HPC for ANSYS Fluent

⚙️ 36-Core Powerhouse for Professional CFD Applications

When simulation speed and precision define engineering success, the 36-Core Powerhouse delivers. Designed for professionals working in computational fluid dynamics (CFD), engineering design, and scientific research, this system provides the performance and scalability to handle even the most complex fluid dynamics simulations with ease.

Featuring dual Intel® Xeon® E5-2696 v4 processors, this configuration offers 36 physical cores (72 threads) running at 2.20GHz, providing outstanding parallel performance for ANSYS Fluent, OpenFOAM, and other solver-intensive applications. Built on Intel’s Broadwell-EP architecture, it combines balanced core count, clock speed, and I/O throughput—ensuring stable, high-efficiency operation for both multiphysics and mixed engineering workloads.

💻 High-Performance Configuration
Key Specifications

CPU: Dual Intel® Xeon® E5-2696 v4 (36 Cores, 72 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: CFD, FEA, and Multiphysics Simulation

Performance Focus: Balanced parallel efficiency and per-core speed

The Broadwell-EP platform is engineered for demanding, parallelized CFD environments. Its high core density and wide memory bandwidth ensure exceptional throughput, whether processing steady-state flow simulations, transient turbulence models, or multi-domain coupling analyses.

🚀 Built for Advanced CFD Performance

The 36-Core Powerhouse system excels across industries where simulation-driven engineering is key. It delivers the raw compute performance required for large and complex simulation models, shortening turnaround times while maintaining numerical precision.

It’s ideal for:

Automotive aerodynamics and design optimization

Aerospace component analysis

HVAC airflow and thermal comfort modeling

Combustion and reactor flow simulations

Batch optimization and research computation

By leveraging 72 simultaneous processing threads, engineers can perform multiple concurrent simulations or accelerate single high-resolution CFD cases, drastically improving project throughput.

🧠 Balanced Architecture for Multiphysics Workloads

Each Intel Xeon E5-2696 v4 processor provides 18 cores and 45MB of cache, ensuring smooth performance across solver execution, meshing, and post-processing. This balanced architecture supports both multi-threaded parallel solvers and single-threaded engineering applications, offering a complete solution for diverse simulation workflows.

Key Advantages

Superior solver scalability for parallelized CFD applications

Excellent per-core frequency performance for pre/post tasks

Stable long-duration runtime for transient simulations

Optimized memory performance and I/O efficiency

The Broadwell-EP architecture is purpose-built for sustained computational workloads, offering energy efficiency and 24/7 reliability for enterprise or academic use.

💼 Ideal for Engineers, Researchers, and Industry Teams

The 36-Core Powerhouse is the perfect system for:

Automotive and aerospace engineering teams seeking faster design iteration

HVAC system designers optimizing airflow and energy efficiency

Process and chemical engineers modeling reactors and mixing systems

Research laboratories performing CFD-based analysis and teaching

With ECC memory support, redundant I/O, and server-grade reliability, this workstation delivers consistent uptime and data integrity for long-term simulation campaigns.

🌐 Scalable and Future-Ready

Built on the Broadwell-EP architecture, this platform scales effortlessly for expanding simulation requirements. It supports large memory configurations, GPU acceleration, and multi-node clustering, ensuring it grows alongside your computational needs.

Technical Highlights

36 cores / 72 threads of parallel compute performance

Enhanced cache hierarchy for fast CFD solver access

High-speed PCIe connectivity for GPU or storage upgrades

Energy-efficient design for continuous professional workloads

This scalability ensures longevity, making the 36-Core Powerhouse a smart, future-proof investment for advanced simulation professionals.

🏁 Final Thoughts

The 36-Core Powerhouse for Professional CFD Applications combines core density, clock speed balance, and scalable architecture to deliver consistent performance for the most demanding engineering challenges. Powered by dual Intel Xeon E5-2696 v4 processors, it enables faster solver convergence, more iterations per project, and higher simulation accuracy.

Whether you’re running aerodynamic models, thermal-fluid analyses, or chemical process simulations, this system provides the dependable computational foundation needed to achieve breakthrough engineering results.

Enhance your CFD workflow today.
👉 Contact MR CFD

⚙️ 36-Core Powerhouse for Professional CFD Applications

In the fast-paced world of computational fluid dynamics (CFD) and engineering simulation, achieving accurate results quickly can define project success. The 36-Core Powerhouse HPC system is built to meet that demand — delivering exceptional performance, scalability, and reliability for professional engineers, researchers, and simulation specialists.

Featuring dual Intel® Xeon® E5-2696 v4 processors, this configuration provides 36 cores (72 threads) operating at 2.20GHz, offering remarkable parallel computing power for complex CFD simulations, multiphysics analyses, and design optimization studies.

💻 High-Performance Configuration
Key Specifications

Processors: Dual Intel® Xeon® E5-2696 v4 (36 Cores, 72 Threads @ 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: CFD, FEA, and Multiphysics Simulations

Performance Focus: Balanced parallel performance and clock speed for mixed engineering workloads

The Broadwell-EP architecture offers an excellent balance between core density, memory bandwidth, and clock frequency, ensuring smooth performance in both highly parallelized CFD solvers and single-threaded preprocessing tasks. It’s an ideal system for teams running ANSYS Fluent, OpenFOAM, or STAR-CCM+ simulations.

🚀 Designed for Complex CFD and Multiphysics Workloads

The 36-Core Powerhouse is engineered to handle computationally demanding CFD workloads and high-fidelity simulations that require robust multi-core scaling and consistent solver stability.

It excels in:

Automotive and aerospace aerodynamic analysis

HVAC and building airflow design

Thermal management of electronics

Combustion and chemical reactor modeling

Optimization studies and batch simulation processing

With 72 threads of simultaneous processing, it enables engineers to perform multiple simulations concurrently or run detailed, transient cases efficiently — reducing total project time while maintaining exceptional accuracy.

🧠 Balanced Power for Professional Simulation Workflows

Each Intel Xeon E5-2696 v4 processor delivers 18 cores optimized for parallel and hybrid workloads, making this configuration ideal for both solver execution and pre/post-processing operations.

Key Advantages

High solver scalability for large CFD meshes

Fast turnaround for parametric and optimization runs

Stable operation for continuous 24/7 simulation cycles

Excellent power efficiency and thermal stability

The Broadwell-EP platform also provides enhanced I/O bandwidth, enabling fast data access during large CFD file handling, post-processing visualization, and transient result exports.

💼 Ideal for Engineering, Research, and Industrial Applications

This system offers enterprise-level reliability with the flexibility required for professional engineers and researchers. It’s a perfect fit for:

Automotive design and aerodynamic optimization

Aerospace component simulation and validation

HVAC and environmental modeling

Energy and chemical process engineering

Academic and industrial R&D

With ECC memory support and server-grade stability, the 36-Core Powerhouse is built for long-duration simulations and multi-solver workflows, ensuring accuracy and data integrity at every step.

🌐 Scalable, Efficient, and Future-Ready

The Broadwell-EP architecture allows for seamless scalability, supporting large memory capacities, multi-node clustering, and future GPU integration. This ensures the system can grow with your simulation needs while maintaining high performance and reliability.

Technical Highlights

36 cores / 72 threads of parallel compute performance

High memory bandwidth and optimized cache hierarchy

Advanced PCIe and I/O throughput for hybrid CPU-GPU workflows

Energy-efficient design for continuous professional use

This makes the 36-Core Powerhouse an excellent investment for engineering teams seeking a scalable system that delivers consistent performance across diverse CFD and engineering tasks.

🏁 Final Thoughts

The 36-Core Powerhouse for Professional CFD Applications is designed for engineers who demand performance, precision, and reliability. With dual Intel Xeon E5-2696 v4 processors, it delivers exceptional parallel performance, making it ideal for ANSYS Fluent, OpenFOAM, and multiphysics applications that rely on efficient solver scaling.

From automotive aerodynamics to chemical process optimization, this HPC solution empowers professionals to run complex simulations faster and more efficiently — enabling better design, deeper analysis, and faster innovation.

Power your engineering simulations with confidence.
👉 Contact MR CFD

48-Core Elite HPC for Enterprise-Level CFD

# 36-Core Powerhouse for Professional CFD Applications

This high-performance server features dual Intel Xeon E5-2696v4 processors (36 cores at 2.20GHz) delivering exceptional parallel computing capability for complex fluid dynamics simulations. Ideal for advanced engineering analysis, research applications, batch processing, and optimization studies. Excels in automotive aerodynamics, aerospace component analysis, HVAC system design, and chemical reactor modeling. The Broadwell-EP architecture provides excellent scalability for parallelized applications with balanced core count and clock speed for mixed engineering workloads.

# 36-Core Powerhouse for Professional CFD Applications

This high-performance server features dual Intel Xeon E5-2696v4 processors (36 cores at 2.20GHz) delivering exceptional parallel computing capability for complex fluid dynamics simulations. Ideal for advanced engineering analysis, research applications, batch processing, and optimization studies. Excels in automotive aerodynamics, aerospace component analysis, HVAC system design, and chemical reactor modeling. The Broadwell-EP architecture provides excellent scalability for parallelized applications with balanced core count and clock speed for mixed engineering workloads.

⚙️ 36-Core Powerhouse for Professional CFD Applications

For engineers and researchers demanding precision, speed, and reliability in computational fluid dynamics (CFD), the 36-Core Powerhouse delivers the performance you need to solve complex engineering challenges with confidence.

Built around dual Intel® Xeon® E5-2696 v4 processors, this system provides 36 cores (72 threads) running at 2.20GHz, offering exceptional parallel computing performance for advanced CFD simulations, multiphysics analysis, and engineering design optimization.

From automotive aerodynamics to chemical reactor modeling, this configuration delivers high throughput and stability—ideal for professionals running multiple simulations, batch processes, or time-dependent analyses in ANSYS Fluent and similar software.

💻 High-Performance Configuration
Key Specifications

Processors: Dual Intel® Xeon® E5-2696 v4 (36 Cores, 72 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: CFD, FEA, and Multiphysics Applications

Performance Focus: Parallel Computing and Mixed Engineering Workloads

The Broadwell-EP architecture combines high core density with excellent single-thread performance, ensuring both scalability for parallel solvers and efficiency for serial preprocessing tasks. Its balanced design provides superior results in real-world engineering workflows where solver performance and I/O throughput both matter.

🚀 Built for Advanced CFD and Engineering Analysis

The 36-Core Powerhouse is designed to handle computationally demanding CFD tasks, allowing engineers to run large models, explore transient behavior, and perform iterative design optimization.

It excels in:

Automotive aerodynamics and external flow analysis

Aerospace component design and performance testing

HVAC and building airflow simulations

Chemical reactor and mixing process modeling

Batch optimization and design iteration workflows

With 72 processing threads, it easily handles multiple concurrent simulations, making it ideal for organizations managing a high volume of CFD or FEA projects simultaneously.

🧠 Balanced Power for Parallel and Hybrid Workloads

Each Intel Xeon E5-2696 v4 processor provides 18 cores of computational strength, delivering an excellent ratio of core count to clock speed. This ensures the system performs efficiently across a range of solver types—from fully parallel CFD solvers to single-threaded pre-processing and meshing operations.

Key Advantages:

High solver scalability for CFD and FEA software

Excellent performance per core for mixed workloads

Stable 24/7 operation for continuous simulations

Optimized for multi-simulation batch environments

The Broadwell-EP platform also supports high-speed memory access and enhanced I/O bandwidth, making it ideal for managing large CFD datasets and transient result files.

💼 Ideal for Engineering, Research, and Industrial Applications

The 36-Core Powerhouse offers datacenter-level reliability in a workstation-ready form factor, making it a perfect choice for both professional engineers and academic research groups.

Ideal Use Cases:

Automotive and aerospace design optimization

Thermal-fluid coupling and heat transfer studies

HVAC and environmental simulation research

Industrial process and combustion modeling

Parameter sweeps and statistical analysis

With ECC memory support, robust parallel computing capability, and server-grade durability, this system is built to maintain performance and precision across continuous long-duration workloads.

🌐 Scalable, Reliable, and Future-Ready

The Broadwell-EP architecture provides excellent scalability for CFD and engineering simulation workloads. Its dual-socket design ensures balanced performance across multiple cores and threads, while supporting future upgrades in memory, accelerators, and storage.

Technical Advantages:

36 cores / 72 threads for exceptional parallel performance

High memory bandwidth and cache optimization

Enhanced I/O throughput for large datasets

Energy-efficient performance for sustained workloads

This scalability ensures the system remains ready for the evolving computational demands of next-generation CFD solvers and hybrid CPU-GPU environments.

🏁 Final Thoughts

The 36-Core Powerhouse for Professional CFD Applications provides the ideal combination of core density, frequency balance, and reliability for engineers who depend on high-performance computing every day. Powered by dual Intel Xeon E5-2696 v4 processors, it delivers the parallel processing performance and stability required for complex fluid simulations, aerodynamics, and thermal analysis.

Whether you’re optimizing automotive designs, modeling HVAC systems, or studying advanced fluid behavior, this system ensures faster solver convergence, greater accuracy, and improved productivity for your engineering workflow.

Accelerate your CFD simulations today.
👉 Contact MR CFD

⚙️ 44-Core Elite HPC for Advanced CFD Applications

In the world of computational fluid dynamics (CFD), speed, precision, and scalability determine how quickly innovation moves from concept to reality. The 44-Core Elite HPC system delivers uncompromising performance for engineers and researchers tackling the most computationally demanding CFD and multiphysics simulations.

Featuring dual Intel® Xeon® E5-2699 v4 processors, this powerhouse offers 44 physical cores (88 threads) running at 2.20GHz, providing the parallel computing capability required for aerodynamics, thermal-fluid analysis, combustion modeling, and environmental simulation at full scale.

💻 High-Performance Configuration
Key Specifications

Processors: Dual Intel® Xeon® E5-2699 v4 (44 Cores, 88 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: CFD, FEA, and Multiphysics Simulation Workloads

Performance Focus: Multi-solver and Multi-simulation Parallelism

This system’s Broadwell-EP architecture provides the foundation for exceptional parallel efficiency, with high memory bandwidth and I/O performance optimized for large-scale simulation datasets. It’s engineered for maximum solver scalability across ANSYS Fluent, OpenFOAM, and similar HPC-driven environments.

🚀 Built for Advanced CFD and Multiphysics Workloads

The 44-Core Elite HPC is designed to dominate CFD workloads that require massive parallel processing power, enabling engineers to run complex models with extreme precision and reduced turnaround time.

It’s perfectly suited for:

Full-vehicle aerodynamics in automotive and aerospace design

Thermal management of large electronic systems

Detailed combustion simulations with comprehensive chemical reaction models

Large-scale environmental and airflow modeling

By distributing solver workloads across 44 cores, engineers can run multiple concurrent simulations or scale single, high-resolution models for faster convergence and improved accuracy.

🧠 Exceptional Parallel Processing Power

Each Xeon E5-2699 v4 processor delivers 22 cores of compute power, optimized for shared-memory parallelism and high-thread workloads. Together, they unlock 88-thread processing, providing exceptional scalability for multi-solver execution and parallel computation.

Key Advantages

Superior solver scaling for ANSYS Fluent and similar CFD solvers

Reduced runtime for transient and multiphase models

Improved throughput for high-cell-count simulations

Enhanced stability during continuous 24/7 HPC operation

The system’s NUMA-optimized memory management ensures efficient data distribution between cores, eliminating computational bottlenecks and maintaining consistent performance across extended simulation cycles.

💼 Ideal for Engineering, Research, and Industrial Applications

The 44-Core Elite HPC is built for professionals working on complex, data-intensive projects across engineering disciplines. Whether running aerodynamic optimization, thermal-fluid coupling, or combustion dynamics, this system provides the computational foundation for high-fidelity modeling and analysis.

Perfect for:

Automotive and aerospace simulation teams

Electronic cooling and heat transfer studies

Combustion and reactive flow researchers

Environmental and energy system modelers

With its server-grade reliability, ECC memory support, and redundant I/O performance, this HPC configuration ensures consistent uptime and data integrity even during the most demanding long-term runs.

🌐 Scalability for Future CFD Challenges

The Broadwell-EP platform is renowned for its scalability, offering exceptional performance on parallelized CFD workloads and data-heavy simulations. Its enhanced PCIe bandwidth supports GPU acceleration, while its multi-socket design ensures room for future expansion.

Technical Advantages:

44 cores / 88 threads of compute power

Optimized cache hierarchy for solver efficiency

High I/O throughput for large mesh and result files

Flexible architecture for hybrid CPU-GPU CFD workflows

This scalability ensures that the 44-Core Elite HPC remains a future-ready investment for evolving simulation technologies and ever-larger CFD datasets.

🏁 Final Thoughts

The 44-Core Elite HPC for Advanced CFD Applications represents a perfect balance of computational power, scalability, and reliability. With dual Intel Xeon E5-2699 v4 processors and the Broadwell-EP architecture, it provides engineers with the performance they need to handle the world’s most complex aerodynamic, thermal, and reactive flow simulations.

Whether you’re designing aircraft, optimizing cooling systems, or modeling combustion efficiency, this system enables faster iteration, deeper analysis, and greater productivity across all stages of CFD development.

Accelerate your simulation capabilities.
👉 Contact MR CFD

⚙️ 44-Core Elite HPC for Advanced CFD Applications

When performance, precision, and scalability define your simulation success, the 44-Core Elite HPC system delivers the computational power you need to stay ahead. Designed specifically for advanced computational fluid dynamics (CFD) and multiphysics applications, this high-performance platform provides massive parallel processing and exceptional stability for even the most demanding engineering workflows.

Powered by dual Intel® Xeon® E5-2699 v4 processors, this HPC solution offers 44 cores (88 threads) running at 2.20GHz, enabling engineers and researchers to accelerate complex simulations, reduce runtime, and increase productivity across every project.

💻 High-Performance Configuration
Key Specifications

CPU: Dual Intel® Xeon® E5-2699 v4 (44 Cores, 88 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: Designed for CFD, FEA, and Multiphysics Simulations

Performance Focus: Highly parallelized simulation and high-throughput processing

The Broadwell-EP architecture is engineered for extreme parallel workloads, providing exceptional floating-point performance, memory bandwidth, and input/output (I/O) scalability. These features make it ideal for ANSYS Fluent, OpenFOAM, and other CFD solvers that rely heavily on parallelized computation.

🚀 Exceptional Power for Advanced CFD Workloads

The 44-Core Elite HPC is built for engineers who regularly tackle large, complex CFD models and high-fidelity simulations that demand extensive processing capability.

It excels in:

Automotive and aerospace aerodynamic analysis

Thermal-fluid coupling and electronic cooling simulations

Detailed combustion and chemical reaction modeling

Environmental and atmospheric flow modeling

Multiphysics optimization studies and parameter sweeps

By distributing simulation workloads across 44 physical cores, this system ensures efficient scaling and significantly shorter runtimes. Engineers can perform multiple simulations simultaneously or handle single, large-scale CFD models without compromising accuracy or stability.

🧠 Optimized for Large-Scale Simulation and Multi-Domain Processing

The dual Intel Xeon E5-2699 v4 CPUs enable 88-thread parallel execution, making this system ideal for multi-solver and multi-simulation workflows. Whether running steady-state or transient CFD cases, it handles vast computational demands with ease.

Key advantages include:

Outstanding solver scalability across multi-core systems

High throughput for complex, transient simulations

Efficient handling of multi-million cell CFD meshes

Stable long-duration performance for 24/7 workloads

The Broadwell-EP architecture also enhances memory access latency and I/O efficiency, critical for loading and writing large CFD datasets quickly during pre- and post-processing.

💼 Designed for Enterprise and Research Environments

Engineered for both professional engineers and academic researchers, the 44-Core Elite HPC combines server-grade reliability with desktop accessibility. It is the perfect solution for teams running:

Full-vehicle aerodynamic simulations

Thermal-fluid and heat transfer modeling

Combustion with detailed chemistry models

Environmental flow and pollution dispersion analyses

With ECC memory support and redundant architecture, the system guarantees long-term reliability—ideal for continuous simulation workloads common in R&D labs, universities, and industrial design environments.

🌐 Scalable, Future-Ready Performance

The Broadwell-EP platform supports extensive scalability, allowing seamless integration into larger cluster environments or hybrid HPC configurations. Its robust I/O performance ensures smooth interaction with GPUs, network-attached storage, or distributed compute resources.

Architectural Benefits:

88-thread parallelism for full solver utilization

Optimized cache and memory controller performance

Enhanced PCIe bandwidth for multi-accelerator setups

High efficiency and thermal management for continuous HPC use

This scalability ensures the system remains capable of handling next-generation simulation challenges as computational demands continue to rise.

🏁 Final Thoughts

The 44-Core Elite HPC for Advanced CFD Applications represents the ideal combination of raw power, stability, and scalability for engineers who demand the best from their simulation hardware. With dual Intel Xeon E5-2699 v4 processors and the proven Broadwell-EP architecture, it delivers unmatched parallel performance for aerodynamics, thermal analysis, combustion modeling, and environmental simulations.

Whether you’re working in automotive design, aerospace innovation, or scientific research, this system offers the computational backbone you need for fast, reliable, and scalable CFD performance.

Accelerate your simulations today.
👉 Contact MR CFD

⚙️ 44-Core Elite HPC for Advanced CFD Applications

For engineers, researchers, and simulation professionals working at the frontier of computational fluid dynamics (CFD), performance and scalability are essential. The 44-Core Elite HPC system is purpose-built to deliver exceptional speed, reliability, and parallel compute efficiency for advanced CFD and multiphysics workloads.

Powered by dual Intel® Xeon® E5-2699 v4 processors, this configuration provides 44 physical cores (88 threads) running at 2.20GHz, enabling seamless execution of large-scale, data-intensive simulations across multiple domains. It’s the ideal solution for users seeking datacenter-level processing power in a workstation-class environment.

💻 High-Performance Configuration
Key Specifications

Processors: Dual Intel® Xeon® E5-2699 v4 (44 cores, 88 threads @ 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: CFD, FEA, Multiphysics, and Engineering Simulations

Performance Focus: Maximum parallel processing and scalability

The Broadwell-EP architecture is engineered for high-throughput computing, featuring robust floating-point performance, high memory bandwidth, and improved I/O scalability—making it perfectly suited for CFD solvers, thermal simulations, and multi-simulation workflows in ANSYS Fluent and similar software environments.

🚀 Unmatched Computational Power for Advanced CFD

The 44-Core Elite HPC system is designed to handle the most demanding CFD applications, offering a level of performance that ensures faster convergence, greater accuracy, and superior stability even under extreme computational loads.

It excels in:

Automotive and aerospace aerodynamic simulations

Thermal management of large electronic systems

Combustion and reacting flow modeling with detailed chemical kinetics

Environmental and atmospheric flow simulations

With dual Xeon CPUs, this HPC configuration delivers near-linear scaling for parallelized solvers, reducing simulation runtimes dramatically—allowing engineers to perform more iterations, run complex design studies, and improve accuracy without delay.

🧠 Optimized for Multi-Simulation and Parallel Processing

Each Intel Xeon E5-2699 v4 processor brings 22 cores of computational muscle, optimized for shared-memory parallelism and multithreaded applications. Together, they provide 88 simultaneous processing threads, ideal for workloads that require heavy matrix computation, solver decomposition, or multi-domain coupling.

Key advantages include:

Enhanced solver scalability for large CFD models

Efficient load distribution across cores and threads

Reduced time-to-solution for long transient or multiphase runs

Stable performance under continuous 24/7 operation

This system’s balanced design also supports multi-simulation execution, making it perfect for running multiple ANSYS Fluent projects concurrently or combining CFD + FEA analyses in integrated workflows.

💼 Designed for Professional and Research Environments

The 44-Core Elite HPC platform is built to meet the computational demands of professional engineering environments—whether in automotive design, aerospace R&D, energy systems, or academic research.

Ideal Use Cases:

Full-system aerodynamic design and optimization

Thermal-fluid coupling for electronics cooling

Combustion modeling with detailed reaction mechanisms

Environmental and pollutant dispersion studies

Large-scale parameter sweeps and optimization tasks

Its server-grade reliability, ECC memory support, and high I/O bandwidth ensure consistent performance for long, uninterrupted simulation runs.

🌐 Scalable Architecture for Future-Proof Performance

The Broadwell-EP platform is engineered for scalability, supporting multi-node expansion, high memory configurations, and enhanced I/O throughput—making it ready for both standalone use and integration into larger HPC clusters.

Technical Advantages:

88-thread parallel processing for advanced solver scaling

Optimized cache hierarchy for improved data locality

High PCIe bandwidth for GPU or accelerator integration

Enhanced memory controller performance for large CFD datasets

These features allow the system to handle multi-million cell simulations, dense meshes, and extensive transient runs without bottlenecks, ensuring maximum solver efficiency.

🏁 Final Thoughts

The 44-Core Elite HPC for Advanced CFD Applications is a true computational powerhouse for professionals who demand exceptional performance and scalability. With dual Intel Xeon E5-2699 v4 processors, Broadwell-EP architecture, and enterprise-grade reliability, it empowers engineers to conduct the most complex CFD simulations with precision, stability, and speed.

From automotive aerodynamics and aerospace flow analysis to combustion modeling and thermal management, this system provides the parallel performance foundation that modern engineering simulation demands.

Accelerate your engineering innovation.
👉 Contact MR CFD

⚙️ 44-Core Elite HPC for Advanced CFD Applications

When tackling the world’s most complex computational fluid dynamics (CFD) challenges, simulation performance, scalability, and reliability are paramount. The 44-Core Elite HPC system delivers unparalleled multi-core processing power designed to accelerate advanced CFD simulations, multiphysics analysis, and large-scale engineering workflows.

Powered by dual Intel® Xeon® E5-2699 v4 processors, this system provides 44 physical cores (88 threads) running at 2.20GHz, ensuring exceptional parallel performance for highly demanding CFD workloads and multi-simulation processing. It’s the ultimate computational engine for engineers and researchers who demand extreme performance and unwavering stability.

💻 High-Performance Configuration
Key Specifications

CPU: Dual Intel® Xeon® E5-2699 v4 (44 Cores, 88 Threads, 2.20GHz)

Architecture: Intel Broadwell-EP

Optimization: Engineered for CFD, FEA, and Multiphysics Simulations

Use Case: Enterprise-level ANSYS Fluent, CFX, and Multiphysics workloads

The Broadwell-EP architecture ensures optimized floating-point performance, memory bandwidth, and interconnect scalability for parallelized simulation environments. With its dual-CPU architecture, this HPC server excels at running multiple concurrent simulations or a single large-scale CFD case across dozens of cores.

🚀 Unmatched Power for Advanced CFD and Engineering Analysis

The 44-Core Elite HPC is specifically engineered for simulation-intensive industries that rely on ANSYS Fluent, OpenFOAM, or other high-fidelity solvers to perform:

Full-vehicle aerodynamic simulations in automotive and aerospace engineering

Large-scale thermal management of electronic systems

Combustion modeling with detailed chemical reaction networks

Environmental and urban airflow modeling

Its multi-socket parallelism and advanced cache hierarchy deliver near-linear scaling for CFD workloads, dramatically reducing solution time for large meshes, complex turbulence models, and multiphase or reacting flows.

🧠 Optimized for Large and Complex CFD Models

This HPC platform is built to handle massive datasets and high-memory CFD simulations efficiently. Its advanced NUMA memory architecture ensures consistent data throughput and low latency, even under extreme parallel loads.

Engineers and researchers can expect:

Superior solver scalability for CFD and FEA applications

Reduced simulation runtime on multi-million cell models

Enhanced I/O performance for large mesh and result files

Reliable, 24/7 operation for extended simulation cycles

Whether you’re performing aero-thermal coupling, combustion simulations, or climate/environmental modeling, this configuration guarantees stability, speed, and precision.

💼 Professional-Grade Reliability and Scalability

The 44-Core Elite HPC server is designed for organizations that need scalable computational power to meet growing simulation demands. Its dual Xeon architecture offers both the reliability of server-class hardware and the flexibility to support multiple users or projects simultaneously.

Key Benefits

Enterprise-grade reliability with ECC memory and redundant components

High I/O bandwidth for large simulation data sets

Perfect for shared HPC environments or cloud clusters

Optimized for parallel solvers in ANSYS Fluent, CFX, and STAR-CCM+

This makes it ideal for research labs, universities, automotive R&D, aerospace design, and energy simulation teams that require sustained computational throughput for high-fidelity engineering analysis.

🌐 Designed for Extensively Parallelized Workloads

The Broadwell-EP generation brings major enhancements in floating-point performance, memory latency, and I/O scaling, making it a top choice for heavily parallelized CFD and thermal simulation workloads.

Key architectural advantages:

Up to 88 threads of simultaneous computation

Improved cache hierarchy for faster solver iteration

Expanded PCIe and memory channels for multi-GPU and multi-solver configurations

High-efficiency thermal and power management for continuous HPC use

When combined with GPU acceleration or distributed solvers, the 44-Core HPC scales seamlessly for ultra-large CFD cases across thousands of domains.

🏁 Final Thoughts

The 44-Core Elite HPC for Advanced CFD Applications stands as a powerhouse for engineers and researchers engaged in aerodynamics, thermal-fluid coupling, combustion modeling, and environmental flow analysis. Its dual Intel Xeon E5-2699 v4 processors deliver the computational depth and scalability required to push the limits of simulation fidelity and performance.

Whether you’re optimizing aircraft aerodynamics, simulating electronics cooling, or studying complex reactive flows, this system ensures fast, stable, and scalable CFD performance.

Empower your simulations.
👉 Contact MR CFD

⚡ RTX A6000 Professional Workstation for ANSYS Fluent CFD Simulations

When precision, speed, and reliability define your engineering success, the NVIDIA RTX A6000 Professional Workstation delivers the ultimate performance for ANSYS Fluent CFD simulations and high-end engineering visualization. Designed for professionals who demand both computational power and graphical excellence, this workstation empowers engineers to tackle the most challenging simulation and visualization workloads with ease.

💻 Professional-Grade Hardware for Engineering Excellence
Key Specifications

GPU: NVIDIA RTX™ A6000 (48GB GDDR6 ECC VRAM)

Compute Performance: ~40 TFLOPS

Applications: CFD, Thermal Analysis, Structural Simulation, Engineering Visualization

With 48GB of ECC GDDR6 memory, the RTX A6000 provides exceptional memory bandwidth and capacity to manage large-scale CFD meshes, transient flow fields, and high-fidelity thermal simulations without memory bottlenecks. Whether you’re solving complex Navier–Stokes equations or running steady-state aerodynamic models, this GPU is built for performance that scales.

🚀 Optimized for ANSYS Fluent and Multiphysics Simulations

ANSYS Fluent thrives on parallel compute performance—and the RTX A6000 is built precisely for that. Delivering up to 40 teraflops of FP32 computing power, it accelerates:

Pressure-velocity coupling and solver convergence

Mesh and geometry handling for large models

Post-processing of complex transient datasets

GPU-accelerated visualization and rendering

Engineers can perform GPU-accelerated CFD simulations directly in ANSYS Fluent, significantly reducing turnaround time while maintaining high accuracy. This means faster design validation, more iterations per project, and better optimization outcomes.

🧠 Engineered for Data-Intensive Workflows

The 48GB of ECC VRAM ensures not only performance, but data integrity—a critical factor in engineering research and production workflows. Combined with CUDA, Tensor, and RT cores, the RTX A6000 can handle both numerical solvers and AI-assisted modeling tasks, such as turbulence prediction or parametric design optimization.

This workstation shines in:

Medium to large-scale CFD projects

Thermal management simulations

Electronics cooling and aerodynamic studies

Structural mechanics and coupled multiphysics analyses

🎯 The Perfect Balance of Performance and Reliability

Unlike consumer GPUs, the RTX A6000 is built for 24/7 operation, driver stability, and certified compatibility with industry-standard software like ANSYS, SolidWorks, CATIA, and Autodesk CFD.
You get:

ISV certification for maximum software reliability

Quiet, efficient thermal design for professional environments

Optimized drivers for simulation and visualization workloads

This workstation offers the perfect balance between GPU acceleration and workstation reliability, making it ideal for engineering teams, research labs, and simulation specialists who rely on consistent, verifiable results.

🧩 Ideal Applications

The RTX A6000 workstation is a powerhouse for a wide range of engineering and scientific use cases:

Computational Fluid Dynamics (CFD) in ANSYS Fluent

Heat transfer and thermal-fluid interaction studies

Finite Element Analysis (FEA) and topology optimization

Engineering visualization and 3D rendering

AI-accelerated simulation workflows

🌐 Why Choose RTX A6000 for ANSYS Fluent

Compared to typical desktop GPUs, the RTX A6000 offers 48GB of error-correcting VRAM, allowing engineers to run high-precision simulations that require large datasets and extended runtime stability.
This means:

Reduced simulation crashes due to memory overflow

Improved model accuracy and solver performance

Enhanced visualization of velocity fields, temperature gradients, and turbulence zones

For medium-scale CFD simulations, this workstation delivers the ideal combination of speed, accuracy, and endurance.

🏁 Final Thoughts

The RTX A6000 Professional Workstation is more than a graphics card — it’s a computational engine for modern engineering simulation. With up to 40 TFLOPS of raw computing power, 48GB ECC VRAM, and certified ANSYS compatibility, it empowers teams to explore deeper physics, run more complex models, and reach better design outcomes faster.

Unlock your simulation potential.
👉 Contact us today