Epyc

Epyc is a brand of multi-core x86-64 microprocessors designed and sold by AMD, based on the company's Zen microarchitecture. Introduced in June 2017, they are specifically targeted for the server and embedded system markets.[1] Epyc processors share the same microarchitecture as their regular desktop-grade counterparts, but have enterprise-grade features such as higher core counts, more PCI Express lanes, support for larger amounts of RAM, and larger cache memory. They also support multi-chip and dual-socket system configurations by using the Infinity Fabric interconnect.

AMD Epyc
General information
LaunchedJune 20, 2017 (2017-06-20)
Marketed byAMD
Designed byAMD
Common manufacturer(s)
Performance
Max. CPU clock rate2.7 GHz to 4.4 GHz
Architecture and classification
Technology node14 nm to 5 nm
Microarchitecture
Instruction setx86-64
MMX(+), SSE1, SSE2, SSE3, SSSE3, SSE4a, SSE4.1, SSE4.2, AVX, AVX2, AVX-512 (with Zen 4 and later), FMA3, CVT16/F16C, ABM, BMI1, BMI2
AES, CLMUL, RDRAND, SHA, SME
AMD-V, AMD-Vi
Physical specifications
Cores
  • up to 96 cores/192 threads per socket
Socket(s)
Products, models, variants
Core name(s)
  • Naples
  • Rome
  • Milan
  • Genoa
  • Bergamo
Brand name(s)
  • Epyc
History
PredecessorOpteron

History

In March 2017, AMD announced plans to re-enter the server market with a platform based on the Zen microarchitecture, codenamed Naples, and officially revealed it under the brand name Epyc in May.[2] That June, AMD officially launched Epyc 7001 series processors, offering up to 32 cores per socket, and enabling performance that allowed Epyc to be competitive with the competing Intel Xeon product line.[3] Two years later, in August 2019, the Epyc 7002 'Rome' series processors, based on the Zen 2 microarchitecture, launched, doubling the core count per socket to 64, and increasing per-core performance dramatically over the last generation architecture.

In March 2021, AMD launched the Epyc 7003 'Milan' series, based on the Zen 3 microarchitecture.[4] Epyc Milan brought the same 64 cores as Epyc Rome, but with much higher per-core performance, with the EPYC 7763 beating the EPYC 7702 by up to 22% despite having the same number of cores and threads.[5] A refresh of the Epyc 7003 'Milan' series with 3D V-Cache named Milan-X launched on March 21, 2022, using the same cores as Epyc Milan, but with an additional 512MB of cache stacked onto the compute dies, bringing the total amount of cache per CPU to 768 MB.[6]

On November 8, 2021, AMD unveiled the upcoming generations of AMD EPYC, also unveiling the new LGA-6096 SP5 socket that would support the upcoming generations of Epyc chips. Codenamed Genoa, the first Zen 4 based Epyc CPUs will be built on TSMC's N5 node and support up to 96 cores and 192 threads per socket, alongside 12 channels of DDR5,[7] 128 PCIe 5.0 lanes, and Compute Express Link 1.1.[8] AMD also shared information regarding the sister-chip of Genoa, codenamed Bergamo. Bergamo will be based on a modified Zen 4 microarchitecture named Zen 4c, designed to allow for much higher core counts and efficiency at the cost of lower single-core performance, targeting cloud providers and workloads, compared to traditional high performance computing workloads.[9] Bergamo will be compatible with Socket SP5, and will support up to 128 cores and 256 threads per socket.[10]

On November 10th, 2022, AMD officially launched EPYC Genoa, Many tech reviewers and customers had already received hardware for testing and benchmarking, and third party benchmarks of Genoa parts were immediately available. The flagship part, the Epyc 9654, set records for multi core performance, and showed up to 4x performance compared to Intel's flagship part, the Xeon 8380. High memory bandwidth and extensive PCIe connectivity removed many bottlenecks, allowing all 96 cores to be utilized in workloads where previous generation Milan chips would have been IO bound. Genoa was also the first x86 server CPU to support CXL, allowing for further expansion of memory and other devices with a high bandwidth interface built on PCIe 5.0.

AMD Epyc CPU codenames follow the naming scheme of Italian cities, including Milan, Rome and Naples.

AMD EPYC CPU codenames[11][12][13]
Gen Year Name Product line series Cores Socket
1st 2017 Naples 7001 32 × Zen 1 SP3
2nd 2019 Rome 7002 64 × Zen 2
3rd 2021 Milan 7003 64 × Zen 3
2022 Milan-X
4th Genoa 9004 96 × Zen 4 SP5
2023 Genoa-X
Bergamo TBA 128 × Zen 4c SP5
SP6
Siena 64 × Zen 4 SP6
5th 2024 Turin Zen 5 SP5
Embedded series
1st 2018 Snowy Owl 3000 16 × Zen 1 SP4r2 BGA

Design
A delidded second gen Epyc 7702, showing the die configuration

Epyc CPUs use a multi-chip-module design to enable higher yields for a CPU than traditional monolithic dies. First gen Epyc CPUs are composed of four 14 nm compute dies, each with up to 8 cores.[14][15] Cores are symmetrically disabled on dies to create lower binned products with fewer cores but the same I/O and memory footprint. Second and Third gen Epyc CPUs are composed of eight compute dies built on a 7 nm process node, and a large I/O die built on a 14 nm process node.[16] Third gen Milan-X CPUs use advanced through-silicon-vias to stack an additional die on top of each of the 8 compute dies, adding 64 MB of L3 cache per die.[17]

Epyc supports both single socket and dual socket operation. In a dual socket configuration, 64 PCIe lanes from each CPU are allocated to AMD's proprietary Infinity Fabric interconnect to allow for full bandwidth between both CPUs.[18] Thus, a dual socket configuration has the same number of usable PCIe lanes as a single socket configuration. First generation Epyc CPUs had 128 PCIe 3.0 lanes, while second and third generation had 128 PCIe 4.0 lanes. All current Epyc CPUs are equipped with up to eight channels of DDR4 at varying speeds, though next gen Genoa CPUs are confirmed by AMD to support up to twelve channels of DDR5.[7][19]

Unlike Opteron, Intel equivalents and AMD's desktop processors (excluding Socket AM1), Epyc processors are chipset-free - also known as system on a chip. That means most features required to make servers fully functional (such as memory, PCI Express, SATA controllers, etc.) are fully integrated into the processor, eliminating the need for a chipset to be placed on the mainboard. Some features may require the use of additional controller chips to utilize.

A near-infrared photograph of a delidded second gen Epyc 7702

Reception

Initial reception to Epyc was generally positive.[19] Epyc was generally found to outperform Intel CPUs in cases where the cores could work independently, such as in high-performance computing and big-data applications. First generation Epyc fell behind in database tasks compared to Intel's Xeon parts due to higher cache latency.[19] In 2021, Meta Platforms selected Epyc chips for its metaverse data centers.[20]

Epyc Genoa was well received, as it offered incredible performance and efficiency compared to previous offerings, though received some criticism for not having 2 DIMMs per channel configurations validating, with some reviewers calling it an "incomplete platform".[21]

Features

Products

First generation Epyc (Naples)

The following table lists the devices using the first generation design.

A "P" suffix denotes support for only a single socket configuration. Non-P models use 64 PCIe lanes from each processor for the communication between processors.

Model Release date
and price		 Fab Chiplets Cores
(Threads)		 Core
config[lower-roman 1]		 Clock rate
(GHz)		 Cache Socket &
configuration		 PCIe
lanes		 Memory
support		 TDP
Base Boost L1 L2 L3
All-core Max
EPYC 7351P[22][23][24] June 2017[25]
US $750		 14 nm 4 × CCD 16 (32) 8 × 2 2.4 2.9 64 KB inst.
32 KB data
per core		 512 KB
per core		 64 MB
8 MB per CCX		 SP3
1P		 128
PCIe 3.0		 DDR4-2666
8 channels		 155/170 W
EPYC 7401P[22] [23][24] June 2017[25]
US $1075		 24 (48) 8 × 3 2.0 2.8 3.0
EPYC 7551P[22][23][24] June 2017[25]
US $2100		 32 (64) 8 × 4 2.55 180 W
EPYC 7251[22][23][24] June 2017[25]
US $475		 8 (16) 8 × 1 2.1 2.9 32 MB
4 MB per CCX		 SP3
2P		 DDR4-2400
8 channels		 120 W
EPYC 7261[26] Mid 2018
US $700+		 2.5 64 MB
8 MB per CCX		 DDR4-2666
8 channels		 155/170 W
EPYC 7281[22][23][24] June 2017[25]
US $650		 16 (32) 8 × 2 2.1 2.7 32 MB
4 MB per CCX
EPYC 7301[22][23][24] June 2017[25]
US $800+		 2.2 64 MB
8 MB per CCX
EPYC 7351[22][23][24] June 2017[25]
US $1100+		 2.4 2.9 2.9
EPYC 7371[27] Late 2018
US $1550+		 3.1 3.6 3.8 180 W
EPYC 7401[22][23][24] June 2017[25]
US $1850		 24 (48) 8 × 3 2.0 2.8 3.0 155/170 W
EPYC 7451[22][23][24] June 2017[25]
US $2400+		 2.3 2.9 3.2 180 W
EPYC 7501[22][23][24] June 2017[25]
US $3400		 32 (64) 8 × 4 2.0 2.6 3.0 155/170 W
EPYC 7551[22][23][24] June 2017[25]
US $3400+		 2.55 180 W
EPYC 7571 Late 2018
N/A		 2.2  ? 200 W?
EPYC 7601[22][23][24] June 2017[25]
US $4200		 2.7 3.2 180 W
  1. Core Complexes (CCX) × cores per CCX
A first generation Epyc die configuration
An Epyc CPU in an SP3 socket

Second generation Epyc (Rome)
First generation Epyc processor

In November 2018, AMD announced Epyc 2 at their Next Horizon event, the second generation of Epyc processors codenamed "Rome" and based on the Zen 2 microarchitecture.[28] The processors feature up to eight 7 nm-based "chiplet" processors with a 14 nm-based IO chip providing 128 PCIe 4.0 lanes in the center interconnected via Infinity Fabric. The processors support up to 8 channels of DDR4 RAM up to 4 TB, and introduce support for PCIe 4.0. These processors have up to 64 cores with 128 SMT threads per socket.[29] The 7 nm "Rome" is manufactured by TSMC.[16] It was released on August 7, 2019.[30] Common features of these CPUs:

  • Codenamed "Rome"
  • Zen 2 Microarchitecture
  • 7 nm TSMC Process
  • SP3 Socket
  • The number of PCIe lanes: 128
  • Memory support: eight-channel DDR4-3200
Model Release
date		 Price
(USD)		 Fab Chiplets Cores
(threads)		 Core
config[lower-roman 1]		 Clock rate (GHz) Cache Socket &
configuration		 TDP
Base Boost L1 L2 L3
EPYC 7232P August 7, 2019 $450 TSMC
7FF		 2 × CCD
1 × I/OD		 8 (16) 4 × 2 3.1 3.2 32 KB inst.
32 KB data
per core		 512 KB
per core		 32 MB
8 MB per CCX		 SP3
1P		 120 W
EPYC 7302P $825 4 × CCD
1 × I/OD		 16 (32) 8 × 2 3 3.3 128 MB
16 MB per CCX		 155 W
EPYC 7402P $1250 24 (48) 8 × 3 2.8 3.35 180 W
EPYC 7502P $2300 32 (64) 8 × 4 2.5 3.35
EPYC 7702P $4425 8 × CCD
1 × I/OD		 64 (128) 16 × 4 2 3.35 256 MB
16 MB per CCX		 200 W
EPYC 7252 $475 2 × CCD
1 × I/OD		 8 (16) 4 × 2 3.1 3.2 64 MB
16 MB per CCX		 SP3
2P		 120 W
EPYC 7262 $575 4 × CCD
1 × I/OD		 8 × 1 3.2 3.4 128 MB
16 MB per CCX		 155 W
EPYC 7272 $625 2 × CCD
1 × I/OD		 12 (24) 4 × 3 2.9 3.2 64 MB
16 MB per CCX		 120 W
EPYC 7282 $650 16 (32) 4 × 4 2.8 3.2
EPYC 7302 $978 4 × CCD
1 × I/OD		 8 × 2 3 3.3 128 MB
16 MB per CCX		 155 W
EPYC 7352 $1350 24 (48) 8 × 3 2.3 3.2
EPYC 7402 $1783 8 × 3 2.8 3.35 180 W
EPYC 7452 $2025 32 (64) 8 × 4 2.35 3.35 155 W
EPYC 7502 $2600 8 × 4 2.5 3.35 180 W
EPYC 7532 $3350 8 × CCD
1 × I/OD		 16 × 2 2.4 3.3 256 MB
16 MB per CCX		 200 W
EPYC 7542 $3400 4 × CCD
1 × I/OD		 8 × 4 2.9 3.4 128 MB
16 MB per CCX		 225 W
EPYC 7552 $4025 6 × CCD
1 × I/OD		 48 (96) 12 × 4 2.2 3.3 192 MB
16 MB per CCX		 200 W
EPYC 7642 $4775 8 × CCD
1 × I/OD		 16 × 3 2.3 3.3 256 MB
16 MB per CCX		 225 W
EPYC 7662 $6150 64 (128) 16 × 4 2 3.3 225 W
EPYC 7702 $6450 2 3.35 200 W
EPYC 7742 $6950 2.25 3.4 225 W
EPYC 7H12 September 18, 2019 2.6 3.3 280 W
EPYC 7F32 April 14, 2020[31] $2100 4 × CCD
1 × I/OD		 8 (16) 8 × 1 3.7 3.9 128 MB
16 MB per CCX		 180 W
EPYC 7F52 $3100 8 × CCD
1 × I/OD		 16 (32) 16 × 1 3.5 3.9 256 MB
16 MB per CCX		 240 W
EPYC 7F72 $2450 6 × CCD
1 × I/OD		 24 (48) 12 × 2 3.2 3.7 192 MB
16 MB per CCX		 240 W
  1. Core Complexes (CCX) × cores per CCX
The bottom side of an Epyc CPU mounted in a plastic carrier

Third generation Epyc (Milan)

At the HPC-AI Advisory Council in the United Kingdom in October 2019, AMD stated specifications for Milan, Epyc chips based on the Zen 3 microarchitecture.[32] Milan chips will use Socket SP3, with up to 64 cores on package, and support eight-channel DDR4 RAM and 128 PCIe 4.0 lanes.[32] It also announced plans for the subsequent generation of chips, codenamed Genoa, that will be based on the Zen 4 microarchitecture and use Socket SP5.[32]

Milan CPUs were launched by AMD on March 15, 2021.[33]

Milan-X CPUs were launched March 21, 2022.[6] Milan-X CPUs use 3D V-Cache technology to increase the maximum L3 cache per socket capacity from 256 MB to 768 MB.[34][35][36]

Model Price
(USD)		 Fab Chiplets Cores
(threads)		 Core
config[lower-roman 1]		 Clock rate (GHz) Cache Socket &
configuration		 TDP
Base Boost L1 L2 L3
EPYC 7773X $8800 TSMC
7FF		 8 × CCD
1 × I/OD		 64 (128) 8 × 8 2.20 3.50 32 KB inst.
32 KB data
per core		 512 KB
per core		 768 MB
96 MB per CCX		 SP3
2P		 280 W
EPYC 7763 $7890 2.45 3.40 256 MB
32 MB per CCX		 SP3
2P		 280 W
EPYC 7713 $7060 2.00 3.675 225 W
EPYC 7713P $5010 SP3
1P
EPYC 7663 $6366 56 (112) 8 × 7 2.00 3.50 SP3
2P		 240 W
EPYC 7643 $4995 48 (96) 8 × 6 2.30 3.60 225 W
EPYC 7573X $5590 32 (64) 8 × 4 2.80 3.60 768 MB
96 MB per CCX		 280 W
EPYC 75F3 $4860 2.95 4.00 256 MB
32 MB per CCX
EPYC 7543 $3761 2.80 3.70 225 W
EPYC 7543P $2730 256 MB
32 MB per CCX		 SP3
1P
EPYC 7513 $2840 2.60 3.65 128 MB
16 MB per CCX		 SP3
2P		 200 W
EPYC 7453 $1570 4 × CCD
1 × I/OD		 28 (56) 4 × 7 2.75 3.45 64 MB
16 MB per CCX		 225 W
EPYC 7473X $3900 8 × CCD
1 × I/OD		 24 (48) 8 × 3 2.80 3.70 768 MB
96 MB per CCX		 240 W
EPYC 74F3 $2900 3.20 4.00 256 MB
32 MB per CCX
EPYC 7443 $2010 4 × CCD
1 × I/OD		 4 × 6 2.85 4.00 128 MB
32 MB per CCX		 200 W
EPYC 7443P $1337 SP3
1P
EPYC 7413 $1825 2.65 3.60 SP3
2P		 180 W
EPYC 7373X $4185 8 × CCD
1 × I/OD		 16 (32) 8 × 2 3.05 3.80 768 MB
96 MB per CCX		 240 W
EPYC 73F3 $3521 3.50 4.00 256 MB
32 MB per CCX
EPYC 7343 $1565 4 × CCD
1 × I/OD		 4 × 4 3.20 3.90 128 MB
32 MB per CCX		 190 W
EPYC 7313 $1083 3.00 3.70 155 W
EPYC 7313P $913 SP3
1P
EPYC 72F3 $2468 8 × CCD
1 × I/OD		 8 (16) 8 × 1 3.70 4.10 256 MB
32 MB per CCX		 SP3
2P		 180 W
  1. Core Complexes (CCX) × cores per CCX

Fourth generation Epyc (Genoa)

On November 10, 2022, AMD launched the fourth generation of Epyc server and data center processors based on the Zen 4 microarchitecture, codenamed Genoa.[37] At their launch event, AMD announced that Microsoft and Google would be some of Genoa's customers.[38] Genoa features between 16 and 96 cores with support for PCIe 5.0 and DDR5. There was also an emphasis by AMD on Genoa's energy efficiency, which according to AMD CEO Lisa Su, means "lower total cost of ownership" for enterprise and cloud datacenter clients.[39] Genoa uses AMD's new SP5 (LGA-6096) socket.[40]

Model Release date Price
(USD)		 Fab Chiplets Cores
(Threads)		 Core
config[lower-roman 1]		 Clock rate
(GHz)		 Cache Socket Socket
Count		 PCIe
lanes		 Memory
support		 TDP
Base Boost L1 L2 L3 DDR5 ECC
Mainstream Enterprise
9124 November 10, 2022 $1,083 TSMC
N5		 2 × CCD
1 × I/OD		 16 (32) 2 × 8 3.0 3.7 1 MB 16 MB 64 MB SP5 1P/2P 128
PCIe 5.0		 DDR5-4800
twelve-channel		 Yes 200 W
9224 $1,825 3 × CCD
1 × I/OD		 24 (48) 3 × 8 2.5 3.7 1.5 MB 24 MB 96 MB 200 W
9254 $2,299 4 × CCD
1 × I/OD		 4 × 6 2.9 4.15 128 MB 220 W
9334 $2,990 32 (64) 4 × 8 2.7 3.9 2 MB 32 MB 210 W
9354 $3,420 8 × CCD
1 × I/OD		 8 × 4 3.25 3.75 256 MB 280 W
9354P $2,730 1P
Performance Enterprise
9174F November 10, 2022 $3,850 TSMC
N5		 8 × CCD
1 × I/OD		 16 (32) 8 × 2 4.1 4.4 1 MB 16 MB 256 MB SP5 1P/2P 128
PCIe 5.0		 DDR5-4800
twelve-channel		 Yes 320 W
9274F $3,060 24 (48) 8 × 3 4.05 4.3 1.5 MB 24 MB
9374F $4,860 32 (64) 8 × 4 3.85 4.3 2 MB 32 MB
9474F $6,780 48 (96) 8 × 6 3.6 4.1 3 MB 48 MB 360 W
Cloud & HPC
9454 November 10, 2022 $5,225 TSMC
N5		 6 × CCD
1 × I/OD		 48 (96) 6 × 8 2.75 3.8 3 MB 48 MB 192 MB SP5 1P/2P 128
PCIe 5.0		 DDR5-4800
twelve-channel		 Yes 290 W
9454P $4,598 1P
9534 $8,803 8 × CCD
1 × I/OD		 64 (128) 8 × 8 2.45 3.7 4 MB 64 MB 256 MB 1P/2P 280 W
9554 $9,087 3.1 3.75 360 W
9554P $7,104 1P
9634 $10,304 12 × CCD
1 × I/OD		 84 (168) 12 × 7 2.25 3.7 5.25 MB 84 MB 384 MB 1P/2P 290 W
9654 $11,805 96 (192) 12 × 8 2.4 3.7 6 MB 96 MB 360 W
9654P $10,625 1P
  1. Core Complexes (CCX) × cores per CCX

First generation Epyc (Snowy Owl)

In February 2018, AMD also announced the EPYC 3000 series of embedded Zen CPUs.[41]

Model Release
date		 Fab Chiplets Cores
(threads)		 Core
config[lower-roman 1]		 Base
clock rate
(GHz)		 Boost
clock rate (GHz)		 Cache Socket PCIe
lanes		 Ethernet Memory
support		 TDP Junction
temp.
(°C)
All-core Max L1 L2 L3 DDR4 ECC
EPYC Embedded
3101 February 2018 GloFo
14 nm		 1 x CCD 4 (4) 1 × 4 2.1 2.9 2.9 256 KB 2 MB 8 MB SP4r2 32
PCIe 3.0		 4 × 10GbE DDR4-2666
dual-channel		 Yes 35 W 0-95
3151 4 (8) 2 × 2 2.7 2.9 2.9 16 MB 45 W
3201 8 (8) 2 × 4 1.5 3.1 3.1 512 KB 4 MB DDR4-2133
dual-channel		 30W
3251 8 (16) 2.5 3.1 3.1 DDR4-2666
dual-channel		 55W 0-105
3255 Un­known 25-55W -40-105
3301 February 2018 2 x CCD 12 (12) 4 × 3 2.0 2.15 3.0 768 KB 6 MB 32 MB 64
PCIe 3.0		 8 × 10GbE DDR4-2666
quad-channel		 65W 0-95
3351 12 (24) 1.9 2.75 3.0 SP4 60-80W 0-105
3401 16 (16) 4 × 4 1.85 2.25 3.0 1 MB 8 MB SP4r2 85W
3451 16 (32) 2.15 2.45 3.0 SP4 80-100W
  1. Core Complexes (CCX) × cores per CCX

Chinese variants
Main article: AMD–Chinese joint venture

A variant created for the Chinese server market by an AMD–Chinese joint venture is the Hygon Dhyana system on a chip.[42][43] It is noted to be a variant of the AMD Epyc, and is so similar that "there is little to no differentiation between the chips".[42] It has been noted that there is "less than 200 lines of new kernel code" for Linux kernel support, and that the Dhyana is "mostly a re-branded Zen CPU for the Chinese server market".[43] Later Benchmarks showed that certain floating point instructions are performing worse and AES is disabled, probably to comply with US export restrictions.[44] Cryptography extensions are replaced by Chinese variants.[44]

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