HPC for ANSYS Fluent

⚙️ Premium 20-Core HPC for Professional CFD

When your deadlines are tight and fidelity can’t slip, you need hardware that blends high per-core speed with solid parallel throughput. The Premium 20-Core HPC, powered by dual Intel® Xeon® E5-2680 v2 (2.80 GHz), delivers exactly that balance for ANSYS Fluent, OpenFOAM, and STAR-CCM+.

With 20 physical cores (40 threads) at 2.80 GHz, this platform offers ~12% stronger single-core performance than comparable mid-range options—speeding up meshing, preprocessing, and post-processing while sustaining robust solver scaling on 6+ million-element meshes.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2680 v2 (20 cores, 40 threads, 2.80 GHz)

Architecture: Intel Ivy Bridge-EP

Mesh Scale: Efficient beyond 6M elements; scalable higher with smart partitioning

Workload Focus: Advanced turbulence, multiphase/combustion, transient CHT

Performance Edge: ~12% faster single-core vs. similar-class CPUs

Why it’s “premium”: You get the clock speed to keep interactive steps snappy and the core count to reduce wall-clock time in production CFD workflows.

🚀 Built for Professional CFD & Multiphysics

Ideal for organizations where accuracy, stability, and turnaround drive success:

Turbulence: RANS (k-ε, k-ω SST), transition models, hybrid RANS-LES, DES

Multiphase / Reacting: VOF/Eulerian, cavitation, sprays, combustion (EDM/FRC)

Thermal / CHT: Conjugate heat transfer with complex material stacks

Transient: Time-accurate aero/thermal events, startup/shutdown cycles

Design exploration: DOE, response surfaces, adjoint/parametric sweeps

Expect faster iteration for aerospace, automotive, HVAC, and biomedical applications—where more design variants per week mean better outcomes.

🧠 Architecture Advantages (End-to-End Throughput)

2.80 GHz base clock: Responsive meshing, geometry ops, and post-processing

20 cores / 40 threads: Efficient domain partitioning for 6M+ cell models

Cache & memory behavior: Smoother convergence on dense zones/tight CFLs

24/7 reliability: Stable for long transients and batch optimization queues

Result: less waiting, more validated design points in every sprint.

🔧 Quick Wins to Maximize Performance

Partition sizing: Begin around 0.8–1.2M cells per process; refine after a pilot run

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

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

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

Checkpoint cadence: Frequent autosaves protect long runs and enable quick restarts

💼 Perfect for Professional Teams

Engineering firms delivering client-ready studies under deadline

Industrial validation labs running certification-grade analyses

R&D groups balancing frequent design changes with high-fidelity physics

Biomedical & HVAC teams where transient CHT and multiphase matter

This system’s blend of per-core speed and parallel capacity keeps day-to-day workflows responsive while maintaining production-grade throughput.

🏁 Final Thoughts

The Premium 20-Core HPC (Dual Xeon E5-2680 v2 @ 2.80 GHz) is the pragmatic choice for professional CFD teams working on 6M+ element meshes. For ANSYS Fluent and other leading solvers, it provides the computational backbone to iterate faster, raise fidelity, and hit deadlines confidently.

Accelerate your CFD pipeline today.
👉 Contact MR CFD

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When computational fluid dynamics (CFD) projects demand credible fidelity and quick iteration, you need hardware that balances parallel throughput with strong single-core speed. The 24-Core Powerhouse, built on dual Intel® Xeon® E5-2697 v2 processors, delivers exactly that—accelerating ANSYS Fluent, OpenFOAM, and STAR-CCM+ workloads that include advanced turbulence, multiphase flows, and detailed geometries.

With 24 physical cores (48 threads) at 2.70 GHz, this platform confidently handles 3+ million-element meshes while keeping meshing, preprocessing, and post-processing responsive—so you can iterate faster without sacrificing accuracy.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2697 v2 (24 cores, 48 threads, 2.70 GHz)

Architecture: Intel Ivy Bridge-EP

Target Scale: 3M+ elements (steady & transient)

Performance Focus: High parallel efficiency + strong per-core responsiveness

Why it’s effective: Ivy Bridge-EP pairs a high base clock with efficient multi-threading, keeping end-to-end workflows (prep → solve → post) smooth on complex, physics-rich models.

🚀 Built for Real-World, High-Fidelity CFD

This system is tuned for production-grade engineering programs where accuracy, stability, and turnaround matter:

Aerospace: component aerodynamics, high-lift, aero-thermal coupling

Automotive: external aero, underhood/underbody cooling, thermal management

Energy/Combustion: burners, combustors, reacting flows with detailed kinetics

Environment: urban dispersion, terrain-aware wind, HVAC & built-environment flows

It excels with RANS (k-ε, k-ω SST), transition, hybrid RANS-LES/DET/DES, VOF/Eulerian multiphase, and conjugate heat transfer (CHT)—maintaining solver stability and convergence on dense meshes.

🧠 Architecture Advantages (End-to-End Throughput)

2.70 GHz base clock: Snappy meshing, geometry ops, and post-processing

24 cores / 48 threads: Efficient partitioning for 3M+ cell models

Large cache + memory bandwidth: Smooth convergence at tight CFLs

NUMA-aware behavior: Low-latency inter-socket communication for scalable runs

24/7 reliability: Built for long transients and batch optimization queues

🔧 Quick Wins to Maximize Performance

Partition sizing: Start around 0.8–1.2M cells per process; retune after a pilot run

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

CFL ramps & dual-time stepping: Faster, safer transient progress

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

Checkpoint cadence: Frequent autosaves protect long runs and ease restarts

💼 Ideal Use Cases

Aerospace component analysis & full-vehicle aerodynamics

Combustion modeling with detailed chemistry

Large-scale environmental and HVAC flows

Design of Experiments (DOE), parametric sweeps, and optimization loops

Whether you’re validating designs for flight or optimizing thermal performance, this system provides dependable, professional-grade throughput for day-to-day CFD.

🏁 Final Thoughts

The 24-Core Powerhouse (Dual Xeon E5-2697 v2 @ 2.70 GHz) strikes the ideal balance of parallel compute and per-core speed for 3M+ element CFD cases. For ANSYS Fluent and other leading solvers, it delivers the computational backbone to iterate faster, increase fidelity, and meet deadlines with confidence.

Accelerate your CFD today.
👉 Contact MR CFD

⚙️ Balanced Mid-Range Computing Solution for CFD

When your simulation scale exceeds desktop limits but doesn’t yet justify an enterprise cluster, a balanced mid-range platform is the sweet spot. This 20-core (2.50 GHz) server delivers the parallel throughput and per-core responsiveness required for 24–40 million element CFD models—ideal for graduate research, small engineering teams, and advanced student projects tackling complex physics and coupled multiphysics.

With ~25% more cores than 16-core entry systems, it shortens wall-clock time on demanding 3D models and lets you increase mesh fidelity without blowing budgets or schedules.

💻 High-Performance Configuration

Key Specifications

CPU: 20 cores @ 2.50 GHz (server-class, dual-socket platform)

Target Mesh Size: 24–40M elements (steady & transient)

Best For: Research labs, small engineering teams, advanced coursework/theses

Focus: Balanced parallel scaling + strong single-core speed for pre/solve/post

Why it’s “balanced”: Enough cores for efficient domain partitioning and enough clock speed to keep meshing, preprocessing, and post-processing responsive.

🚀 Built for High-Fidelity Medium-to-Large CFD

This system is tuned for workloads that demand credible, publishable fidelity:

Turbulence: RANS (k-ε, k-ω SST), hybrid RANS-LES, DES; LES “starts” where appropriate*

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

Thermal/CHT: Conjugate heat transfer with detailed material stacks

Transient physics: Time-accurate aero/thermal events, startups/shutdowns

Design exploration: DOE, response surfaces, and optimization loops

*Full-fidelity LES at 30–40M cells is compute-intensive on any platform; use adaptive refinement, fit-for-purpose models, and smart time-stepping to maximize ROI.

🧩 Designed for Multiphysics: Fluid ⇄ Thermal ⇄ Structural

Modern programs often require coupled analyses. This platform sustains:

CFD ⇄ Thermal (CHT) for electronics cooling and heat exchangers

CFD ⇄ FEA (one-/two-way FSI) for aeroelastic and flow-induced effects

Co-simulation pipelines common in R&D and product development

The 20-core layout provides efficient partition sizing for coupled solvers without starving per-core performance.

💼 Ideal Use Cases

Aerospace / UAV: external aero, high-lift, propulsive interactions

Automotive: external aero, underhood/underbody cooling, brake/rotor flows

Energy / Process: combustors, burners, recuperators, turbomachinery stages

Built environment / HVAC: zone ventilation, thermal comfort, wind studies

Electronics cooling: detailed CHT with interface resistances & anisotropy

🔧 Quick Wins to Maximize Throughput

Partitioning: Start around 0.7–1.1M cells per process; tune after a pilot run.

Solver order: Stabilize with first-order, then switch to second-order for accuracy.

Time-step control: CFL-guided ramps + dual-time stepping for transients.

Targeted refinement: Focus on shear layers, recirculation, shocks/gradients; avoid blanket refinement.

Checkpointing: Frequent autosaves protect long runs and enable restartable studies.

📊 Why Mid-Range Over Entry-Level (and Not Enterprise Yet)?

+25% cores vs. 16-core entry → denser partitioning and better scaling on complex physics.

Higher sustained utilization with multiphase/combustion/FSI workloads.

Shorter iteration cycles → more design variants evaluated per week.

Lower TCO and simpler ops than enterprise clusters—great for small teams.

🏁 Final Thoughts

The Balanced Mid-Range Computing Solution for CFD (20 cores @ 2.50 GHz) is the pragmatic choice when you need serious performance for 24–40M element models—without the cost and complexity of enterprise HPC. It delivers the right mix of parallel scalability and per-core speed for advanced turbulence, multiphase physics, and coupled thermal/structural analyses.

Scale your simulations—without overspending.
👉 Contact MR CFD

⚙️ Premium 20-Core HPC for Professional CFD

When schedules are tight and model fidelity can’t slip, you need a platform that blends high per-core speed with robust parallel throughput. The Premium 20-Core HPC, powered by dual Intel® Xeon® E5-2680 v2 (2.80 GHz), delivers exactly that balance for ANSYS Fluent, OpenFOAM, and STAR-CCM+ users.

With 20 physical cores (40 threads) at 2.80 GHz, this server provides ~12% stronger single-core performance than comparable mid-range options—speeding meshing, preprocessing, and post-processing—while sustaining efficient solver scaling on 9+ million-element meshes.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2680 v2 (20 cores, 40 threads, 2.80 GHz)

Architecture: Intel Ivy Bridge-EP

Mesh Scale: Optimized for 9M+ elements; scalable higher with smart partitioning

Workload Focus: Advanced turbulence, multiphase/combustion, transient CHT

Performance Edge: ~12% faster single-core vs. similar-class CPUs

Why it’s “premium”: You get the clock speed to keep interactive steps snappy and the core count to cut wall-clock time in production CFD pipelines.

🚀 Built for Professional CFD & Multiphysics

Ideal for teams where accuracy, stability, and turnaround drive success:

Turbulence: RANS (k-ε, k-ω SST), transition, hybrid RANS-LES, DES

Multiphase / Reacting: VOF/Eulerian, cavitation, sprays, combustion (EDM/FRC)

Thermal / CHT: Conjugate heat transfer with complex material stacks

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

Design exploration: DOE, response surfaces, adjoint/parametric sweeps

Expect faster iteration for aerospace, automotive, HVAC, and biomedical applications—so you can evaluate more design variants per sprint without sacrificing fidelity.

🧠 Architecture Advantages (End-to-End Throughput)

2.80 GHz base clock: Responsive meshing, geometry ops, and post-processing

20 cores / 40 threads: Efficient domain partitioning for 9M+ cell models

Cache & memory behavior: Smoother convergence on dense zones/tight CFLs

24/7 reliability: Stable for long transients and batch optimization queues

Bottom line: Less waiting, more validated design points—week after week.

🔧 Quick Wins to Maximize Performance

Partition sizing: Start near 0.8–1.0M cells per process; retune after a pilot run

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

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

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

Checkpoint cadence: Frequent autosaves protect long runs and enable restartable studies

💼 Perfect for Professional Teams

Engineering firms delivering client-ready results under deadline

Industrial validation labs running certification-grade analyses

R&D groups iterating quickly with high-fidelity physics

Biomedical & HVAC teams where transient CHT and multiphase matter

This system’s blend of per-core speed and parallel capacity keeps daily workflows responsive while maintaining production-grade throughput.

🏁 Final Thoughts

The Premium 20-Core HPC (Dual Xeon E5-2680 v2 @ 2.80 GHz) is the pragmatic choice for professional CFD teams operating in the 9M+ element range. For ANSYS Fluent and other leading solvers, it supplies the computational backbone to iterate faster, raise fidelity, and hit deadlines confidently.

Accelerate your CFD pipeline today.
👉 Contact MR CFD

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When computational fluid dynamics (CFD) projects demand high mesh counts and quick iteration, you need hardware that balances parallel throughput with strong single-core speed. The 24-Core Powerhouse, built on dual Intel® Xeon® E5-2697 v2 processors, delivers exactly that—accelerating ANSYS Fluent, OpenFOAM, and STAR-CCM+ workflows involving advanced turbulence, multiphase flows, and detailed geometries.

With 24 physical cores (48 threads) at 2.70 GHz, this platform comfortably handles 9+ million-element meshes while keeping meshing, preprocessing, and post-processing responsive—so you can iterate faster without sacrificing accuracy.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2697 v2 (24 cores, 48 threads, 2.70 GHz)

Architecture: Intel Ivy Bridge-EP

Target Scale: 9M+ elements (steady & transient)

Performance Focus: High parallel efficiency + strong per-core responsiveness

Why it works: Ivy Bridge-EP pairs a high base clock with efficient multi-threading, keeping end-to-end workflows (prep → solve → post) smooth on large, physics-rich models.

🚀 Built for High-Fidelity, Real-World CFD

This system is tuned for production programs where accuracy, stability, and turnaround matter:

Aerospace: component aerodynamics, high-lift, aero-thermal coupling

Automotive: external aero, underhood/underbody cooling, thermal management

Energy/Combustion: burners, combustors, reacting flows with detailed kinetics

Environment: urban dispersion, terrain-aware wind, HVAC & built-environment flows

It excels with RANS (k-ε, k-ω SST), transition, hybrid RANS-LES/DES, VOF/Eulerian multiphase, and conjugate heat transfer (CHT)—maintaining solver stability and convergence on dense meshes.

🧠 Architecture Advantages (End-to-End Throughput)

2.70 GHz base clock: Snappy meshing, geometry ops, and post-processing

24 cores / 48 threads: Efficient partitioning for 9M+ cell models

Large cache + memory bandwidth: Smooth convergence at tight CFLs

NUMA-aware design: Low-latency inter-socket communication for scalable runs

24/7 reliability: Built for long transients and batch optimization queues

🔧 Quick Wins to Maximize Performance

Partition sizing: Start around 0.8–1.1M cells per process; retune after a pilot run

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

CFL ramps & dual-time stepping: Faster, safer transient progress

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

Checkpoint cadence: Frequent autosaves protect long runs and ease restarts

💼 Ideal Use Cases

Aerospace component analysis & full-vehicle aerodynamics

Combustion modeling with detailed chemistry

Large-scale environmental and HVAC flows

DOE, parametric sweeps, and optimization loops

Whether you’re validating airframes or optimizing thermal systems, this system provides dependable, professional-grade throughput for day-to-day CFD.

🏁 Final Thoughts

The 24-Core Powerhouse (Dual Xeon E5-2697 v2 @ 2.70 GHz) hits the sweet spot of parallel compute and per-core speed for 9M+ element CFD cases. For ANSYS Fluent and other leading solvers, it delivers the computational backbone to iterate faster, increase fidelity, and meet deadlines confidently.

Accelerate your CFD today.
👉 Contact MR CFD

⚙️ Premium 20-Core HPC for Professional CFD

When fidelity must rise and turnaround times must fall, you need a platform that marries high per-core speed with solid parallel throughput. The Premium 20-Core HPC, powered by dual Intel® Xeon® E5-2680 v2 (2.80 GHz), delivers exactly that for ANSYS Fluent, OpenFOAM, and STAR-CCM+ users.

With 20 physical cores (40 threads) at 2.80 GHz, this server provides ~12% stronger single-core performance than comparable mid-range options—speeding meshing, preprocessing, and post-processing—while sustaining efficient solver scaling on 12+ million-element meshes.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2680 v2 (20 cores, 40 threads, 2.80 GHz)

Architecture: Intel Ivy Bridge-EP

Mesh Scale: Optimized for 12M+ elements; scalable higher with smart partitioning

Workload Focus: Advanced turbulence, multiphase/combustion, transient CHT

Performance Edge: ~12% faster single-core vs. similar-class CPUs

Why it’s “premium”: You get the clock speed to keep interactive steps snappy and the core count to cut wall-clock time in production CFD pipelines.

🚀 Built for Professional CFD & Multiphysics

Ideal where accuracy, stability, and turnaround drive success:

Turbulence: RANS (k-ε, k-ω SST), transition models, hybrid RANS-LES, DES

Multiphase / Reacting: VOF/Eulerian, cavitation, sprays, combustion (EDM/FRC)

Thermal / CHT: Conjugate heat transfer with complex material stacks

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

Design exploration: DOE, response surfaces, adjoint/parametric sweeps

Expect faster iteration for aerospace, automotive, HVAC, and biomedical applications—so you can evaluate more design variants per sprint without sacrificing fidelity.

🧠 Architecture Advantages (End-to-End Throughput)

2.80 GHz base clock: Responsive meshing, geometry ops, and post-processing

20 cores / 40 threads: Efficient domain partitioning for 12M+ cell models

Cache & memory behavior: Smoother convergence on dense zones / tight CFLs

24/7 reliability: Stable for long transients and batch optimization queues

Bottom line: Less waiting, more validated design points—week after week.

🔧 Quick Wins to Maximize Performance

Partition sizing: Start near 0.7–1.0M cells per process; retune after a pilot run

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

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

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

Checkpoint cadence: Frequent autosaves protect long runs and enable restartable studies

💼 Perfect for Professional Teams

Engineering firms delivering client-ready results under deadline

Industrial validation labs running certification-grade analyses

R&D groups iterating quickly with high-fidelity physics

Biomedical & HVAC programs where transient CHT and multiphase matter

This system’s blend of per-core speed and parallel capacity keeps daily workflows responsive while maintaining production-grade throughput.

🏁 Final Thoughts

The Premium 20-Core HPC (Dual Xeon E5-2680 v2 @ 2.80 GHz) is the pragmatic choice for professional CFD teams operating in the 12M+ element range. For ANSYS Fluent and other leading solvers, it supplies the computational backbone to iterate faster, raise fidelity, and hit deadlines confidently.

Accelerate your CFD pipeline today.
👉 Contact MR CFD

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When computational fluid dynamics (CFD) projects demand higher mesh counts and faster iteration, you need hardware that balances parallel throughput with strong single-core speed. The 24-Core Powerhouse, built on dual Intel® Xeon® E5-2697 v2 processors, delivers exactly that—accelerating ANSYS Fluent, OpenFOAM, and STAR-CCM+ workflows that include advanced turbulence, multiphase flows, and high-detail geometries.

With 24 physical cores (48 threads) at 2.70 GHz, this platform confidently handles 12+ million-element meshes while keeping meshing, preprocessing, and post-processing responsive—so you can iterate faster without sacrificing accuracy.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2697 v2 (24 cores, 48 threads, 2.70 GHz)

Architecture: Intel Ivy Bridge-EP

Target Scale: 12M+ elements (steady & transient)

Performance Focus: High parallel efficiency + brisk per-core responsiveness

Why it works: Ivy Bridge-EP pairs a high base clock with efficient multi-threading and large caches—keeping the entire workflow (prep → solve → post) smooth on large, physics-rich models.

🚀 Built for High-Fidelity, Real-World CFD

This system is tuned for programs where accuracy, stability, and turnaround matter:

Aerospace: component aerodynamics, high-lift systems, aero-thermal coupling

Automotive: external aero, underhood/underbody cooling, thermal management

Energy/Combustion: burners, combustors, reacting flows with detailed kinetics

Environment/HVAC: urban dispersion, terrain-aware wind, building ventilation

It excels with RANS (k-ε, k-ω SST), transition, hybrid RANS-LES/DES, VOF/Eulerian multiphase, and conjugate heat transfer (CHT)—maintaining solver stability and convergence on dense meshes.

🧠 Architecture Advantages (End-to-End Throughput)

2.70 GHz base clock: Snappy meshing, geometry ops, and post-processing

24 cores / 48 threads: Efficient partitioning for 12M+ cell models

Large cache + memory bandwidth: Smooth convergence at tight CFLs

NUMA-aware design: Low-latency inter-socket communication for scalable runs

24/7 reliability: Built for long transients and batch optimization queues

🔧 Quick Wins to Maximize Performance

Partition sizing: Start around 0.7–1.0 M cells per process; retune after a pilot run

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

CFL ramps & dual-time stepping: Safer, faster transient progress

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

Checkpoint cadence: Frequent autosaves protect long runs and ease restarts

💼 Ideal Use Cases

Aerospace component analysis & full-vehicle aerodynamics

Combustion modeling with detailed chemistry

Large-scale environmental and HVAC flows

DOE, parametric sweeps, and optimization loops

Whether you’re validating an airframe or optimizing thermal systems, this system provides dependable, professional-grade throughput for day-to-day CFD.

🏁 Final Thoughts

The 24-Core Powerhouse (Dual Xeon E5-2697 v2 @ 2.70 GHz) hits the sweet spot of parallel compute and per-core speed for 12M+ element CFD cases. For ANSYS Fluent and other leading solvers, it delivers the computational backbone to iterate faster, increase fidelity, and meet deadlines confidently.

Accelerate your CFD today.
👉 Contact MR CFD

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When computational fluid dynamics (CFD) demands both high mesh counts and fast iteration, you need hardware that balances serious parallel throughput with strong single-core speed. The 24-Core Powerhouse, built on dual Intel® Xeon® E5-2697 v2 processors, delivers exactly that—accelerating ANSYS Fluent, OpenFOAM, and STAR-CCM+ workflows with advanced turbulence, multiphase physics, and high-detail geometries.

With 24 physical cores (48 threads) running at 2.70 GHz, this platform confidently handles 18+ million-element meshes while keeping meshing, preprocessing, and post-processing responsive—so you can iterate faster without sacrificing accuracy.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2697 v2 (24 cores, 48 threads, 2.70 GHz)

Architecture: Intel Ivy Bridge-EP

Target Scale: 18M+ elements (steady & transient)

Performance Focus: High parallel efficiency + brisk per-core responsiveness

Why it works: Ivy Bridge-EP pairs a solid base clock with efficient multi-threading and large caches—keeping the entire workflow (prep → solve → post) smooth on big, physics-rich models.

🚀 Built for High-Fidelity, Real-World CFD

This system is tuned for production programs where accuracy, stability, and turnaround matter:

Aerospace: component aerodynamics, high-lift systems, aero-thermal coupling

Automotive: external aero, underhood/underbody flows, cooling modules

Energy/Combustion: burners, combustors, reacting flows with detailed kinetics

Environment/HVAC: urban dispersion, terrain-aware wind, building ventilation

It excels with RANS (k-ε, k-ω SST), transition, hybrid RANS-LES/DES, VOF/Eulerian multiphase, and conjugate heat transfer (CHT)—maintaining solver stability and convergence on dense meshes in the 18M+ cell band.

🧠 Architecture Advantages (End-to-End Throughput)

2.70 GHz base clock: Snappy meshing, geometry ops, and post-processing

24 cores / 48 threads: Efficient partitioning for 18M+ cell models

Large cache + memory bandwidth: Smooth convergence at tight CFLs

NUMA-aware design: Low-latency inter-socket communication for scalable runs

24/7 reliability: Built for long transients and batch optimization queues

🔧 Quick Wins to Maximize Performance

Partition sizing: Start ~0.7–0.9M cells per process; retune after a pilot run

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

CFL ramps & dual-time stepping: Safer, faster transient progress

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

Checkpoint cadence: Frequent autosaves protect long runs and ease restarts

💼 Ideal Use Cases

Aerospace component analysis & full-vehicle aerodynamics

Combustion modeling with detailed chemistry

Large-scale environmental and HVAC flows

DOE, parametric sweeps, and optimization loops

Whether you’re validating a high-lift system or optimizing thermal performance, this system delivers dependable, professional-grade throughput for day-to-day CFD at 18M+ elements.

🏁 Final Thoughts

The 24-Core Powerhouse (Dual Xeon E5-2697 v2 @ 2.70 GHz) hits the sweet spot of parallel compute and per-core speed for 18M+ element CFD cases. For ANSYS Fluent and other leading solvers, it provides the computational backbone to iterate faster, increase fidelity, and meet deadlines with confidence.

Accelerate your CFD today.
👉 Contact MR CFD

⚙️ Premium 20-Core HPC for Professional CFD

When fidelity must rise and turnaround times must fall, you need hardware that blends high per-core speed with serious parallel throughput. The Premium 20-Core HPC, powered by dual Intel® Xeon® E5-2680 v2 (2.80 GHz), delivers exactly that balance for ANSYS Fluent, OpenFOAM, and STAR-CCM+ users.

With 20 physical cores (40 threads) at 2.80 GHz, this server offers ~12% stronger single-core performance than comparable mid-range options—accelerating meshing, preprocessing, and post-processing—while sustaining efficient solver scaling on 18+ million-element meshes.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2680 v2 (20 cores, 40 threads, 2.80 GHz)

Architecture: Intel Ivy Bridge-EP

Mesh Scale: Optimized for 18M+ elements; scales higher with smart partitioning

Workload Focus: Advanced turbulence, multiphase/combustion, transient CHT

Performance Edge: ~12% faster single-core vs. similar-class CPUs

Why it’s “premium”: You get the clock speed to keep interactive steps snappy and the core count to cut wall-clock time in production CFD pipelines.

🚀 Built for Professional CFD & Multiphysics

Perfect where accuracy, stability, and turnaround drive success:

Turbulence: RANS (k-ε, k-ω SST), transition models, hybrid RANS-LES, DES

Multiphase / Reacting: VOF/Eulerian, cavitation, sprays, combustion (EDM/FRC)

Thermal / CHT: Conjugate heat transfer with complex material stacks

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

Design exploration: DOE, response surfaces, adjoint/parametric sweeps

Expect faster iteration for aerospace, automotive, HVAC, and biomedical applications—so you can evaluate more design variants per sprint without sacrificing fidelity.

🧠 Architecture Advantages (End-to-End Throughput)

2.80 GHz base clock: Responsive meshing, geometry ops, and post-processing

20 cores / 40 threads: Efficient domain partitioning for 18M+ cell models

Cache & memory behavior: Smoother convergence on dense zones / tight CFLs

24/7 reliability: Stable for long transients and batch optimization queues

Bottom line: Less waiting, more validated design points—week after week.

🔧 Quick Wins to Maximize Performance

Partition sizing: Start near 0.7–0.9M cells per process; retune after a pilot run

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

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

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

Checkpoint cadence: Frequent autosaves protect long runs and enable restartable studies

💼 Ideal for Professional Teams

Engineering firms delivering client-ready results under deadline

Industrial validation labs running certification-grade analyses

R&D groups iterating quickly with high-fidelity physics

Biomedical & HVAC programs where transient CHT and multiphase matter

This system’s blend of per-core speed and parallel capacity keeps daily workflows responsive while maintaining production-grade throughput.

🏁 Final Thoughts

The Premium 20-Core HPC (Dual Xeon E5-2680 v2 @ 2.80 GHz) is the pragmatic choice for professional CFD teams operating in the 18M+ element range. For ANSYS Fluent and other leading solvers, it supplies the computational backbone to iterate faster, raise fidelity, and hit deadlines confidently.

Accelerate your CFD pipeline today.
👉 Contact MR CFD

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When computational fluid dynamics (CFD) demands high mesh counts and fast iteration, you need hardware that balances serious parallel throughput with strong single-core speed. The 24-Core Powerhouse, built on dual Intel® Xeon® E5-2697 v2 processors, delivers exactly that—accelerating ANSYS Fluent, OpenFOAM, and STAR-CCM+ workflows with advanced turbulence, multiphase flows, and high-detail geometries.

With 24 physical cores (48 threads) at 2.70 GHz, this platform confidently handles 15+ million-element meshes while keeping meshing, preprocessing, and post-processing responsive—so you iterate faster without sacrificing accuracy.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2697 v2 (24 cores, 48 threads, 2.70 GHz)

Architecture: Intel Ivy Bridge-EP

Target Scale: 15M+ elements (steady & transient)

Performance Focus: High parallel efficiency + brisk per-core responsiveness

Why it works: Ivy Bridge-EP pairs a high base clock with efficient multi-threading and large caches—keeping the entire workflow (prep → solve → post) smooth on big, physics-rich models.

🚀 Built for High-Fidelity, Real-World CFD

This system is tuned for production programs where accuracy, stability, and turnaround matter:

Aerospace: component aerodynamics, high-lift systems, aero-thermal coupling

Automotive: external aero, underhood/underbody flows, cooling modules

Energy/Combustion: burners, combustors, reacting flows with detailed kinetics

Environment/HVAC: urban dispersion, terrain-aware wind, building ventilation

It excels with RANS (k-ε, k-ω SST), transition, hybrid RANS-LES/DES, VOF/Eulerian multiphase, and conjugate heat transfer (CHT)—maintaining solver stability and convergence on dense meshes in the 15M+ cell band.

🧠 Architecture Advantages (End-to-End Throughput)

2.70 GHz base clock: Snappy meshing, geometry ops, and post-processing

24 cores / 48 threads: Efficient partitioning for 15M+ cell models

Large cache + memory bandwidth: Smooth convergence at tight CFLs

NUMA-aware design: Low-latency inter-socket communication for scalable runs

24/7 reliability: Built for long transients and batch optimization queues

🔧 Quick Wins to Maximize Performance

Partition sizing: Start around 0.8–1.0M cells per process; retune after a pilot run

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

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

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

Checkpoint cadence: Frequent autosaves protect long runs and ease restarts

💼 Ideal Use Cases

Aerospace component analysis & full-vehicle aerodynamics

Combustion modeling with detailed chemistry

Large-scale environmental and HVAC flows

DOE, parametric sweeps, and optimization loops

Whether you’re validating a high-lift system or optimizing thermal performance, this system delivers dependable, professional-grade throughput for day-to-day CFD at 15M+ elements.

🏁 Final Thoughts

The 24-Core Powerhouse (Dual Xeon E5-2697 v2 @ 2.70 GHz) hits the sweet spot of parallel compute and per-core speed for 15M+ element CFD cases. For ANSYS Fluent and other leading solvers, it provides the computational backbone to iterate faster, increase fidelity, and meet deadlines with confidence.

Accelerate your CFD today.
👉 Contact MR CFD