but there’s no information on what those cores would be. For Intel, they will be using their Atom x86 cores as the smaller cores which will lack SMT support while the bigger cores will be based on the x86 Cove architectures and feature SMT support.

The first AMD Strix Point APUs are rumored to debut in 2024 but we could see a release a desktop lineup launching earlier as mainstream CPUs get launched months ahead of the APU launches. The Zen 5 Ryzen CPUs and APUs are also set to feature some huge memory subsystem changes so we can be expecting a new IMC and redesigned cache. Zen 4 Desktop CPUs/APUs are going to introduce the RDNA 2 GPU architecture on-board so moving forward, we can see Infinity Cache subsystems for Ryzen processors too.

First Mainstream DDR5 Memory Specifications For Consumers Released – Up To 64 GB 4800 MHz CL40 in 2021, 128 GB 6400 MHz CL52 Next Year

Obviously, it’s still too early as we are talking about chips that are years away from launch so expect the final specifications to change but it will be interesting, nevertheless, to see a hybrid architecture from AMD to battle against Intel’s mainstream line of CPUs.

AMD Zen CPU / APU Roadmap:

Zen Architecture Zen 1 Zen+ Zen 2 Zen 3 Zen 3+ Zen 4 Zen 5
Process Node 14nm 12nm 7nm 7nm 6nm? 5nm 3nm?
Server EPYC Naples (1st Gen) N/A EPYC Rome (2nd Gen) EPYC Milan (3rd Gen) N/A EPYC Genoa (4th Gen) TBA
High-End Desktop Ryzen Threadripper 1000 (White Haven) Ryzen Threadripper 2000 (Coflax) Ryzen Threadripper 3000 (Castle Peak) Ryzen Threadripper 5000 (Chagal) N/A Ryzen Threadripper 6000 (TBA) TBA
Mainstream Desktop CPUs Ryzen 1000 (Summit Ridge) Ryzen 2000 (Pinnacle Ridge) Ryzen 3000 (Matisse) Ryzen 5000 (Vermeer) Ryzen 6000 (Warhol / Cancelled) Ryzen 6000 (Raphael) TBA
Mainstream Desktop APU Ryzen 2000 (Raven Ridge) Ryzen 3000 (Picasso) Ryzen 4000 (Renoir) Ryzen 5000 (Cezanne) Ryzen 6000 (Rembrandt) Ryzen 7000 (Phoenix) Ryzen 8000 (Strix Point)
Low-Power Mobile N/A N/A Ryzen 5000 (Van Gogh)
Ryzen 6000 (Dragon Crest)

Scroll to Top