SaultPod™ Modular Data Center
SaultPod™ Overview: Cybersault’s proprietary, AI-optimized modular platform engineered for high-performance computing and sovereign cloud infrastructure.
Key Value Proposition: Delivers Tier III-class capability in a modular form factor—deployable in months, not years, to meet urgent AI and sovereignty demands.
Why SaultPod: Enables rapid, compliant on-premise capacity that eliminates reliance on foreign cloud providers, backed by full end-to-end support.
Why the Shift to Modular?
Addressing Sovereignty, Speed, and AI Demand.
Data Sovereignty & Geopatriation: 75% of orgs fear geopolitical cloud risks. Nations demand local data control (GDPR, India Data Laws).
The AI Boom: AI capacity demand is growing ~33% annually. Traditional builds cannot keep pace with high-density compute needs.
Edge & Latency: By 2025, 75% of data will be processed at the edge. 5G and IoT require local compute nodes.
Speed to Market: Conventional builds take years. The market demands capacity in months.
Addressing “GPU Poverty”: India currently faces a severe deficit in sovereign, high-density infrastructure required for mission-critical AI initiatives, creating a strategic national bottleneck.
The Construction Lag: Traditional data centers take 18–24 months to build. By the time this capacity goes live, the technology generation has shifted, and the strategic advantage is lost.
Time-to-Deploy is Critical: For national security and economic competitiveness, speed is the new currency. We cannot afford to wait years for infrastructure; rapid, modular deployment is the only path to immediate AI readiness.
Key Use Cases
Telecom Operators (5G/MEC): Serves as a Multi-Access Edge Computing hub, enabling low-latency services (AR/VR, caching) and rapid 5G scaling at base stations.
Smart Cities & IoT: Processes sensor and safety data locally for real-time responsiveness; mobile units allow rapid deployment for events or disaster recovery.
AI Enterprises & HPC: Delivers turnkey “AI factory” capabilities on-premise, securing sensitive IP and eliminating cloud bandwidth costs for finance and biotech.
Government & Defense: Provides secure, sovereign infrastructure for e-Governance and mission-critical, forward-deployed defense operations.
Enterprise Versatility: Adaptable for healthcare compliance, retail edge computing, and temporary capacity surges.
SaultPod Lite
High-Density Compact Power: Delivers 0.5–1.0 MW of IT load across 10–16 racks, supporting dense GPU clusters of up to ~120 kW per rack.
Cost-Optimized Architecture: Utilizes a streamlined single-path power design (N), achieving ~40% lower CapEx by removing redundancy overhead.
HPC-Grade Cooling: Features the same advanced Direct Liquid Cooling (DLC) + RDHx hybrid system as flagship models, ensuring top-tier thermal management.
Fastest Deployment: Simplified design allows for rapid manufacturing and installation, with a lead time of just 16–18 weeks.
Target Use Cases: Ideal for high-performance but non-mission-critical environments, such as AI R&D labs, academic research, and remote telco edge nodes.
SaultPod 2000
Mid-Range Powerhouse: Delivers 1–2 MW of IT load capacity, housing up to 12 liquid-cooled (DLC) or 16 air-cooled racks in a turnkey package.
Tier III Reliability: Built with N+1 redundancy for all critical systems (Power & Cooling), with an option to upgrade to Tier IV (2N) for maximum fault tolerance.
Compact Footprint: Occupies a modest ~17 × 12m (~204 m²) area, allowing for flexible deployment on rooftops, parking lots, or adjacent to existing buildings.
Enterprise-Grade Cooling: Features the flagship DLC + RDHx hybrid cooling system, enabling high-density AI/HPC performance in a smaller form factor.
Strategic Use Cases: The “datacenter-in-a-box” solution ideal for Regional Cloud Nodes, Telecom Edge, and Enterprise Private Clouds, scalable in ~1.5 MW increments.
SaultPod 5000
Flagship Hyperscale Capacity: Delivers a massive ~5 MW IT load, housing 26 liquid-cooled (DLC) or 36 air-cooled racks to power dedicated AI supercomputing clusters.
Extreme Density Cooling: Engineered for the highest heat loads, utilizing hybrid DLC + RDHx to support >100 kW per rack for tens of thousands of GPUs.
Mission-Critical Resilience: Standard Tier III (N+1) redundancy, upgradable to Tier IV (2N) for true fault tolerance in sovereign cloud and government operations.
Campus Building Block: “Lego-like” scalability serves as the anchor for large campuses—deploy multiple units to build 20 MW+ facilities in phases.
High-Efficiency Footprint: Provides full data center capabilities in a pre-fabricated ~32m × 13m (~416 m²) hall, drastically reducing construction time vs. traditional builds.
Deployment Process & Timeline
Speed Advantage: A streamlined 90-Day Deployment Cycle (vs. 12+ months for traditional builds), enabling rapid capacity expansion for urgent mission-critical needs.
Step 1: Rapid Design (Days 1–15): Fast-tracked requirement gathering and configuration of pre-engineered modules ensures immediate lock-in for production.
Step 2: Parallel Execution (Days 16–75): Simultaneous workflows—Factory Fabrication (including rigorous off-site testing) occurs concurrently with On-Site Civil Prep, compressing the critical path.
Step 3: Install & Integrate (Days 76–85): Plug-and-play installation upon arrival; pre-tested modules are integrated with site power/cooling in days, not weeks.
Step 4: Go-Live (Days 86–90): Final on-site load testing and commissioning. Result: A fully operational, sovereign data center ready for workloads in just one quarter.