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QHPC’S Q-SERIES™
MODULAR ENCLOSURES
Quantum-HDL™ (≤50 kW)
Quantum-HDL™ — High-Density Launch Platform
Precision. Mobility. Frontier-Edge Compute.
Quantum-HDL™ is the entry point into the Q-Series™ density ladder — a compact, precision-cooled enclosure for rapid-deployment edge AI, industrial compute, and foundational HPC workloads.
Designed for mobility, security, and immediate activation, HDL sets the stage for scalable AI ecosystems.
Technical Envelope
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Density Tier: ≤50 kW
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Rack Configurations: 8, 12, 16, 20
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Cooling: Precision liquid cooling
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Deployment: Field-ready, rapid-deploy, substation-agnostic
Key Features
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Fast-deploy design for edge sites & tactical environments
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High-efficiency liquid cooling
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Precision rack airflow & thermal stability
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Scalable upgrade path to HYP/UDF/UDI tiers
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EMP-resilient enclosure shell
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Fully isolated architecture (no bleed-over environments)
Use Cases
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Edge AI inference & training
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Industrial automation
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Smart campuses & sovereign micro-nodes
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Lightweight HPC clusters
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Remote and tactical compute pods
Power & Cooling
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Cleanewable-Hybrid® compatible
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High-efficiency pump/loop integration
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Liquid cooling manifold + thermal isolation layer
Security & Autonomy
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Hardened enclosure structure
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Physical intrusion resistance
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Optional EMP shielding
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Air-gapped telemetry pathway
Footnote:
Configure Quantum-HDL™ → For Pricing and Configuration, please use our Contact Form to request a Custom Engineering Package for your operational needs and requirements. Pricing is specifically based upon quantity, energy consumption, speed to market, location and final server specifications.
Quantum-HYP™ (≤150 kW)
Quantum-HYP™ — Hyper-Density AI Platform
More GPUs. More Throughput. More Acceleration.
Quantum-HYP™ introduces Hyper-Density compute capabilities for advanced AI, model training workloads, and GPU-centric HPC clusters.
Engineered for high-throughput acceleration and enhanced cooling capacity.
Technical Envelope
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Density Tier: ≤150 kW
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Rack Configurations: 12–20
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Cooling: Multi-loop high-capacity liquid systems
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Integration: Ready for next-gen GPU clusters & transformer architectures
Key Features
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Dense GPU optimization
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Advanced thermal flow channels
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High-efficiency coolant distribution
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Redundant manifold paths
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Fully isolated fault domain
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Rapid scalability to UDF/UDI tiers
Use Cases
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GPU training pods
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ML + AI acceleration clusters
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Regional AI “edge-to-core” nodes
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Commercial HPC frameworks
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Critical industrial compute
Power & Cooling
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Precision liquid
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Redundant dual-loop
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Cleanewable-Hybrid® compatible
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Optional cryogenic pre-integration
Security & Autonomy
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EMP-ready shell options.
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Hard isolation
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Air-gapped compute payload zone
Footnote:
Configure Quantum-HYP™ → For Pricing and Configuration, please use our Contact Form to request a Custom Engineering Package for your operational needs and requirements. Pricing is specifically based upon quantity, energy consumption, speed to market, location and final server specifications.
Quantum-UDF™ (≤200 kW)
Quantum-UDF™ — Ultra-Density Frontier Module
From HPC to Sovereign Compute. Built for the Demand Curve Ahead.
Quantum-UDF™ is a fully-engineered ultra-density enclosure built for heavy HPC workflows, sovereign-compute infrastructure, and advanced model workloads requiring increased thermal and structural envelopes.
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Technical Envelope
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Density Tier: ≤200 kW
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Rack Configurations: 12–20
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Cooling: High-flow liquid + auxiliary manifolds
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Integration: HPC, inference/training hybrids, advanced research workloads
Key Features​
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HPC-grade thermal stability
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Enhanced isolation chassis
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Ultra-dense power routing
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Optional micro-cryogenic prep kit
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Advanced environmental telemetry
Use Cases
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Sovereign compute nodes
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Research HPC environments
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Specialized inference/training
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Heavy industrial AI
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Government HPC clusters
Power & Cooling
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Multi-loop liquid
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HPC manifold routing
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Cleanewable-Hybrid® integration
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Optional cryogenic link ports
Security & Autonomy
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EMP-ready isolation
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Hardened architecture
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Zero-trust physical zone
Footnote:
Configure Quantum-UDF™ → For Pricing and Configuration, please use our Contact Form to request a Custom Engineering Package for your operational needs and requirements. Pricing is specifically based upon quantity, energy consumption, speed to market, location and final server specifications
Quantum-UDI™ (≤250 kW)
Quantum-UDI™ — Ultra-Density+ AI Enclosure
Transformer-Scale Compute Demands Transformer-Scale Infrastructure.
Quantum-UDI™ pushes the upper boundaries of conventional AI and supercomputing density, enabling transformer-scale training workloads with an architecture designed for continuous high-load operation.
Technical Envelope
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Density Tier: ≤250 kW
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Rack Configurations: 8–20
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Cooling: Multi-loop ultra-density liquid systems
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Integration: High-density GPU clusters & advanced HPC workloads
Key Features
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Transformer-optimized thermal network
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Enhanced cooling channels
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Ultra-dense conductor pathways
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High-power liquid manifolds
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Structural reinforcement for future loads
Use Cases
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LLM training, fine-tuning & hosting
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Deep learning transformer stacks
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High-density AI acceleration
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Defense-class HPC
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Multi-tenant sovereign nodes
Power & Cooling
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Ultra-density liquid
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Redundant manifold blocks
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Cryogenic prep endpoints
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Cleanewable-Hybrid® compatibility
Security & Autonomy
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EMP-hardened chassis options
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Fully isolated systems domain
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Classified-operations ready
Footnote:
Configure Quantum-UDI™ → For Pricing and Configuration, please use our Contact Form to request a Custom Engineering Package for your operational needs and requirements. Pricing is specifically based upon quantity, energy consumption, speed to market, location and final server specifications
Quantum-UDX™ (≤750 kW)
Quantum-UDX™ — Exa-Density Hybrid Cryogenic Enclosure
Where Supercomputing and Quantum Acceleration Converge.
Quantum-UDX™ is the world’s foremost ultra-density enclosure platform for supercomputing, early-stage quantum platforms, and cryogenic-hybrid architectures. A sovereign-class module designed for the most demanding workloads on Earth.
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Technical Envelope
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Density Tier: ≤750 kW
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Rack Configurations: 6–8
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Cooling: Cryogenic-hybrid ready (liquid + dielectric + sub-zero ports)
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Integration: Supercomputing, quantum accelerators, and physics-heavy computation
Key Features
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Cryogenic hybrid integration ports
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Quantum thermal stack compatibility
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High-density conductor lattices
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Ultra-low-latency rack thermal flow
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Enhanced isolation shell
Use Cases
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Supercomputing (HPC/AI)
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Quantum accelerator arrays
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Fusion-adjacent simulation
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National research workloads
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Zetta-scale precursor compute
Power & Cooling
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Dielectric hybrid cooling
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Cryogenic Q-Loops™
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High-capacity fluid rings
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Cleanewable-Hybrid® multi-MW integration
Security & Autonomy
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EMP-hardened enclosure systems
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Zero-leakage isolation
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Defense-grade internal hardening
Footnote:
Configure Quantum-UDX™ → For Pricing and Configuration, please use our Contact Form to request a Custom Engineering Package for your operational needs and requirements. Pricing is specifically based upon quantity, energy consumption, speed to market, location and final server specifications.
Quantum-UMX™
(1-GW PER RACK DESIGN ENVELOPE)
Zetta-Scale. Quantum-Class. Future-Era Compute.
The Endgame Enclosure for the Post-Silicon Epoch.
Quantum-UMX™ is the most advanced modular compute enclosure ever engineered — the first in the world to define a 1-Gigawatt-Per-Rack design envelope, enabling the compute architectures of 2035–2050:
Cryogenic supercomputing, superconducting quantum acceleration, atomic-scale compute, and fusion-adjacent physics workloads.
UMX is engineered not for today’s constraints — but for the compute epoch that comes next.
Technical Envelope
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Density Tier: Up to 1-GW per rack (design class)
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Rack Configurations: 4–6+ (structurally isolated)
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Cooling: Cryogenic hybrid (dielectric, sub-zero, advanced Q-Loop)
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Integration: Quantum-accelerator towers, cryogenic GPU stacks, superconducting arrays
Key Features
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1-GW thermal envelope
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Multi-Closed Loop cryogenic superfluid cooling integration
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Quantum-ready manifold network
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Superconducting feed architecture
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EMP-hardened superstructure
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Zero-transfer isolation hull
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Hardened quantum-safe telemetry domain
Use Cases
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Frontier-class sovereign HPC
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Next-era quantum systems & acceleration
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Zetta-scale supercomputing
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National-defense AI fusion workloads
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Ultra-dense physics and simulation engines
Power & Cooling
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Multi-MW Cleanewable-Hybrid® power coupling
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Quantum Q-Loop™ cryogenic systems
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Dielectric hybrid thermal platforms
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Superconductor-ready structures
Security & Sovereignty
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EMP-hardened sovereign chassis
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Multi-layered physical/cyber isolation
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Zero-trust hardware domain
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Defense-grade classified-ops compatibility
Footnote:
Configure Quantum-UMX™ → For Pricing and Configuration, please use our Contact Form to request a Custom Engineering Package for your operational needs and requirements. Pricing is specifically based upon quantity, energy consumption, speed to market, location and final server specifications.