Infrastructure That Works as Hard as You Do.

Experience a new standard of performance where power meets precision.
 Our next-gen data servers and immersive liquid cooling systems are engineered to deliver unmatched uptime, thermal efficiency, and scalability — so your infrastructure can grow as fast as your ambitions.
Build smarter. 

Run cooler.      Scale endlessly.

Energy Saving

Lower power usage and operational costs with highly efficient cooling and power systems.

Cooling Efficiency

Advanced liquid cooling ensures stable performance by eliminating heat directly at the source.

Space Efficiency

High-density designs that optimize rack space and reduce your physical footprint.

High-Speed

Blazing-fast performance that keeps your data moving without delay.

Biodegradable Dielectric Fluid

Sustainable. Non-toxic. High-performance cooling.

Find the Right Pod for Every Use Case

12U Pod – Compact Edge Pod

  • Capacity: 15–40 kW
  • Form Factor: Ultra-compact, ideal for distributed edge or on-prem sites.
  • Deployment: <8 weeks
  • Dielectric Fluid Capacity: ~220-250 Liters
  • Pod weight (empty): ~150kgs
  • Pod weight (with fluid and servers): ~450-500kgs
  • Rack configuration: Up to 12 dual-socket servers (1U)

Use Cases: Edge AI processing, telecom rollouts, remote research labs, branch or campus IT.

Value: Lightweight, fits into existing electrical grids, 3-phase ready.

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24U Pod – Mid-Range Deployment

  • Capacity: 50–100 kW
  • Form Factor: Balanced footprint for enterprises or regional clusters.
  • Deployment: 8–10 weeks
  • Dielectric Fluid Capacity: ~450-500 Liters
  • Pod weight (empty): ~300kgs
  • Pod weight (with fluid and servers): ~1,100-1,200kgs
  • Rack configuration: Up to 24 dual-socket servers (1U)

Use Cases: Regional financial centers, R&D workloads, manufacturing sites, disaster recovery pods.

    Value: Flexible deployment at edge or core with balanced density and scalability.

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    42U Pod – Full Rack Pod

    • Capacity: 100–200 kW
    • Form Factor: Standard high-density pod for core or large-scale deployments.
    • Deployment: 10–12 weeks
    • Dielectric Fluid Capacity: ~950-1,000 Liters
    • Pod weight (empty): ~600kgs
    • Pod weight (with fluid and servers): ~2,100-2,200kgs
    • Rack configuration: Up to 42 dual-socket servers (1U)

    Use Cases: AI/ML training clusters, sovereign compute hubs, BFSI core infra, HPC research.

    Value: High-density, compact 1 MW clusters possible with 10 pods.

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    P

    ower.
    recision.
    erformance.

    What Sets Our Product Apart

    %

    Higher compute density

    %

    Lower cooling energy

    %

    Water usage
    Cooling efficiency

    • VISARJ Immersion-cooled: 90% lower energy costs

    • Traditional Air-cooled: High cooling power usage

    Water Usage
    • VISARJ Immersion-cooled: Zero liters/year
    • Traditional Air-cooled: ~5M liters/year per 1MW
    Compute Density

    • VISARJ Immersion-cooled: 50–200 kW/pod, 1,100 sq ft/MW

    • Traditional Air-cooled: 5–15 kW/rack, 10,000 sq ft/MW

    Hardware Lifespan

    • VISARJ Immersion-cooled: 30% longer (thermal stability)

    • Traditional Air-cooled: Shorter due to thermal wear

    Environmental Impact
    • VISARJ Immersion-cooled: Zero liters/year

    • VISARJ Immersion-cooled: Low carbon footprint

    • Traditional Air-cooled: High carbon footprint

    Deployment Time

    • VISARJ Immersion-cooled: < 60 days (modular units)

    • Traditional Air-cooled: 12–18 months for build-out

    Monitoring
    • VISARJ Immersion-cooled: Real-time system analytics
    • Traditional Air-cooled: Basic SNMP/DCIM tools

    FUTURE ENHACEMENT

    Configurator Tool to “Enter workload (kW, racks, GPUs)” and Suggests pod size.

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    Technology Insights