Latest revision as of 19:37, 17 March 2025

Zen 5 is a microarchitecture Already released and sold being by AMD as a successor to Zen 4

History[edit]

Zen 5 was first mentioned by lead architect Michael Clark during a discussion on April 9th, 2018 ^[1]

Codenames[edit]

Product Codenames:

The Zen 5 microarchitecture powers Ryzen 9000 series desktop processors (codenamed "Granite Ridge"), Epyc 9005 server

processors (codenamed "Turin"), and Ryzen AI 300 thin and light mobile processors (codenamed "Strix Point").

Architectural Codenames:

Comparison

Process Technology[edit]

Zen 5 is to be produced on a 4 nm process, Zen 5c is to be produced on a 3 nm process.

Architecture[edit]

AMD Zen 5 released in July 2024. The seventh microarchitecture in the Zen microarchitecture series.

Codenamed Granite Ridge, Strix Point, and Turin, it is slated for TSMC 4 nm or 3 nm manufacturing.

• LITTLE design

- Improved 16% IPC and clock speed

- possibly more L3 cache per chiplet

Key changes from Zen 4[edit]

Core level (vs. Zen 4 microarchitectures)

• Instruction set

AVX-512 VP2INTERSECT support

AVX-VNNI support

• Front end

• Branch prediction improvements

- L1 BTB size increased significantly from 1.5K → 16K (10.7x)

- L2 BTB size increases from 7K → 8K

- Increased size of TAGE

- Introduction of 2-ahead predictor structure

- Return stack size increased from 32 → 52 entries (+62.5%)

• Improved instruction cache latency and bandwidth

- Instruction fetch bandwidth increased from 32B → 64B per cycle

- L2 instruction TLB size increased from 512 → 2048 entries (4x)

• Introducing a dual decode pipeline

- Decoder throughput scaled from 4 to 8 (2x4) per cycle (4 per thread, 4 in single thread)

- Op cache throughput expanded from 9 → 12 (2x6) per cycle (6 per thread, 6 for single thread)

- Unlike Intel E-Core, where a single thread can utilize multiple clusters, one cluster is used per SMT thread.

• Back end

• Dispatch width of integer operations expanded from 6 → 8

• The size of ROB (reorder buffer) has been expanded from 320 to 448 entries (+40%)

• Integer register file capacity expanded from 192 → 240 entries (+25%)

• Floating point register file capacity expanded from 192 to 384 entries (2x)

• Flag register file capacity expanded to 192 entries

• Increased size of integer scheduler

- Scheduler size expanded from 4x24 (=96) → 88+56 (=144) entries (+50%)

- Adoption of integrated scheduler configuration similar to Intel P-Core

• Increased size of floating point scheduler

- The size of the pre-scheduler queue has been expanded from 64 to 96 entries (+50%).

- Scheduler size expanded from 2x32 (=64) → 3x38 (=114) entries (+78%)

• Number of ALUs increased from 4 → 6 (+50%)

• Number of multiplication units increases from 1 → 3 (3x)

• Number of branch units increased from 2 → 3 (+50%)

• Number of AGU increased from 3 → 4 (+33%)

- Number of loads that can be processed per cycle increased from 3 → 4 (same as 2 for 128 bits or more)

- Number of 128/256 bit stores that can be processed per cycle increased from 1 → 2

Desktop and server products such as Granite Ridge can process AVX-512 SIMD in one cycle.

However, mobile products process 256 bits in two cycles like the previous Zen 4.

• Memory subsystem

• Load/Store Queue

- Increased size

• Prefetcher

- Added 2D stride prefetcher

- Improved stream & region prefetcher

• L1 data cache

- Capacity increased from 32 KB → 48 KB

- Associativity increases from 8-way → 12-way

- Bandwidth doubled

• L2 data cache

- Associativity increases from 8-way → 16-way

- Bandwidth increases from 32B → 64B per cycle

• L3 data cache

- Slight improvement in latency

- Maximum number of in-flight misses increased to 320

• Physical design

Improved power gating technology

• The overall expansion of the architecture has improved performance per clock

by an average of 16% compared to the previous generation.

Members[edit]

9005 Series (Zen 5)[edit]

See also: Turin and Zen 5 µarch

The fifth generation of EPYC processors was launched on October 10, 2024, at AMD's Advancing AI event, with general availability beginning in November 2024. Based on the Zen 5 microarchitecture, the 9005 series, codenamed "Turin", is manufactured by TSMC using a 4 nm process for standard Zen 5 cores and a 3 nm process for Zen 5c cores.

It utilizes the Socket SP5 socket, maintaining compatibility with the previous generation. The series offers core counts ranging from 8 cores to 192 cores, with support for up to 12 channels of DDR5-6000 memory (up to 6 TiB per socket) and 128 PCIe 5.0 lanes, enhancing performance and efficiency for high-performance computing, cloud, and AI workloads.

The series includes standard Zen 5 models, high-frequency "F" SKUs, single-socket "P" SKUs, and dense Zen 5c models, with TDPs ranging from 155 W to 500 W.

Designers[edit]

• David Suggs, chief architect

Bibliography[edit]

See also[edit]

AMD • Zen • Ryzen • EPYC

• Intel Meteor Lake

Zen Naples Snowy Owl Whitehaven Summit Ridge Raven Ridge  Great Horned Owl Banded Kestrel • Power • Performance

Zen+ Colfax Pinnacle Ridge  Picasso Dali (Athlon) Pollock River Hawk • Power • Performance

Zen 2 Rome Castle Peak   Matisse Renoir Lucienne Mendocino Grey Hawk • Power • Performance

Zen 3 Milan Chagall Vermeer   Barcelo Cezanne • Power • Performance Zen 3+ Rembrandt

Zen 4 Genoa Storm Peak Raphael Dragon Range   Hawk Point Phoenix • Power • Performance Zen 4c Siena Bergamo Phoenix 2

.