Description
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Designed for Advanced Quantum Computing Research
The Custom Lux Quantum Research Workstation is a professional high-performance computing platform engineered for universities, national laboratories, government agencies, defense contractors, technology startups, and enterprise research teams developing next-generation quantum computing applications.
Built around AMD’s flagship Threadripper Pro 9985WX processor, dual NVIDIA RTX 5090 GPUs, and 512GB of ECC memory, this system delivers the computational resources required for demanding quantum simulation workloads, quantum chemistry research, tensor network analysis, quantum machine learning, and optimization algorithm development.
As quantum computing research continues to advance, access to powerful classical computing infrastructure remains essential. Before quantum algorithms can be deployed to physical quantum processors, they must be developed, tested, validated, and optimized using high-performance simulation environments. This Quantum Research Workstation provides researchers with the computational power needed to accelerate discovery while maintaining complete control over their development environment.
Massive Compute Power for Quantum Simulation
At the heart of this system is the AMD Threadripper Pro 9985WX featuring 64 cores and 128 threads. Quantum simulations often require significant parallel processing capabilities, particularly when evaluating large circuit architectures, performing tensor contractions, or executing parameter optimization routines.
Combined with 512GB of DDR5 ECC memory, this workstation can support substantially larger simulations than traditional desktop systems. Depending on simulation methodology and software optimization, researchers can typically perform state-vector simulations in the range of approximately 33 to 35 qubits on a single workstation. Memory-efficient tensor network techniques may enable analysis of significantly larger logical quantum systems depending on entanglement complexity and circuit structure.
For organizations requiring even larger memory capacity, the platform supports expansion up to 2TB of ECC DDR5 memory, enabling larger-scale simulations and more advanced quantum research workloads.
GPU Acceleration for Modern Quantum Computing Workloads
The dual NVIDIA RTX 5090 GPUs provide exceptional acceleration for GPU-enabled quantum simulation frameworks and hybrid AI-quantum applications.
Many leading quantum software environments now leverage CUDA acceleration for tensor operations, quantum machine learning models, variational quantum algorithms, and large-scale optimization tasks. The 64GB of combined GPU memory available within this Quantum Research Workstation allows researchers to accelerate workloads that would otherwise require significantly longer execution times on CPU-only systems.
Researchers can leverage GPU acceleration for:
- Variational Quantum Eigensolver (VQE) research
- Quantum Approximate Optimization Algorithm (QAOA) development
- Quantum neural network training
- Quantum machine learning workflows
- Tensor network simulations
- Quantum circuit emulation
- Hybrid AI and quantum computing applications
Applications in Quantum Chemistry and Materials Science
One of the most valuable applications of a Quantum Research Workstation is quantum chemistry simulation. Researchers can investigate molecular structures, chemical reactions, electronic interactions, and material properties using quantum-inspired computational methods.
Common research applications include:
- Drug discovery simulations
- Molecular orbital analysis
- Electronic structure calculations
- Catalyst development research
- Battery material optimization
- Semiconductor material modeling
- Protein interaction studies
- Reaction pathway analysis
These workloads often require substantial memory capacity and processor throughput, making the Threadripper Pro architecture particularly well suited for scientific computing environments.
Optimization Research and Complex System Analysis
Quantum-inspired optimization techniques are increasingly being explored across multiple industries. This system enables researchers to develop and evaluate optimization algorithms that may eventually be deployed on future quantum hardware.
Potential research applications include:
- Supply chain optimization
- Transportation routing analysis
- Financial portfolio optimization
- Risk assessment modeling
- Manufacturing process optimization
- Telecommunications network design
- Energy grid optimization
- Scheduling and resource allocation analysis
Researchers can compare classical and quantum-inspired approaches while evaluating performance improvements across large-scale datasets.
Enterprise-Class Infrastructure for Serious Research
The ASUS WRX90 SAGE Pro WS motherboard provides workstation-grade stability and exceptional PCIe connectivity for demanding research workloads. Dual 4TB PCIe Gen 5 NVMe SSDs deliver extremely high storage throughput, allowing rapid loading of simulation environments, research datasets, machine learning models, and computational results.
The system is housed in a high-airflow Antec C8 chassis equipped with ten cooling fans and a Silverstone XR360 liquid cooler to ensure stable operation during extended computational workloads. Organizations deploying rack-based infrastructure may also request a 5U rackmount configuration at no additional cost.
Why Choose Custom Lux PCs?
Unlike mass-produced workstation vendors, Custom Lux PCs specializes in custom-built high-performance computing systems for advanced scientific and technical workloads.
Every Quantum Research Workstation undergoes extensive assembly validation, stress testing, thermal analysis, and benchmark verification prior to shipment. Our systems are trusted by academic institutions, defense contractors, artificial intelligence companies, engineering firms, and research organizations that require dependable computing infrastructure.
We understand that researchers need more than hardware. They need expert guidance, responsive support, and systems engineered specifically for their workloads.
Every workstation includes professional configuration, benchmark reporting, lifetime technical support, and a comprehensive warranty to ensure long-term success for your research initiatives.
Accelerate the Future of Quantum Computing
Whether you are developing new quantum algorithms, advancing quantum chemistry research, exploring tensor network architectures, or building next-generation optimization models, the Custom Lux Quantum Research Workstation delivers the compute power, reliability, and scalability needed to support world-class research.
With 64 CPU cores, dual RTX 5090 GPUs, 512GB of ECC memory, and enterprise-class platform stability, this workstation provides a powerful foundation for the future of quantum computing innovation.
System Specifications:
CPU: AMD Threadripper Pro 9985WX 64 Core 128 thread (ask for 96 cores)
GPUs: 2x NVIDIA RTX 5090 32GB (Ask for RTX Pro 6000 Blackwell GPUs)
Memory: 512 GB DDR5 5600 Mhz (Upgrade to 2TB)
Storage: 2x 4TB PCIe Gen 5 M.2 SSD (Ask for as much storage as you want)
Motherboard: ASUS WRX90 SAGE Pro WS Motherboard
Case:Â Antec C8 with 10 fans (ask for 5U rack mount for no extra cost)
CPU Cooler: Silverstone XR360 360 mm AIO Liquid Cooler
Power Supply: 2200W 80+ Platinum Power Supply (Requires 220v outlet)
Features: Ubuntu 24.04 and/or Windows 11 Pro (ask for any operating system), all drivers installed, benchmark results provided, 3 year warranty, lifetime technical support
Customize this build further by filling out the “Request a Build” form or email us at [email protected] with any questions! We respond very quickly and are happy to help you give you the best bang for your buck.
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