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Epyc

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Epyc
General information
LaunchedJune 20, 2017; 7 years ago (2017-06-20)
Marketed byAMD
Designed byAMD
Common manufacturers
Performance
Max. CPU clock rate2.7 GHz to 4.4 GHz
Architecture and classification
Technology node14 nm to 3 nm
Microarchitecture
Instruction setAMD64 (x86-64)
Extensions
Physical specifications
Cores
  • up to 128 cores/256 threads per socket
Memory (RAM)
  • up to 12 memory channels at 4800 MT/s
Socket
Products, models, variants
Core names
  • Naples
  • Rome
  • Milan
  • Genoa
  • Bergamo
  • Siena
  • Turin
History
PredecessorOpteron

Epyc (stylized as 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.

History

[edit]

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 Scalable product line.[3] 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 percent 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 Milan, but with an additional 512 MB of cache stacked onto the compute dies, bringing the total amount of cache per CPU to 768 MB.[6]

In September 2021, Oak Ridge National Laboratory partnered with AMD and HPE Cray to build Frontier, a supercomputer with 9,472 Epyc 7453 CPUs and 37,888 Instinct MI250X GPUs, becoming operational by May 2022. As of November 2023, it is the most powerful supercomputer in the world according to the TOP500, with a peak performance of over 1.6 exaFLOPS.

In November 2021, AMD detailed the upcoming generations of Epyc, and unveiled the new LGA-6096 SP5 socket that would support the new generations of Epyc chips. Codenamed Genoa, these CPUs are based on the Zen 4 microarchitecture and built on TSMC's N5 node, supporting up to 96 cores and 192 threads per socket, alongside 12 channels of DDR5[7] and 128 PCIe 5.0 lanes. Genoa also became the first x86 server CPU to support Compute Express Link 1.1,[8] or CXL, allowing for further expansion of memory and other devices with a high bandwidth interface built on PCIe 5.0. AMD also shared information regarding the sister chip of Genoa, codenamed Bergamo. Bergamo is based on a modified version of Zen 4 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] It is compatible with Socket SP5, and supports up to 128 cores and 256 threads per socket.[10]

In November 2022, AMD launched their 4th generation Epyc "Genoa" series of CPUs. Some 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 96 core Epyc 9654, set records for multi-core performance, and showed up to 4× performance compared to Intel's flagship part, the Xeon Platinum 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 I/O-bound.

In June 2023, AMD began shipping the 3D V-Cache enabled Genoa-X lineup, a variant of Genoa that uses the same 3D die stacking technology as Milan-X to enable up to 1152 MB of L3 cache, a 50% increase over Milan-X, which had a maximum of 768 MB of L3 cache.[11] On the same day, AMD also announced the release of their cloud optimized Zen 4c SKUs, codenamed Bergamo, offering up to 128 cores per socket, utilizing a modified version of the Zen 4 core that was optimized for power efficiency and to reduce die space. Zen 4c cores do not have any instructions removed compared to standard Zen 4 cores; instead, the amount of L3 cache per CCX is reduced from 32 MB to 16 MB, and the frequency of the cores is reduced.[12] Bergamo is socket compatible with Genoa, using the same SP5 socket and supporting the same CXL, PCIe, and DDR5 capacity as Genoa.[13]

In September 2023, AMD launched their low power and embedded 8004 series of CPUs, codenamed Siena. Siena utilizes a new socket, called SP6, which has a smaller footprint and pin count than the SP5 socket of its contemporary Genoa processors. Siena utilizes the same Zen 4c core architecture as Bergamo cloud native processors, allowing up to 64 cores per processor, and the same 6 nm I/O die as Bergamo and Genoa, although certain features have been cut down, such as reducing the memory support from 12 channels of DDR5 to only 6, and removing dual socket support.[14]

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

AMD Epyc CPU generations[15][16][17][18][19]
Gen Year Codename Product line Cores Socket Memory
Server
1st 2017 Naples 7001 series 32 × Zen SP3 (LGA) DDR4
2nd 2019 Rome 7002 series 64 × Zen 2
3rd 2021 Milan 7003 series 64 × Zen 3
2022 Milan-X
4th Genoa 9004 series 96 × Zen 4 SP5 (LGA) DDR5
2023 Genoa-X
Bergamo 128 × Zen 4c
Siena 8004 series 64 × Zen 4c SP6 (LGA)
5th 2024 Turin 9005 series 128 × Zen 5 SP5 (LGA)
Turin Dense 192 × Zen 5c
6th TBA Venice TBA TBA SP7 (LGA) TBA
Embedded
1st 2018 Snowy Owl Embedded 3001 series 16 × Zen SP4 (BGA) DDR4
2nd 2019 Naples Embedded 7001 series 32 × Zen SP3 (BGA)
3rd 2021 Rome Embedded 7002 series 64 × Zen 2
4th 2023 Genoa Embedded 9004 series 96 × Zen 4 SP5 (BGA) DDR5

Design

[edit]
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 generation Epyc CPUs are composed of four 14 nm compute dies, each with up to 8 cores.[20][21] 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 input/output (I/O) die built on a 14 nm process node.[22] 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.[23]

Epyc CPUs 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.[24] 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][25]

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. Each CCD has two CCXs

Reception

[edit]

Initial reception to Epyc was generally positive.[25] 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.[25] In 2021 Meta Platforms selected Epyc chips for its metaverse data centers.[26]

Epyc Genoa was well received, as it offered improved 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".[27]

List of Epyc processors

[edit]

Server

[edit]

First generation Epyc (Naples)

[edit]

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.

Common features of EPYC 7001 series CPUs:

  • Socket: SP3.
  • All the CPUs support ECC DDR4-2666 in octa-channel mode (7251 supports only DDR4-2400).
  • L1 cache: 96 KB (32 KB data + 64 KB instruction) per core.
  • L2 cache: 512 KB per core.
  • All the CPUs support 128 PCIe 3.0 lanes.
  • Fabrication process: GlobalFoundries 14LP.
Model[i] Cores
(threads)
Clock rate (GHz) L3 cache
(total)
TDP Chiplets Core
config[ii]
Release Embedded
options[iii]
Base Boost Date Price
(USD)
All–core Max
7251[28][29] 8 (16) 2.1 2.9 2.9 32 MB 120 W 4 × CCD 8 × 1 Jun 2017[30] $475 Yes
7261[28][31] 2.5 64 MB 155/170 W Jun 2018[32] $570 Yes
7281[28][29] 16 (32) 2.1 2.7 2.7 32 MB 8 × 2 Jun 2017[30] $650 Yes
7301[28][29] 2.2 64 MB $800 Yes
7351P[28][29] 2.4 2.9 2.9 $750 735P
7351[28][29] $1,100 Yes
7371[28][33] 3.1 3.6 3.8 200 W Nov 2018[34] $1,550 Yes
7401P[28][29] 24 (48) 2.0 2.8 3.0 155/170 W 8 × 3 Jun 2017[30] $1,075 740P
7401[28][29] $1,850 Yes
7451[28][29] 2.3 2.9 3.2 180 W $2,400 Yes
7501[28][29] 32 (64) 2.0 2.6 3.0 155/170 W 8 × 4 $3,400 Yes
7551P[28][29] 2.55 180 W $2,100 755P
7551[28][29] $3,400 Yes
7571[35][36] 2.2 3.0 200 W Nov 2018 OEM/AWS Un­known
7601[28][29] 2.7 3.2 180 W Jun 2017[30] $4,200 Yes
  1. ^ Models with "P" suffixes are uniprocessors, only available as single socket configuration.
  2. ^ Core Complexes (CCX) × cores per CCX
  3. ^ Epyc embedded 7001 series models have identical specifications as Epyc 7001 series.
A Epyc 7001 die configuration
A second generation Epyc CPU in an SP3 socket

Second generation Epyc (Rome)

[edit]
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.[37] 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.[38] The 7 nm "Rome" is manufactured by TSMC.[22] It was released on August 7, 2019.[39] It has 39.5 billion transistors.[40]

In April 2020, AMD launched three new SKUs using Epyc’s 7nm Rome platform. The three processors introduced were the eight-core Epyc 7F32, the 16-core 7F52 and the 24-core 7F72, featuring base clocks up to 3.7 GHz (up to 3.9 GHz with boost) within a TDP range of 180 to 240 watts. The launch was supported by Dell EMC, Hewlett Packard Enterprise, Lenovo, Supermicro, and Nutanix.[41]

Common features of these CPUs:

  • Codenamed "Rome"
  • Zen 2 microarchitecture
  • TSMC 7 nm process
  • SP3 Socket
  • 128 PCIe lanes
  • Memory support: eight-channel DDR4-3200
Model Release
date
Price
(USD)
Fab Chiplets Cores
(threads)
Core
config[i]
Clock rate (GHz) Cache Socket
&
Scaling
TDP
Base Boost L1 L2 L3
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
7302P $825 4 × CCD
1 × I/OD
16 (32) 8 × 2 3 3.3 128 MB
(16 MB per CCX)
155 W
7402P $1250 24 (48) 8 × 3 2.8 3.35 180 W
7502P $2300 32 (64) 8 × 4 2.5 3.35
7702P $4425 8 × CCD
1 × I/OD
64 (128) 16 × 4 2 3.35 256 MB
(16 MB per CCX)
200 W
7252 $475 2 × CCD
1 × I/OD
8 (16) 4 × 2 3.1 3.2 64 MB
(16 MB per CCX)
SP3
(up to) 2P
120 W
 7262 $575 4 × CCD
1 × I/OD
8 × 1 3.2 3.4 128 MB
(16 MB per CCX)
155 W
7272 $625 2 × CCD
1 × I/OD
12 (24) 4 × 3 2.9 3.2 64 MB
(16 MB per CCX)
120 W
7282 $650 16 (32) 4 × 4 2.8 3.2
7302 $978 4 × CCD
1 × I/OD
8 × 2 3 3.3 128 MB
(16 MB per CCX)
155 W
7352 $1350 24 (48) 8 × 3 2.3 3.2
7402 $1783 8 × 3 2.8 3.35 180 W
7452 $2025 32 (64) 8 × 4 2.35 3.35 155 W
7502 $2600 8 × 4 2.5 3.35 180 W
7532 $3350 8 × CCD
1 × I/OD
16 × 2 2.4 3.3 256 MB
(16 MB per CCX)
200 W
7542 $3400 4 × CCD
1 × I/OD
8 × 4 2.9 3.4 128 MB
(16 MB per CCX)
225 W
7552 $4025 6 × CCD
1 × I/OD
48 (96) 12 × 4 2.2 3.3 192 MB
(16 MB per CCX)
200 W
7642 $4775 8 × CCD
1 × I/OD
16 × 3 2.3 3.3 256 MB
(16 MB per CCX)
225 W
7662 $6150 64 (128) 16 × 4 2 3.3 225 W
7702 $6450 2 3.35 200 W
7742 $6950 2.25 3.4 225 W
7H12 September 18, 2019 2.6 3.3 280 W
7F32 April 14, 2020[42] $2100 4 × CCD
1 × I/OD
8 (16) 8 × 1 3.7 3.9 128 MB
(16 MB per CCX)
180 W
7F52 $3100 8 × CCD
1 × I/OD
16 (32) 16 × 1 3.5 3.9 256 MB
(16 MB per CCX)
240 W
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 7302 mounted in a plastic carrier

Third generation Epyc (Milan)

[edit]

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.[43] 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.[43] 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.[43]

Milan CPUs were launched by AMD on March 15, 2021.[44]

Milan-X CPUs were launched March 21, 2022.[6] They use 3D V-Cache technology to increase the maximum L3 cache per socket capacity from 256 MB to 768 MB.[45][46][47]

Model Price
(USD)
Fab Chiplets Cores
(threads)
Core
config[i]
Clock rate (GHz) Cache Socket
&
Scaling
TDP
Base Boost L1 L2 L3
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
(up to) 2P
280 W
7763 $7890 2.45 3.40 256 MB
32 MB per CCX
280 W
7713 $7060 2.00 3.675 225 W
7713P $5010 SP3
1P
7663 $6366 56 (112) 8 × 7 2.00 3.50 SP3
(up to) 2P
240 W
7663P $3139 SP3
1P
7643 $4995 48 (96) 8 × 6 2.30 3.60 SP3
(up to) 2P
225 W
7643P $2722 SP3
1P
7573X $5590 32 (64) 8 × 4 2.80 3.60 768 MB
(96 MB per CCX)
SP3
(up to) 2P
280 W
75F3 $4860 2.95 4.00 256 MB
(32 MB per CCX)
7543 $3761 2.80 3.70 225 W
7543P $2730 256 MB
(32 MB per CCX)
SP3
1P
7513 $2840 2.60 3.65 128 MB
(16 MB per CCX)
SP3
(up to) 2P
200 W
7453 $1570 4 × CCD
1 × I/OD
28 (56) 4 × 7 2.75 3.45 64 MB
(16 MB per CCX)
225 W
7473X $3900 8 × CCD
1 × I/OD
24 (48) 8 × 3 2.80 3.70 768 MB
(96 MB per CCX)
240 W
74F3 $2900 3.20 4.00 256 MB
(32 MB per CCX)
7443 $2010 4 × CCD
1 × I/OD
4 × 6 2.85 4.00 128 MB
(32 MB per CCX)
200 W
7443P $1337 SP3
1P
7413 $1825 2.65 3.60 SP3
(up to) 2P
180 W
7373X $4185 8 × CCD
1 × I/OD
16 (32) 8 × 2 3.05 3.80 768 MB
(96 MB per CCX)
240 W
73F3 $3521 3.50 4.00 256 MB
(32 MB per CCX)
7343 $1565 4 × CCD
1 × I/OD
4 × 4 3.20 3.90 128 MB
(32 MB per CCX)
190 W
7313 $1083 3.00 3.70 155 W
7313P $913 SP3
1P
7303 $604 2 × CCD
1 × I/OD
2 x 8 2.40 3.40 64 MB
(32 MB per CCX)
SP3
(up to) 2P
130 W
7303P $594 SP3
1P
72F3 $2468 8 × CCD
1 × I/OD
8 (16) 8 × 1 3.70 4.10 256 MB
(32 MB per CCX)
SP3
(up to) 2P
180 W
7203 $348 2 × CCD
1 × I/OD
2 x 4 2.80 3.40 64 MB
(32 MB per CCX)
120 W
7203P $338 SP3

1P

  1. ^ Core Complexes (CCX) × cores per CCX

Fourth generation Epyc (Genoa, Bergamo and Siena)

[edit]

On November 10, 2022, AMD launched the fourth generation of Epyc server and data center processors based on the Zen 4 microarchitecture, codenamed Genoa.[48] At their launch event, AMD announced that Microsoft and Google would be some of Genoa's customers.[49] 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.[50] Genoa uses AMD's new SP5 (LGA 6096) socket.[51]

On June 13, 2023, AMD introduced Genoa-X with 3D V-Cache technology for technical computing performance and Bergamo (9734, 9754 and 9754S) for cloud native computing.[52]

On September 18, 2023, AMD introduced the low power Siena lineup of processors, based on the Zen 4c microarchitecture. Siena supports up to 64 cores on the new SP6 socket, which is currently only used by Siena processors. Siena uses the same I/O die as Bergamo, however certain features, such as dual socket support, are removed, and other features are reduced, such as the change from 12 channel memory support to 6 channel memory support.[53]

Model Fab Cores
(Threads)
Chiplets Core
config[i]
Clock rate
(GHz)
Cache (MB) Socket Socket
count
PCIe 5.0
lanes
Memory
support
TDP Release
date
Price
(USD)
Base Boost L1 L2 L3 DDR5 ECC
Low Power & Edge (Zen 4c cores)
8024P TSMC
N5
8 (16) 4 × CCD
1 × I/OD
4 × 2 2.4 3.0 0.5 8 32 SP6 1P 96 DDR5-4800
six-channel
90 W Sep 18, 2023 $409
8024PN 2.05 80 W $525
8124P 16 (32) 4 × 4 2.45 1 16 64 125 W $639
8124PN 2.0 100 W $790
8224P 24 (48) 4 × 6 2.55 1.5 24 160 W $855
8224PN 2.0 120 W $1,015
8324P 32 (64) 4 × 8 2.65 2 32 128 180 W $1,895
8324PN 2.05 130 W $2,125
8434P 48 (96) 4 × 12 2.5 3.1 3 48 200 W $2,700
8434PN 2.0 3.0 155 W $3,150
8534P 64 (128) 4 × 16 2.3 3.1 4 64 200 W $4,950
8534PN 2.0 175 W $5,450
Mainstream Enterprise (Zen 4 cores)
9124 TSMC
N5
16 (32) 4 × CCD
1 × I/OD
4 × 4 3.0 3.7 1 16 64 SP5 1P/2P 128 DDR5-4800
twelve-channel
200 W Nov 10, 2022 $1,083
9224 24 (48) 4 × 6 2.5 3.7 1.5 24 200 W $1,825
9254 4 × 6 2.9 4.15 128 220 W $2,299
9334 32 (64) 4 × 8 2.7 3.9 2 32 210 W $2,990
9354 8 × CCD
1 × I/OD
8 × 4 3.25 3.75 256 280 W $3,420
9354P 1P $2,730
Performance Enterprise (Zen 4 cores)
9174F TSMC
N5
16 (32) 8 × CCD
1 × I/OD
8 × 2 4.1 4.4 1 16 256 SP5 1P/2P 128 DDR5-4800
twelve-channel
320 W Nov 10, 2022 $3,850
9184X 3.55 4.2 768 Jun 13, 2023 $4,928
9274F 24 (48) 8 × 3 4.05 4.3 1.5 24 256 Nov 10, 2022 $3,060
9374F 32 (64) 8 × 4 3.85 4.3 2 32 $4,860
9384X 3.1 3.9 768 Jun 13, 2023 $5,529
9474F 48 (96) 8 × 6 3.6 4.1 3 48 256 360 W Nov 10, 2022 $6,780
High Performance Computing (Zen 4 cores)
9454 TSMC
N5
48 (96) 8 × CCD
1 × I/OD
8 × 6 2.75 3.8 3 48 256 SP5 1P/2P 128 DDR5-4800
twelve-channel
290 W Nov 10, 2022 $5,225
9454P 1P $4,598
9534 64 (128) 8 × 8 2.45 3.7 4 64 1P/2P 280 W $8,803
9554 3.1 3.75 360 W $9,087
9554P 1P $7,104
9634 84 (168) 12 × CCD
1 × I/OD
12 × 7 2.25 3.7 5.25 84 384 1P/2P 290 W $10,304
9654 96 (192) 12 × 8 2.4 3.7 6 96 360 W $11,805
9654P 1P $10,625
9684X 2.55 3.7 1152 1P/2P 400 W Jun 13, 2023 $14,756
Cloud (Zen 4c cores)
9734 TSMC
N5
112 (224) 8 × CCD
1 × I/OD
8 x 14 2.2 3.0 7 112 256 SP5 1P/2P 128 DDR5-4800
twelve-channel
340 W Jun 13, 2023 $9,600
9754S 128 (128) 8 x 16 2.25 3.1 8 128 360 W $10,200
9754 128 (256) $11,900
  1. ^ Core Complexes (CCX) × cores per CCX

Fifth generation Epyc (Turin and Turin Dense)

[edit]

The fifth generation of Epyc processors were showcased by AMD at Computex 2024 on June 3. Named the Epyc 9005 series, it will come in two variants:[54]

  • Zen 5 based, up to 128 cores and 256 threads, built on a 4 nm process
  • Zen 5c based, up to 192 cores and 384 threads, built on a 3 nm process

Both variants are officially referred to under the Turin codename by AMD, although the nickname of "Turin Dense" has also been used to refer to the Zen 5c based CPUs.[55]

Both of these processor series will be socket-compatible with the SP5 socket used by Genoa and Bergamo. Epyc 9005 series will launch in 2H 2024.[56]

Embedded

[edit]

First generation Epyc (Snowy Owl)

[edit]

In February 2018, AMD also announced the Epyc 3000 series of embedded Zen CPUs.[57]

Common features of EPYC Embedded 3000 series CPUs:

  • Socket: SP4 (31xx and 32xx models use SP4r2 package).
  • All the CPUs support ECC DDR4-2666 in dual-channel mode (3201 supports only DDR4-2133), while 33xx and 34xx models support quad-channel mode.
  • L1 cache: 96 KB (32 KB data + 64 KB instruction) per core.
  • L2 cache: 512 KB per core.
  • All the CPUs support 32 PCIe 3.0 lanes per CCD (max 64 lanes).
  • Fabrication process: GlobalFoundries 14 nm.
Model Cores
(threads)
Clock rate (GHz) L3 cache
(total)
TDP Chiplets Core
config[i]
Release
date
Base Boost
All-core Max
3101[58] 4 (4) 2.1 2.9 2.9 8 MB 35 W 1 x CCD 1 × 4 Feb 2018
3151[58] 4 (8) 2.7 16 MB 45 W 2 × 2
3201[58] 8 (8) 1.5 3.1 3.1 30 W 2 × 4
3251[58] 8 (16) 2.5 55 W
3255[59] 25–55 W Dec 2018
3301[58] 12 (12) 2.0 2.15 3.0 32 MB 65 W 2 x CCD 4 × 3 Feb 2018
3351[58] 12 (24) 1.9 2.75 60–80 W
3401[58] 16 (16) 1.85 2.25 85 W 4 × 4
3451[58] 16 (32) 2.15 2.45 80–100 W
  1. ^ Core Complexes (CCX) × cores per CCX

Chinese variants

[edit]

A variant created for the Chinese server market by Hygon Information Technology is the Hygon Dhyana system on a chip.[60][61] 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".[60] 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".[61] Later benchmarks showed that certain floating point instructions are performing worse, probably to comply with US export restrictions.[62] AES and other western cryptography algorithms are replaced by Chinese variants throughout the design.[62]

References

[edit]
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