HPC for ANSYS Fluent

# MR CFD: Premium RTX 3090 HPC for ANSYS Fluent Users

Power through complex fluid dynamics simulations with our high-performance RTX 3090 solution:
- NVIDIA RTX 3090 with 24GB GDDR6X memory
- 30GB RAM for handling detailed models
- 16-core CPU for balanced processing
- Optimized for ANSYS Fluent workflows

Experience dramatically faster convergence times and easily tackle advanced simulations, including turbulence modeling, multiphase flows, and thermal analysis.

Boost your engineering productivity today - contact MR CFD to access professional-grade computing power without the hardware investment.

⚙️ MR CFD: Premium NVIDIA GeForce RTX 2080 Ti HPC for ANSYS Fluent Users

In high-performance computational fluid dynamics (CFD) work, efficiency and accuracy define success. The MR CFD Premium NVIDIA GeForce RTX 2080 Ti HPC solution delivers powerful performance for ANSYS Fluent users who need reliable, affordable, and GPU-accelerated computing for their engineering simulations.

This configuration bridges the gap between professional workstation performance and enterprise HPC scalability, giving engineers and researchers the power to tackle advanced simulations without major hardware investment.

💻 High-Performance Configuration
Key Specifications

GPU: NVIDIA GeForce RTX™ 2080 Ti (11GB GDDR6X VRAM)

CPU: 32-Core High-Performance Processor

RAM: 90 GB DDR4 System Memory

Optimization: Tuned for ANSYS Fluent CFD workflows

The RTX 2080 Ti remains one of the most capable GPUs for simulation acceleration, offering 11GB of high-speed GDDR6X memory and exceptional floating-point performance for fluid flow, turbulence, and thermal analysis. When paired with a 32-core CPU and 90GB of system memory, it delivers outstanding balance between parallel GPU computation and CPU-based preprocessing or meshing tasks.

🚀 Accelerated ANSYS Fluent Performance

The MR CFD RTX 2080 Ti HPC setup is specifically tuned for ANSYS Fluent GPU solver acceleration. Engineers can experience:

Significantly reduced convergence times for complex transient simulations

Improved solver throughput on GPU-enabled CFD models

Smooth handling of multiphase and reacting flows

Faster visualization and post-processing of large datasets

By leveraging GPU-acceleration within ANSYS Fluent, the RTX 2080 Ti offloads heavy numerical calculations from the CPU, enabling faster iteration cycles and greater design productivity.

🧠 Ideal for Advanced CFD Workflows

This HPC configuration is designed for professional engineers, students, and researchers working on advanced CFD projects such as:

Turbulence modeling and LES/DES simulations

Thermal and heat transfer analysis

Combustion and reacting flow simulations

Multiphase flow problems

The 90GB of system RAM ensures that even large computational grids and complex physical models can be loaded efficiently, while the 32-core CPU provides balanced preprocessing and solver support.

💼 Professional Power Without the Hardware Investment

MR CFD provides access to enterprise-grade computing for engineers who need HPC-level performance but prefer on-demand access over full hardware ownership.

Key benefits include:

No upfront infrastructure cost — use powerful systems when needed

Full ANSYS Fluent optimization and support

Scalable resources for large and small simulation projects

Professional-grade reliability and stability

This approach empowers engineering teams, universities, and independent researchers to run GPU-accelerated simulations efficiently, affordably, and without downtime.

🌐 Why Choose the RTX 2080 Ti for ANSYS Fluent

While newer GPUs like the A100 or H100 target ultra-large CFD clusters, the RTX 2080 Ti offers a high-performance and cost-efficient solution for small to medium-scale CFD applications. Its robust CUDA core count, large VRAM, and excellent driver stability make it an ideal choice for:

Single-GPU simulation workloads

GPU solver testing and academic research

Thermal-fluid system modeling

Design optimization studies

When properly tuned for ANSYS Fluent’s GPU solver, this system can achieve significant time-to-solution improvements over traditional CPU-only configurations.

🏁 Final Thoughts

The MR CFD Premium NVIDIA GeForce RTX 2080 Ti HPC solution is the perfect entry point into GPU-accelerated CFD simulation. With 11GB of GDDR6X VRAM, 90GB of RAM, and a 32-core processor, it provides a powerful and affordable foundation for ANSYS Fluent users who demand both performance and value.

Whether you’re working on academic CFD research or industrial process simulations, this HPC setup delivers the computational muscle and stability needed to push your projects forward.

Boost your simulation productivity today.
👉 Contact MR CFD

⚙️ 48-Core Elite HPC for Enterprise-Level CFD

As computational fluid dynamics (CFD) models grow in complexity and resolution, engineers and researchers require computing solutions capable of handling multi-million element meshes with accuracy and speed. The 48-Core Elite HPC system is built precisely for that challenge — delivering enterprise-class performance, massive parallel processing, and unwavering stability for large-scale simulation environments.

Equipped with Intel® Xeon® E5-2690 v4 processors, this configuration offers 48 physical cores (96 threads) running at 2.20GHz, enabling engineers to solve 3+ million element CFD models and beyond with precision and scalability. Whether it’s aerospace aerodynamics, multiphase flow chemistry, or high-resolution digital twin simulations, this system provides the computational backbone for the world’s most demanding CFD applications.

💻 High-Performance Configuration
Key Specifications

Processors: Dual Intel® Xeon® E5-2690 v4 (48 Cores, 96 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: Enterprise-level CFD, FEA, and Multiphysics Workloads

Performance Focus: Ultra-parallel scaling and large-mesh performance

The Broadwell-EP architecture brings together exceptional multi-core performance, high memory bandwidth, and advanced I/O scalability, ensuring seamless performance across parallel CFD solvers such as ANSYS Fluent, OpenFOAM, and STAR-CCM+. Its design enables engineers to perform high-fidelity simulations faster, with better solver convergence and superior numerical stability.

🚀 Designed for Large-Scale CFD and Engineering Simulations

The 48-Core Elite HPC system is tailored for enterprise-scale industrial projects and cutting-edge research, where large, highly detailed simulations are the norm. It’s purpose-built to handle computationally intensive workloads with multi-physics coupling and complex fluid-structure interactions.

It excels in:

Complete aircraft and automotive aerodynamic modeling

Multiphase flow and combustion with detailed chemical kinetics

High-resolution digital twin simulations for real-time validation

Large-scale optimization and parameter sweep studies

Climate and environmental modeling with fine spatial resolution

With 96 simultaneous threads, this HPC server enables engineers to run multiple large models concurrently or scale single simulations across all cores for maximum speed and precision.

🧠 Engineered for Multiphysics and Parallel Efficiency

Each Intel Xeon E5-2690 v4 processor delivers 24 cores and 45MB cache, ensuring rapid data throughput and consistent solver scaling. The 48-core configuration provides both the raw compute density and the architectural efficiency required for massively parallel CFD workflows.

Key Advantages:

Outstanding solver scalability for CFD and FEA applications

Improved convergence rates for transient and multiphase simulations

High memory efficiency for large meshes and time-step processing

Optimized thermal and energy performance for continuous operation

The Broadwell-EP platform ensures excellent inter-core communication and NUMA memory access optimization, maintaining steady performance even under prolonged, full-load operation.

💼 Ideal for Enterprise, Research, and Advanced Engineering Teams

The 48-Core Elite HPC is purpose-built for organizations and institutions engaged in industrial-scale CFD, multiphysics research, and digital engineering transformation.

Best Suited For:

Aerospace and automotive R&D departments

Energy and renewable system designers

Climate science and environmental research centers

Academic supercomputing laboratories

Engineering teams developing digital twins and AI-driven simulations

Its server-grade reliability, ECC memory support, and 24/7 operational stability make it a trusted platform for mission-critical, long-duration CFD simulations and design studies.

🌐 Scalable, Reliable, and Future-Ready

With its dual-socket Broadwell-EP architecture, the 48-Core Elite HPC offers excellent scalability for future simulation workloads. It supports GPU acceleration, massive memory configurations, and distributed cluster expansion, making it a flexible, future-proof solution for evolving engineering challenges.

Technical Highlights:

48 cores / 96 threads for high-density parallel computation

Enhanced cache and I/O throughput for solver performance

High-speed PCIe and memory bandwidth for large dataset handling

Energy-efficient thermal management for sustained, full-load operation

This architecture ensures engineers can take on larger CFD models, longer transient runs, and more detailed physics—all within a stable and scalable computing environment.

🏁 Final Thoughts

The 48-Core Elite HPC for Enterprise-Level CFD stands as a true powerhouse for engineers and researchers tackling the most complex, large-scale CFD challenges. With dual Intel Xeon E5-2690 v4 processors and the Broadwell-EP architecture, it delivers the compute density, scalability, and reliability required for enterprise-grade simulation environments.

Whether you’re performing complete aircraft aerodynamic analyses, multiphase chemistry modeling, or high-resolution climate simulations, this HPC system ensures faster, more accurate results with unmatched stability and throughput.

Scale your CFD capabilities to the next level.
👉 Contact MR CFD

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

For engineers and researchers working on high-resolution computational fluid dynamics (CFD) projects, precision and compute power are non-negotiable. The 24-Core Powerhouse server delivers the perfect balance of parallel processing capability and single-core performance, enabling faster, more detailed simulations for advanced fluid dynamics, aerodynamics, and multiphysics applications.

Powered by dual Intel® Xeon® E5-2697 v2 processors, this configuration provides 24 physical cores (48 threads) running at 2.70GHz, offering the high-frequency performance required for complex CFD models with intensive turbulence and multiphase interactions. Capable of handling 12+ million element meshes, this system is designed to meet the rigorous demands of aerospace, automotive, and industrial simulation environments.

💻 High-Performance Configuration
Key Specifications

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

Architecture: Intel Ivy Bridge-EP

Optimization: CFD, FEA, and Multiphysics Simulation Workloads

Performance Focus: Balanced multi-core scaling and high single-core efficiency

The Ivy Bridge-EP architecture combines strong per-core frequency with excellent parallel scaling, making it ideal for solvers like ANSYS Fluent, OpenFOAM, and STAR-CCM+. Its 2.70GHz base frequency ensures rapid execution of transient simulations, solver iterations, and post-processing tasks, while the 24-core layout provides robust multi-simulation throughput.

🚀 Designed for Complex and Large-Scale CFD

The 24-Core Powerhouse is optimized for advanced CFD workflows where both precision and speed matter. With its high clock speed and scalable architecture, it efficiently handles multi-million element CFD meshes, advanced turbulence modeling, and reactive flow simulations that demand computational depth and solver stability.

It excels in:

Full-vehicle aerodynamic design and optimization

Combustion modeling and chemical reaction simulations

Aerospace component analysis and flow control

HVAC and environmental flow studies

Multiphase flow and advanced turbulence modeling (RANS, LES, DES)

With 48 processing threads, engineers can perform high-fidelity transient simulations or manage multiple steady-state projects simultaneously — significantly accelerating research and development cycles.

🧠 Balanced Architecture for High-Fidelity Engineering Simulations

Each Intel Xeon E5-2697 v2 processor provides 12 cores and 30MB of cache, ensuring excellent computational throughput for both parallel solvers and memory-intensive CFD operations. The architecture’s balance of frequency and core count allows for fast, stable performance across a wide range of simulation scales.

Key Advantages:

Superior solver scalability for CFD and FEA applications

Strong single-core speed for meshing, preprocessing, and post-processing

Consistent performance for large transient simulations

Optimized energy efficiency for sustained high-load computing

The Ivy Bridge-EP platform ensures improved inter-core communication, high memory bandwidth, and reliable scaling, delivering smooth performance under heavy parallel workloads and long-duration simulations.

💼 Ideal for Engineering, Research, and Industrial Applications

The 24-Core Powerhouse is the perfect choice for professionals and teams conducting high-fidelity engineering simulations across multiple domains.

Ideal Use Cases:

Aerospace and automotive aerodynamic analysis

Combustion and reactive flow modeling

Thermal-fluid optimization of complex systems

Environmental flow and pollutant dispersion studies

Academic research and advanced CFD training environments

With its server-grade reliability, ECC memory support, and stable 24/7 performance, it’s trusted by organizations that depend on accurate and consistent simulation results.

🌐 Scalable and Efficient for Long-Term Performance

The 24-Core Powerhouse combines computational efficiency with architectural scalability. It supports large memory configurations, GPU acceleration, and cluster integration, making it a long-term investment for growing simulation demands.

Technical Highlights:

24 cores / 48 threads for balanced parallel and serial workloads

High base frequency (2.70GHz) for solver responsiveness

Enhanced cache and I/O architecture for smooth data handling

Energy-efficient design for sustained performance

Its hybrid capability — handling both single-core tasks and multi-core workloads efficiently — ensures it performs well across all stages of the CFD pipeline: preprocessing, solving, and post-processing.

🏁 Final Thoughts

The 24-Core Powerhouse for Advanced CFD Simulations is the ideal solution for professionals seeking balanced high-performance computing that excels in both parallel scalability and single-threaded performance. With dual Intel Xeon E5-2697 v2 processors, it enables faster solver execution, smoother model interaction, and greater numerical precision for advanced CFD and multiphysics workflows.

Whether you’re analyzing full-vehicle aerodynamics, combustion processes, or environmental airflow, this system ensures fast, stable, and reliable results — empowering engineers and researchers to push simulation boundaries further than ever before.

Boost your CFD productivity today.
👉 Contact MR CFD

⚙️ 48-Core Elite HPC for Enterprise-Level CFD

As computational fluid dynamics (CFD) models grow in complexity and scale, engineers and researchers need computing platforms capable of handling multi-million element meshes with precision and speed. The 48-Core Elite HPC system is built precisely for this challenge — offering enterprise-class performance, massive parallel processing power, and unwavering stability for the most demanding large-scale simulations.

Powered by Intel® Xeon® E5-2690 v4 processors, this configuration delivers 48 physical cores (96 threads) running at 2.20GHz, enabling users to solve 3+ million element CFD models and beyond with exceptional accuracy and scalability. Whether performing aerospace aerodynamic analyses, multiphase combustion studies, or digital twin simulations, this HPC solution provides the computational backbone for world-class CFD applications.

💻 High-Performance Configuration
Key Specifications

Processors: Dual Intel® Xeon® E5-2690 v4 (48 Cores, 96 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: Enterprise-level CFD, FEA, and Multiphysics Workloads

Performance Focus: Ultra-parallel scaling and large-mesh computation

The Broadwell-EP architecture delivers industry-leading multi-core performance, high memory bandwidth, and advanced I/O scalability, ensuring seamless execution of large parallel simulations.
Engineers using ANSYS Fluent, OpenFOAM, or STAR-CCM+ will experience smoother solver scaling, faster convergence, and superior numerical stability across complex geometries and long transient runs.

🚀 Designed for Large-Scale CFD and Engineering Simulations

The 48-Core Elite HPC is purpose-built for enterprise-scale industrial projects and cutting-edge research where detailed, high-resolution models are the standard. Its computational depth allows for precise analysis and rapid iteration across vast simulation domains.

It excels in:

Complete aircraft and automotive aerodynamic modeling

Multiphase flow and combustion with detailed chemical kinetics

High-fidelity digital twin simulations for real-time validation

Large-scale optimization and design parameter sweeps

High-resolution environmental and climate modeling

With 96 simultaneous threads, this system enables engineers to run multiple large models concurrently or distribute a single massive simulation across all cores, achieving maximum performance and accuracy.

🧠 Engineered for Multiphysics and Parallel Efficiency

Each Intel Xeon E5-2690 v4 processor provides 24 cores and 45MB cache, delivering both raw compute density and architectural efficiency for heavily parallel CFD workloads.
The 48-core configuration ensures high solver scalability and excellent memory performance, maintaining consistent speed even in data-heavy transient simulations.

Key Advantages

Exceptional solver scaling for CFD and FEA applications

Improved convergence rates for transient and multiphase flows

High memory efficiency for large time-step processing

Energy-efficient and thermally optimized for continuous 24/7 operation

The Broadwell-EP platform also ensures superior NUMA optimization and inter-core communication, providing steady performance during long-duration runs under full computational load.

💼 Ideal for Enterprise, Research, and Advanced Engineering Teams

The 48-Core Elite HPC is the ideal choice for organizations and institutions requiring enterprise-level CFD and multiphysics performance. Designed for scalability, reliability, and continuous operation, it’s trusted by teams working at the forefront of simulation and design innovation.

Best Suited For:

Aerospace and automotive R&D teams running aerodynamic and aeroacoustic studies

Energy and renewable system designers working on turbines and reactors

Climate and environmental research institutes modeling large-scale atmospheric phenomena

Academic and government supercomputing centers

Engineering firms building digital twins and AI-driven simulation systems

Its ECC memory reliability, server-grade components, and 24/7 operational stability make it a cornerstone system for mission-critical, long-duration engineering workflows.

🌐 Scalable, Reliable, and Future-Ready

With its dual-socket Broadwell-EP architecture, the 48-Core Elite HPC offers excellent scalability for the evolving needs of engineering computation.
It supports GPU acceleration, large memory expansion, and distributed HPC clustering, enabling researchers to scale up their projects as data sizes and solver complexity grow.

Technical Highlights:

48 cores / 96 threads for dense parallel processing

High cache throughput for accelerated solver performance

PCIe and memory bandwidth optimized for massive datasets

Energy-efficient cooling and power design for sustained workloads

This flexible architecture ensures consistent performance for current CFD solvers while being ready for next-generation hybrid CPU-GPU simulation platforms.

🏁 Final Thoughts

The 48-Core Elite HPC for Enterprise-Level CFD redefines high-performance computing for large-scale engineering simulation. With dual Intel Xeon E5-2690 v4 processors and Broadwell-EP architecture, it delivers unmatched processing density, stability, and scalability for engineers tackling the most advanced CFD, thermal, and multiphysics challenges.

Whether simulating full-scale aircraft aerodynamics, modeling multiphase reactive flows, or running detailed climate simulations, this system empowers professionals to achieve faster results, higher accuracy, and greater design insight.

Elevate your CFD performance today.
👉 Contact MR CFD

⚙️ 48-Core Elite HPC for Enterprise-Level CFD

When computational fluid dynamics (CFD) pushes into ultra-high mesh counts and deeply coupled physics, you need hardware that scales without compromise. The 48-Core Elite HPC, built on dual Intel® Xeon® E5-2690 v4 processors, delivers 48 physical cores (96 threads) at 2.20 GHz for true enterprise-class throughput—accelerating ANSYS Fluent, OpenFOAM, and STAR-CCM+ across 12+ million-element cases and well beyond.

Engineered for industrial programs and cutting-edge research, it tackles massive multiphysics, large-scale optimization, and digital-twin workloads with the stability needed for weeks-long transients and automated pipelines.

💻 High-Performance Configuration

Key Specifications

Processors: Dual Intel® Xeon® E5-2690 v4 (48 cores, 96 threads, 2.20 GHz)

Architecture: Intel Broadwell-EP

Target Scale: 12M+ elements (steady & transient, multi-domain)

Performance Focus: High parallel efficiency + sustained 24/7 reliability

Why it excels: Broadwell-EP combines high core density, large caches, and strong memory/I-O bandwidth, enabling efficient partitioning for very large meshes while keeping solver communication overhead in check.

🚀 Built for Enterprise-Scale CFD & Research

This platform is tuned for programs where resolution, turnaround, and repeatability drive value:

Complete aircraft/automotive aerodynamics with high-lift and aero-thermal coupling

Multiphase & reacting flows with detailed chemistry (VOF/Eulerian, cavitation, combustion)

Digital twins for predictive maintenance and design-in-the-loop workflows

Large-scale optimization (DOE, adjoint/parametric sweeps, response surfaces)

High-resolution climate & environmental modeling with fine spatial/temporal fidelity

Run bigger meshes, longer transients, and more variants per week—without saturating resources or sacrificing solver stability.

🧠 Architecture Advantages (End-to-End Throughput)

48 cores / 96 threads: Dense parallelism for large partitions and multi-run pipelines

Broadwell-EP memory & cache: Smoother convergence on tight CFLs and stiff physics

NUMA-aware scaling: Low-latency inter-socket communication for big models

I/O headroom: Fast checkpoints, post-processing, and data streaming for digital-twin stacks

Datacenter-grade reliability: Designed for continuous operation and automated job queues

🔧 Practical Tuning Tips (quick wins)

Partition sizing: Start near 0.6–0.9M cells per process; retune after a pilot run

Solver order: Stabilize first-order → switch to second-order for final accuracy

Time-step strategy: CFL-guided ramps + dual-time stepping for stiff transients

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

Checkpoint cadence: Frequent autosaves for long campaigns and restartable studies

💼 Ideal Use Cases

Aerospace & automotive R&D divisions demanding high-fidelity aero/thermal results

Process & energy industries modeling combustors, turbines, and heat-exchange networks

Climate & environmental institutes running high-resolution regional models

Industrial digital-twin programs needing deterministic, repeatable compute at scale

🏁 Final Thoughts

The 48-Core Elite HPC (Dual Xeon E5-2690 v4 @ 2.20 GHz) is the CPU backbone for enterprise-level CFD—combining parallel density, solver stability, and I/O headroom to deliver faster iterations and higher-fidelity outcomes on 12M+ element cases.

Scale your CFD with confidence.
👉 Contact MR CFD

48-Core Elite HPC for Enterprise-Level CFD

This premium server features Intel Xeon E5-2690v4 processors (48 cores at 2.20GHz) handling 15+ million element meshes and beyond. Designed for enterprise-scale industrial projects and cutting-edge research requiring ultra-high-resolution simulations. Excels at massive multiphysics problems, large-scale optimization studies, and complex applications like complete aircraft aerodynamics, detailed chemistry in multiphase flows, full digital twin simulations, and high-resolution climate modeling with unprecedented detail resolution

🚀 Enterprise-Grade Workstations for ANSYS & CFD Simulations: Power, Precision, and Reliability

When it comes to computational fluid dynamics (CFD) and finite element analysis (FEA), performance is everything. Engineers, researchers, and simulation specialists working with ANSYS Fluent, Mechanical, or CFX know that every second counts—and so does accuracy. That’s why choosing the right workstation can mean the difference between waiting for hours and iterating in real-time.

💻 The Ultimate Workstation for ANSYS and CFD Professionals

Our enterprise-grade workstation is purpose-built for ANSYS Fluent CFD simulations, multiphysics analysis, and complex engineering workflows. Designed for maximum reliability and performance, it combines server-class components with desktop-level accessibility.

🧠 Key Specifications

CPU: Intel® Core™ i9-13900 (24 cores: 8P + 16E)

RAM: 64 GB DDR5 ECC

Storage: 2 × 1.92 TB Datacenter Edition Gen4 NVMe SSDs (Software RAID 1)

⚙️ Built for Extreme Computational Workloads

The Intel i9-13900 processor delivers an incredible 24-core hybrid architecture, enabling seamless multi-threaded performance—ideal for parallel CFD solvers in ANSYS Fluent. With boost speeds up to 5.6GHz, it crushes through mesh generation, turbulence modeling, transient simulations, and design optimization without breaking a sweat.

💾 ECC DDR5 Memory for Uncompromising Accuracy

Simulation results demand absolute precision. That’s why this workstation includes 64GB DDR5 ECC (Error-Correcting Code) memory. ECC ensures data integrity, automatically detecting and correcting memory errors during long simulation runs—vital for aerospace, automotive, and energy applications where accuracy defines success.

⚡ Ultra-Fast, Redundant Storage for Continuous Uptime

With dual 1.92TB NVMe Gen4 SSDs in a RAID 1 configuration, you get the best of both worlds: read speeds up to 7000 MB/s and data redundancy. This means your simulation files, mesh data, and transient results are protected against failure while loading and saving data at lightning speed.

🌐 Why This Workstation Excels for ANSYS Fluent CFD Simulations

ANSYS Fluent is computationally demanding—especially when running transient, multiphase, or reacting flow simulations. To handle this load, you need a workstation optimized for high parallelization, memory throughput, and I/O bandwidth.

Our system’s combination of Intel hybrid architecture, DDR5 ECC memory, and enterprise SSDs ensures:

Faster convergence times

Stable long-duration runs

Reduced thermal throttling

Reliable data output for post-processing and optimization

Whether you’re simulating aerodynamics of a new EV design, heat exchange in industrial systems, or flow dynamics in biomedical devices, this configuration delivers the consistency and computational muscle professionals rely on.

🧩 Ideal Use Cases

This workstation is not just for CFD—it’s engineered for multi-domain engineering and scientific workloads, including:

Structural and thermal analysis (ANSYS Mechanical)

Electromagnetic field simulations (HFSS, Maxwell)

Design optimization and parameter sweeps

High-resolution rendering and data visualization

Machine learning-assisted simulation workflows

💼 Enterprise Reliability Meets Desktop Accessibility

Unlike typical consumer desktops, this workstation delivers datacenter-level reliability without the complexity of managing a full-scale server. It’s the perfect balance of power, precision, and practicality, offering:

Quiet, efficient cooling for office environments

Enterprise-grade components for 24/7 uptime

Scalable configuration options for growing simulation demands

# 44-Core Elite HPC for Advanced CFD Applications

This premium server features dual Intel Xeon E5-2699v4 processors (44 cores at 2.20GHz) delivering exceptional parallel processing for sophisticated fluid dynamics simulations. Ideal for multi-simulation processing and computationally demanding professional applications. Excels in complete automotive/aerospace aerodynamics, full-system thermal analysis of large electronic systems, detailed combustion simulations with thorough chemical models, and large-scale environmental modeling. The Broadwell-EP architecture provides outstanding scalability for extensively parallelized workloads with enhanced I/O performance for large simulation datasets.

⚙️ MR CFD: Premium NVIDIA RTX 3090 HPC for ANSYS Fluent Users

Power, precision, and performance — the MR CFD Premium NVIDIA RTX 3090 HPC solution delivers them all. Designed specifically for ANSYS Fluent users, this high-performance computing system is built to accelerate computational fluid dynamics (CFD) workflows, enabling faster simulations, deeper analysis, and greater engineering productivity.

With 24GB of ultra-fast GDDR6X VRAM, a 48-core CPU, and 90GB of high-bandwidth memory, this configuration is purpose-built to handle complex multiphysics simulations, turbulence modeling, and thermal-fluid analysis with ease.

💻 High-Performance Configuration
Key Specifications

GPU: NVIDIA RTX™ 3090 (24GB GDDR6X VRAM)

CPU: 48-Core High-Performance Processor

RAM: 90 GB DDR4 System Memory

Optimization: Tuned for ANSYS Fluent CFD Workflows

The RTX 3090 represents the pinnacle of NVIDIA’s consumer GPU architecture, offering massive CUDA core counts, high clock speeds, and professional-grade computational performance. Its 24GB of GDDR6X memory makes it ideal for large CFD models, while the 48-core CPU and 90GB RAM provide a perfectly balanced platform for parallel processing, meshing, and solver execution.

🚀 Accelerate ANSYS Fluent CFD Simulations

The MR CFD RTX 3090 HPC setup is optimized to leverage GPU acceleration in ANSYS Fluent, drastically reducing time-to-solution for both steady-state and transient flow simulations.

Engineers and researchers can expect:

2–3× faster solver convergence versus CPU-only configurations

Efficient handling of large mesh sizes and complex turbulence models

Improved stability during long-duration transient runs

High-speed post-processing and data visualization

Whether you’re running aerodynamic optimizations, heat transfer studies, or multiphase flow analyses, this system ensures consistent, high-performance results — every time.

🧠 Designed for Complex CFD and Multiphysics Workflows

This HPC solution is ideal for professionals and institutions working on computationally intensive simulations such as:

Advanced turbulence (LES, DES, RANS) modeling

Thermal-fluid coupling and heat transfer

Combustion and reacting flow simulations

Multiphase flow, cavitation, and free-surface modeling

Optimization and parametric studies

With 90GB of RAM and a 48-core processor, users can efficiently handle pre-processing, meshing, and solver tasks while the RTX 3090 GPU accelerates numerical computation for maximum throughput.

💼 Professional Power Without the Infrastructure Cost

At MR CFD, we make high-performance computing (HPC) accessible without requiring expensive, in-house infrastructure. Our on-demand GPU-accelerated systems offer professional-grade performance for ANSYS Fluent and other simulation software.

Benefits include:

No upfront hardware investment — pay only for what you use

Pre-optimized ANSYS Fluent environments

Scalable resources for multiple users or projects

Enterprise reliability and 24/7 availability

Whether you’re an academic researcher, automotive engineer, or aerospace CFD specialist, this HPC setup empowers you to run advanced simulations from anywhere, with full performance and zero maintenance.

🌐 Why Choose the RTX 3090 for ANSYS Fluent

The RTX 3090 remains one of the most cost-efficient GPUs for CFD and simulation workloads, offering exceptional compute power and reliability for its price class. With 24GB of VRAM, it comfortably supports high-resolution models and long-duration runs that demand both speed and stability.

Key advantages include:

High CUDA core density for massive parallelization

Excellent double-precision performance for CFD solvers

GPU acceleration compatibility with ANSYS Fluent and CFX

Outstanding price-to-performance ratio

For engineers who demand professional-level CFD performance without enterprise GPU costs, the RTX 3090 is the perfect choice.

🏁 Final Thoughts

The MR CFD Premium NVIDIA RTX 3090 HPC system is built for professionals who refuse to compromise between speed, stability, and affordability. With 24GB of GPU memory, a 48-core CPU, and 90GB of RAM, it’s a powerhouse for ANSYS Fluent, capable of solving large, complex simulations faster and more reliably than ever before.

Whether you’re modeling turbulence, optimizing thermal designs, or simulating multiphase interactions, this workstation ensures that every computation runs efficiently and precisely.

Accelerate your simulations today.
👉 Contact MR CFD