Infrastructure Building
The physical layer under everything, data halls, structured cabling, power, and cooling, engineered to standard and built to run. From a single server room to a Tier III data center or a liquid-cooled AI hall.
Cloud runs on concrete.
Every workload, on-prem or hybrid, eventually lands on real power, real cooling, and real copper and fiber. Get that layer wrong and no amount of software fixes it. We design and build data center and server-room infrastructure to ANSI/TIA and Uptime Institute standards: clean power with UPS and generator backup, cooling matched to your rack density, structured cabling that will still be tidy in five years, and redundancy sized to the availability you need. This is the physical foundation your cloud and GPU platforms sit on.
- ✓Built to standard. ANSI/TIA-568 cabling, Uptime Institute tiers, proper grounding and bonding, documented end to end.
- ✓Power and cooling that match the load. Right-sized UPS, PDU, and generator; air, containment, or direct-to-chip liquid for AI density.
- ✓Redundancy by design. N+1 or 2N topologies for concurrently maintainable or fault-tolerant operation.
Illustrative density trend. Air cooling tops out near 40 kW per rack; dense AI racks pass 100 kW and require direct-to-chip liquid.
Engineered to the target.
The full physical stack.
Design, supply, and installation across every layer of the facility, from the utility feed to the patch panel.
Data center design & build-out
Whitespace planning, floor and rack layout, power and cooling capacity modelling, and full fit-out, whether it is a server room in your own building, a private data hall, or cabinets inside a colocation facility. We design to Uptime Institute tiers and hand over documented as-builts.
Structured cabling
Cat6A copper, OM4/OM5 multimode and single-mode fiber, MPO trunks, and patching to ANSI/TIA-568, labelled and tested.
Power & UPS
Utility feeds, UPS, PDU, standby generator, and ATS for clean, backed-up power with no single point of failure.
Cooling & containment
CRAC and CRAH units, hot and cold aisle containment, and in-row cooling for standard density, plus direct-to-chip liquid cooling for AI and GPU racks that air simply cannot handle. Sized to your load and tuned for a lower PUE.
Racks & cabinets
Cabinets, open racks, cable management, and containment, mechanically sound and airflow-aware.
Security & DCIM monitoring
Physical access control, environmental sensors, and DCIM for real-time power, cooling, and capacity visibility.
Uptime Institute tiers, at a glance.
Tiers describe topology and redundancy, not just a number. We design to the tier your availability target demands.
| Tier | Redundancy | Availability | Annual downtime |
|---|---|---|---|
| Tier I, Basic | No redundancy, single path | 99.671% | 28.8 hours |
| Tier II, Redundant components | N+1 components, single path | 99.741% | 22 hours |
| Tier III, Concurrently maintainable | N+1, dual path, maintain without downtime | 99.982% | 1.6 hours |
| Tier IV, Fault tolerant | 2N or 2N+1, fully fault tolerant | 99.995% | 26.3 minutes |
From brief to burn-in.
Assess & design
We capture your load, density, and growth, then engineer power, cooling, cabling, and tier topology to match.
Permit & procure
Coordinate utility, electrical, permits, and inspections, and procure UPS, generators, racks, and cabling.
Install & cable
Power, cooling, containment, and structured cabling installed to standard, then labelled and tested.
Commission & hand over
Load-bank and burn-in testing, DCIM live, as-builts delivered, and optional ongoing management.
Infrastructure, answered.
Do you build in our own space or in a colocation facility?
When do we need liquid cooling instead of air?
What Uptime Institute tier do we actually need?
Do you handle permits and the electrical work?
Can you also manage the environment after it is built?
Build it right,
once.
Tell us the load, the density, and the space. We will design the power, cooling, cabling, and redundancy, then build and commission it to standard.