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Ansys Hardware Recommendations 2.0
Authored by Erdoğan Gökbulut June 12th, 2024 282 views 0 likes KB2403263
Description
Ansys's comprehensive suite of software places demands on computing and hardware resources that can vary significantly from one model to another. This article provides some high-level recommendations for purchasing computing hardware for simulation purposes. Factors that will determine the optimal computing hardware for your needs include:
- Model physics (fluids, structures, electronics)
- Model size
- Model complexity
- How fast results are needed
- Budget
Related - License Manager System Requirements
Solution
Supported Operating Systems
Please see the document called Platform Support by Application / Product on Ansys's Platform Support page for a full list of supported OS's for current and previous versions of Ansys.
General Recommendations
- Windows 10 - is the most commonly used and supported operating system. This is the OS that Numesys engineers and the majority of our customers use to run Ansys and what we recommend.
- Windows 11 - As of Ansys version 2022 R2 and after, is supported. However, we have not widely deployed or tested prior versions of Ansys on Windows 11 at this time. While versions supported on Windows 10 will likely work on Windows 11, we still recommend using Windows 10 for the time being if you need to use versions prior than 2022 R2.
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Linux - While not for the typical user Ansys does also provide support for different Linux
Unsupported Operating Systems
- Windows 7 (unsupported by Microsoft) & Windows 8 (mainstream support has ended) may run Ansys, however, they are officially unsupported and we have experienced software errors while running on these OS's. We strongly recommend upgrading to Windows 10 for compatibility, performance and security reasons.
- Mac OS is not supported and Ansys cannot be installed on this OS. While you should be able run Ansys on a Windows Virtual Machine inside Mac OS with a program like Parellels, this is NOT supported and your mileage may vary in regards to compatibility and performance will be hindered.
3rd Party Software & Hardware Support
Visit Ansys' Platform Support webpage for further details regarding supported OS's and 3rd party software & hardware that integrates with Ansys, such as:
- Summary of Future Strategy and Plans
- Supported Operating Systems by Ansys Application
- Supported CAD Software & Versions
- Examples: ACIS, AutoCAD, CATIA, Creo, Fusion 360, IGES, Inventor, JT, Monte Carlo N-Particle, NX, Parasolid, Revit, Rhinoceros, SketchUp, Solid Edge, Solidworks, SpaceClaim, STEP
- Supported Browsers
- Supported 3Dconnexion Devices
- Supported GPU Accelerator and Co-Processor Capabilities
- Supported Graphics Cards
- Examples:
- Nvidia - Quadro GV, Quadro P, Quadro RTX, Quadro T, RTX, T
- AMD - Radeon Pro, Ryzen, Ryzen Pro
- Examples:
- Supported Interconnects
- Supported Job Schedulers & Queuing Systems Support
- Supported Remote Display Applications
Mechanical Performance Considerations
CPU (Processor):
- Solver is aided by AVX512 support, thus Intel CPUs based on Skylake-SP and Skylake-X or newer are recommended. Check Intel ARK Database for AVX512 Support (but not Xeon Phi series).
- Examples of recommended CPUs for HPC applications: i9-9920X or Xeon Gold 6136 (12 cores), Xeon Gold 6140 (18 cores * 2 = 36 cores)
- High core frequency is ideal, but actual frequency is dependent or core use, instruction set use, and adequate cooling. WikiChip is an excellent resource on turbo speeds.
Memory (RAM):
- Memory capacity is very important. The model solution should be solving in RAM (“in-core”) and not paging to the hard drive (“out-of-core”). About 15 GB per million degrees of freedom is required, but this is approximate (45 GB per million solid nodes in structural analysis).
- Fastest memory (i.e. 2666 MHz for servers or 3200+ for i9 based desktops).
- To operate at maximum speed, all memory channels in both processors should be populated with equal amounts of memory.
- Note: Purchasing more RAM will alleviate I/O issues, as (1) the solver can use this memory to avoid doing as much I/O, and (2) the operating system can then use available RAM to cache or buffer these I/O that MAPDL writes.
Hard Drives:
- An SSD is highly recommended for all simulation work. NVMe SSDs are recommended when possible. Intermediate endurance levels are recommended (~0.3 DWPD), not QLC NAND.
- Note: For DMP, the program writes results files for every core in use, so having SSDs with a lower seek time will reduce waiting for the hard drive seeks to read/write to all those different files. It also assists with post-processing.
- Running large models out of RAM (“out-of-core”) will accelerate SSD wear (consume its write endurance) but is still preferable to not using an SSD.
Graphics:
- A mid-range graphics card (such as Nvidia Quadro P2000 and AMD Radeon Pro WX5100) can be used. These will not assist with solution time and only display graphics.
- Ansys maintains a list of tested graphics cards (other cards may/may not work as expected, but typically do work if of the same generation).
- Note: It is important to keep graphics drivers updated from the card’s vendor.
- Please refer to Ansys Help and Ansys Platform Support for a recent list of supported Graphic Card models
GPU (for solution acceleration processing):
Please see the most current "graphics cards tested" document at https://www.ansys.com/it-solutions/platform-support
Interconnect:
- If clustering, a very high-speed interconnect is mandatory (40 Gb/s plus).
- QDR or FDR IB interconnect (or better) if you will be running on two or more nodes in parallel.
Ansys Mechanical – Example Recommendations:
- Workstation with NO HPC licenses: i7-9800X (8 cores) with 64/128GB DDR4-3200
- Workstation with 1 HPC Pack: i7-9920X (12 cores) with 128GB DDR4-3200
- Workstation with 2 HPC Packs: Dual Xeon Gold 6140 (36 cores total) with 192/384 GB DDR4-2666
Computational Fluid Dynamics (CFD) Performance Considerations
CPU (Processor):
- Core scaling in CFD software is very good, therefore focus on Cores * Frequency = Effective Frequency, with slight bias towards frequency.
- Both AMD and Intel CPUs are recommended, as long as the latest generation (AMD Zen cores).
Memory (RAM):
- Recommended RAM quantity is simulation dependent, but general recommendation is 4-8 GB per core, with more for small core count systems.
- Memory bandwidth is very important, therefore get high frequency RAM (i.e. 2666 MHz or faster for non-servers).
- To operate at maximum speed, all memory channels in both processors should be populated with equal amounts of memory.
Hard Drives:
- SSD not as critical but is beneficial to the user experience. High endurance SSD is not strictly necessary.
- CFD does not do a lot of Disk I/O, so you can use SATA drives.
Graphics and GPU Acceleration:
See Mechanical recommendations above, no change.
Interconnect:
- 1 Gb/s interconnect is effective for small to medium clusters, investing in better can have a good return on investment.
Ansys CFD – Example Recommendations
- Workstation with NO HPC licenses: i7-8700K (6 cores) with 64GB RAM, Ryzen 7 2700X (8 cores) with 64GB RAM
- Workstation with 1 HPC Pack: i7-9920X (12 cores) with 64/128GB RAM, Threadripper 2950X (16 cores) with 64/128GB RAM
- Workstation with 2 HPC Packs: Dual Xeon Gold 6140 (36 cores total) with 192/384 GB RAM, Dual EPYC 7351 or 7371 (32 cores total) with 128/256 GB RAM
Electronics (EBU) Performance Considerations
CPU (Processor):
- Look for latest generation CPUs with high frequency.
- Note: HFSS is primarily an in-core solver, so clock speed and RAM speed is important.
Memory (RAM):
- Recommended RAM is 8 GB per core HFSS, Maxwell, and other Electronic Packages or typically 64 GB – 256 GB.
- Memory bandwidth is important, therefore get high frequency RAM (i.e. 2666 MHz).
- To operate at maximum speed, all memory channels in both processors should be populated with equal amounts of memory.
Hard Drives:
- An SSD is highly recommended for all simulation work. NVMe SSDs are recommended when possible. Intermediate endurance levels are recommended (~0.3 DWPD), not QLC NAND.
Graphics and GPU Acceleration:
See Mechanical recommendations above, no change.
Interconnect:
- QDR or FDR IB interconnect if you will be running on 2 or more nodes in parallel (on a cluster, minimum 10Gb network)
Discovery Live
General Requirements
Minimum requirements for Ansys Discovery software are as follows:
- 64-bit Intel or AMD system, running Windows 10.
- 8 GB RAM
- A dedicated graphics card with latest drivers and at least 1GB video RAM, capable of supporting OpenGL 4.5 and DirectX 11, or higher. Use of integrated graphics (e.g. Intel HD/IRIS) is not recommended and is not support by the Refine stage in Discovery. See below for special graphics requirements for ANSYS Discovery Live.
- 3 button mouse
Ansys Discovery Live and Discovery Explore Stage Graphics Card Requirements
Ansys Discovery Live or the Explore stage in Ansys Discovery relies on the latest GPU technology to provide its computation and visual experience. To run the software, you will require:
- A dedicated NVIDIA GPU card (Quadro recommended, GeForce supported) based on the Kepler, Maxwell, Pascal, or Turing architecture. Maxwell 2000 or better strongly recommended.
- At least 4GB of video RAM (8GB recommended) on the GPU.
A list of compatible graphics cards - GPUs can be found on this page: Compatible Graphics Card for Discovery
Also, please ensure you have the latest driver for your graphics card, directly from NVIDIA Driver Downloads.
Latest System Requirements from Ansys can be found here - https://discoveryforum.ansys.com/t/801xrx