HPC for ANSYS Fluent

High-Performance Computing Node

**Technical Specifications:**
- **CPU:** AMD Ryzen 5 3600 Hexa-Core
- **RAM:** 64 GB DDR4
- **Storage:** 2 x 512 GB NVMe SSD (Software-RAID 1)
- **Location:** Finland

This powerful computing node offers excellent performance for computational tasks with its 6-core/12-thread Zen2 architecture processor running at 3.6-4.2 GHz. The generous 64GB DDR4 memory supports memory-intensive simulations and data processing workflows. Storage reliability is ensured through redundant 512GB NVMe SSDs in RAID 1 configuration, providing performance and data protection. This system benefits from the region's reliable power infrastructure, low ambient temperatures for efficient cooling, and excellent network connectivity to European research centers. Ideal for engineering simulations, data analysis, and research computing applications requiring dependable performance.

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

When speed and accuracy matter, engineers and researchers turn to GPU-accelerated computing. The MR CFD Premium NVIDIA GeForce RTX 2080 Ti HPC solution delivers dependable, high-performance capability for ANSYS Fluent users running complex computational fluid dynamics (CFD) simulations—without the high costs of owning enterprise hardware.

Designed for professionals, students, and small research teams, this system provides the perfect balance of affordability, reliability, and simulation performance for CFD and multiphysics workloads.

💻 High-Performance Configuration
Key Specifications

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

CPU: 8-Core High-Performance Processor

RAM: 24 GB DDR4 Memory

Optimization: Tuned for ANSYS Fluent CFD Workflows

Powered by the NVIDIA RTX 2080 Ti GPU, this configuration enables GPU-accelerated solvers in ANSYS Fluent to dramatically reduce simulation runtimes. With 11GB of GDDR6X VRAM, it efficiently manages moderate-sized fluid models, turbulent flow simulations, and thermal analyses.

The 8-core CPU handles preprocessing and data management, while 24GB of RAM ensures stable operation across steady-state and transient cases. It’s a perfect solution for engineers seeking highly optimized CFD performance in a compact, cost-effective system.

🚀 Accelerate Your ANSYS Fluent Simulations

The MR CFD HPC platform is engineered specifically for ANSYS Fluent GPU solver acceleration—offloading the most intensive numerical calculations to the GPU for significantly improved performance.

With this configuration, users can expect:

Up to 2× faster convergence compared to CPU-only setups

Efficient parallel processing for steady-state and transient CFD models

Smooth GPU utilization for turbulence, heat transfer, and multiphase flows

Enhanced visualization and post-processing responsiveness

Whether you’re running academic research, industrial fluid analysis, or prototype optimization, this workstation delivers fast, repeatable, and reliable results.

🧠 Ideal for Advanced Engineering Applications

This configuration is ideal for engineers, students, and research professionals conducting:

Turbulence modeling (k-ε, k-ω, LES, DES)

Heat transfer and thermal-fluid coupling studies

Multiphase flow and surface interaction modeling

CFD validation and optimization projects

It’s especially suited for small to mid-scale CFD simulations where speed, accuracy, and cost-efficiency are critical. ANSYS Fluent’s GPU solver compatibility ensures that even with this configuration, you’ll experience dramatic performance gains without requiring large-scale hardware.

💼 Enterprise Power Without Enterprise Costs

At MR CFD, we make high-performance computing (HPC) accessible to every engineer. Our on-demand GPU-accelerated HPC systems allow users to perform professional-grade simulations without buying or maintaining hardware.

With MR CFD, you get:

Instant access to HPC power for ANSYS Fluent

No setup or maintenance overhead

Flexible scalability for growing simulation needs

24/7 reliability for academic or commercial projects

This makes it ideal for universities, independent engineers, and R&D teams seeking high-quality computing performance without the constraints of in-house infrastructure.

🌐 Why the RTX 2080 Ti Still Excels in CFD

Despite being a previous-generation GPU, the NVIDIA RTX 2080 Ti remains a powerful and efficient solution for GPU-accelerated CFD simulations. It provides:

11GB of ultra-fast GDDR6X VRAM for medium-scale models

Strong double-precision performance for solver accuracy

Excellent CUDA and driver stability for ANSYS compatibility

A proven balance of price and power for CFD workloads

For users working on academic research, product design, or thermal-fluid optimization, the RTX 2080 Ti offers exceptional performance and value.

🏁 Final Thoughts

The MR CFD Premium NVIDIA GeForce RTX 2080 Ti HPC is a powerful yet accessible gateway into GPU-accelerated CFD simulation. With 11GB of VRAM, 24GB of system memory, and an 8-core CPU, it’s engineered to give ANSYS Fluent users a faster, more efficient, and cost-effective way to solve complex fluid dynamics problems.

Whether you’re exploring turbulent airflows, thermal management, or multiphase interactions, this workstation ensures faster convergence, stable performance, and professional-grade reliability.

Boost your simulation productivity today.
👉 Contact MR CFD

# Supercharge Your ANSYS Fluent Simulations with MR CFD

Tackle complex CFD projects faster with our professional HPC solution featuring:
- NVIDIA Tesla K80 GPU with 24GB GDDR5 memory
- 65GB RAM for large-scale models
- 250GB SSD storage
- 1024 Mbps internet connection
- 1TB monthly traffic allowance

Experience up to 10x faster solution times for multiphase flows, turbulence modeling, and complex meshes. Run multiple design iterations simultaneously and meet tight deadlines without capital investment in hardware.

Contact MR CFD today to accelerate your engineering workflow and deliver superior results in less time.

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When precision, performance, and reliability matter most, the 24-Core Powerhouse stands as a benchmark in high-performance computing for computational fluid dynamics (CFD). Designed to handle large and complex simulation models, this system combines exceptional parallel computing capability with strong single-core speed — delivering the balanced power engineers need for today’s advanced CFD workflows.

Powered by dual Intel® Xeon® E5-2697 v2 processors, this configuration provides 24 physical cores (48 threads) running at 2.70GHz, ensuring smooth and efficient handling of 3+ million element meshes. Whether you’re modeling aerospace aerodynamics, combustion processes, or environmental flow systems, this HPC solution is purpose-built to accelerate simulation workflows with accuracy and consistency.

💻 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 parallel scalability and single-core performance

The Ivy Bridge-EP architecture delivers the ideal blend of high clock frequency and parallel processing efficiency. With dual-socket scalability, engineers can leverage both multi-core parallel solvers and single-threaded pre/post-processing tasks seamlessly — making it an ideal workstation for ANSYS Fluent, OpenFOAM, and STAR-CCM+ simulations.

🚀 Built for Advanced and Mid-Scale CFD Workloads

The 24-Core Powerhouse is optimized for engineering teams running complex fluid dynamics simulations with fine mesh detail and advanced physical modeling. It delivers dependable performance across all simulation stages — from geometry meshing and solver execution to post-processing.

It excels in:

Aerospace and full-vehicle aerodynamic design

Combustion and reacting flow simulations

Thermal-fluid optimization for energy systems

HVAC and environmental flow analysis

Advanced turbulence (RANS, LES, DES) and multiphase modeling

With 48 simultaneous threads, engineers can perform high-resolution transient simulations or run multiple CFD studies in parallel — reducing project turnaround time while maintaining solver stability.

🧠 Optimized Architecture for CFD and Multiphysics Workflows

Each Intel Xeon E5-2697 v2 processor offers 12 cores and 30MB of cache, balancing high clock speed with computational depth. The result is excellent solver performance for large and moderately sized CFD cases requiring detailed turbulence modeling and tight convergence.

Key Advantages:

Superior solver stability for transient and multiphase simulations

Strong single-core speed for preprocessing and post-processing tasks

High parallel efficiency across 24 cores for large CFD meshes

Optimized energy efficiency for continuous operation

The Ivy Bridge-EP platform also supports NUMA optimization, improving inter-core communication and memory access for data-heavy solver operations. This ensures consistent performance under full computational loads and extended simulation cycles.

💼 Ideal for Engineering, Research, and Industrial Applications

The 24-Core Powerhouse is engineered for professional engineers, simulation specialists, and researchers who require high-performance, precision computing for a variety of CFD applications.

Ideal Use Cases:

Aerospace and automotive aerodynamic analysis

Combustion and chemical process simulations

HVAC and building ventilation studies

Environmental modeling and fluid dispersion analysis

Design optimization and parameter sweeps

With server-grade reliability, ECC memory support, and 24/7 operational stability, this workstation is ideal for extended simulation runs in industrial and academic environments alike.

🌐 Scalable and Future-Ready for Evolving CFD Challenges

Built on Intel’s Ivy Bridge-EP architecture, the 24-Core Powerhouse provides a foundation for scalability and performance growth. It supports GPU acceleration, large memory configurations, and cluster expansion, allowing engineers to adapt to future increases in simulation complexity.

Technical Highlights:

24 cores / 48 threads for parallel solver execution

2.70GHz base clock for high-frequency tasks

Optimized cache and I/O performance for smoother data flow

Energy-efficient operation for continuous use

This balance of speed and scalability makes it an ideal choice for engineering firms, research centers, and simulation-based design teams looking for reliable, long-term CFD performance.

🏁 Final Thoughts

The 24-Core Powerhouse for Advanced CFD Simulations combines parallel performance and single-core responsiveness to deliver the ultimate balance for professional CFD workflows. With dual Intel Xeon E5-2697 v2 processors and a robust architecture, it enables faster solver convergence, accurate numerical stability, and exceptional throughput for advanced simulation projects.

Whether you’re optimizing aircraft aerodynamics, simulating combustion flows, or analyzing environmental airflow, this system provides the reliability and computational depth required for next-generation CFD applications.

Accelerate your CFD simulations 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 involving advanced turbulence, multiphase flows, and high-detail geometries.

With 24 physical cores (48 threads) at 2.70 GHz, this platform confidently handles 18+ 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: 18M+ 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 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 around 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

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

When simulation accuracy, solver stability, and speed define engineering success, the 24-Core Powerhouse server stands out as the ideal solution for professional computational fluid dynamics (CFD) users. Designed for high-performance, high-fidelity CFD modeling, this workstation balances multi-core scalability with strong single-core performance, ensuring reliable results for even the most complex simulations.

Powered by dual Intel® Xeon® E5-2697 v2 processors, this configuration provides 24 physical cores (48 threads) running at 2.70GHz, enabling seamless performance across 6+ million element CFD meshes. Whether analyzing aerospace aerodynamics, combustion systems, or environmental flows, this HPC system offers the computational strength and precision needed for modern engineering applications.

💻 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 parallel efficiency with strong single-core speed

The Ivy Bridge-EP architecture combines a high clock frequency with excellent multi-threaded scalability — ideal for ANSYS Fluent, OpenFOAM, and STAR-CCM+ users who require both solver parallelization and rapid iteration. Its 2.70GHz base frequency delivers fast responsiveness for meshing, post-processing, and design optimization, while its 24-core setup enables robust performance for multi-physics and transient flow analyses.

🚀 Designed for High-Resolution CFD Workloads

The 24-Core Powerhouse is purpose-built for engineers and researchers running complex, multi-million element CFD models that require precision and stability. It ensures smooth performance across all solver stages — from preprocessing to convergence.

It excels in:

Aerospace and full-vehicle aerodynamic simulations

Combustion and reacting flow modeling

Thermal-fluid system optimization

HVAC and environmental flow analysis

Advanced turbulence (RANS, LES, DES) and multiphase simulations

With 48 threads of parallel computing capability, users can handle large, transient simulations efficiently or perform multiple optimization runs simultaneously, greatly reducing overall project time.

🧠 Balanced Architecture for Complex Engineering Simulations

Each Intel Xeon E5-2697 v2 processor provides 12 cores and 30MB cache, offering both processing density and clock speed stability. This balance allows engineers to achieve faster solver convergence while maintaining accuracy for large CFD meshes and time-dependent flow fields.

Key Advantages:

Excellent single-core performance for meshing and pre/post-processing

High parallel efficiency for transient and multiphase CFD models

Improved solver stability for large numerical datasets

Optimized for continuous, long-duration simulation cycles

The Ivy Bridge-EP platform ensures robust NUMA memory performance and high bandwidth, enabling efficient communication between cores and consistent solver scaling during intensive CFD computations.

💼 Ideal for Engineering, Research, and Industry Applications

The 24-Core Powerhouse is designed for professional engineers, academic institutions, and industrial R&D teams requiring high computational power for simulation-driven design.

Best Suited For:

Aerospace and automotive aerodynamic engineers

Energy and combustion research teams

HVAC and climate system designers

Environmental modeling and pollutant dispersion studies

Universities and CFD research laboratories

With ECC memory reliability, server-grade components, and 24/7 operational stability, this HPC system ensures long-term dependability and precision for mission-critical CFD and engineering workloads.

🌐 Scalable and Future-Ready

Built on the proven Ivy Bridge-EP architecture, the 24-Core Powerhouse offers scalable performance that grows with your computational needs. Supporting large memory capacities, GPU acceleration, and cluster integration, it’s ready for the future of data-intensive CFD and multiphysics analysis.

Technical Highlights:

24 cores / 48 threads for parallel solver execution

2.70GHz base frequency for faster single-thread performance

Enhanced cache and I/O efficiency for large CFD datasets

Energy-efficient design for continuous, high-load operation

This system provides the ideal balance of compute power, responsiveness, and scalability—a critical advantage for teams running iterative CFD workflows and optimization loops.

🏁 Final Thoughts

The 24-Core Powerhouse for Advanced CFD Simulations combines speed, stability, and computational scalability to support the most demanding fluid dynamics and engineering analysis tasks. With dual Intel Xeon E5-2697 v2 processors and advanced architecture, it ensures faster solver convergence, smoother meshing, and efficient handling of large-scale CFD models.

Whether you’re modeling aerospace aerodynamics, combustion phenomena, or environmental flow systems, this HPC solution delivers enterprise-grade performance and precision — making it a cornerstone for high-end CFD productivity.

Accelerate your simulations with confidence.
👉 Contact MR CFD

High-Performance Computing Node

**Technical Specifications:**
- **CPU:** AMD Ryzen 5 3600 Hexa-Core
- **RAM:** 64 GB DDR4
- **Storage:** 2 x 512 GB NVMe SSD (Software-RAID 1)
- **Location:** Finland

# High-Performance Workstation

**Specifications:**
- **CPU:** Intel® Core™ i5-13500 (14 cores: 6P+8E)
- **RAM:** 64 GB DDR4
- **Storage:** 2 × 512 GB Gen 4 NVMe SSDs (Software RAID 1)

This powerful workstation combines Intel's 13th-generation hybrid architecture with substantial memory and fast, redundant storage. The i5-13500 processor delivers excellent multi-threaded performance with its 14-core design (6 performance cores + 8 efficiency cores), reaching up to 4.8GHz boost clock. The generous 64GB DDR4 memory supports demanding computational tasks and multitasking workflows. Gen 4 NVMe SSDs in RAID 1 configuration ensure storage reliability and performance, providing read speeds up to 7000MB/s with full data redundancy. It is ideal for engineering simulations, CAD work, content creation, and data analysis tasks requiring reliable performance.

⚙️ 24-Core Powerhouse for Advanced CFD Simulations

For engineers, researchers, and simulation experts tackling high-fidelity computational fluid dynamics (CFD) challenges, performance and precision are paramount. The 24-Core Powerhouse server is purpose-built to meet those demands — delivering a perfect balance between parallel processing efficiency and high single-core speed for complex, high-resolution CFD applications.

Featuring dual Intel® Xeon® E5-2697 v2 processors, this configuration provides 24 physical cores (48 threads) operating at 2.70GHz, enabling engineers to handle 9+ million element CFD meshes with ease. Its combination of strong per-core performance and multi-threaded scalability makes it ideal for simulations involving advanced turbulence models, multiphase flows, and optimization studies that require both accuracy and computational power.

💻 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: Strong single-core speed with high parallel efficiency

Built on Intel’s Ivy Bridge-EP architecture, this HPC system is optimized for engineering solvers such as ANSYS Fluent, OpenFOAM, and STAR-CCM+. Its architecture combines robust clock frequency with parallel scalability, making it well-suited for both steady-state and transient simulations.

The 2.70GHz base frequency ensures smooth performance for geometry preprocessing, meshing, and post-processing, while the 24-core design enables fast solver execution across millions of computational elements.

🚀 Designed for Advanced CFD Workloads

The 24-Core Powerhouse is engineered to handle the most demanding CFD workloads — where computational accuracy, mesh density, and solver stability are critical. Its balanced architecture ensures consistent performance for multi-physics coupling and large transient simulations.

It excels in:

Aerospace and full-vehicle aerodynamic analysis

Combustion and reacting flow simulations

Thermal-fluid optimization of complex systems

HVAC and environmental flow modeling

Advanced turbulence modeling (RANS, LES, DES)

Whether you’re optimizing airflow over an aircraft wing, modeling combustion in an industrial burner, or simulating pollutant dispersion in environmental flows, this HPC configuration provides the computational precision and speed to deliver trustworthy results.

🧠 Balanced Power for Modern Simulation Demands

Each Intel Xeon E5-2697 v2 processor brings 12 cores and 30MB of cache, combining high clock speeds with efficient inter-core communication. This ensures rapid solver convergence and superior stability, even when handling memory-intensive, multi-million element CFD models.

Key Advantages:

Strong single-core performance for preprocessing and transient solvers

Excellent multi-core scalability for large CFD meshes

High memory throughput for turbulence and multiphase simulations

Consistent performance for long-duration solver runs

The Ivy Bridge-EP architecture provides NUMA optimization, allowing solvers to efficiently manage large data sets while maintaining consistent performance during complex transient and multiphysics computations.

💼 Ideal for Engineering, Research, and Industrial Applications

The 24-Core Powerhouse is built for professionals and research teams conducting high-fidelity simulations across various engineering domains.

Ideal Use Cases:

Aerospace and automotive aerodynamics

Combustion modeling and thermal analysis

Chemical reactor and process optimization

Environmental and climate flow simulations

Design optimization and batch computation studies

Its server-grade reliability, ECC memory support, and 24/7 operational stability make it ideal for extended CFD runs, ensuring simulation accuracy and data integrity.

🌐 Scalable and Efficient for Long-Term Growth

The 24-Core Powerhouse offers both computational performance and expandability, making it future-ready for evolving CFD and engineering workloads. With support for GPU acceleration, large memory configurations, and cluster integration, it scales effortlessly as project requirements grow.

Technical Highlights:

24 cores / 48 threads for balanced multi-core computation

High base frequency (2.70GHz) for solver responsiveness

Optimized cache architecture for improved data handling

Energy-efficient thermal design for sustained performance

This system’s balance between clock speed and core count ensures it performs exceptionally well across every stage of the CFD workflow — from meshing and solving to visualization and analysis.

🏁 Final Thoughts

The 24-Core Powerhouse for Advanced CFD Simulations is a top-tier solution for engineers and researchers seeking high-frequency performance and robust scalability in a single HPC platform. With dual Intel Xeon E5-2697 v2 processors, it empowers professionals to execute complex turbulence models, multiphase flow simulations, and optimization studies with greater speed, precision, and efficiency.

Whether you’re modeling aerospace aerodynamics, combustion processes, or environmental systems, this HPC system provides the performance foundation for advanced CFD and multiphysics workloads — ensuring faster iteration, more accuracy, and reliable solver performance.

Accelerate your CFD productivity today.
👉 Contact MR CFD

# Professional Workstation - Ryzen 7 7700

**Specifications:**
- **CPU:** AMD Ryzen 7 7700 Octa-Core
- **RAM:** 64 GB DDR5
- **Storage:** 2 × 1 TB Gen4 NVMe SSDs (Software-RAID 1)

This high-performance workstation harnesses AMD's advanced Zen 4 architecture with the 8-core/16-thread Ryzen 7 7700 processor. Operating at base/boost frequencies of 3.8/5.3 GHz, it delivers exceptional single and multi-threaded performance for demanding workflows. The system features cutting-edge 64GB DDR5 memory, providing faster data rates and improved power efficiency compared to previous generations. Storage reliability and speed are ensured through dual 1TB Gen4 NVMe SSDs in RAID 1 configuration, offering redundancy with read speeds up to 7000MB/s. This configuration excels in computational tasks, 3D rendering, engineering simulations, and content creation, providing an ideal balance of processing power, memory capacity, and storage reliability for professional applications.

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

Accelerate your computational fluid dynamics (CFD) workflows with the MR CFD Premium NVIDIA GeForce RTX 2080 Ti HPC system, built specifically for ANSYS Fluent users who need reliable, GPU-accelerated performance for professional engineering simulations.

This system offers an exceptional balance between processing power, memory capacity, and affordability, making it the ideal platform for small to medium-scale CFD projects that demand speed and stability without the cost of enterprise hardware.

💻 High-Performance Hardware Configuration
Key Specifications

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

CPU: 16-Core High-Performance Processor

RAM: 45 GB DDR4 System Memory

Optimization: Tuned for ANSYS Fluent CFD Workflows

The RTX 2080 Ti GPU provides the computational backbone for GPU-accelerated ANSYS Fluent simulations, featuring 11GB of ultra-fast GDDR6X memory for handling complex turbulence and transient flow models. Combined with a 16-core CPU and 45GB of system RAM, this setup ensures smooth meshing, stable solver performance, and efficient post-processing—perfect for professional engineers, researchers, and students.

🚀 Accelerated ANSYS Fluent Performance

The MR CFD workstation is optimized for GPU-accelerated solvers, leveraging NVIDIA CUDA cores to execute the most demanding CFD tasks with remarkable efficiency. With this configuration, users can expect:

Faster solver convergence and reduced iteration times

Efficient handling of transient and multiphase simulations

Optimized load balancing between CPU and GPU

Improved rendering and data visualization in post-processing

This results in shorter design cycles, faster validation, and enhanced productivity for every CFD engineer and analyst.

🧠 Ideal for Advanced Simulation Workloads

This HPC configuration is purpose-built for ANSYS Fluent, supporting a wide range of CFD and multiphysics simulations, including:

Turbulence and aerodynamic modeling (RANS, LES, DES)

Thermal and heat transfer analysis

Multiphase flow and cavitation simulations

Combustion and reacting flow modeling

The 16-core CPU ensures smooth meshing and preprocessing, while 45GB of RAM provides ample capacity for mid-sized to moderately large computational models. Engineers can confidently run simulations that previously required multiple systems—now on a single, stable platform.

💼 Professional Power Without Infrastructure Costs

At MR CFD, we make enterprise-grade simulation power accessible to every engineer and researcher—without the need for purchasing or maintaining expensive hardware.

With on-demand access to this GPU-accelerated HPC system, you can:

Run large simulations remotely from anywhere

Avoid costly hardware investments

Access reliable, pre-optimized ANSYS Fluent environments

Scale performance resources to meet your project demands

This model empowers individuals and teams to achieve high performance at low operational cost, making it ideal for universities, research centers, and independent CFD consultants.

🌐 Why the RTX 2080 Ti Still Excels in CFD

While newer GPUs like the A100 and H100 dominate in enterprise HPC clusters, the RTX 2080 Ti remains a proven, cost-effective GPU for GPU-accelerated ANSYS Fluent workflows. Its high CUDA core count and excellent memory bandwidth enable engineers to:

Execute GPU-based solvers faster than traditional CPU-only setups

Handle complex models with millions of cells

Benefit from robust driver stability and software compatibility

Achieve professional-grade results without enterprise pricing

For many users, the RTX 2080 Ti provides the perfect performance-to-cost ratio for running ANSYS Fluent simulations efficiently and reliably.

🏁 Final Thoughts

The MR CFD Premium NVIDIA GeForce RTX 2080 Ti HPC system offers a practical yet powerful gateway into GPU-accelerated CFD. With 11GB of VRAM, 16 CPU cores, and 45GB of memory, it provides the computational capability needed to handle advanced turbulence modeling, thermal analyses, and multiphase flow simulations—all optimized for ANSYS Fluent.

Enhance your simulation performance and engineering productivity.
👉 Contact MR CFD