99 Mission Critical

Drive energy savings.
Never at the expense of reliability.

We find, quantify, and remediate inefficiencies in your power and cooling infrastructure.

Modern data centers are engineered for redundancy. Not efficiency.

  • Part-load inefficiency UPS and distribution equipment operating below their 40–80% efficiency sweet spot impose fixed losses that can't be recovered without deliberate load management.
  • Stranded capacity Redundancy models and phased occupancy leave significant electrical capacity idle by design — but that idle capacity still consumes unnecessary power.
  • BoD drift Physical operating conditions diverge from design intent over time. Equipment that hasn't been recalibrated against real-world load introduces hidden SLA violation exposure.
  • Compounding control logic gaps When airflow is suboptimal, cooling demand rises. When cooling is inefficient, electrical inefficiency follows. Setpoints calibrated for worst-case assumptions amplify both — while masking the root cause.

Our process: Quantifiable energy savings built around your risk tolerance

We start remotely. You provide a targeted subset of operating data — across power, cooling, and control systems — via secure SFTP transfer. No direct system access is required from our team; your team retains full data control.

Our engineers conduct a forensic scrub of that data to quantify the gap between your current power consumption and what your site can safely operate at without impacting redundancy.

That means profiling load across UPS, distribution, and mechanical systems; identifying where capacity is stranded; surfacing seasonal commissioning gaps; and pinpointing where actual operating conditions have diverged from your Basis of Design.

What we analyze

  • Load profiles across UPS, distribution, and mechanical systems
  • Stranded capacity and actual vs. modeled utilization
  • Seasonal commissioning gaps
  • Divergence between BoD intent and current operating conditions
  • Rebalancing opportunities across UPS modules and redundant paths
  • Control logic setpoints vs. real demand
Deliverable

Defensible Optimization Report: a prioritized list of power usage gaps with actionable, low-risk changes you can make across your site.

Because of the groundwork completed in Phase 1, we arrive on-site knowing exactly where to look. From the first day on the floor, engineering time is focused on high-impact areas already identified in the data.

Three focus areas

  • Cooling & airflow — Physical validation of chiller staging and a deep review of airflow paths through white space
  • Electrical & part-load — Audit of UPS units operating outside their 40–80% efficiency sweet spot
  • BoD vs. physical condition — Verification that site behaviors haven't drifted from design intent, protecting you from SLA violation exposure you may not know exists
Deliverable

Executive Optimization Roadmap: prioritized findings with risk classifications, a corrective maintenance remediation roadmap, savings opportunity summary, and list of items requiring further engineering review.

PUE drift is an inevitable cost of site operations. Operating conditions shift, maintenance decisions accumulate, and your site gradually migrates away from its optimized state.

On a regular cadence, we ingest your latest operating data, identify what's drifting out of line, and conduct a smaller-scope but targeted on-site assessment of areas causing power efficiency drift.

You leave with an actionable remediation plan before small instances of energy leakage compound into significant losses.

The outcome

Your systems behave predictably and efficiently every day — not just when they were commissioned, and long after our initial deep assessment and remediation is complete.

Eliminate energy leakage, extend equipment longevity, and reduce major incident risk.

Reduced PUE without sacrificing reliability

Efficiency gains tied to defensible, risk-classified changes — not theoretical improvements that require de-energizing equipement to validate.

Better utilization of installed capacity

Identify where capacity is stranded, rebalance load across your infrastructure, and get more out of what's already in the ground — without capital expenditure.

Fewer surprises during abnormal conditions

When your systems are optimized against actual BoD rather than theoretical design, they behave predictably when it matters most — not just during steady-state operations.

A system that performs at real-world load

Not on paper. Not just on commissioning day. Under the actual load profiles, redundancy postures, and occupancy conditions your facility operates in every day.