HPC for ANSYS Fluent

# Enterprise HPC for ANSYS Fluent Simulations

Our enterprise high-performance computing solution features the powerful AMD EPYC GENOA 9754 processor with 256 cores/512 threads running at 2.25 GHz (3.1 GHz boost), scalable RAM from 128GB to 1TB DDR5 ECC, and high-speed NVMe SSD storage. This premium configuration delivers exceptional performance for the most demanding ANSYS Fluent CFD simulations, including complex multiphase flows, combustion models, and large-scale turbulence simulations. The massive core count enables unprecedented parallel processing capabilities, dramatically reducing simulation times for aerospace, automotive, and energy sector applications. Ideal for organizations requiring maximum computational throughput for advanced fluid dynamics research and development without hardware investment.

Premium HPC for ANSYS Fluent Simulations

Our high-performance computing solution features dual Intel Xeon Gold 6148 processors with 40 cores, massive 1536GB RAM, and 6TB SSD storage, optimized explicitly for complex ANSYS Fluent CFD simulations. This enterprise-grade configuration handles large-scale models with multiple physics, significantly reducing simulation time for aerospace, automotive, and turbomachinery applications. Delivers exceptional performance without hardware investment. It is ideal for professionals requiring maximum computational power for advanced fluid dynamics analysis.

⚙️ AMD EPYC 9454P CFD Node (Finland): Enterprise-Class Single-Socket Power for ANSYS Fluent

Need server-grade CFD performance with European data residency and low latency to the Nordics? Our AMD EPYC™ 9454P single-socket platform in Finland delivers the throughput, memory bandwidth, and stability required for demanding ANSYS Fluent, OpenFOAM, and STAR-CCM+ workloads—without the complexity of dual-socket systems.

💻 High-Performance Configuration

Key Specifications

CPU: AMD EPYC™ 9454P (4th-Gen “Zen 4” single-socket server processor)

Memory: 128 GB DDR5 ECC (high bandwidth, error-correcting reliability)

Storage: 2 × 3.84 TB NVMe (recommended RAID 1 mirror for uptime)

Location: Finland (EU data residency, excellent connectivity across Nordics/EU)

Why EPYC 9454P? The 9454P is a P-series single-socket leader, designed to deliver many cores + high memory bandwidth in one CPU. That means strong parallel CFD throughput, simpler licensing footprints, and lower platform power compared to comparable dual-socket builds.

Straight talk: If you need strict ECC reliability, sustained 24/7 runs, and large solver pipelines, EPYC’s server-grade platform (DDR5 ECC, PCIe Gen5, NUMA-friendly topology) is the right foundation.

🚀 Built for Real-World CFD & Multiphysics

This node is tuned for multi-million-cell models up to tens of millions of elements (with disciplined meshing and numerics), including:

Advanced turbulence: RANS (k-ε, k-ω SST), transition, hybrid RANS-LES/DES

Multiphase & reacting flows: VOF/Eulerian, cavitation, sprays, combustion

Thermal / CHT: Conjugate heat transfer with complex material stacks

Transient studies: Time-accurate aero/thermal events and start-up/shut-down cycles

Design exploration: DOE, response surfaces, and parametric optimization

Hosted in Finland, it offers low latency to the Nordics and northern/central EU and EU data-residency for regulated projects.

🧠 Architecture Advantages (End-to-End Throughput)

Single-socket efficiency: High core density without dual-socket NUMA penalties

DDR5 ECC bandwidth: Smooth convergence on dense meshes and tight CFLs

PCIe Gen4/Gen5 headroom: Fast NVMe I/O for checkpoints and post-processing

Server-class reliability: Stable for long transients and batch queues

🔧 Practical CFD Tuning Tips (quick wins)

Partitioning: Begin around 0.7–1.1M cells per process, calibrate after a pilot run

Order strategy: Stabilize with first-order, switch to second-order for accuracy

CFL ramps & dual-time stepping: Safer, faster transients with fewer resets

Targeted refinement: Focus on shear layers, shocks, recirculation, thermal gradients

Checkpoint cadence: Frequent autosaves protect multi-day campaigns

💼 Ideal Use Cases

Aerospace & automotive aerodynamics (external aero, high-lift, cooling modules)

Energy & process industries (combustors, heat exchangers, turbomachinery stages)

Built environment & HVAC (ventilation, comfort, wind studies)

Research labs & universities requiring EU-hosted, ECC-reliable resources

🏁 Final Thoughts

The AMD EPYC 9454P CFD node (Finland) combines server-grade stability, ECC DDR5 bandwidth, and efficient single-socket scaling—a perfect fit for ANSYS Fluent, OpenFOAM, and STAR-CCM+ users who need credible throughput, EU data residency, and predictable uptime.

Scale your simulations—closer to your team.
👉 Contact MR CFD