AMD (NASDAQ: AMD) today announced the availability of the 5th
Gen AMD EPYC™ processors, formerly codenamed “Turin,” the world’s
best server CPU for enterprise, AI and cloud1.
Using the “Zen 5” core architecture, compatible with the broadly
deployed SP5 platform2 and offering a broad range of core counts
spanning from 8 to 192, the AMD EPYC 9005 Series processors extend
the record-breaking performance3 and energy efficiency of the
previous generations with the top of stack 192 core CPU delivering
up to 2.7X the performance4 compared to the competition.
New to the AMD EPYC 9005 Series CPUs is the 64 core AMD EPYC
9575F, tailor made for GPU powered AI solutions that need the
ultimate in host CPU capabilities. Boosting up to 5GHz5, compared
to the 3.8GHz processor of the competition, it provides up to 28%
faster processing needed to keep GPUs fed with data for demanding
AI workloads.
“From powering the world’s fastest supercomputers, to leading
enterprises, to the largest Hyperscalers, AMD has earned the trust
of customers who value demonstrated performance, innovation and
energy efficiency,” said Dan McNamara, senior vice president and
general manager, server business, AMD. “With five generations of
on-time roadmap execution, AMD has proven it can meet the needs of
the data center market and give customers the standard for data
center performance, efficiency, solutions and capabilities for
cloud, enterprise and AI workloads.”
The World’s Best CPU for Enterprise, AI and Cloud
Workloads
Modern data centers run a variety of workloads, from supporting
corporate AI-enablement initiatives, to powering large-scale
cloud-based infrastructures to hosting the most demanding
business-critical applications. The new 5th Gen AMD EPYC processors
provide leading performance and capabilities for the broad spectrum
of server workloads driving business IT today.
The new “Zen 5” core architecture, provides up to 17% better
instructions per clock (IPC) for enterprise and cloud workloads and
up to 37% higher IPC in AI and high performance computing (HPC)
compared to “Zen 4.”6
With AMD EPYC 9965 processor-based servers, customers can expect
significant impact in their real world applications and workloads
compared to the Intel Xeon® 8592+ CPU-based servers, with:
- Up to 4X faster time to results on business applications such
as video transcoding.7
- Up to 3.9X the time to insights for science and HPC
applications that solve the world’s most challenging
problems.8
- Up to 1.6X the performance per core in virtualized
infrastructure.9
In addition to leadership performance and efficiency in general
purpose workloads, 5th Gen AMD EPYC processors enable customers to
drive fast time to insights and deployments for AI deployments,
whether they are running a CPU or a CPU + GPU solution.
Compared to the competition:
- The 192 core EPYC 9965 CPU has up to 3.7X the performance on
end-to-end AI workloads, like TPCx-AI (derivative), which are
critical for driving an efficient approach to generative AI.10
- In small and medium size enterprise-class generative AI models,
like Meta’s Llama 3.1-8B, the EPYC 9965 provides 1.9X the
throughput performance compared to the competition.11
- Finally, the purpose built AI host node CPU, the EPYC 9575F,
can use its 5GHz max frequency boost to help a 1,000 node AI
cluster drive up to 700,000 more inference tokens per second.
Accomplishing more, faster.12
By modernizing to a data center powered by these new processors
to achieve 391,000 units of SPECrate®2017_int_base general purpose
computing performance, customers receive impressive performance for
various workloads, while gaining the ability to use an estimated
71% less power and ~87% fewer servers13. This gives CIOs the
flexibility to either benefit from the space and power savings or
add performance for day-to-day IT tasks while delivering impressive
AI performance.
AMD EPYC CPUs – Driving Next Wave of
InnovationThe proven performance and deep ecosystem
support across partners and customers have driven widespread
adoption of EPYC CPUs to power the most demanding computing tasks.
With leading performance, features and density, AMD EPYC CPUs help
customers drive value in their data centers and IT environments
quickly and efficiently.
5th Gen AMD EPYC
FeaturesThe entire lineup of 5th Gen AMD EPYC
processors is available today, with support from Cisco, Dell,
Hewlett Packard Enterprise, Lenovo and Supermicro as well as all
major ODMs and cloud service providers providing a simple upgrade
path for organizations seeking compute and AI leadership.
High level features of the AMD EPYC 9005 series CPUs
include:
- Leadership core count options from 8 to 192, per CPU
- “Zen 5” and “Zen 5c” core architectures
- 12 channels of DDR5 memory per CPU
- Support for up to DDR5-6400 MT/s14
- Leadership boost frequencies up to 5GHz5
- AVX-512 with the full 512b data path
- Trusted I/O for Confidential Computing, and FIPS certification
in process for every part in the series
Model(AMD EPYC) |
Cores |
CCD(Zen5/Zen5c) |
Base/Boost5(up to GHz) |
Default TDP (W) |
L3 Cache(MB) |
Price(1 KU, USD) |
9965 |
192 cores |
“Zen5c” |
2.25 / 3.7 |
500W |
384 |
$14,813 |
9845 |
160 cores |
“Zen5c” |
2.1 / 3.7 |
390W |
320 |
$13,564 |
9825 |
144 cores |
“Zen5c” |
2.2 / 3.7 |
390W |
384 |
$13,006 |
97559745 |
128 cores |
“Zen5”“Zen5c” |
2.7 / 4.12.4 / 3.7 |
500W400W |
512256 |
$12,984$12,141 |
96559655P9645 |
96 cores |
“Zen5”“Zen5”“Zen5c” |
2.6 / 4.52.6 / 4.52.3 / 3.7 |
400W400W320W |
384384384 |
$11,852$10,811$11,048 |
9565 |
72 cores |
“Zen5” |
3.15 / 4.3 |
400W |
384 |
$10,486 |
9575F95559555P9535 |
64 cores |
“Zen5”“Zen5”“Zen5”“Zen5” |
3.3 / 5.03.2 / 4.43.2 / 4.42.4 / 4.3 |
400W360W360W300W |
256256256256 |
$11,791$9,826$7,983$8,992 |
9475F94559455P |
48 cores |
“Zen5”“Zen5”“Zen5” |
3.65 / 4.83.15 / 4.43.15 / 4.4 |
400W300W300W |
256192192 |
$7,592$5,412$4,819 |
9365 |
36 cores |
“Zen5” |
3.4 / 4.3 |
300W |
256 |
$4,341 |
9375F93559355P9335 |
32 cores |
“Zen5”“Zen5”“Zen5”“Zen5” |
3.8 / 4.83.55 / 4.43.55 / 4.43.0 / 4.4 |
320W280W280W210W |
256256256256 |
$5,306$3,694$2,998$3,178 |
9275F9255 |
24 cores |
“Zen5”“Zen5” |
4.1 / 4.83.25 / 4.3 |
320W200W |
256128 |
$3,439$2,495 |
9175F91359115 |
16 cores |
“Zen5”“Zen5”“Zen5” |
4.2 / 5.03.65 / 4.32.6 / 4.1 |
320W200W125W |
5126464 |
$4,256$1,214$726 |
9015 |
8 cores |
“Zen5” |
3.6 / 4.1 |
125W |
64 |
$527 |
Supporting Resources
- Watch the full AMD Advancing AI Keynote
- Learn more about 5th Gen AMD EPYC Processors
- Follow AMD on X
- Connect with AMD on LinkedIn
About AMDFor more than 50 years AMD has driven
innovation in high-performance computing, graphics, and
visualization technologies. Billions of people, leading Fortune 500
businesses, and cutting-edge scientific research institutions
around the world rely on AMD technology daily to improve how they
live, work, and play. AMD employees are focused on building
leadership high-performance and adaptive products that push the
boundaries of what is possible. For more information about how AMD
is enabling today and inspiring tomorrow, visit the AMD (NASDAQ:
AMD) website, blog, LinkedIn
and X pages.
Cautionary Statement This press release
contains forward-looking statements concerning Advanced Micro
Devices, Inc. (AMD) such as the features, functionality,
performance, availability, timing and expected benefits of AMD
products including AMD EPYC™ processors, which are made
pursuant to the Safe Harbor provisions of the Private Securities
Litigation Reform Act of 1995. Forward-looking statements are
commonly identified by words such as "would," "may," "expects,"
"believes," "plans," "intends," "projects" and other terms with
similar meaning. Investors are cautioned that the forward-looking
statements in this press release are based on current beliefs,
assumptions and expectations, speak only as of the date of this
press release and involve risks and uncertainties that could cause
actual results to differ materially from current expectations. Such
statements are subject to certain known and unknown risks and
uncertainties, many of which are difficult to predict and generally
beyond AMD's control, that could cause actual results and other
future events to differ materially from those expressed in, or
implied or projected by, the forward-looking information and
statements. Material factors that could cause actual results to
differ materially from current expectations include, without
limitation, the following: Intel Corporation’s dominance of the
microprocessor market and its aggressive business practices;
Nvidia’s dominance in the graphics processing unit market and its
aggressive business practices; the cyclical nature of the
semiconductor industry; market conditions of the industries in
which AMD products are sold; loss of a significant customer;
competitive markets in which AMD’s products are sold; economic and
market uncertainty; quarterly and seasonal sales patterns; AMD's
ability to adequately protect its technology or other intellectual
property; unfavorable currency exchange rate fluctuations; ability
of third party manufacturers to manufacture AMD's products on a
timely basis in sufficient quantities and using competitive
technologies; availability of essential equipment, materials,
substrates or manufacturing processes; ability to achieve expected
manufacturing yields for AMD’s products; AMD's ability to introduce
products on a timely basis with expected features and performance
levels; AMD's ability to generate revenue from its semi-custom SoC
products; potential security vulnerabilities; potential security
incidents including IT outages, data loss, data breaches and
cyberattacks; uncertainties involving the ordering and shipment of
AMD’s products; AMD’s reliance on third-party intellectual property
to design and introduce new products; AMD's reliance on third-party
companies for design, manufacture and supply of motherboards,
software, memory and other computer platform components; AMD's
reliance on Microsoft and other software vendors' support to design
and develop software to run on AMD’s products; AMD’s reliance on
third-party distributors and add-in-board partners; impact of
modification or interruption of AMD’s internal business processes
and information systems; compatibility of AMD’s products with some
or all industry-standard software and hardware; costs related to
defective products; efficiency of AMD's supply chain; AMD's ability
to rely on third party supply-chain logistics functions; AMD’s
ability to effectively control sales of its products on the gray
market; long-term impact of climate change on AMD’s business;
impact of government actions and regulations such as export
regulations, tariffs and trade protection measures; AMD’s ability
to realize its deferred tax assets; potential tax liabilities;
current and future claims and litigation; impact of environmental
laws, conflict minerals related provisions and other laws or
regulations; evolving expectations from governments, investors,
customers and other stakeholders regarding corporate responsibility
matters; issues related to the responsible use of AI; restrictions
imposed by agreements governing AMD’s notes, the guarantees of
Xilinx’s notes and the revolving credit agreement; impact of
acquisitions, joint ventures and/or investments on AMD’s business
and AMD’s ability to integrate acquired businesses; impact of
any impairment of the combined company’s assets; political, legal
and economic risks and natural disasters; future impairments of
technology license purchases; AMD’s ability to attract and retain
qualified personnel; and AMD’s stock price volatility. Investors
are urged to review in detail the risks and uncertainties in AMD’s
Securities and Exchange Commission filings, including but not
limited to AMD’s most recent reports on Forms 10-K and 10-Q.
AMD, the AMD Arrow logo, EPYC and combinations thereof
are trademarks of Advanced Micro Devices, Inc. Other names are for
informational purposes only and may be trademarks of their
respective owners.
1 EPYC-029C: Comparison based on thread density, performance,
features, process technology and built-in security features of
currently shipping servers as of 10/10/2024. EPYC 9005 series CPUs
offer the highest thread density [EPYC-025B], leads the industry
with 500+ performance world records [EPYC-023F] with performance
world record enterprise leadership Java® ops/sec performance
[EPYCWR-20241010-260], top HPC leadership with floating-point
throughput performance [EPYCWR-2024-1010-381], AI end-to-end
performance with TPCx-AI performance [EPYCWR-2024-1010-525] and
highest energy efficiency scores [EPYCWR-20241010-326]. The 5th Gen
EPYC series also has 50% more DDR5 memory channels [EPYC-033C] with
70% more memory bandwidth [EPYC-032C] and supports 70% more PCIe®
Gen5 lanes for I/O throughput [EPYC-035C], has up to 5x the L3
cache/core [EPYC-043C] for faster data access, uses advanced 3-4nm
technology, and offers Secure Memory Encryption + Secure Encrypted
Virtualization (SEV) + SEV Encrypted State + SEV-Secure Nested
Paging security features. See the AMD EPYC Architecture White Paper
(https://library.amd.com/l/3f4587d147382e2/) for more
information.
2 AMD EPYC™ 9005 processors utilize the SP5 socket. Many factors
determine system compatibility. Check with your server manufacturer
to determine if this processor is supported in systems configured
with previously launched AMD EPYC 9004 family CPUs.
3 EPYC-022F: For a complete list of world records see:
http://amd.com/worldrecords.
4 9xx5-002C: SPECrate®2017_int_base comparison based on
published scores from www.spec.org as of 10/10/2024.
2P AMD EPYC 9965 (3000 SPECrate®2017_int_base, 384 Total Cores,
500W TDP, $14,813 CPU $), 6.060 SPECrate®2017_int_base/CPU W, 0.205
SPECrate®2017_int_base/CPU $,
https://www.spec.org/cpu2017/results/res2024q3/cpu2017-20240923-44833.html)
2P AMD EPYC 9755 (2720 SPECrate®2017_int_base, 256 Total Cores,
500W TDP, $12,984 CPU $), 5.440 SPECrate®2017_int_base/CPU W, 0.209
SPECrate®2017_int_base/CPU $,
https://www.spec.org/cpu2017/results/res2024q4/cpu2017-20240923-44837.pdf)
2P AMD EPYC 9754 (1950 SPECrate®2017_int_base, 256 Total Cores,
360W TDP, $11,900 CPU $), 5.417 SPECrate®2017_int_base/CPU W, 0.164
SPECrate®2017_int_base/CPU $,
https://www.spec.org/cpu2017/results/res2023q2/cpu2017-20230522-36617.html)
2P AMD EPYC 9654 (1810 SPECrate®2017_int_base, 192 Total Cores,
360W TDP, $11,805 CPU $), 5.028 SPECrate®2017_int_base/CPU W, 0.153
SPECrate®2017_int_base/CPU $,
https://www.spec.org/cpu2017/results/res2024q1/cpu2017-20240129-40896.html)
2P Intel Xeon Platinum 8592+ (1130 SPECrate®2017_int_base, 128
Total Cores, 350W TDP, $11,600 CPU $) 3.229
SPECrate®2017_int_base/CPU W, 0.097 SPECrate®2017_int_base/CPU $,
http://spec.org/cpu2017/results/res2023q4/cpu2017-20231127-40064.html)
2P Intel Xeon 6780E (1410 SPECrate®2017_int_base, 288 Total
Cores, 330W TDP, $11,350 CPU $) 4.273 SPECrate®2017_int_base/CPU W,
0.124 SPECrate®2017_int_base/CPU $,
https://spec.org/cpu2017/results/res2024q3/cpu2017-20240811-44406.html)
SPEC®, SPEC CPU®, and SPECrate® are registered trademarks of the
Standard Performance Evaluation Corporation. See www.spec.org for
more information. Intel CPU TDP at https://ark.intel.com/.
5 GD-150: Boost Clock Frequency is the maximum frequency
achievable on the CPU running a bursty workload. Boost clock
achievability, frequency, and sustainability will vary based on
several factors, including but not limited to: thermal conditions
and variation in applications and workloads. GD-150.
6 9xx5-001: Based on AMD internal testing as of 9/10/2024,
geomean performance improvement (IPC) at fixed-frequency.
- 5th Gen EPYC CPU Enterprise and Cloud Server Workloads
generational IPC Uplift of 1.170x (geomean) using a select set of
36 workloads and is the geomean of estimated scores for total and
all subsets of SPECrate®2017_int_base (geomean ), estimated scores
for total and all subsets of SPECrate®2017_fp_base (geomean),
scores for Server Side Java multi instance max ops/sec,
representative Cloud Server workloads (geomean), and representative
Enterprise server workloads (geomean).
“Genoa” Config (all NPS1): EPYC 9654 BIOS TQZ1005D 12c12t
(1c1t/CCD in 12+1), FF 3GHz, 12x DDR5-4800 (2Rx4 64GB), 32Gbps
xGMI;
“Turin” config (all NPS1): EPYC 9V45 BIOS RVOT1000F 12c12t
(1c1t/CCD in 12+1), FF 3GHz, 12x DDR5-6000 (2Rx4 64GB), 32Gbps
xGMI
Utilizing Performance Determinism and the Performance governor
on Ubuntu® 22.04 w/ 6.8.0-40-generic kernel OS for all
workloads.
- 5th Gen EPYC generational ML/HPC Server Workloads IPC Uplift
of 1.369x (geomean) using a select set of 24 workloads and is the
geomean of representative ML Server Workloads (geomean), and
representative HPC Server Workloads (geomean).
“Genoa” Config (all NPS1) “Genoa” config: EPYC 9654 BIOS
TQZ1005D 12c12t (1c1t/CCD in 12+1), FF 3GHz, 12x DDR5-4800 (2Rx4
64GB), 32Gbps xGMI;
“Turin” config (all NPS1): EPYC 9V45 BIOS RVOT1000F 12c12t
(1c1t/CCD in 12+1), FF 3GHz, 12x DDR5-6000 (2Rx4 64GB), 32Gbps
xGMI
Utilizing Performance Determinism and the Performance governor
on Ubuntu 22.04 w/ 6.8.0-40-generic kernel OS for all workloads
except LAMMPS, HPCG, NAMD, OpenFOAM, Gromacs which utilize 24.04 w/
6.8.0-40-generic kernel.
SPEC® and SPECrate® are registered trademarks for Standard
Performance Evaluation Corporation. Learn more at spec.org.
7 9xx5-006: AMD internal testing as of 09/01/2024, on FFMPEG
(Raw to VP9, 1080P, 302 Frames, 1 instance/thread, video source:
https://media.xiph.org/video/derf/y4m/ducks_take_off_1080p50.y4m).
System Configurations: 2P AMD EPYC™ 9965 reference system (2 x
192C) 1.5TB 24x64GB DDR5-6400 running at 6000MT/s, SAMSUNG
MZWLO3T8HCLS-00A07, NPS=4, Ubuntu 22.04.3 LTS, Kernel Linux
5.15.0-119-generic, BIOS RVOT1000C (determinism enable=power),
10825484.25 Frames/Hour Median
2P AMD EPYC™ 9654 production system (2 x 96C) 1.5TB 24x64GB
DDR5-5600, , SAMSUNG MO003200KYDNC, NPS=4, Ubuntu 22.04.3 LTS,
Kernel Linux 5.15.0-119-generic, BIOS 1.56 (determinism
enable=power) , 5154133.333 Frames/Hour Median
2P Intel Xeon Platinum 8592+ production system (2 x 64C) 1TB
16x64GB DDR5-5600, 3.2 TB NVME, Ubuntu 22.04.3 LTS, Kernel Linux
6.5.0-35-generic), BIOS ESE122V-3.10, 2712701.754 Frames/Hour
Median
For 3.99x the performance with the AMD EPYC 9965 vs Intel Xeon
Platinum 8592+ systems
For 1.90x the performance with the AMD EPYC 9654 vs Intel Xeon
Platinum 8592+ systems
Results may vary based on factors including but not limited to
BIOS and OS settings and versions, software versions and data
used.
8 9xx5-022: Source:
https://www.amd.com/content/dam/amd/en/documents/epyc-technical-docs/performance-briefs/amd-epyc-9005-pb-gromacs.pdf
9 9xx5-071: VMmark® 4.0.1 host/node FC SAN comparison based on
“independently published” results as of 10/10/2024.
Configurations:
2 node, 2P AMD EPYC 9575F (128 total cores) powered server
running VMware ESXi8.0 U3, 3.31 @ 4 tiles,
https://www.infobellit.com/BlueBookSeries/VMmark4-FDR-1003
2 node, 2P AMD EPYC 9554 (128 total cores) powered server
running VMware ESXi 8.0 U3, 2.64 @ 3 tiles,
https://www.infobellit.com/BlueBookSeries/VMmark4-FDR-1002
2 node, 2P Intel Xeon Platinum 8592+ (128 total cores) powered
server running VMware ESXi 8.0 U3, 2.06 @ 2.4
Tiles,https://www.infobellit.com/BlueBookSeries/VMmark4-FDR-1001
VMmark is a registered trademark of VMware in the US or other
countries.
10 9xx5-012: TPCxAI @SF30 Multi-Instance 32C Instance Size
throughput results based on AMD internal testing as of 09/05/2024
running multiple VM instances. The aggregate end-to-end AI
throughput test is derived from the TPCx-AI benchmark and as such
is not comparable to published TPCx-AI results, as the end-to-end
AI throughput test results do not comply with the TPCx-AI
Specification.
2P AMD EPYC 9965 (384 Total Cores), 12 32C instances, NPS1,
1.5TB 24x64GB DDR5-6400 (at 6000 MT/s), 1DPC, 1.0 Gbps NetXtreme
BCM5720 Gigabit Ethernet PCIe, 3.5 TB Samsung MZWLO3T8HCLS-00A07
NVMe®, Ubuntu® 22.04.4 LTS, 6.8.0-40-generic (tuned-adm profile
throughput-performance, ulimit -l 198096812, ulimit -n 1024, ulimit
-s 8192), BIOS RVOT1000C (SMT=off, Determinism=Power, Turbo
Boost=Enabled)
2P AMD EPYC 9755 (256 Total Cores), 8 32C instances, NPS1, 1.5TB
24x64GB DDR5-6400 (at 6000 MT/s), 1DPC, 1.0 Gbps NetXtreme BCM5720
Gigabit Ethernet PCIe, 3.5 TB Samsung MZWLO3T8HCLS-00A07 NVMe®,
Ubuntu 22.04.4 LTS, 6.8.0-40-generic (tuned-adm profile
throughput-performance, ulimit -l 198096812, ulimit -n 1024, ulimit
-s 8192), BIOS RVOT0090F (SMT=off, Determinism=Power, Turbo
Boost=Enabled)
2P AMD EPYC 9654 (192 Total cores) 6 32C instances, NPS1, 1.5TB
24x64GB DDR5-4800, 1DPC, 2 x 1.92 TB Samsung MZQL21T9HCJR-00A07
NVMe, Ubuntu 22.04.3 LTS, BIOS 1006C (SMT=off,
Determinism=Power)
Versus 2P Xeon Platinum 8592+ (128 Total Cores), 4 32C
instances, AMX On, 1TB 16x64GB DDR5-5600, 1DPC, 1.0 Gbps NetXtreme
BCM5719 Gigabit Ethernet PCIe, 3.84 TB KIOXIA KCMYXRUG3T84 NVMe, ,
Ubuntu 22.04.4 LTS, 6.5.0-35 generic (tuned-adm profile
throughput-performance, ulimit -l 132065548, ulimit -n 1024, ulimit
-s 8192), BIOS ESE122V (SMT=off, Determinism=Power, Turbo Boost =
Enabled)
Results:
CPU Median Relative Generational Turin 192C, 12 Inst 6067.531
3.775 2.278 Turin 128C, 8 Inst 4091.85 2.546 1.536 Genoa 96C, 6
Inst 2663.14 1.657 1 EMR 64C, 4 Inst 1607.417 1 NA
Results may vary due to factors including system configurations,
software versions and BIOS settings. TPC, TPC Benchmark and TPC-C
are trademarks of the Transaction Processing Performance
Council.
11 9xx5-009: Llama3.1-8B throughput results based on AMD
internal testing as of 09/05/2024.
Llama3-8B configurations: IPEX.LLM 2.4.0, NPS=2, BF16, batch
size 4, Use Case Input/Output token configurations: [Summary =
1024/128, Chatbot = 128/128, Translate = 1024/1024, Essay =
128/1024, Caption = 16/16].
2P AMD EPYC 9965 (384 Total Cores), 6 64C instances 1.5TB
24x64GB DDR5-6400 (at 6000 MT/s), 1 DPC, 1.0 Gbps NetXtreme BCM5720
Gigabit Ethernet PCIe, 3.5 TB Samsung MZWLO3T8HCLS-00A07 NVMe®,
Ubuntu® 22.04.3 LTS, 6.8.0-40-generic (tuned-adm profile
throughput-performance, ulimit -l 198096812, ulimit -n 1024, ulimit
-s 8192) , BIOS RVOT1000C, (SMT=off, Determinism=Power, Turbo
Boost=Enabled), NPS=2
2P AMD EPYC 9755 (256 Total Cores), 4 64C instances , 1.5TB
24x64GB DDR5-6400 (at 6000 MT/s), 1DPC, 1.0 Gbps NetXtreme BCM5720
Gigabit Ethernet PCIe, 3.5 TB Samsung MZWLO3T8HCLS-00A07 NVMe®,
Ubuntu 22.04.3 LTS, 6.8.0-40-generic (tuned-adm profile
throughput-performance, ulimit -l 198096812, ulimit -n 1024, ulimit
-s 8192), BIOS RVOT1000C (SMT=off, Determinism=Power, Turbo
Boost=Enabled), NPS=2
2P AMD EPYC 9654 (192 Total Cores) 4 48C instances , 1.5TB
24x64GB DDR5-4800, 1DPC, 1.0 Gbps NetXtreme BCM5720 Gigabit
Ethernet PCIe, 3.5 TB Samsung MZWLO3T8HCLS-00A07 NVMe®, Ubuntu®
22.04.4 LTS, 5.15.85-051585-generic (tuned-adm profile
throughput-performance, ulimit -l 1198117616, ulimit -n 500000,
ulimit -s 8192), BIOS RVI1008C (SMT=off, Determinism=Power, Turbo
Boost=Enabled), NPS=2
Versus 2P Xeon Platinum 8592+ (128 Total Cores), 2 64C instances
, AMX On, 1TB 16x64GB DDR5-5600, 1DPC, 1.0 Gbps NetXtreme BCM5719
Gigabit Ethernet PCIe, 3.84 TB KIOXIA KCMYXRUG3T84 NVMe®, Ubuntu
22.04.4 LTS 6.5.0-35-generic (tuned-adm profile
throughput-performance, ulimit -l 132065548, ulimit -n 1024, ulimit
-s 8192), BIOS ESE122V (SMT=off, Determinism=Power, Turbo Boost =
Enabled). Results:
CPU 2P EMR 64c 2P Turin 192c 2P Turin 128c 2P Genoa 96c Average
Aggregate Median Total Throughput 99.474 193.267 182.595 138.978
Competitive 1 1.943 1.836 1.397 Generational NA 1.391 1.314 1
Results may vary due to factors including system configurations,
software versions and BIOS settings.
12 9xx5-087: As of 10/10/2024; this scenario contains several
assumptions and estimates and, while based on AMD internal research
and best approximations, should be considered an example for
information purposes only, and not used as a basis for decision
making over actual testing.
Referencing 9XX5-056A: “2P AMD EPYC 9575F powered server and 8x
AMD Instinct MI300X GPUs running Llama3.1-70B select inference
workloads at FP8 precision vs 2P Intel Xeon Platinum 8592+ powered
server and 8x AMD Instinct MI300X GPUs has ~8% overall throughput
increase across select inference use cases” and 8763.52 tokens/s
(9575F) versus 8,048.48 tokens/s (8592+) at 128 input / 2048 output
tokens, 500 prompts for 1.089x the tokens/s or 715.04 more
tokens/s.
1 Node = 2 CPUs and 8 GPUs.Assuming a 1000 node cluster, 1000 *
715.04 = 715,040 tokens/s
For ~700,000 more tokens/s
Results may vary due to factors including system configurations,
software versions and BIOS settings.
13 9xx5TCO-001a: This scenario contains many assumptions and
estimates and, while based on AMD internal research and best
approximations, should be considered an example for information
purposes only, and not used as a basis for decision making over
actual testing. The AMD Server & Greenhouse Gas Emissions TCO
(total cost of ownership) Estimator Tool - version 1.12, compares
the selected AMD EPYC™ and Intel® Xeon® CPU based server solutions
required to deliver a TOTAL_PERFORMANCE of 39100 units of
SPECrate2017_int_base performance as of October 10, 2024. This
scenario compares a legacy 2P Intel Xeon 28 core Platinum_8280
based server with a score of 391 versus 2P EPYC 9965 (192C) powered
server with an score of 3030
(https://spec.org/cpu2017/results/res2024q3/cpu2017-20240923-44833.pdf)
along with a comparison upgrade to a 2P Intel Xeon Platinum 8592+
(64C) based server with a score of 1130
(https://spec.org/cpu2017/results/res2024q3/cpu2017-20240701-43948.pdf).
Actual SPECrate®2017_int_base score for 2P EPYC 9965 will vary
based on OEM publications.
Environmental impact estimates made leveraging this data, using
the Country / Region specific electricity factors from the 2024
International Country Specific Electricity Factors 10 – July 2024 ,
and the United States Environmental Protection Agency 'Greenhouse
Gas Equivalencies Calculator'.
For additional details, see
https://www.amd.com/en/claims/epyc5#9xx5TCO-001a
14 9xx5-083: 5th Gen EPYC processors support DDR5-6400 MT/s for
targeted customers and configurations. 5th Gen production SKUs
support up to DDR5-6000 MT/s to enable a broad set of DIMMs across
all OEM platforms and maintain SP5 platform compatibility
A photo accompanying this announcement is available at
https://www.globenewswire.com/NewsRoom/AttachmentNg/3bb614ee-e307-43a7-a36b-f5bd02ed1335
Media Contacts:
Aaron Grabein
AMD Communications
+1 512-602-8950
aaron.grabein@amd.com
Mitch Haws
AMD Investor Relations
+1 512-944-0790
mitch.haws@amd.com
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