SlideShare une entreprise Scribd logo
1  sur  39
X13 Products + Intel® Xeon® CPU Max Series
An Applications & Performance View
Andree Jacobson, Supermicro
Mark Kachmarek, Intel
Jan 26, 2023
Better Faster Greener™ © 2023 Supermicro
Speakers
1/26/23 Better Faster Greener™ © 2023 Supermicro
2
Andree Jacobson
Andree is Director of Technology Enablement at Supermicro. He is focused on Intel’s
advanced architectures and the server lines that support them. He is passionate about High
Performance Computing, Liquid Cooling, Datacenters, and anything else that enables
denser and more green computing. Andree has 16+ years of HPC, systems, and
management experience and in industry, non-profits, and academia.
Mark Kachmarek
Mark is the Director of Product Management for the Xeon product line in Intel’s Accelerated
Computing Systems and Graphics Group, responsible for developing the strategy, requirements,
roadmap and marketing for the Intel® Xeon® products for High Performance Computing. He has
30+ years’ experience in the semiconductor industry, having held various engineering and
management positions domestically and internationally. Mark has several publications on
strategy and business value and a patent related to power management technology.
Supermicro X13 Server Platforms
1/26/23 Better Faster Greener™ © 2023 Supermicro
3
• With the Jan 10 launch of Intel® Xeon® Scalable Processors Max Series –
Supermicro in turn has launched a matching 50 products over 15 product lines
to match our customer’s needs – http://www.supermicro.com/en/products/x13
• Many systems are ready to ship today!
1/26/23 Better Faster Greener™ © 2023 Supermicro
4
Intel® Xeon®
CPU Max Series
1/26/23 Better Faster Greener™ © 2023 Supermicro
5
“The growth of
HPC and AI
compute performance
over the last decade and
is becoming a
in speed up
of many workloads.”
Earl Joseph
CEO Hyperion Research
0
50
100
150
Mem BW / Core
2013 2014 2016 2017 2019 2021
Core Performance
1/26/23 Better Faster Greener™ © 2023 Supermicro
6
1/26/23 Better Faster Greener™ © 2023 Supermicro
7
1/26/23 Better Faster Greener™ © 2023 Supermicro
8
1/26/23 Better Faster Greener™ © 2023 Supermicro
9
1/26/23 Better Faster Greener™ © 2023 Supermicro
10
1/26/23 Better Faster Greener™ © 2023 Supermicro
11
1/26/23 Better Faster Greener™ © 2023 Supermicro
12
1/26/23 Better Faster Greener™ © 2023 Supermicro
13
Supermicro X13 Hyper Platform
1/26/23 Better Faster Greener™ © 2023 Supermicro
14
Features
• Flagship Performance in 1/2U
• Dual socket 350W Xeon Max CPU
• 32 DIMM slots (up to 8TB DDR5)
• Up to 4x PCIe 5.0 x16 FH
• Dual 1200W Power
Target Applications
• High density datacenters
• Maximum flexibility for I/O,
Acceleration, and Storage
• Virtualization, Cloud, and Database
• Hyperconverged Infrastructure
• HPC clusters
Supermicro X13 BigTwin® Platform
1/26/23 Better Faster Greener™ © 2023 Supermicro
15
Features
• Energy efficient multi-node solution
• 2U / 4 Node or 2U / 2 Node option
• Dual socket Xeon Max CPU
• 16 DIMM slots (up to 4TB DDR5)
• AIOM Networking (200GBps)
• 2x 3000W or 2x 2200W Power
Target Applications
• High density datacenters
• Up to 8x 350W Xeon Max CPUs in
2U with liquid cooling
• Virtualization, Cloud, and Database
• Hyperconverged Infrastructure
• HPC clusters
Supermicro X13 GrandTwin® Platform
1/26/23 Better Faster Greener™ © 2023 Supermicro
16
Features
• Optimized single socket multi-node
• Single socket Xeon Max CPU
• 16 DIMM slots (up to 4TB DDR5)
• 2x PCIe 5.0 x16 AIOM slots
• 2x 2200W Power
Target Applications
• Mission critical, High node count
• HPC
• Web applications
• EDA Workloads
• Edge computing
• Cloud gaming
• Multi-purpose CDN
Supermicro X13 SuperBlade® Platform
1/26/23 Better Faster Greener™ © 2023 Supermicro
17
Features (SBE-820)
• Highest density CPU
• 20 nodes in 8U
• Dual socket CPU
• 16 DIMM slots (4TB)
• AIOM PCIe 5.0 x16
• Built-in Switching
• 8x 3000W PSU
Target Applications
• Maximum CPU density
• Shared infrastructure
• Maximum configurability
• SBE-820: HH-SW, HH-DW,
FH-SW blade options
• SBE-610: FH-SW, FH-DW
• Mixed configs supported
Features (SBE-610)
• High density CPU
• 10 nodes in 6U
• Dual socket CPU
• Single socket + DW GPU
• 32 DIMM slots (8TB)
• Built-in Switching
• 8x 3000W PSU
Broad Range of Servers – X13 Platform
1/26/23 Better Faster Greener™ © 2023 Supermicro
18
Intel Xeon Max CPU Optimized Platforms Intel Xeon Max CPU + GPU Optimized Platforms
Hyper 2U
8U SuperBlade
6U SuperBlade
BigTwin 2U 2-Node
GrandTwin 2U 4-Node
4/5U 10-GPU 8U 8-GPU (OAM)
4U 4-GPU 4/5U Universal 4-GPU
Applications and Performance Perspective
1/26/23 Better Faster Greener™ © 2023 Supermicro
19
Supermicro’s X13 Server product lines bring several key advantages when
equipped with Intel® Xeon® Max Scalable Processors
• Very few – if any – required code changes
• HBM Memory drastically increase memory throughput
• Built-in offload acceleration engines
• Intel® Advanced Matrix Extensions (AMX)
• Intel® Data Streaming Accelerator (DSA)
• Intel® vRAN Boost
Deep learning
Data movement
HPC
5G / Edge
1/26/23 Better Faster Greener™ © 2023 Supermicro
20
1/26/23 Better Faster Greener™ © 2023 Supermicro
21
Perhaps a more practical approach…
1/26/23 Better Faster Greener™ © 2023 Supermicro
22
• It’s great to see these numbers in graphs…
• Let’s see if there’s something to them in reality too
System / CPU Architecture (SYS-221H-TNR)
1/26/23 Better Faster Greener™ © 2023 Supermicro
23
2x Intel® Xeon® CPU Max 9468 @ 2.1 GHz, 512GB DDR5 (16x 32GB)
System / CPU Architecture (SYS-420GH-TNGR)
1/26/23 Better Faster Greener™ © 2023 Supermicro
24
2x Intel® Xeon® Gold 6330 @ 2 GHz, 1024GB DDR4 (16x 64GB)
Demo / Results
1/26/23 Better Faster Greener™ © 2023 Supermicro
25
Two test systems
Benchmark / CPU Intel® Xeon® Gold 6330 Intel® Xeon® CPU Max 9468 Diff
STREAM Triad1 (GB/s) 281 1076 3.8x
HPCG2 (GFLOP/s) 47 201 4.3x
1) STREAM (OneAPI 2023 Intel compiler Suite)
Compiler options: -DNTIMES=100 -DOFFSET=0 -DSTREAM_TYPE=double -DSTREAM_ARRAY_SIZE=268435456 -Wall -O3 -mcmodel=medium -qopenmp -shared-intel -qopt-streaming-stores=always -xCORE-AVX512 -qopt-zmm-usage=high
Runtime env: OMP_NUM_THREADS=56 KMP_AFFINITY=granularity=fine,compact,1,0 ./stream_icx.exe (Gold 6330, Single socket)
Runtime env: OMP_NUM_THREADS=96 KMP_AFFINITY=granularity=fine,compact,1,0 ./stream_icx.exe (CPU Max 9468, Single socket)
2) HPCG – Precompiled Intel MKL benchmark binary xhpcg_skx
Runtime env: mpiexec.hydra -n 4 env OMP_NUM_THREADS=28 KMP_AFFINITY=granularity=fine,compact,0,1 ./bin/xhpcg_skx -n 160 -t 60 (Gold 6330)
Runtime env: mpiexec.hydra -n 8 env OMP_NUM_THREADS=24 KMP_AFFINITY=granularity=fine,compact,1,0 ./bin/xhpcg_skx -n 192 –t 60 (CPU Max 9468)
20x SYS-221H-TNR
• Aircooled, Medium density
A full rack of equipement
1/26/23 Better Faster Greener™ © 2023 Supermicro
26
40U
2.5 TB HBM2e
160 TB DDR5
< 24 kW
POWER
40x Xeon Max
CPU Series
(1920 cores)
CPU MEMORY
Incredible Density!
1/26/23 Better Faster Greener™ © 2023 Supermicro
27
Five 8U 20-node SuperBlade Chassis
• Liquid cooled, Maximum Density
• Mostly fictional, though…
• 4x chassis, with Supermicro’s 80kW CDU is
doable.
40U
12.5 TB HBM2e
400 TB DDR5
< 120 kW
POWER
200x Xeon Max
CPU Series
(11,200 cores)
CPU MEMORY
Summary
1/26/23 Better Faster Greener™ © 2023 Supermicro
28
• New Intel® Xeon® Scalable Processors Max Series provides the highest
memory bandwidth of any CPU on the market today.
• Supermicro X13 Servers are first-to-market to support the new CPU line-up
• Many HPC Applications greatly benefit from the increased memory throughput
enabled by on-chip HBM
• Average performance increase (without code changes) upward of 2x (often
more, and often with just a re-compilation).
• If you need HPC, look no further. Supermicro X13 Servers, with Intel® Xeon®
Max Series CPUs can provide the performance you need in the most power
efficient envelope that fits your green computing strategies.
Questions & Answers
1/26/23 Better Faster Greener™ © 2023 Supermicro
29
DISCLAIMER
Super Micro Computer, Inc. may make changes to specifications and product descriptions at any time, without notice. The
information presented in this document is for informational purposes only and may contain technical inaccuracies, omissions
and typographical errors. Any performance tests and ratings are measured using systems that reflect the approximate
performance of Super Micro Computer, Inc. products as measured by those tests. Any differences in software or hardware
configuration may affect actual performance, and Super Micro Computer, Inc. does not control the design or implementation of
third party benchmarks or websites referenced in this document. The information contained herein is subject to change and may
be rendered inaccurate for many reasons, including but not limited to any changes in product and/or roadmap, component and
hardware revision changes, new model and/or product releases, software changes, firmware changes, or the like. Super Micro
Computer, Inc. assumes no obligation to update or otherwise correct or revise this information.
SUPER MICRO COMPUTER, INC. MAKES NO REPRESENTATIONS OR WARRANTIES WITH RESPECT TO THE
CONTENTS HEREOF AND ASSUMES NO RESPONSIBILITY FOR ANY INACCURACIES, ERRORS OR OMISSIONS THAT
MAY APPEAR IN THIS INFORMATION.
SUPER MICRO COMPUTER, INC. SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR
FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT WILL SUPER MICRO COMPUTER, INC. BE LIABLE TO ANY
PERSON FOR ANY DIRECT, INDIRECT, SPECIAL OR OTHER CONSEQUENTIAL DAMAGES ARISING FROM THE USE OF
ANY INFORMATION CONTAINED HEREIN, EVEN IF SUPER MICRO COMPUTER, Inc. IS EXPRESSLY ADVISED OF THE
POSSIBILITY OF SUCH DAMAGES.
ATTRIBUTION
© 2023 Super Micro Computer, Inc. All rights reserved.
1/26/23 Better Faster Greener™ © 2023 Supermicro
30
1/26/23 Better Faster Greener™ © 2023 Supermicro
31
Configuration Details (1 of 7)
HPCG
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6,
Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, HPCG from MKL_v2022.1.0
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, DDR5 Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Ubuntu 22.04.1 LTS, Linux version 5.15.0-50-generic, HPCG from MKL_v2022.1.0
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, HPCG from MKL_v2022.1.0
HPL
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6,
Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, HPL from MKL_v2022.1.0, 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, DDR5 Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Ubuntu 22.04.1 LTS, Linux version 5.15.0-50-generic, HPL from MKL_v2022.1.0
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, HPL from MKL_v2022.1.0
Stream Triad
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6,
Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Stream v5.10
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Stream v5.10
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Stream v5.10
MPAS-A (MPAS-A V7.3 60-km dynamical core)
• Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, MPAS-A V7.3 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-O3 -march=core-avx2 -convert
big_endian -free -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, MPAS-A V7.3
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version
SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, MPAS-A V7.3 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with
compiler flags “-O3 -march=core-avx2 -convert big_endian -free -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, MPAS-A V7.3
• Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/22. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, MPAS-A V7.3 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-O3 -march=core-
avx2 -convert big_endian -free -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, MPAS-A V7.3
Configuration Details (2 of 7)
NEMO (GYRE_PISCES_25, BENCH ORCA-1)
• Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, NEMO v4.2 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags ”-i4 -r8 -O3 -fno-alias -march=core-
avx2 -fp-model fast=2 -no-prec-div -no-prec-sqrt -align array64byte -fimf-use-svml=true”
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version
SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, NEMO v4.2 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with
compiler flags “-i4 -r8 -O3 -fno-alias -march=core-avx2 -fp-model fast=2 -no-prec-div -no-prec-sqrt -align array64byte -fimf-use-svml=true”.
• Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, NEMO v4.2 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-i4 -r8 -O3 -fno-alias -
march=core-avx2 -fp-model fast=2 -no-prec-div -no-prec-sqrt -align array64byte -fimf-use-svml=true”
ROMS (benchmark3 (2048x256x30), benchmark3 (8192x256x30))
• Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, ROMS V4 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-ip -O3 -heap-arrays -xCORE-AVX512
-qopt-zmm-usage=high -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, ROMS V4
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version
SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, ROMS V4 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with
compiler flags “-ip -O3 -heap-arrays -xCORE-AVX512 -qopt-zmm-usage=high -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, ROMS V4
• Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, ROMS V4 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-ip -O3 -heap-arrays -
xCORE-AVX512 -qopt-zmm-usage=high -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, ROMS V4
WRF (CONUS 2.5KM)
• Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, WRF v3.9.1.1 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags ”-ip -O3 -xCORE-AVX512 -fp-model
fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low -w -ftz -align array64byte -fno-alias -fimf-use-svml=true -inline-max-size=12000 -inline-max-total-size=30000 -vec-threshold0 -qno-opt-dynamic-align ”
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 4th Gen Intel® Xeon® Scalable Processor, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version
SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, WRF v3.9.1.1 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with
compiler flags “-ip -O3 -xCORE-AVX512 -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low -w -ftz -align array64byte -fno-alias -fimf-use-svml=true -inline-max-size=12000 -inline-max-total-size=30000 -vec-threshold0 -qno-opt-dynamic-
align ”.
• Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, WRF v3.9.1.1 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags ”-ip -O3 -xCORE-
AVX512 -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low -w -ftz -align array64byte -fno-alias -fimf-use-svml=true -inline-max-size=12000 -inline-max-total-size=30000 -vec-threshold0 -qno-opt-dynamic-align ”
Configuration Details (3 of 7)
YASK (Anelsatic Wave Propagation, ISO3DFD, Standard Staggered Grid)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6,
Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, YASK v3.05.07
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode
revision=0xaa0000a0, CentOS Stream 8, Linux version 4.18.0-365.el8.x86_64, YASK v3.05.07
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, YASK v3.05.07
FSI Kernels (Binomial Options, Black Scholes, Monte Carlo)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6,
Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Binomial Options v1.1, Black Scholes v1.4, Monte Carlo v1.2
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Binomial Options v1.1, Black Scholes v1.4, Monte Carlo v1.2
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Binomial Options v1.1, Black Scholes v1.4, Monte Carlo v1.2
DeePMD (Multi-Instance Training)
• Intel® Xeon® 8380: Test by Intel as of 10/20/2022. 1-node, 2x Intel® Xeon® 8380 processor, Total Memory 256 GB, kernel 4.18.0-372.26.1.eI8_6.crt1.x86_64, compiler gcc (GCC) 8.5.0 20210514 (Red Hat 8.5.0-10),
https://github.com/deepmodeling/deepmd-kit, Tensorflow 2.9, Horovod 0.24.0, oneCCL-2021.5.2, Python 3.9
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, Total Memory 512 GB, kernel 4.18.0-365.eI8_3x86_64, compiler gcc (GCC) 8.5.0 20210514(Red Hat 8.5.0-10),
https://github.com/deepmodeling/deepmd-kit, Tensorflow 2.9, Horovod 0.24.0, oneCCL-2021.5.2, Python 3.9
• Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, Total Memory 128 GB (HBM2e at 3200 MHz), kernel 5.19.0-rc6.0712.intel_next.1.x86_64+server, compiler gcc (GCC) 8.5.0 20210514 (Red Hat 8.5.0-13),
https://github.com/deepmodeling/deepmd-kit, Tensorflow 2.9, Horovod 0.24.0, oneCCL-2021.5.2, Python 3.9
GROMACS (benchMEM​, benchPEP​, benchPEP-h, benchRIB​, hecbiosim-3m​, hecbiosim-465k​, hecbiosim-61k​, ion_channel_pme_large​, lignocellulose_rf_large​, rnase_cubic​, stmv​, water1.5M_pme_large​, water1.5M_rf_large)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Converge GROMACS v2021.4_SP
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, GROMACS v2021.4_SP
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, GROMACS v2021.4_SP
Configuration Details (4 of 7)
LAMMPS (Atomic Fluid, Copper, DPD, Liquid_crystal, Polyethylene, Protein, Stillinger-Weber, Tersoff, Water)
• Intel® Xeon® 8380: Test by Intel as of 10/11/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LAMMPS v2021-09-29 cmkl:2022.1.0, icc:2021.6.0, impi:2021.6.0, tbb:2021.6.0; threads/core:; Turbo:on; BuildKnobs:-O3 -ip -xCORE-AVX512 -g -debug inline-
debug-info -qopt-zmm-usage=high;
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 9/29/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LAMMPS v2021-09-29 cmkl:2022.1.0, icc:2021.6.0, impi:2021.6.0, tbb:2021.6.0; threads/core:; Turbo:off; BuildKnobs:-O3 -ip -xCORE-AVX512 -g -debug inline-
debug-info -qopt-zmm-usage=high;
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/29/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, LAMMPS v2021-09-29cmkl:2022.1.0, icc:2021.6.0, impi:2021.6.0, tbb:2021.6.0; threads/core:; Turbo:off; BuildKnobs:-O3 -ip -xCORE-AVX512 -g -debug
inline-debug-info -qopt-zmm-usage=high;
Quantum Espresso (AUSURF112, Water_EXX)
• Intel® Xeon® 8380: Test by Intel as of 9/30/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-
372.26.1.el8_6.crt1.x86_64, Quantum Espresso 7.0, AUSURF112, Water_EXX
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), ucode revision= 0x90000c0, Rocky Linux 8.6, Linux version 4.18.0-
372.26.1.el8_6.crt1.x86_64, Quantum Espresso 7.0, AUSURF112, Water_EXX
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-
rc6.0712.intel_next.1.x86_64+server, Quantum Espresso 7.0, AUSURF112, Water_EXX
VASP (CuC, Si, PdO4, PdO4_k221)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, VASP6.3.2
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, VASP6.3.2
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, VASP6.3.2
Altair AcuSolve (HQ Model)
• Intel® Xeon® 8380: Test by Intel as of 09/28/2022. 1-node, 2x Intel® Xeon® 8380, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0-
372.19.1.el8_6.crt1.x86_64, Altair AcuSolve 2021R2
• Intel® Xeon® 6346: Test by Intel as of 10/08/2022. 4-nodes connected via HDR-200, 2x Intel® Xeon® 6346, 16 cores, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6,
kernel version 4.18.0-372.19.1.el8_6.crt1.x86_64, Altair AcuSolve 2021R2
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 09/28/2022. 1-node, 2x Intel® Xeon® 8480+, HT ON, Turbo ON, SNC4, Total Memory 512 GB, BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS Stream 8, kernel
version 4.18.0-365.el8.x86_64, Altair AcuSove 2021R2
• Intel® Xeon® CPU Max Series: Test by Intel as of 10/03/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode 2c000020, CentOS
Stream 8, kernel version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Altair AcuSolve 2021R2
Configuration Details (5 of 7)
Altair RADIOSS (Neon1M @ 80 ms)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Altair RADIOSS 2022.2, Intel MPI 2021.7
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Altair RADIOSS 2022.2, Intel MPI 2021.7
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Altair RADIOSS 2022.2, Intel MPI 2021.7
Ansys Fluent (pump_2m, sedan_4m, rotor_3m, aircraft_wing_14m, combustor_12m, exhaust_system_33m)
• Intel® Xeon® 8380: Test by Intel as of 08/24/2022. 1-node, 2x Intel® Xeon® 8380, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0-
372.19.1.el8_6.crt1.x86_64, Ansys Fluent 2022R1
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 09/02/2022. 1-node, 2x Intel® Xeon® 8480+, HT ON, Turbo ON, SNC4, Total Memory 512 GB, BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS Stream 8, kernel
version 4.18.0-365.el8.x86_64, Ansys Fluent 2022R1
• Intel® Xeon® CPU Max Series: Test by Intel as of 08/31/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo ON, SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode 2c000020, CentOS
Stream 8, kernel version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Ansys Fluent 2022R1
Ansys LS-DYNA (ODB-10M)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6,
Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LS-DYNA R11
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of ww41’22. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LS-DYNA R11
• Intel® Xeon® CPU Max Series: Test by Intel as of ww36’22. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, LS-DYNA R11
Ansys Mechanical (V22iter-1, V22iter-2, V22iter-3, V22iter-4, V22direct-1, V22direct-2, V22direct-3)
• Intel® Xeon® 8380: Test by Intel as of 08/24/2022. 1-node, 2x Intel® Xeon® 8380, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0-
372.19.1.el8_6.crt1.x86_64, Ansys Mechanical 2022 R2
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 09/02/2022. 1-node, 2x Intel® Xeon® 8480+, HT ON, Turbo ON, SNC4, Total Memory 512 GB DDR5 4800 MT/s, BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS
Stream 8, kernel version 4.18.0-365.el8.x86_64, Ansys Mechanical 2022 R2
• Intel® Xeon® CPU Max Series: Test by Intel as of 08/31/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo ON, SNC4, Total Memory 512 GB DDR5 4800 MT/s, 128 GB HBM in cache mode (HBM2e at 3200 MHz), BIOS Version
SE5C7411.86B.8424.D03.2208100444, ucode 2c000020, CentOS Stream 8, kernel version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Ansys Mechanical 2022 R2
Configuration Details (6 of 7)
CONVE. RGE (SI8_engine_PFI_SAGE_transient_RAN)
• Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode
revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Converge CFD 3.0.17
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode
revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Converge CFD 3.0.17
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Converge CFD 3.0.17
OpenFOAM (Geomean of Motorbike 20M, Motorbike 42M)
• Intel® Xeon® 8380: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux
8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64, OpenFOAM 8, Motorbike 20M @ 250 iterations, Motorbike 42M @ 250 iterations
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode
revision=0xaa0000a0, CentOS Stream 8, Linux version 4.18.0-365.el8.x86_64, OpenFOAM 8, Motorbike 20M @ 250 iterations, Motorbike 42M @ 250 iterations
• Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, OpenFOAM 8, Motorbike 20M @ 250 iterations, Motorbike 42M @ 250 iterations
ParSeNet (SplineNet)
• Intel® Xeon® 8380: Test by Intel as of 10/18/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky
Linux 8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64, ParSeNet (SplineNet), PyTorch 1.11.0, Torch-CCL 1.2.0, IPEX 1.10.0, MKL (20220804), oneDNN (v2.6.0)
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/18/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode
revision=0xaa0000a0, CentOS Stream 8, Linux version 4.18.0-365.el8.x86_64, ParSeNet (SplineNet), PyTorch 1.11.0, Torch-CCL 1.2.0, IPEX 1.10.0, MKL (20220804), oneDNN (v2.6.0)
• Intel® Xeon® CPU Max Series: Test by Intel as of 09/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode
revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, ParSeNet (SplineNet), PyTorch 1.11.0, Torch-CCL 1.2.0, IPEX 1.10.0, MKL (20220804), oneDNN (v2.6.0)
Siemens Simcenter Star-CCM+ (civil, HlMach10AoA10Sou, kcs_with_physics, lemans_poly_17m.amg, reactor, TurboCharger7M)
• Intel® Xeon® 8380: Test by Intel as of 25-Oct-22. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux
8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, StarCCM+ 17.04.007, reactor 9m @ 20 iterations, lemans_poly_17m @ 20 iterations, civil 20m @ 20 iterations, TurboCharger7M @ 20 iterations, HlMach10AoA10Sou 6.4m @ 20 iterations,
kcs_with_physics 3m @ 20 iterations
• 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 14-Sep-22. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 1024 GB (16x64GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode
revision=0xaa000090, CentOS Stream 8, Linux version 4.18.0-394.el8.x86_64, StarCCM+ 17.04.007, reactor 9m @ 20 iterations, lemans_poly_17m @ 20 iterations, civil 20m @ 20 iterations, TurboCharger7M @ 20 iterations, HlMach10AoA10Sou 6.4m
@ 20 iterations, kcs_with_physics 3m @ 20 iterations
• Intel® Xeon® CPU Max Series: Test by Intel as of 14-Sep-22. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020,
CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, StarCCM+ 17.04.007, reactor 9m @ 20 iterations, lemans_poly_17m @ 20 iterations, civil 20m @ 20 iterations, TurboCharger7M @ 20 iterations, HlMach10AoA10Sou 6.4m @
20 iterations, kcs_with_physics 3m @ 20 iterations
This offering is not approved or endorsed by OpenCFD Limited, producer and distributor of the OpenFOAM software via www.openfoam.com, and owner of the OPENFOAM® and
Configuration Details (7 of 7)
CosmoFlow (training on 8192 image batches)
• Intel® Xeon® 8380: Test by Intel as of 06/07/2022. 1-node, 2x Intel® Xeon® 8380, 40 cores, HT On, Turbo On, Total Memory 512 GB (16 slots/ 32 GB/ 3200 MHz, DDR4), BIOS SE5C6200.86B.0022.D64.2105220049, ucode 0xd0002b1, OS Red Hat
Enterprise Linux 8.5 (Ootpa), kernel 4.18.0-348.7.1.el8_5.x86_64, https://github.com/mlcommons/hpc/tree/main/cosmoflow, AVX-512, FP32, Tensorflow 2.9.0, horovod 0.23.0, keras 2.6.0, oneCCL-2021.4, oneAPI MPI 2021.4.0, ppn=8, LBS=16, ~25GB
data, 16 epochs, Python 3.8
• 4th Gen Intel® Xeon® Scalable Processor (AMX BF16): Test by Intel as of 10/18/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16 slots/ 32 GB/ 4800 MHz, DDR5), BIOS EGSDCRB1.86B.0083.D22.2206290535, ucode
0xaa0000a0, CentOS Stream 8, kernel 4.18.0-365.el8.x86_64, https://github.com/mlcommons/hpc/tree/main/cosmoflow, AMX, BF16, Tensorflow 2.9.1, horovod 0.24.3, keras 2.9.0.dev2022021708, oneCCL 2021.5, ppn=8, LBS=16, ~25GB data, 16
epochs, Python 3.8
• Intel® Xeon® Processor Max Series HBM (AMX BF16): Test by Intel as of 10/18/2022. 1 -node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 HBM and 512 GB DDR (16 slots/ 32 GB/ 4800 MHz), BIOS
SE5C7411.86B.8424.D03.2208100444, ucode 0x2c000020, CentOS Stream 8, kernel 5.19.0-rc6.0712.intel_next.1.x86_64+server, https://github.com/mlcommons/hpc/tree/main/cosmoflow, AMX, BF16, TensorFlow 2.9.1, horovod 0.24.0, keras
2.9.0.dev2022021708, oneCCL 2021.5, ppn=8, LBS=16, ~25GB data, 16 epochs, Python 3.9
LAMMPS (Liquid Crystal) – Intel® Data Center GPU Max Series
• Intel® Xeon® 8380: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky
Linux 8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64
• Intel® Xeon® CPU Max Series HBM: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 GB HBM2e, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, SUSE Linux Enterprise Server 15
SP3, Kernel 5.3.18, oneAPI 2022.3.0
• Intel® Data Center GPU Max Series with DDR Host: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 1024 GB DDR5-4800 + 128 GB HBM2e, Memory Mode: Flat, HBM2e not used, 6x Intel® Data Center
GPU Max Series, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, Agama pvc-prq-54, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0
• Intel® Data Center GPU Max Series with HBM Host: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 GB HBM2e, 6x Intel® Data Center GPU Max Series, BIOS EGSDCRB1.DWR.0085.D12.2207281916,
ucode 0xac000040, Agama pvc-prq-54, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0
MLPerf™ HPC-AI v0.7 Training benchmark Performance. Result not verified by MLCommons Association. Unverified results have not been through an MLPerf™
review and may use measurement methodologies and/or workload implementations that are inconsistent with the MLPerf™ specification for verified results.
The MLPerf™ name and logo are trademarks of MLCommons Association in the United States and other countries. All rights reserved. Unauthorized use strictly
prohibited. See www.mlcommons.org for more information
www.supermicro.com
Thank You

Contenu connexe

Tendances

Tendances (20)

Hyper-Converged Infrastructure Vx Rail
Hyper-Converged Infrastructure Vx Rail Hyper-Converged Infrastructure Vx Rail
Hyper-Converged Infrastructure Vx Rail
 
VxRail Appliance - Modernize your infrastructure and accelerate IT transforma...
VxRail Appliance - Modernize your infrastructure and accelerate IT transforma...VxRail Appliance - Modernize your infrastructure and accelerate IT transforma...
VxRail Appliance - Modernize your infrastructure and accelerate IT transforma...
 
Room 1 - 2 - Nguyễn Văn Thắng & Dzung Nguyen - Proxmox VE và ZFS over iscsi
Room 1 - 2 - Nguyễn Văn Thắng & Dzung Nguyen - Proxmox VE và ZFS over iscsiRoom 1 - 2 - Nguyễn Văn Thắng & Dzung Nguyen - Proxmox VE và ZFS over iscsi
Room 1 - 2 - Nguyễn Văn Thắng & Dzung Nguyen - Proxmox VE và ZFS over iscsi
 
Dell Technologies Dell EMC ISG Storage, CI, HCI and Data Protection Portfolio...
Dell Technologies Dell EMC ISG Storage, CI, HCI and Data Protection Portfolio...Dell Technologies Dell EMC ISG Storage, CI, HCI and Data Protection Portfolio...
Dell Technologies Dell EMC ISG Storage, CI, HCI and Data Protection Portfolio...
 
OpenStack Cinder Best Practices - Meet Up
OpenStack Cinder Best Practices - Meet UpOpenStack Cinder Best Practices - Meet Up
OpenStack Cinder Best Practices - Meet Up
 
Hci solution with VxRail
Hci solution with VxRailHci solution with VxRail
Hci solution with VxRail
 
Hyper-Converged Infrastructure: Concepts
Hyper-Converged Infrastructure: ConceptsHyper-Converged Infrastructure: Concepts
Hyper-Converged Infrastructure: Concepts
 
Kusto (Azure Data Explorer) Training for R&D - January 2019
Kusto (Azure Data Explorer) Training for R&D - January 2019 Kusto (Azure Data Explorer) Training for R&D - January 2019
Kusto (Azure Data Explorer) Training for R&D - January 2019
 
Dell Technologies Dell EMC Data Protection Solutions On One Single Page - POS...
Dell Technologies Dell EMC Data Protection Solutions On One Single Page - POS...Dell Technologies Dell EMC Data Protection Solutions On One Single Page - POS...
Dell Technologies Dell EMC Data Protection Solutions On One Single Page - POS...
 
Dell Technologies - The Complete ISG Hardware Portfolio
Dell Technologies - The Complete ISG Hardware PortfolioDell Technologies - The Complete ISG Hardware Portfolio
Dell Technologies - The Complete ISG Hardware Portfolio
 
HPC+AI ってよく聞くけど結局なんなの
HPC+AI ってよく聞くけど結局なんなのHPC+AI ってよく聞くけど結局なんなの
HPC+AI ってよく聞くけど結局なんなの
 
Modular by Design: Supermicro’s New Standards-Based Universal GPU Server
Modular by Design: Supermicro’s New Standards-Based Universal GPU ServerModular by Design: Supermicro’s New Standards-Based Universal GPU Server
Modular by Design: Supermicro’s New Standards-Based Universal GPU Server
 
Supermicro Servers with Micron DDR5 & SSDs: Accelerating Real World Workloads
Supermicro Servers with Micron DDR5 & SSDs: Accelerating Real World WorkloadsSupermicro Servers with Micron DDR5 & SSDs: Accelerating Real World Workloads
Supermicro Servers with Micron DDR5 & SSDs: Accelerating Real World Workloads
 
Webinar "Introduction to OpenStack"
Webinar "Introduction to OpenStack"Webinar "Introduction to OpenStack"
Webinar "Introduction to OpenStack"
 
Accelerating Innovation from Edge to Cloud
Accelerating Innovation from Edge to CloudAccelerating Innovation from Edge to Cloud
Accelerating Innovation from Edge to Cloud
 
X13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance View
X13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance ViewX13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance View
X13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance View
 
한컴MDS_NVIDIA Jetson Platform
한컴MDS_NVIDIA Jetson Platform한컴MDS_NVIDIA Jetson Platform
한컴MDS_NVIDIA Jetson Platform
 
Nutanix Technology Bootcamp
Nutanix Technology BootcampNutanix Technology Bootcamp
Nutanix Technology Bootcamp
 
Hybrid cloud overview and VCF on VxRAIL
Hybrid cloud overview and VCF on VxRAILHybrid cloud overview and VCF on VxRAIL
Hybrid cloud overview and VCF on VxRAIL
 
Developing for polar fire soc
Developing for polar fire socDeveloping for polar fire soc
Developing for polar fire soc
 

Similaire à X13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance View

3. ami big data hadoop on ucs seminar may 2013
3. ami big data hadoop on ucs seminar may 20133. ami big data hadoop on ucs seminar may 2013
3. ami big data hadoop on ucs seminar may 2013
Taldor Group
 

Similaire à X13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance View (20)

Evolution of Supermicro GPU Server Solution
Evolution of Supermicro GPU Server SolutionEvolution of Supermicro GPU Server Solution
Evolution of Supermicro GPU Server Solution
 
Building Efficient Edge Nodes for Content Delivery Networks
Building Efficient Edge Nodes for Content Delivery NetworksBuilding Efficient Edge Nodes for Content Delivery Networks
Building Efficient Edge Nodes for Content Delivery Networks
 
XPDS16: High-Performance Virtualization for HPC Cloud on Xen - Jun Nakajima &...
XPDS16: High-Performance Virtualization for HPC Cloud on Xen - Jun Nakajima &...XPDS16: High-Performance Virtualization for HPC Cloud on Xen - Jun Nakajima &...
XPDS16: High-Performance Virtualization for HPC Cloud on Xen - Jun Nakajima &...
 
Emerging Cloud Storage Trends for Enterprises
Emerging Cloud Storage Trends for EnterprisesEmerging Cloud Storage Trends for Enterprises
Emerging Cloud Storage Trends for Enterprises
 
Architecting for Hyper-Scale Datacenter Efficiency
Architecting for Hyper-Scale Datacenter EfficiencyArchitecting for Hyper-Scale Datacenter Efficiency
Architecting for Hyper-Scale Datacenter Efficiency
 
Red Hat Storage Day Boston - Supermicro Super Storage
Red Hat Storage Day Boston - Supermicro Super StorageRed Hat Storage Day Boston - Supermicro Super Storage
Red Hat Storage Day Boston - Supermicro Super Storage
 
Supermicro X12 Performance Update
Supermicro X12 Performance UpdateSupermicro X12 Performance Update
Supermicro X12 Performance Update
 
2U 2-Node Multi-GPU Platform Delivers Unrivaled Efficiency and Flexibility
2U 2-Node Multi-GPU Platform Delivers Unrivaled Efficiency and Flexibility2U 2-Node Multi-GPU Platform Delivers Unrivaled Efficiency and Flexibility
2U 2-Node Multi-GPU Platform Delivers Unrivaled Efficiency and Flexibility
 
Drive Data Center Efficiency with SuperBlade, Powered by AMD EPYC™ and Instinct™
Drive Data Center Efficiency with SuperBlade, Powered by AMD EPYC™ and Instinct™Drive Data Center Efficiency with SuperBlade, Powered by AMD EPYC™ and Instinct™
Drive Data Center Efficiency with SuperBlade, Powered by AMD EPYC™ and Instinct™
 
High Performance Object Storage in 30 Minutes with Supermicro and MinIO
High Performance Object Storage in 30 Minutes with Supermicro and MinIOHigh Performance Object Storage in 30 Minutes with Supermicro and MinIO
High Performance Object Storage in 30 Minutes with Supermicro and MinIO
 
The Power of One: Supermicro’s High-Performance Single-Processor Blade Systems
The Power of One: Supermicro’s High-Performance Single-Processor Blade SystemsThe Power of One: Supermicro’s High-Performance Single-Processor Blade Systems
The Power of One: Supermicro’s High-Performance Single-Processor Blade Systems
 
MWC Roundtable: Accelerating Innovation from the Intelligent Edge to Cloud
 MWC Roundtable: Accelerating Innovation from the Intelligent Edge to Cloud  MWC Roundtable: Accelerating Innovation from the Intelligent Edge to Cloud
MWC Roundtable: Accelerating Innovation from the Intelligent Edge to Cloud
 
Simplify Data Management and Go Green with Supermicro & Qumulo
Simplify Data Management and Go Green with Supermicro & QumuloSimplify Data Management and Go Green with Supermicro & Qumulo
Simplify Data Management and Go Green with Supermicro & Qumulo
 
AMD EPYC™ Microprocessor Architecture
AMD EPYC™ Microprocessor ArchitectureAMD EPYC™ Microprocessor Architecture
AMD EPYC™ Microprocessor Architecture
 
Marv Wexler - Transform Your with AI.pdf
Marv Wexler - Transform Your with AI.pdfMarv Wexler - Transform Your with AI.pdf
Marv Wexler - Transform Your with AI.pdf
 
3. ami big data hadoop on ucs seminar may 2013
3. ami big data hadoop on ucs seminar may 20133. ami big data hadoop on ucs seminar may 2013
3. ami big data hadoop on ucs seminar may 2013
 
Delivering Breakthrough Performance Per Core with AMD EPYC
Delivering Breakthrough Performance Per Core with AMD EPYCDelivering Breakthrough Performance Per Core with AMD EPYC
Delivering Breakthrough Performance Per Core with AMD EPYC
 
Fujitsu m10 server features and capabilities
Fujitsu m10 server features and capabilitiesFujitsu m10 server features and capabilities
Fujitsu m10 server features and capabilities
 
Ceph optimized Storage / Global HW solutions for SDS, David Alvarez
Ceph optimized Storage / Global HW solutions for SDS, David AlvarezCeph optimized Storage / Global HW solutions for SDS, David Alvarez
Ceph optimized Storage / Global HW solutions for SDS, David Alvarez
 
Delivering Breakthrough Performance Per Core with AMD EPYC
Delivering Breakthrough Performance Per Core with AMD EPYCDelivering Breakthrough Performance Per Core with AMD EPYC
Delivering Breakthrough Performance Per Core with AMD EPYC
 

Plus de Rebekah Rodriguez

Tackling Retail Technology Management Challenges at the Edge
Tackling Retail Technology Management Challenges at the EdgeTackling Retail Technology Management Challenges at the Edge
Tackling Retail Technology Management Challenges at the Edge
Rebekah Rodriguez
 
Consumption Based On-Demand Private Cloud in a Box
Consumption Based On-Demand Private Cloud in a BoxConsumption Based On-Demand Private Cloud in a Box
Consumption Based On-Demand Private Cloud in a Box
Rebekah Rodriguez
 

Plus de Rebekah Rodriguez (9)

Supermicro and The Green Grid (TGG)
Supermicro and The Green Grid (TGG)Supermicro and The Green Grid (TGG)
Supermicro and The Green Grid (TGG)
 
Zero Trust for Private 5G and Edge
Zero Trust for Private 5G and EdgeZero Trust for Private 5G and Edge
Zero Trust for Private 5G and Edge
 
Benefits of Operating an On-Premises Infrastructure
Benefits of Operating an On-Premises InfrastructureBenefits of Operating an On-Premises Infrastructure
Benefits of Operating an On-Premises Infrastructure
 
Supermicro’s Universal GPU: Modular, Standards Based and Built for the Future
Supermicro’s Universal GPU: Modular, Standards Based and Built for the FutureSupermicro’s Universal GPU: Modular, Standards Based and Built for the Future
Supermicro’s Universal GPU: Modular, Standards Based and Built for the Future
 
Tackling Retail Technology Management Challenges at the Edge
Tackling Retail Technology Management Challenges at the EdgeTackling Retail Technology Management Challenges at the Edge
Tackling Retail Technology Management Challenges at the Edge
 
Optimize Content Delivery with Multi-Access Edge Computing
Optimize Content Delivery with Multi-Access Edge ComputingOptimize Content Delivery with Multi-Access Edge Computing
Optimize Content Delivery with Multi-Access Edge Computing
 
High-Density Top-Loading Storage for Cloud Scale Applications
High-Density Top-Loading Storage for Cloud Scale Applications High-Density Top-Loading Storage for Cloud Scale Applications
High-Density Top-Loading Storage for Cloud Scale Applications
 
Consumption Based On-Demand Private Cloud in a Box
Consumption Based On-Demand Private Cloud in a BoxConsumption Based On-Demand Private Cloud in a Box
Consumption Based On-Demand Private Cloud in a Box
 
Rack Cluster Deployment for SDSC Supercomputer
Rack Cluster Deployment for SDSC SupercomputerRack Cluster Deployment for SDSC Supercomputer
Rack Cluster Deployment for SDSC Supercomputer
 

Dernier

Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...
Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...
Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...
panagenda
 
Breaking Down the Flutterwave Scandal What You Need to Know.pdf
Breaking Down the Flutterwave Scandal What You Need to Know.pdfBreaking Down the Flutterwave Scandal What You Need to Know.pdf
Breaking Down the Flutterwave Scandal What You Need to Know.pdf
UK Journal
 

Dernier (20)

State of the Smart Building Startup Landscape 2024!
State of the Smart Building Startup Landscape 2024!State of the Smart Building Startup Landscape 2024!
State of the Smart Building Startup Landscape 2024!
 
The Value of Certifying Products for FDO _ Paul at FIDO Alliance.pdf
The Value of Certifying Products for FDO _ Paul at FIDO Alliance.pdfThe Value of Certifying Products for FDO _ Paul at FIDO Alliance.pdf
The Value of Certifying Products for FDO _ Paul at FIDO Alliance.pdf
 
Extensible Python: Robustness through Addition - PyCon 2024
Extensible Python: Robustness through Addition - PyCon 2024Extensible Python: Robustness through Addition - PyCon 2024
Extensible Python: Robustness through Addition - PyCon 2024
 
Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...
Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...
Easier, Faster, and More Powerful – Alles Neu macht der Mai -Wir durchleuchte...
 
Long journey of Ruby Standard library at RubyKaigi 2024
Long journey of Ruby Standard library at RubyKaigi 2024Long journey of Ruby Standard library at RubyKaigi 2024
Long journey of Ruby Standard library at RubyKaigi 2024
 
Using IESVE for Room Loads Analysis - UK & Ireland
Using IESVE for Room Loads Analysis - UK & IrelandUsing IESVE for Room Loads Analysis - UK & Ireland
Using IESVE for Room Loads Analysis - UK & Ireland
 
BT & Neo4j _ How Knowledge Graphs help BT deliver Digital Transformation.pptx
BT & Neo4j _ How Knowledge Graphs help BT deliver Digital Transformation.pptxBT & Neo4j _ How Knowledge Graphs help BT deliver Digital Transformation.pptx
BT & Neo4j _ How Knowledge Graphs help BT deliver Digital Transformation.pptx
 
Powerful Start- the Key to Project Success, Barbara Laskowska
Powerful Start- the Key to Project Success, Barbara LaskowskaPowerful Start- the Key to Project Success, Barbara Laskowska
Powerful Start- the Key to Project Success, Barbara Laskowska
 
Working together SRE & Platform Engineering
Working together SRE & Platform EngineeringWorking together SRE & Platform Engineering
Working together SRE & Platform Engineering
 
TopCryptoSupers 12thReport OrionX May2024
TopCryptoSupers 12thReport OrionX May2024TopCryptoSupers 12thReport OrionX May2024
TopCryptoSupers 12thReport OrionX May2024
 
Continuing Bonds Through AI: A Hermeneutic Reflection on Thanabots
Continuing Bonds Through AI: A Hermeneutic Reflection on ThanabotsContinuing Bonds Through AI: A Hermeneutic Reflection on Thanabots
Continuing Bonds Through AI: A Hermeneutic Reflection on Thanabots
 
How Red Hat Uses FDO in Device Lifecycle _ Costin and Vitaliy at Red Hat.pdf
How Red Hat Uses FDO in Device Lifecycle _ Costin and Vitaliy at Red Hat.pdfHow Red Hat Uses FDO in Device Lifecycle _ Costin and Vitaliy at Red Hat.pdf
How Red Hat Uses FDO in Device Lifecycle _ Costin and Vitaliy at Red Hat.pdf
 
PLAI - Acceleration Program for Generative A.I. Startups
PLAI - Acceleration Program for Generative A.I. StartupsPLAI - Acceleration Program for Generative A.I. Startups
PLAI - Acceleration Program for Generative A.I. Startups
 
Breaking Down the Flutterwave Scandal What You Need to Know.pdf
Breaking Down the Flutterwave Scandal What You Need to Know.pdfBreaking Down the Flutterwave Scandal What You Need to Know.pdf
Breaking Down the Flutterwave Scandal What You Need to Know.pdf
 
AI mind or machine power point presentation
AI mind or machine power point presentationAI mind or machine power point presentation
AI mind or machine power point presentation
 
Your enemies use GenAI too - staying ahead of fraud with Neo4j
Your enemies use GenAI too - staying ahead of fraud with Neo4jYour enemies use GenAI too - staying ahead of fraud with Neo4j
Your enemies use GenAI too - staying ahead of fraud with Neo4j
 
Easier, Faster, and More Powerful – Notes Document Properties Reimagined
Easier, Faster, and More Powerful – Notes Document Properties ReimaginedEasier, Faster, and More Powerful – Notes Document Properties Reimagined
Easier, Faster, and More Powerful – Notes Document Properties Reimagined
 
The Metaverse: Are We There Yet?
The  Metaverse:    Are   We  There  Yet?The  Metaverse:    Are   We  There  Yet?
The Metaverse: Are We There Yet?
 
How we scaled to 80K users by doing nothing!.pdf
How we scaled to 80K users by doing nothing!.pdfHow we scaled to 80K users by doing nothing!.pdf
How we scaled to 80K users by doing nothing!.pdf
 
FDO for Camera, Sensor and Networking Device – Commercial Solutions from VinC...
FDO for Camera, Sensor and Networking Device – Commercial Solutions from VinC...FDO for Camera, Sensor and Networking Device – Commercial Solutions from VinC...
FDO for Camera, Sensor and Networking Device – Commercial Solutions from VinC...
 

X13 Products + Intel® Xeon® CPU Max Series–An Applications & Performance View

  • 1. X13 Products + Intel® Xeon® CPU Max Series An Applications & Performance View Andree Jacobson, Supermicro Mark Kachmarek, Intel Jan 26, 2023 Better Faster Greener™ © 2023 Supermicro
  • 2. Speakers 1/26/23 Better Faster Greener™ © 2023 Supermicro 2 Andree Jacobson Andree is Director of Technology Enablement at Supermicro. He is focused on Intel’s advanced architectures and the server lines that support them. He is passionate about High Performance Computing, Liquid Cooling, Datacenters, and anything else that enables denser and more green computing. Andree has 16+ years of HPC, systems, and management experience and in industry, non-profits, and academia. Mark Kachmarek Mark is the Director of Product Management for the Xeon product line in Intel’s Accelerated Computing Systems and Graphics Group, responsible for developing the strategy, requirements, roadmap and marketing for the Intel® Xeon® products for High Performance Computing. He has 30+ years’ experience in the semiconductor industry, having held various engineering and management positions domestically and internationally. Mark has several publications on strategy and business value and a patent related to power management technology.
  • 3. Supermicro X13 Server Platforms 1/26/23 Better Faster Greener™ © 2023 Supermicro 3 • With the Jan 10 launch of Intel® Xeon® Scalable Processors Max Series – Supermicro in turn has launched a matching 50 products over 15 product lines to match our customer’s needs – http://www.supermicro.com/en/products/x13 • Many systems are ready to ship today!
  • 4. 1/26/23 Better Faster Greener™ © 2023 Supermicro 4 Intel® Xeon® CPU Max Series
  • 5. 1/26/23 Better Faster Greener™ © 2023 Supermicro 5 “The growth of HPC and AI compute performance over the last decade and is becoming a in speed up of many workloads.” Earl Joseph CEO Hyperion Research 0 50 100 150 Mem BW / Core 2013 2014 2016 2017 2019 2021 Core Performance
  • 6. 1/26/23 Better Faster Greener™ © 2023 Supermicro 6
  • 7. 1/26/23 Better Faster Greener™ © 2023 Supermicro 7
  • 8. 1/26/23 Better Faster Greener™ © 2023 Supermicro 8
  • 9. 1/26/23 Better Faster Greener™ © 2023 Supermicro 9
  • 10. 1/26/23 Better Faster Greener™ © 2023 Supermicro 10
  • 11. 1/26/23 Better Faster Greener™ © 2023 Supermicro 11
  • 12. 1/26/23 Better Faster Greener™ © 2023 Supermicro 12
  • 13. 1/26/23 Better Faster Greener™ © 2023 Supermicro 13
  • 14. Supermicro X13 Hyper Platform 1/26/23 Better Faster Greener™ © 2023 Supermicro 14 Features • Flagship Performance in 1/2U • Dual socket 350W Xeon Max CPU • 32 DIMM slots (up to 8TB DDR5) • Up to 4x PCIe 5.0 x16 FH • Dual 1200W Power Target Applications • High density datacenters • Maximum flexibility for I/O, Acceleration, and Storage • Virtualization, Cloud, and Database • Hyperconverged Infrastructure • HPC clusters
  • 15. Supermicro X13 BigTwin® Platform 1/26/23 Better Faster Greener™ © 2023 Supermicro 15 Features • Energy efficient multi-node solution • 2U / 4 Node or 2U / 2 Node option • Dual socket Xeon Max CPU • 16 DIMM slots (up to 4TB DDR5) • AIOM Networking (200GBps) • 2x 3000W or 2x 2200W Power Target Applications • High density datacenters • Up to 8x 350W Xeon Max CPUs in 2U with liquid cooling • Virtualization, Cloud, and Database • Hyperconverged Infrastructure • HPC clusters
  • 16. Supermicro X13 GrandTwin® Platform 1/26/23 Better Faster Greener™ © 2023 Supermicro 16 Features • Optimized single socket multi-node • Single socket Xeon Max CPU • 16 DIMM slots (up to 4TB DDR5) • 2x PCIe 5.0 x16 AIOM slots • 2x 2200W Power Target Applications • Mission critical, High node count • HPC • Web applications • EDA Workloads • Edge computing • Cloud gaming • Multi-purpose CDN
  • 17. Supermicro X13 SuperBlade® Platform 1/26/23 Better Faster Greener™ © 2023 Supermicro 17 Features (SBE-820) • Highest density CPU • 20 nodes in 8U • Dual socket CPU • 16 DIMM slots (4TB) • AIOM PCIe 5.0 x16 • Built-in Switching • 8x 3000W PSU Target Applications • Maximum CPU density • Shared infrastructure • Maximum configurability • SBE-820: HH-SW, HH-DW, FH-SW blade options • SBE-610: FH-SW, FH-DW • Mixed configs supported Features (SBE-610) • High density CPU • 10 nodes in 6U • Dual socket CPU • Single socket + DW GPU • 32 DIMM slots (8TB) • Built-in Switching • 8x 3000W PSU
  • 18. Broad Range of Servers – X13 Platform 1/26/23 Better Faster Greener™ © 2023 Supermicro 18 Intel Xeon Max CPU Optimized Platforms Intel Xeon Max CPU + GPU Optimized Platforms Hyper 2U 8U SuperBlade 6U SuperBlade BigTwin 2U 2-Node GrandTwin 2U 4-Node 4/5U 10-GPU 8U 8-GPU (OAM) 4U 4-GPU 4/5U Universal 4-GPU
  • 19. Applications and Performance Perspective 1/26/23 Better Faster Greener™ © 2023 Supermicro 19 Supermicro’s X13 Server product lines bring several key advantages when equipped with Intel® Xeon® Max Scalable Processors • Very few – if any – required code changes • HBM Memory drastically increase memory throughput • Built-in offload acceleration engines • Intel® Advanced Matrix Extensions (AMX) • Intel® Data Streaming Accelerator (DSA) • Intel® vRAN Boost Deep learning Data movement HPC 5G / Edge
  • 20. 1/26/23 Better Faster Greener™ © 2023 Supermicro 20
  • 21. 1/26/23 Better Faster Greener™ © 2023 Supermicro 21
  • 22. Perhaps a more practical approach… 1/26/23 Better Faster Greener™ © 2023 Supermicro 22 • It’s great to see these numbers in graphs… • Let’s see if there’s something to them in reality too
  • 23. System / CPU Architecture (SYS-221H-TNR) 1/26/23 Better Faster Greener™ © 2023 Supermicro 23 2x Intel® Xeon® CPU Max 9468 @ 2.1 GHz, 512GB DDR5 (16x 32GB)
  • 24. System / CPU Architecture (SYS-420GH-TNGR) 1/26/23 Better Faster Greener™ © 2023 Supermicro 24 2x Intel® Xeon® Gold 6330 @ 2 GHz, 1024GB DDR4 (16x 64GB)
  • 25. Demo / Results 1/26/23 Better Faster Greener™ © 2023 Supermicro 25 Two test systems Benchmark / CPU Intel® Xeon® Gold 6330 Intel® Xeon® CPU Max 9468 Diff STREAM Triad1 (GB/s) 281 1076 3.8x HPCG2 (GFLOP/s) 47 201 4.3x 1) STREAM (OneAPI 2023 Intel compiler Suite) Compiler options: -DNTIMES=100 -DOFFSET=0 -DSTREAM_TYPE=double -DSTREAM_ARRAY_SIZE=268435456 -Wall -O3 -mcmodel=medium -qopenmp -shared-intel -qopt-streaming-stores=always -xCORE-AVX512 -qopt-zmm-usage=high Runtime env: OMP_NUM_THREADS=56 KMP_AFFINITY=granularity=fine,compact,1,0 ./stream_icx.exe (Gold 6330, Single socket) Runtime env: OMP_NUM_THREADS=96 KMP_AFFINITY=granularity=fine,compact,1,0 ./stream_icx.exe (CPU Max 9468, Single socket) 2) HPCG – Precompiled Intel MKL benchmark binary xhpcg_skx Runtime env: mpiexec.hydra -n 4 env OMP_NUM_THREADS=28 KMP_AFFINITY=granularity=fine,compact,0,1 ./bin/xhpcg_skx -n 160 -t 60 (Gold 6330) Runtime env: mpiexec.hydra -n 8 env OMP_NUM_THREADS=24 KMP_AFFINITY=granularity=fine,compact,1,0 ./bin/xhpcg_skx -n 192 –t 60 (CPU Max 9468)
  • 26. 20x SYS-221H-TNR • Aircooled, Medium density A full rack of equipement 1/26/23 Better Faster Greener™ © 2023 Supermicro 26 40U 2.5 TB HBM2e 160 TB DDR5 < 24 kW POWER 40x Xeon Max CPU Series (1920 cores) CPU MEMORY
  • 27. Incredible Density! 1/26/23 Better Faster Greener™ © 2023 Supermicro 27 Five 8U 20-node SuperBlade Chassis • Liquid cooled, Maximum Density • Mostly fictional, though… • 4x chassis, with Supermicro’s 80kW CDU is doable. 40U 12.5 TB HBM2e 400 TB DDR5 < 120 kW POWER 200x Xeon Max CPU Series (11,200 cores) CPU MEMORY
  • 28. Summary 1/26/23 Better Faster Greener™ © 2023 Supermicro 28 • New Intel® Xeon® Scalable Processors Max Series provides the highest memory bandwidth of any CPU on the market today. • Supermicro X13 Servers are first-to-market to support the new CPU line-up • Many HPC Applications greatly benefit from the increased memory throughput enabled by on-chip HBM • Average performance increase (without code changes) upward of 2x (often more, and often with just a re-compilation). • If you need HPC, look no further. Supermicro X13 Servers, with Intel® Xeon® Max Series CPUs can provide the performance you need in the most power efficient envelope that fits your green computing strategies.
  • 29. Questions & Answers 1/26/23 Better Faster Greener™ © 2023 Supermicro 29
  • 30. DISCLAIMER Super Micro Computer, Inc. may make changes to specifications and product descriptions at any time, without notice. The information presented in this document is for informational purposes only and may contain technical inaccuracies, omissions and typographical errors. Any performance tests and ratings are measured using systems that reflect the approximate performance of Super Micro Computer, Inc. products as measured by those tests. Any differences in software or hardware configuration may affect actual performance, and Super Micro Computer, Inc. does not control the design or implementation of third party benchmarks or websites referenced in this document. The information contained herein is subject to change and may be rendered inaccurate for many reasons, including but not limited to any changes in product and/or roadmap, component and hardware revision changes, new model and/or product releases, software changes, firmware changes, or the like. Super Micro Computer, Inc. assumes no obligation to update or otherwise correct or revise this information. SUPER MICRO COMPUTER, INC. MAKES NO REPRESENTATIONS OR WARRANTIES WITH RESPECT TO THE CONTENTS HEREOF AND ASSUMES NO RESPONSIBILITY FOR ANY INACCURACIES, ERRORS OR OMISSIONS THAT MAY APPEAR IN THIS INFORMATION. SUPER MICRO COMPUTER, INC. SPECIFICALLY DISCLAIMS ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. IN NO EVENT WILL SUPER MICRO COMPUTER, INC. BE LIABLE TO ANY PERSON FOR ANY DIRECT, INDIRECT, SPECIAL OR OTHER CONSEQUENTIAL DAMAGES ARISING FROM THE USE OF ANY INFORMATION CONTAINED HEREIN, EVEN IF SUPER MICRO COMPUTER, Inc. IS EXPRESSLY ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. ATTRIBUTION © 2023 Super Micro Computer, Inc. All rights reserved. 1/26/23 Better Faster Greener™ © 2023 Supermicro 30
  • 31. 1/26/23 Better Faster Greener™ © 2023 Supermicro 31
  • 32. Configuration Details (1 of 7) HPCG • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, HPCG from MKL_v2022.1.0 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, DDR5 Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Ubuntu 22.04.1 LTS, Linux version 5.15.0-50-generic, HPCG from MKL_v2022.1.0 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, HPCG from MKL_v2022.1.0 HPL • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, HPL from MKL_v2022.1.0, 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, DDR5 Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Ubuntu 22.04.1 LTS, Linux version 5.15.0-50-generic, HPL from MKL_v2022.1.0 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, HPL from MKL_v2022.1.0 Stream Triad • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Stream v5.10 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Stream v5.10 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Stream v5.10 MPAS-A (MPAS-A V7.3 60-km dynamical core) • Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, MPAS-A V7.3 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-O3 -march=core-avx2 -convert big_endian -free -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, MPAS-A V7.3 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, MPAS-A V7.3 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-O3 -march=core-avx2 -convert big_endian -free -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, MPAS-A V7.3 • Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/22. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, MPAS-A V7.3 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-O3 -march=core- avx2 -convert big_endian -free -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, MPAS-A V7.3
  • 33. Configuration Details (2 of 7) NEMO (GYRE_PISCES_25, BENCH ORCA-1) • Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, NEMO v4.2 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags ”-i4 -r8 -O3 -fno-alias -march=core- avx2 -fp-model fast=2 -no-prec-div -no-prec-sqrt -align array64byte -fimf-use-svml=true” • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, NEMO v4.2 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-i4 -r8 -O3 -fno-alias -march=core-avx2 -fp-model fast=2 -no-prec-div -no-prec-sqrt -align array64byte -fimf-use-svml=true”. • Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, NEMO v4.2 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-i4 -r8 -O3 -fno-alias - march=core-avx2 -fp-model fast=2 -no-prec-div -no-prec-sqrt -align array64byte -fimf-use-svml=true” ROMS (benchmark3 (2048x256x30), benchmark3 (8192x256x30)) • Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, ROMS V4 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-ip -O3 -heap-arrays -xCORE-AVX512 -qopt-zmm-usage=high -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, ROMS V4 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, ROMS V4 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-ip -O3 -heap-arrays -xCORE-AVX512 -qopt-zmm-usage=high -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, ROMS V4 • Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, ROMS V4 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-ip -O3 -heap-arrays - xCORE-AVX512 -qopt-zmm-usage=high -align array64byte -fimf-use-svml=true -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low”, ROMS V4 WRF (CONUS 2.5KM) • Intel® Xeon® 8380: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, WRF v3.9.1.1 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags ”-ip -O3 -xCORE-AVX512 -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low -w -ftz -align array64byte -fno-alias -fimf-use-svml=true -inline-max-size=12000 -inline-max-total-size=30000 -vec-threshold0 -qno-opt-dynamic-align ” • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 4th Gen Intel® Xeon® Scalable Processor, HT On, Turbo On, NUMA configuration SNC4, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, WRF v3.9.1.1 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags “-ip -O3 -xCORE-AVX512 -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low -w -ftz -align array64byte -fno-alias -fimf-use-svml=true -inline-max-size=12000 -inline-max-total-size=30000 -vec-threshold0 -qno-opt-dynamic- align ”. • Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, WRF v3.9.1.1 build with Intel® Fortran Compiler Classic and Intel® MPI from 2022.3 Intel® oneAPI HPC Toolkit with compiler flags ”-ip -O3 -xCORE- AVX512 -fp-model fast=2 -no-prec-div -no-prec-sqrt -fimf-precision=low -w -ftz -align array64byte -fno-alias -fimf-use-svml=true -inline-max-size=12000 -inline-max-total-size=30000 -vec-threshold0 -qno-opt-dynamic-align ”
  • 34. Configuration Details (3 of 7) YASK (Anelsatic Wave Propagation, ISO3DFD, Standard Staggered Grid) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, YASK v3.05.07 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode revision=0xaa0000a0, CentOS Stream 8, Linux version 4.18.0-365.el8.x86_64, YASK v3.05.07 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, YASK v3.05.07 FSI Kernels (Binomial Options, Black Scholes, Monte Carlo) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Binomial Options v1.1, Black Scholes v1.4, Monte Carlo v1.2 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Binomial Options v1.1, Black Scholes v1.4, Monte Carlo v1.2 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Binomial Options v1.1, Black Scholes v1.4, Monte Carlo v1.2 DeePMD (Multi-Instance Training) • Intel® Xeon® 8380: Test by Intel as of 10/20/2022. 1-node, 2x Intel® Xeon® 8380 processor, Total Memory 256 GB, kernel 4.18.0-372.26.1.eI8_6.crt1.x86_64, compiler gcc (GCC) 8.5.0 20210514 (Red Hat 8.5.0-10), https://github.com/deepmodeling/deepmd-kit, Tensorflow 2.9, Horovod 0.24.0, oneCCL-2021.5.2, Python 3.9 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® 8480+, Total Memory 512 GB, kernel 4.18.0-365.eI8_3x86_64, compiler gcc (GCC) 8.5.0 20210514(Red Hat 8.5.0-10), https://github.com/deepmodeling/deepmd-kit, Tensorflow 2.9, Horovod 0.24.0, oneCCL-2021.5.2, Python 3.9 • Intel® Xeon® CPU Max Series: Test by Intel as of 10/12/2022. 1-node, 2x Intel® Xeon® Max 9480, Total Memory 128 GB (HBM2e at 3200 MHz), kernel 5.19.0-rc6.0712.intel_next.1.x86_64+server, compiler gcc (GCC) 8.5.0 20210514 (Red Hat 8.5.0-13), https://github.com/deepmodeling/deepmd-kit, Tensorflow 2.9, Horovod 0.24.0, oneCCL-2021.5.2, Python 3.9 GROMACS (benchMEM​, benchPEP​, benchPEP-h, benchRIB​, hecbiosim-3m​, hecbiosim-465k​, hecbiosim-61k​, ion_channel_pme_large​, lignocellulose_rf_large​, rnase_cubic​, stmv​, water1.5M_pme_large​, water1.5M_rf_large) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Converge GROMACS v2021.4_SP • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, GROMACS v2021.4_SP • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, GROMACS v2021.4_SP
  • 35. Configuration Details (4 of 7) LAMMPS (Atomic Fluid, Copper, DPD, Liquid_crystal, Polyethylene, Protein, Stillinger-Weber, Tersoff, Water) • Intel® Xeon® 8380: Test by Intel as of 10/11/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LAMMPS v2021-09-29 cmkl:2022.1.0, icc:2021.6.0, impi:2021.6.0, tbb:2021.6.0; threads/core:; Turbo:on; BuildKnobs:-O3 -ip -xCORE-AVX512 -g -debug inline- debug-info -qopt-zmm-usage=high; • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 9/29/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LAMMPS v2021-09-29 cmkl:2022.1.0, icc:2021.6.0, impi:2021.6.0, tbb:2021.6.0; threads/core:; Turbo:off; BuildKnobs:-O3 -ip -xCORE-AVX512 -g -debug inline- debug-info -qopt-zmm-usage=high; • Intel® Xeon® CPU Max Series: Test by Intel as of 9/29/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, LAMMPS v2021-09-29cmkl:2022.1.0, icc:2021.6.0, impi:2021.6.0, tbb:2021.6.0; threads/core:; Turbo:off; BuildKnobs:-O3 -ip -xCORE-AVX512 -g -debug inline-debug-info -qopt-zmm-usage=high; Quantum Espresso (AUSURF112, Water_EXX) • Intel® Xeon® 8380: Test by Intel as of 9/30/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0- 372.26.1.el8_6.crt1.x86_64, Quantum Espresso 7.0, AUSURF112, Water_EXX • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), ucode revision= 0x90000c0, Rocky Linux 8.6, Linux version 4.18.0- 372.26.1.el8_6.crt1.x86_64, Quantum Espresso 7.0, AUSURF112, Water_EXX • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0- rc6.0712.intel_next.1.x86_64+server, Quantum Espresso 7.0, AUSURF112, Water_EXX VASP (CuC, Si, PdO4, PdO4_k221) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, VASP6.3.2 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, VASP6.3.2 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, VASP6.3.2 Altair AcuSolve (HQ Model) • Intel® Xeon® 8380: Test by Intel as of 09/28/2022. 1-node, 2x Intel® Xeon® 8380, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0- 372.19.1.el8_6.crt1.x86_64, Altair AcuSolve 2021R2 • Intel® Xeon® 6346: Test by Intel as of 10/08/2022. 4-nodes connected via HDR-200, 2x Intel® Xeon® 6346, 16 cores, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0-372.19.1.el8_6.crt1.x86_64, Altair AcuSolve 2021R2 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 09/28/2022. 1-node, 2x Intel® Xeon® 8480+, HT ON, Turbo ON, SNC4, Total Memory 512 GB, BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS Stream 8, kernel version 4.18.0-365.el8.x86_64, Altair AcuSove 2021R2 • Intel® Xeon® CPU Max Series: Test by Intel as of 10/03/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode 2c000020, CentOS Stream 8, kernel version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Altair AcuSolve 2021R2
  • 36. Configuration Details (5 of 7) Altair RADIOSS (Neon1M @ 80 ms) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Altair RADIOSS 2022.2, Intel MPI 2021.7 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Altair RADIOSS 2022.2, Intel MPI 2021.7 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Altair RADIOSS 2022.2, Intel MPI 2021.7 Ansys Fluent (pump_2m, sedan_4m, rotor_3m, aircraft_wing_14m, combustor_12m, exhaust_system_33m) • Intel® Xeon® 8380: Test by Intel as of 08/24/2022. 1-node, 2x Intel® Xeon® 8380, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0- 372.19.1.el8_6.crt1.x86_64, Ansys Fluent 2022R1 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 09/02/2022. 1-node, 2x Intel® Xeon® 8480+, HT ON, Turbo ON, SNC4, Total Memory 512 GB, BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS Stream 8, kernel version 4.18.0-365.el8.x86_64, Ansys Fluent 2022R1 • Intel® Xeon® CPU Max Series: Test by Intel as of 08/31/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo ON, SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode 2c000020, CentOS Stream 8, kernel version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Ansys Fluent 2022R1 Ansys LS-DYNA (ODB-10M) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s DDR4), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LS-DYNA R11 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of ww41’22. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, LS-DYNA R11 • Intel® Xeon® CPU Max Series: Test by Intel as of ww36’22. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, LS-DYNA R11 Ansys Mechanical (V22iter-1, V22iter-2, V22iter-3, V22iter-4, V22direct-1, V22direct-2, V22direct-3) • Intel® Xeon® 8380: Test by Intel as of 08/24/2022. 1-node, 2x Intel® Xeon® 8380, HT ON, Turbo ON, Quad, Total Memory 256 GB, BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode 0xd000270, Rocky Linux 8.6, kernel version 4.18.0- 372.19.1.el8_6.crt1.x86_64, Ansys Mechanical 2022 R2 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 09/02/2022. 1-node, 2x Intel® Xeon® 8480+, HT ON, Turbo ON, SNC4, Total Memory 512 GB DDR5 4800 MT/s, BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS Stream 8, kernel version 4.18.0-365.el8.x86_64, Ansys Mechanical 2022 R2 • Intel® Xeon® CPU Max Series: Test by Intel as of 08/31/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo ON, SNC4, Total Memory 512 GB DDR5 4800 MT/s, 128 GB HBM in cache mode (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode 2c000020, CentOS Stream 8, kernel version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Ansys Mechanical 2022 R2
  • 37. Configuration Details (6 of 7) CONVE. RGE (SI8_engine_PFI_SAGE_transient_RAN) • Intel® Xeon® 8380: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, NUMA configuration SNC2, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C620.86B.01.01.0006.2207150335, ucode revision=0xd000375, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Converge CFD 3.0.17 • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/7/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, SNC4, Total Memory 512 GB (16x32GB 4800MT/s, DDR5), BIOS Version SE5C7411.86B.8713.D03.2209091345, ucode revision=0x2b000070, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, Converge CFD 3.0.17 • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT ON, Turbo ON, NUMA configuration SNC4, Total Memory 128 GB (HBM2e at 3200 MHz), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, Converge CFD 3.0.17 OpenFOAM (Geomean of Motorbike 20M, Motorbike 42M) • Intel® Xeon® 8380: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux 8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64, OpenFOAM 8, Motorbike 20M @ 250 iterations, Motorbike 42M @ 250 iterations • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode revision=0xaa0000a0, CentOS Stream 8, Linux version 4.18.0-365.el8.x86_64, OpenFOAM 8, Motorbike 20M @ 250 iterations, Motorbike 42M @ 250 iterations • Intel® Xeon® CPU Max Series: Test by Intel as of 9/2/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, OpenFOAM 8, Motorbike 20M @ 250 iterations, Motorbike 42M @ 250 iterations ParSeNet (SplineNet) • Intel® Xeon® 8380: Test by Intel as of 10/18/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux 8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64, ParSeNet (SplineNet), PyTorch 1.11.0, Torch-CCL 1.2.0, IPEX 1.10.0, MKL (20220804), oneDNN (v2.6.0) • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 10/18/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16x32GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode revision=0xaa0000a0, CentOS Stream 8, Linux version 4.18.0-365.el8.x86_64, ParSeNet (SplineNet), PyTorch 1.11.0, Torch-CCL 1.2.0, IPEX 1.10.0, MKL (20220804), oneDNN (v2.6.0) • Intel® Xeon® CPU Max Series: Test by Intel as of 09/12/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, ParSeNet (SplineNet), PyTorch 1.11.0, Torch-CCL 1.2.0, IPEX 1.10.0, MKL (20220804), oneDNN (v2.6.0) Siemens Simcenter Star-CCM+ (civil, HlMach10AoA10Sou, kcs_with_physics, lemans_poly_17m.amg, reactor, TurboCharger7M) • Intel® Xeon® 8380: Test by Intel as of 25-Oct-22. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux 8.6, Linux version 4.18.0-372.26.1.el8_6.crt1.x86_64, StarCCM+ 17.04.007, reactor 9m @ 20 iterations, lemans_poly_17m @ 20 iterations, civil 20m @ 20 iterations, TurboCharger7M @ 20 iterations, HlMach10AoA10Sou 6.4m @ 20 iterations, kcs_with_physics 3m @ 20 iterations • 4th Gen Intel® Xeon® Scalable Processor: Test by Intel as of 14-Sep-22. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 1024 GB (16x64GB 4800MT/s, Dual-Rank), BIOS Version EGSDCRB1.86B.0083.D22.2206290535, ucode revision=0xaa000090, CentOS Stream 8, Linux version 4.18.0-394.el8.x86_64, StarCCM+ 17.04.007, reactor 9m @ 20 iterations, lemans_poly_17m @ 20 iterations, civil 20m @ 20 iterations, TurboCharger7M @ 20 iterations, HlMach10AoA10Sou 6.4m @ 20 iterations, kcs_with_physics 3m @ 20 iterations • Intel® Xeon® CPU Max Series: Test by Intel as of 14-Sep-22. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, SNC4, Total Memory 128 GB (8x16GB HBM2 3200MT/s), BIOS Version SE5C7411.86B.8424.D03.2208100444, ucode revision=0x2c000020, CentOS Stream 8, Linux version 5.19.0-rc6.0712.intel_next.1.x86_64+server, StarCCM+ 17.04.007, reactor 9m @ 20 iterations, lemans_poly_17m @ 20 iterations, civil 20m @ 20 iterations, TurboCharger7M @ 20 iterations, HlMach10AoA10Sou 6.4m @ 20 iterations, kcs_with_physics 3m @ 20 iterations This offering is not approved or endorsed by OpenCFD Limited, producer and distributor of the OpenFOAM software via www.openfoam.com, and owner of the OPENFOAM® and
  • 38. Configuration Details (7 of 7) CosmoFlow (training on 8192 image batches) • Intel® Xeon® 8380: Test by Intel as of 06/07/2022. 1-node, 2x Intel® Xeon® 8380, 40 cores, HT On, Turbo On, Total Memory 512 GB (16 slots/ 32 GB/ 3200 MHz, DDR4), BIOS SE5C6200.86B.0022.D64.2105220049, ucode 0xd0002b1, OS Red Hat Enterprise Linux 8.5 (Ootpa), kernel 4.18.0-348.7.1.el8_5.x86_64, https://github.com/mlcommons/hpc/tree/main/cosmoflow, AVX-512, FP32, Tensorflow 2.9.0, horovod 0.23.0, keras 2.6.0, oneCCL-2021.4, oneAPI MPI 2021.4.0, ppn=8, LBS=16, ~25GB data, 16 epochs, Python 3.8 • 4th Gen Intel® Xeon® Scalable Processor (AMX BF16): Test by Intel as of 10/18/2022. 1-node, 2x Intel® Xeon® 8480+, HT On, Turbo On, Total Memory 512 GB (16 slots/ 32 GB/ 4800 MHz, DDR5), BIOS EGSDCRB1.86B.0083.D22.2206290535, ucode 0xaa0000a0, CentOS Stream 8, kernel 4.18.0-365.el8.x86_64, https://github.com/mlcommons/hpc/tree/main/cosmoflow, AMX, BF16, Tensorflow 2.9.1, horovod 0.24.3, keras 2.9.0.dev2022021708, oneCCL 2021.5, ppn=8, LBS=16, ~25GB data, 16 epochs, Python 3.8 • Intel® Xeon® Processor Max Series HBM (AMX BF16): Test by Intel as of 10/18/2022. 1 -node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 HBM and 512 GB DDR (16 slots/ 32 GB/ 4800 MHz), BIOS SE5C7411.86B.8424.D03.2208100444, ucode 0x2c000020, CentOS Stream 8, kernel 5.19.0-rc6.0712.intel_next.1.x86_64+server, https://github.com/mlcommons/hpc/tree/main/cosmoflow, AMX, BF16, TensorFlow 2.9.1, horovod 0.24.0, keras 2.9.0.dev2022021708, oneCCL 2021.5, ppn=8, LBS=16, ~25GB data, 16 epochs, Python 3.9 LAMMPS (Liquid Crystal) – Intel® Data Center GPU Max Series • Intel® Xeon® 8380: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® 8380 CPU, HT On, Turbo On, Total Memory 256 GB (16x16GB 3200MT/s, Dual-Rank), BIOS Version SE5C6200.86B.0020.P23.2103261309, ucode revision=0xd000270, Rocky Linux 8.6, Linux version 4.18.0-372.19.1.el8_6.crt1.x86_64 • Intel® Xeon® CPU Max Series HBM: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 GB HBM2e, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0 • Intel® Data Center GPU Max Series with DDR Host: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 1024 GB DDR5-4800 + 128 GB HBM2e, Memory Mode: Flat, HBM2e not used, 6x Intel® Data Center GPU Max Series, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, Agama pvc-prq-54, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0 • Intel® Data Center GPU Max Series with HBM Host: Test by Intel as of 10/28/2022. 1-node, 2x Intel® Xeon® Max 9480, HT On, Turbo On, Total Memory 128 GB HBM2e, 6x Intel® Data Center GPU Max Series, BIOS EGSDCRB1.DWR.0085.D12.2207281916, ucode 0xac000040, Agama pvc-prq-54, SUSE Linux Enterprise Server 15 SP3, Kernel 5.3.18, oneAPI 2022.3.0 MLPerf™ HPC-AI v0.7 Training benchmark Performance. Result not verified by MLCommons Association. Unverified results have not been through an MLPerf™ review and may use measurement methodologies and/or workload implementations that are inconsistent with the MLPerf™ specification for verified results. The MLPerf™ name and logo are trademarks of MLCommons Association in the United States and other countries. All rights reserved. Unauthorized use strictly prohibited. See www.mlcommons.org for more information