Accelerate with Xeon
February 1st, 2023
Intel® Xeon® W-3400 and Intel® Xeon® W-2400
Workstation Processors
• Performance varies by use, configuration and other factors. Learn more at www.Intel.com/PerformanceIndex
• Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available updates. See backup for
configuration details. No product or component can be absolutely secure.
• Results that are based on systems and components as well as results that have been estimated or simulated using an Intel Reference Platform
(an internal example new system), internal Intel analysis or architecture simulation or modeling are provided to you for informational purposes
only. Results may vary based on future changes to any systems, components, specifications or configurations.
• Intel technologies may require enabled hardware, software or service activation. Contact your Intel representative for the latest information
• Altering clock frequency or voltage may void any product warranties and reduce stability, security, performance, and life of the processor and
other components. Check with system and component manufacturers for details.
• Your costs and results may vary.
• © Intel Corporation. Intel, the Intel logo, and other Intel marks are trademarks of Intel Corporation or its subsidiaries. Other names and brands
may be claimed as the property of others.
Roger Chandler
VP, Client Computing Group (CCG)
General Manager of Creator and Workstation Solutions
Introducing
Mainstream Workstation
225W
Expert Workstation
350W
Intel® Xeon® W-3400 Processors
Intel® Xeon® W-2400 Processors
Intel Enabling Investment
Optimized Unique Experiences
ISV Alliance Management
Compliers and
Tool Kits
Workstation Segment
Teams / Segment
Focused Workflows
Performance
Testing
Workflow Enabling
and Testing
▪ Data Science
▪ Scientific Computing
▪ Machine Learning/Deep Learning
▪ Product Design
▪ Architectural Design
▪ Product Engineering and Analysis
▪ Product Visualization
▪ 3D Scene Creation
▪ Video Effects (VFX)
▪ Game Development
1. As of January 2023, based on overall experience enabled by unique features and impressive performance of the Intel® Xeon W processor, including in comparison to prior generation and competition's workstation
processor offerings. See intel.com/performanceindex for details. Results may vary.
Breakthrough New Compute Architecture
Designed for Professionals Creators,
Engineers, and Scientists
Latest Platform Technologies
The Ultimate
Workstation Solution
1
Intel® Xeon® W-3400 Processors
Intel® Xeon® W-2400 Processors
Processor
Cores
Processor
Memory
Platform
Intel® W790 Chipset
+28%
performance
+120%
performance
baseline
baseline
Intel® Xeon® W-3400 and Intel® Xeon® W-2400 Processors
Intel® Xeon® w9-3495X (1x56c)
2x Intel® Xeon® Gold 6258R (2x 28c) Intel® Xeon W-3275 (1x28c)
Single Thread Performance
2
SPECrate®2017_int_base (1 copy)
Multi-Tasking Performance
3
SPECrate®2017_int_base (n copy)
2. As estimated by measurements made using SPErate2017_int _base 2017 ( 1-copy) using Intel validation platform comparing Intel Xeon w9-3495X versus Intel® Xeon® W-3275
3. As estimated by measurements made using SPErate2017_int _base 2017 (n-copy) using Intel validation platform comparing Intel Xeon w9-3495X versus Intel® Xeon® W-3275
See intel.com/performanceindex for configuration details. Results may very.
Intel® Xeon® W-3400 and Intel® Xeon® W-2400 Processors
+91%
+97%
+140%
+140%
+120%
+38%
0.0
0.5
1.0
1.5
2.0
2.5
3.0
Media and Entertainment Product Development Life Sciences Financial Services Energy General Operations
Relative Performance
SPECworkstation 3.1
Intel® Xeon® W-3275 (1x28c) 2x Intel® Xeon® Gold 6258R (2x28c) Intel® Xeon® w9-3495X (1x56c)
Blender
Handbrake
Lux Render
Rodinia
WPCcfd
CalculiX
LAMMPS
NAMD
Rodinia
Monte Carlo
Black-Scholes
Binomial Options
FFTW
Convolution
SRMP
Kirchhoff Migration
Poisson
7zip
Python 3.6
Octave
4. As estimated by measurements made using SPECWorkstation3.1 using Intel validation platform comparing Intel Xeon w9-3495X versus Intel® Xeon® W-3275
See intel.com/performanceindex for configuration details. Results may very.
+12%
+24%
+10%
+131%
+123%
+89%
0.0
0.5
1.0
1.5
2.0
2.5
Adobe Premiere Pro 23.0 Adobe After Effects 22.4 Blackmagic Design DaVinci
Resolve 18.1
Maxon Cinema 4D 2023 Chaos vRay 5.01 Autodesk Maya - SPECapc
for Maya 2023
Relative Performance
Media and Entertainment Applications
Intel® Xeon® W-3275 (1x28c) 2x Intel® Xeon® Gold 6258R (2x28c) Intel® Xeon® w9-3495X (1x56c)
Intel® Xeon® W-3400 and Intel® Xeon® W-2400 Processors
5. As estimated by measurements made using Intel validation platform comparing Intel Xeon w9-3495X versus Intel® Xeon® W-3275
See intel.com/performanceindex for configuration details. Results may very.
Intel® Xeon® W-3400 and Intel® Xeon® W-2400 Processors
+36%
+25%
+20%
+42%
+74%
0.0
0.5
1.0
1.5
2.0
Autodesk Revit 2022 Autodesk AutoCAD 2023 Autodesk Inventor 2022 Dassault Systèmes
Solidworks 2022
Bentley MicroStation 10.17
Relative Performance
Engineering Applications
Intel® Xeon® W-3275 (1x28c) 2x Intel® Xeon® Gold 6258R (2x28c) Intel® Xeon® w9-3495X (1x56c)
6. As estimated by measurements made using Intel validation platform comparing Intel Xeon w9-3495X versus Intel® Xeon® W-3275.
See intel.com/performanceindex for configuration details. Results may very.
Intel® Xeon® W-3400 and Intel® Xeon® W-2400 Processors
+40%
+66%
+35%
+75%
+25%
+28%
+56%
+53%
0.0
0.5
1.0
1.5
2.0
Cholesky
N=40000
Det
N=30000
Dot
N=10000
Inv
N=25000
Lu
N=20000
Qr
N=10000
Svd
N=10000
Eig
N=10000
Relative Performance
NumPy/SciPy – Python 3.9.13
Intel® Xeon® W-3275 (1x28c) 2x Intel® Xeon® Gold 6258R (2x28c) Intel® Xeon® w9-3495X (1x56c)
7. As estimated by measurements made using Intel validation platform comparing Intel Xeon w9-3495X versus Intel® Xeon® W-3275 on NumPy/SciPy – Inv, N=25000
See intel.com/performanceindex for configuration details. Results may very.
Zac Kranich
Workstation Platform Manager
Desktop, Workstation and Channel Group
Expert
Intel® Xeon® W-3400 Processors (350W)
Mainstream
Intel® Xeon® W-2400 Processors (225W)
Mobile and Entry
H, HX-Series and S-Series (65W/125W)
Intel® Core™ Processors for Workstations*
* ECC Memory available on select CPU SKUs when paired with the W680 PCH or on the mobile HX SKU. ECC routing supported in 4L for all DDR4 andDDR5 configurations.
Brand Levels Intel® Xeon® W-2400 Processors
Up to 24 cores
Unlocked
1
Up to 16 cores
DDR5-4800
Unlocked
1
Up to 8 cores
Quad-Channel Memory
DDR5-4400
x64 Lanes of CPU PCIe Gen 5.0
Introducing
Additional features as you move up the SKU Stack
1.On Select SKUs, delineated with an “X”
x16 PCI Express 5.0
x16 PCI Express 5.0
x16 PCI Express 5.0
x16 PCI Express 5.0
Intel®
W790
Chipset
x8 DMI Gen4
USB3.2 (20G)
Intel LAN PHY
x16 PCI Express 4.0
SATA 3.0
Quad-Channel
DDR5 RIDMM
Up to 2TB
4800 MT/s
Sapphire Rapids
- 64L
Socket: LGA 4677
Memory
Introducing
x16 PCI Express 5.0
x16 PCI Express 5.0
x16 PCI Express 5.0
x16 PCI Express 5.0
Intel®
W790
Chipset
x8 DMI Gen4
USB3.2 (20G)
Intel LAN PHY
x16 PCI Express 4.0
SATA 3.0
Eight-Channel
DDR5 RIDMM
Up to 4TB
4800 MT/s
x16 PCI Express 5.0
x16 PCI Express 5.0
x16 PCI Express 5.0
Sapphire Rapids
- 112L
Socket: LGA 4677
Brand Levels Intel® Xeon® W-3400 Processors
Up to 56 cores
Unlocked
1
Up to 28 cores
Unlocked
1
Up to 16 cores
Unlocked
1
Eight-Channel Memory
x112 lanes of CPU PCIe Gen 5.0
Memory
Additional features as you move up the SKU Stack
1.On Select SKUs, delineated with an “X”
Brand Levels
Intel® Xeon® W-3400 Processors
Expert Platform – 112L PCIe Gen 5.0
Intel® Xeon® W-2400 Processors
Mainstream Platform – 64L PCIe Gen 5.0
Intel® Xeon® w7-3455 processor (24 Core)
Intel® Xeon® w7-3445 processor (20 Core)
Intel® Xeon® w5-3425 processor (12 Core)
Intel® Xeon® w7-2495X processor (24 Core)
Intel® Xeon® w7-2475X processor (20 Core)
Intel® Xeon® w5-2465X processor (16 Core)
Intel® Xeon® w5-2455X processor (12 Core)
Intel® Xeon® w5-2445 processor (10 Core)
Intel® Xeon® w3-2435 processor (8 Core)
Intel® Xeon® w3-2425 processor (6 Core)
Intel® Xeon® w3-2423 processor (6 Core)
Intel® Xeon® w5-3435X processor (16 Core)
Intel® Xeon® w7-3465X processor (28 Core)
Intel® Xeon® w9-3495X processor (56 Core)
Intel® Xeon® w9-3475X processor (36 Core)
Processor
Number
Processor
Cores /
Threads
Intel® Smart
Cache (L3)
Intel® Turbo
Boost Max
Technology 3.0
Frequency
(GHz)
Intel
®
Turbo
Boost
Technology
Maximum
Single Core
Turbo
Frequency
(GHz)
Processor
Base
Frequency
(GHz)
Unlocked
1
CPU
PCIe
Lanes
Maximum
Memory
Speed
(MT/s)
2
Memory
Channels
Maximum
Memory
Capacity
2
Processor
Base Power
(W)
Reliability,
Availability &
Serviceability
Intel Technologies
Boxed
RCP
(1Ku)Intel
vPro®
3
Intel®
ISM
3
w9-3495X 56/112 105MB 4.8 4.6 1.9 √ 112 DDR5 4800 8 4TB 350 ECC, Standard RAS √ √ $5889
w9-3475X 36/72 82.5MB 4.8 4.6 2.2 √ 112 DDR5 4800 8 4TB 300 ECC, Standard RAS √ √ √ $3739
w7-3465X 28/56 75MB 4.8 4.6 2.5 √ 112 DDR5 4800 8 4TB 300 ECC, Standard RAS √ √ √ $2889
w7-3455 24/48 67.5MB 4.8 4.6 2.5 112 DDR5 4800 8 4TB 270 ECC, Standard RAS √ √ $2489
w7-3445 20/40 52.5MB 4.8 4.6 2.6 112 DDR5 4800 8 4TB 270 ECC, Standard RAS √ √ $1989
w5-3435X 16/32 45MB 4.7 4.5 3.1 √ 112 DDR5 4800 8 4TB 270 ECC, Standard RAS √ √ √ $1589
w5-3425 12/24 30MB 4.6 4.4 3.2 112 DDR5 4800 8 4TB 270 ECC, Standard RAS √ √ $1189
Memory Support:
Intel processor numbers are not a measure of performance. Processors numbers differentiate features withing each processors family, not across different processors families.
All processors are lead-free (per EU RoHS directive July 2006) and halogen free (residual amounts of halogens are below November 2007 proposed IPC/JEDEC J-STD-709 standards).
All processors support Intel® Virtualization Technology (Intel® VT-x).
1. Unlocked features for performance tuning. See notices and disclaimers
2. Maximum memory speeds are associated with 1 DIMM per Channel (1DPC) configurations. Additional DIMM loading on any channel may impact maximum memory speed. Maximum memory capacity is achievable with 2DPC configurations.
3. All versions of the Intel vPro® platform require an eligible Intel® Core™ or Intel® Xeon® W processor, a supported operating system, Intel LAN and/or WLAN silicon, firmware enhancements, and other hardware and software necessary to deliver the manageability
use cases, security features, system performance and stability that define the platform. See intel.com/performance-vprofor details.
Processor
Number
Processor
Cores /
Threads
Intel® Smart
Cache (L3)
Intel® Turbo
Boost Max
Technology 3.0
Frequency
(GHz)
Intel
®
Turbo
Boost
Technology
Maximum
Single Core
Turbo
Frequency
(GHz)
Processor
Base
Frequency
(GHz)
Unlocked
1
CPU
PCIe
Lanes
Maximum
Memory
Speed
(MT/s)
2
Memory
Channels
Maximum
Memory
Capacity
2
Processor
Base Power
(W)
Reliability,
Availability &
Serviceability
Intel Technologies
Boxed
RCP
(1Ku)Intel
vPro®
3
Intel®
ISM
3
w7-2495X 24/48 45MB 4.8 4.6 2.5 √ 64 DDR5 4800 4 2TB 225 ECC, Standard RAS √ √ √ $2189
w7-2475X 20/40 37.5MB 4.8 4.6 2.6 √ 64 DDR5 4800 4 2TB 225 ECC, Standard RAS √ √ √ $1789
w5-2465X 16/32 33.75MB 4.7 4.5 3.1 √ 64 DDR5 4800 4 2TB 200 ECC, Standard RAS √ √ √ $1389
w5-2455X 12/24 30MB 4.6 4.4 3.2 √ 64 DDR5 4800 4 2TB 200 ECC, Standard RAS √ √ √ $1039
w5-2445 10/20 26.25MB 4.6 4.4 3.1 64 DDR5 4800 4 2TB 175 ECC, Standard RAS √ √ $839
w3-2435 8/16 22.5MB 4.5 4.3 3.1 64 DDR5 4400
4
4 2TB 165 ECC, Standard RAS √ √ $669
w3-2425 6/12 15MB 4.4 4.2 3.0 64 DDR5 4400
4
4 2TB 130 ECC, Standard RAS √ √ $529
w3-2423 6/12 15MB 4.2 4.0 2.1 64 DDR5 4400
4
4 2TB 120 ECC, Standard RAS √ √ $359
Memory Support:
Intel processor numbers are not a measure of performance. Processors numbers differentiate features withing each processors family, not across different processors families.
All processors are lead-free (per EU RoHS directive July 2006) and halogen free (residual amounts of halogens are below November 2007 proposed IPC/JEDEC J-STD-709 standards).
All processors support Intel® Virtualization Technology (Intel® VT-x).
1. Unlocked features for performance tuning. See notices and disclaimers
2. Maximum memory speeds are associated with 1 DIMM per Channel (1DPC) configurations. Additional DIMM loading on any channel may impact maximum memory speed. Maximum memory capacity is achievable with 2DPC configurations.
3. All versions of the Intel vPro® platform require an eligible Intel® Core™ or Intel® Xeon® W processor, a supported operating system, Intel LAN and/or WLAN silicon, firmware enhancements, and other hardware and software necessary to deliver the manageability
use cases, security features, system performance and stability that define the platform. See intel.com/performance-vprofor details.
4. DDR4-4400 MT/s memory speed supported with 1DPC and 2DPC configurations.
Brand
Levels
Intel® Xeon® W-3400
Processors
Intel® Xeon® W-2400
Processors
Unlocked
Processors
▪ Processor Core Tuning
▪ AVX2, AVX512 and NEW AMX Negative
Ratio Offset Tuning
▪ Mesh Tuning
▪ Intel® Turbo Boost 2.0 Frequency Tuning
▪ Intel® Turbo Boost Max Technology 3.0 Tuning
AVAILABLE ON THE FOLLOWING SKUS
Tuning features available with the
Intel® Extreme Tuning Utility (Intel® XTU)
Intel® Xeon® w9-3495X
(56 Core)
Intel® Xeon® w9-3475X
(36 Core)
Intel® Xeon® w7-3465X
(28 Core)
Intel® Xeon® w5-3435X
(16 Core)
Intel® Xeon® w7-2495X
(24 Core)
Intel® Xeon® w7-2475X
(20 Core)
Intel® Xeon® w5-2465X
(16 Core)
Intel® Xeon® w5-2455X
(12 Core)
50+
System Designs
System Designs
DDR5 RDIMM Memory
Thermal Solutions for LGA 4677
Intel® W790
Motherboards
Embargoed Until Feb 15
th
, 2023 @ 09:00AM PT
Mobile and Entry
H, HX-Series
S-Series (65W/125W)
Intel® Core™ Processors
for Workstations
Expert
Intel® Xeon® W-3400
Processors (350W)
Mainstream
Intel® Xeon® W-2400
Processors (225W)
Dual-Socket Expert
4
th
Gen Intel® Xeon® Scalable Processor
Family (2x350W)
Powering the Workstation Renaissance
Embargoed Until Feb 15
th
, 2023 @ 00:00AM PT
• Performance varies by use, configuration and other factors. Learn more at www.Intel.com/PerformanceIndex
• Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available upda tes. See backup for configuration details. No product or component can be
absolutely secure.
• Results that are based on systems and components as well as results that have been estimated or simulated using an Intel Reference Platform (an internal example new system), internal Intel analysis or
architecture simulation or modeling are provided to you for informational purposes only. Results may vary based on future cha nges to any systems, components, specifications or configurations.
• Intel technologies may require enabled hardware, software or service activation. Contact your Intel representative for the latest information
• Altering clock frequency or voltage may void any product warranties and reduce stability, security, performance, and life of the processor and other components. Check with system and component
manufacturers for details.
1. Based on performance testing as of January 2023 of Intel® Xeon® w9-3495X processor and other attributes, which combine to form the ultimate workstation experience including in comparison to Intel®
Xeon® W-3275 and AMD Threadripper Pro 5995WX (64c). These include:
i. Strong processor performance across a collection of benchmarks and real -world workloads across key workstation industry segments : Engineering, Media and Entertainment, and Data Science
ii. Platform IO capability advantages, including USB, SATA, PCIe.
iii. Unmatched overclocking ability enabled by Intel's comprehensive tools and unique architectural tuning capabilities. Overclocking may void warranty or affect system health. For details see
intel.com/overclocking.
iv. Total System Memory capacity with DDR5 RDIMM memory modules.
v. Support for best in class wired and wireless connectivity. See intel.com/performance-wireless and intel.com/performance-wired for details
vi. Security by Design: Intel’s unparalleled approach to security like security assurance programs founded on security by design principles, transparency and disclosure of vulnerabilities and a robust
Intel Platform Update process, an esteemed bug bounty program as well as internal research through red teams and more. Learn more at intel.com/security
vii. Breadth of available Intel Xeon W price and performance options.
viii. Extensive open ecosystem enablement (e.g., OEMs, ODMs, OSs etc.)
Additional details available at intel.com/performanceindex
2. “Up to 28% faster single-threaded performance” Performance measured by Intel on Dec 31
st
2022. Based on SPEC CPU 2017_Int_1copy score results on Intel® Xeon® w9-3495X processor vs. Intel®
Xeon® W-3275 processor
3. “Up to 120% faster multi-threaded performance” Performance measured by Intel on Dec 31
st
2022. Based on SPEC CPU 2017_Int_n copy score results on Intel® Xeon® w9-3495X processor vs. Intel®
Xeon® W-3275 processor
4. “Up to 140% more performance in workstation workloads” Performance measured by Intel on Dec 31
st
2022. Based on SPECworkstation™ 3 v3.1 Media and Entertainment, Product Development, Life
Sciences, Financial Services, Energy, and General Operations –Overall score results on Intel® Xeon® w9-3495X processor vs. Intel® Xeon® W-3275 processor
5. “Up to 130% more performance in content creation workloads” Performance measured by Intel on Dec 31
st
2022. Performance measured across the following applications: Adobe Premiere Pro,
Adobe After Effects, DaVinci Resolve, Maxon Cinema 4D, Chaos Vray and Autodesk Maya
6. “Up to 70% higher performance in engineering workloads” Performance measured by Intel on Dec 31
st
2022. Performance measured across the following applications: Autodesk Revit, Autodesk
AutoCAD, Autodesk Inventor, Dassault Stellar, SPECapc for Solidworks, Autodesk ReCAP, Autodesk 3DS MAX and Bentley Microstation
7. “Up to 75% higher performance in scientific computing and analysis” Performance measured by Intel on Dec 31
st
2022. Performance measured in NumPy/SciPy - Python 3.9.12 - iBench benchmark.
Performance is based on the time to complete the Algorithm: Inv, N=25000.
• Your costs and results may vary.
• © Intel Corporation. Intel, the Intel logo, and other Intel marks are trademarks of Intel Corporation or its subsidiaries. Other names and brands may be claimed as the property of others.
Intel® Xeon® W-3400 Processors
• Intel® Xeon® w9-3495X processor, PL1= 350W TDP, 56C/112T, Turbo up to 4.6 GHz, Motherboard Name: Intel FHF RVP, Motherboard type: Pre-production, BIOS: BKC ver
FHFDCRB.86B.WR.64.2022.42.2.03.0433_0045.D31_Pa0310_SPR_E3E5_S2S3_ADL_B1_PV_ME16, Graphics: Nvidia Quadro RTX4000, Gfx version: 517.40, Memory:
256GB (8x32GB) DDR5-4800MHz ECC RDIMMs, Storage: 1TB Samsung 980 Pro, OS: Microsoft Windows* 11 Enterprise (22H2) Service Pack 22621.1, Build Version: BKC
Image (22621.1250.rx64.ent_FRE_IA-64_FHF-GOLD-22.47.1.15-Nickel), CPU Cooler: Air cooled
Previous Gen Platform:
• Intel® Xeon® W-3275 processor, PL1= 205W TDP, 28C/56T, Turbo up to 4.6 GHz, Motherboard Name: ASUS C621-64L Sage 10G, Motherboard type: Production, BIOS:
6802, Graphics: Nvidia Quadro RTX4000, Gfx version: 517.40, Memory: 192GB (6x32GB) DDR4-2933MHz ECC RDIMMs, Storage: 1TB Samsung 980 Pro, OS: Microsoft
Windows* 11 Enterprise (22H2) Service Pack 22621.1, CPU Cooler: Air cooled
• 2S intel® Xeon® Gold 6258R, PL1= 205W TDP, 2x28C/56T, Turbo up to 4.0 GHz, System Name: HP Z8 G4, BIOS: 02.82 Rev.A, Graphics: Nvidia Quadro RTX4000, Gfx
version: 517.40, Memory: GB (12x32GB) DDR4-3200MHz ECC RDIMMs, Storage: 1TB Samsung 980 Pro, OS: Microsoft Windows* 11 Enterprise (22H2) Service Pack
22621.1, CPU Cooler: Air cooled
• Adobe Premiere Pro 23.0 – Standard Overall Score - PugetBench for Adobe Premiere Pro Results are a score (Higher is better) in reference to a standardized system
configuration determine by Puget Systems. PugetBench for Adobe Premiere Pro is published by Puget Systems, a workstation system builder. Puget Systems designs their
benchmarks based on their customer workloads. The Puget Bench for Adobe Premiere Pro tests a Multi-Cam and Lumetri Color sequences with multiple 4K, 8K and 4K
10-bit video media codes and tests both live timeline/sequence playback (achieving 29.97 FPS) and exporting performance. For more information
about PugetBench visit: https://www.pugetsystems.com/labs/articles/PugetBench-for-Premiere-Pro-1519/
• Adobe After Effects 22.4 - Standard Overall Score - PugetBench for After Effects Results are a score (Higher is better) in reference to a standardized system configuration
determine by Puget Systems. PugetBench for Adobe After Effects is published by Puget Systems, a workstation system builder. Puget Systems designs their benchmarks
based on their customer workloads. The Puget Bench for After Effets tests a variety of workloads to determine application performance across Multi-Core, RAM Preview,
GPU, Render and Tracking/Animation workloads. For more information about PugetBench visit: https://www.pugetsystems.com/labs/articles/PugetBench-for-After-
Effects-1287/
• Autodesk AutoCAD 2023: The Cadalyst Systems Benchmark 2015 (C2015 v5.5b) can be used to test and compare the performance of systems running AutoCAD v2022
and earlier. Performance is measure via a score (higher is better) Test files are available free for download. https://www.cadalyst.com/benchmark-test
• Autodesk Revit 2022 – Modeling and Rendering – RFO benchmark: Autodesk Revit* RFO BenchmarkV3.3 - Full_Expanded is a benchmark that opens an example
Autodesk Revit project and measures performance times (in seconds, lower is better) split between two sections: Model Creation and Drawing of Models on screen. In
the Model Creation phase the following tasks are tested inside of Autodesk Revit: Opening and loading the custom template, Creating the floors levels and grids, Creating
a group of walls and doors, Modifying the group by adding a curtain wall, Creating the exterior curtain wall, Creating the sections, Changing the curtain wall panel type,
Creating area plans, Creating and applying view template. In the Graphics phase the following tasks are tested inside of Autodesk Revit: For more information visit:
https://revitforum.org/showthread.php/35955-RFO-Benchmark-v3
• Autodesk Inventor 2022.3 - AutoDesk Inventor Benchmark Tool v1.8.0 is a benchmarking application that can be used to test the performance of Autodesk® Inventor®
on a given system. The tool runs a product modeling workflow on a given system and gives it an Inventor PC Index (IPI) score(higher is better) based on a Modeling test,
Graphics Intensive tests and Storage intensive tests. For more information:
https://apps.autodesk.com/INVNTOR/en/Detail/Index?id=3667345248776204460&appLang=en&os=Win32_64
• Autodesk Maya 2023 – SpecAPC for Maya 2023.1.0 (CPU Composite Score) is all-new performance evaluation software for systems running Autodesk Maya 2023 3D
animation and visual effects software. The SPECapc for Maya 2023 benchmark consists of 47 tests using eleven different models and animations. Performance is
measured in a score (Higher is better). For more information: https://gwpg.spec.org/benchmarks/benchmark/specapc-maya-2023/
• Autodesk 3DS MAX 2023 - Fluid Simulation - This workload measures the time taken by Autodesk 3ds Max to create a fluid simulation of 60 frames with a Base Voxel
Size of 1.0. The user is producing a quick, less-detailed preview of their work-in-progress for an internal review.
• Autodesk ReCAP 2023 - Ingest Point Cloud - This workload measures the time (less is faster) taken by Autodesk ReCap Pro to import a 2.38GB .e57 point cloud file into
a new project. The source file is publicly available from GeoSlam - https://samples.geoslam.com/Potree/baton/baton.html
• Bentley Microstation 10.17 - Render Lobby Scene This workload measures the time taken by Bentley MicroStation to Render a Scene using Path Tracing with settings for
‘Interior Extreme’ with 4096 ‘Max. Samples per pixel’. Performance is measured in time in seconds (lower is better) to render the scene.
• Cinebench R23 is a cross-platform test suite that evaluates a system’s hardware capabilities to render a 3D image inside a rendering application like Cinema 4D, Made by
Maxon. For more information visit: https://www.maxon.net/en/cinebench/
• Chaos vRay 5.01 - V-Ray benchmark measures how fast (score, higher is better) a given hardware component renders a 3D scene giving a score measure in max/peak
vsamples. Compatibility with CPU based rendering, GPU CUDA rendering and GPU RTX rendering. https://www.chaos.com/vray/benchmark
• Dassult Solidworks 2022 - SPECapc® for Solidworks® 2022 benchmark, released on August 18, 2022, is performance evaluation software for vendors and users of
computing systems running Solidworks 2022 CAD/CAM software on Microsoft Windows 10 64-bit platforms. The SPECapc for Solidworks 2022 benchmark includes 10
models and 50 tests exercising a full range of graphics and CPU functionality. CPU Performance is measured in a CPU Composite Score (Higher is better). For more
information: https://gwpg.spec.org/benchmarks/benchmark/specapc-solidworks-2022/
• DaVinci Resolve 18.1 – PugetBench 93.1 Results are a score (Higher is better) in reference to a standardized system configuration determine by Puget Systems.
PugetBench for Davinci Resolve is published by Puget Systems, a workstation system builder. Puget Systems designs their benchmarks based on their customer
workloads. The Puget Bench for Davinci Resolve tests rendering with a wide range of codecs at 4K and 8K (Extended preset only) resolutions, OpenFX, as well as
performance in Fusion. For more information about PugetBench visit: https://www.pugetsystems.com/labs/articles/PugetBench-for-DaVinci-Resolve-1523/
• Maxon Cinema4D 2023.1 - Cinema4D is a 3D software suite to generate 3D models, textures, computer graphics, and animations developed by the German company
Maxon. Workload consists of rendering the standard image for Cinebench R23, measured in Time in Seconds (Lower is better). For more information:
https://www.maxon.net/en/downloads/cinebench-r23-downloads
• NumPy/SciPy (Python 3.9.13) – ibench For the NumPy and SciPy-based benchmarks, we used Intel ibench to replicate and time the popular functions independently.
The tests stress commands in linear algebra that are used throughout NumPy/SciPy for preprocessing, such as dot, det, inv, lu, qr, and svd. Performance is measured in
time in seconds (lower is better) to complete stress tests of each individual linear algebra algorithm. For more information: https://github.com/IntelPython/ibench
• SPEC CPU 2017 - SPECrate2017 is the industry-standardized, CPU intensive suites for measuring and comparing compute intensive performance, stressing a system's
processor, memory subsystem and compiler. Performance is measured for floating point (FP) and Integer (Int) across single-thread (1-copy) and multi-thread (n-copy),
given in a score (higher is better). Compiler used for testing: ic2022.1, For more Information: https://www.spec.org/cpu2017/
• SPECworkstation™ 3.1 is published by the Standard Performance Evaluation Corporation (SPEC), a benchmarking consortium. SPECworkstation 3 measures Workstation
Application Performance using workloads addressing the following workstation markets: Media and Entertainment - 3D Modeling, Video Transcoding, Ray Tracing and
CAD using Blender, HandBrake, LuxRender, Autodesk Maya and 3ds Max; Product Development - heterogeneous computing and CAD/CFD using Rodinia Suite,
OpenFOAM, CalculiX, Dassault Systèmes Catia, PTC Creo, Siemens NX, Dassault Systèmes SolidWorks and Autodesk Showcase; Life Sciences – Molecular Dynamics
Simulation using LAMMPS, NAMD, Rodinia Suite and Medical Imaging; Financial Services - Financial Modeling using Black-Scholes and Monte Carlo simulations; Energy
(Oil & Gas) - Seismic Data Processing and Imaging; General Operations - including 7-Zip, Python scripting and Octave programming; GPU Compute - OpenCL and GPU
Compute - CUDA. A CPU, Graphics and Storage scores are also produced. The Rodinia Suite includes workloads for: Data Mining, Bioinformatics, Physics Simulation,
Pattern Recognition, Image Processing, Medical Imaging, Graph Algorithms and Web Mining. For Windows*, SPEC Workstation 3 supports Win64. For more information
visit: https://www.spec.org/gwpg/wpc.static/workstation31info.html
• Performance varies by use, configuration, and other factors. Learn more at www.Intel.com/PerformanceIndex
• Performance results are based on testing as of dates shown in configurations and may not reflect all publicly available updates.
See backup for configuration details. No product or component can be absolutely secure.
• Results that are based on systems and components as well as results that have been estimated or simulated using an Intel
Reference Platform (an internal example new system), internal Intel analysis or architecture simulation or modeling are
provided to you for informational purposes only. Results may vary based on future changes to any systems, components,
specifications, or configurations.
• Intel technologies may require enabled hardware, software, or service activation. Contact your Intel representative for the
latest information
• Altering clock frequency or voltage may void any product warranties and reduce stability, security, performance, and life of the
processor and other components. Check with system and component manufacturers for details.
• Your costs and results may vary.
• © Intel Corporation. Intel, the Intel logo, and other Intel marks are trademarks of Intel Corporation or its subsidiaries. Other
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