Services — Turnkey Colocation
Power. Space. Cooling. Network.
Hydro-powered, Canadian sovereign turnkey colocation where the power source, compute buildings, cooling infrastructure, and operations are designed as one integrated system — purpose-built for high-load digital workloads within Canadian jurisdiction.
1.05 GW+
Planned Campus Capacity
Phased delivery — 7 phases
150 MW
Phase 1 Capacity
Hydro-powered, Canadian-controlled
100+ kW
Per-Rack Density
Liquid cooling ready
Canadian
Sovereign Jurisdiction
Site-specific SLA commitments
What We Deliver
Four Pillars of Integrated Capacity
Every capacity commitment — power, space, cooling, and network — is delivered from a single integrated platform, not assembled from separate vendors with separate interests.
Behind-the-Meter Hydro Access. Dual Independent Distribution.
Power is delivered behind-the-meter directly from hydro-electric generation — not pulled from a constrained utility queue. Two independent medium-voltage distribution rings carry power across the campus. Every pod receives an A and B feed. Both are live simultaneously. No transfer switching under normal operations.
- Gigawatt+ total campus capacity (phased)
- 50 MW+ per Phase 1 building
- N+1 UPS and PDU per pod
- 2N options available for critical loads
- MV distribution ring architecture
- Power metering per tenant
Pre-Engineered Buildings. Prefabricated Modules.
Compute space is delivered via pre-engineered steel buildings with prefabricated power and cooling modules — not ground-up construction managed independently from the power infrastructure. Buildings and modules are matched to the campus generation capacity from the start. Phased delivery allows tenants to scale without re-engineering.
- Master-planned Canadian sovereign campus
- Phased pre-engineered building delivery
- Dedicated building options for anchor tenants
- Separate tenant cages and suites available
- Controlled access per zone
- Structured cabling and demarcation
Redundant Cooling. Liquid-Ready for High Density.
Cooling infrastructure is delivered as prefabricated modules matched to the building and power infrastructure — not procured separately. N+1 minimum redundancy is standard. High-density AI and HPC deployments requiring liquid cooling are supported through a structured technical onboarding process.
- Prefabricated cooling modules per building
- N+1 minimum redundancy standard
- Liquid cooling readiness for 30 kW+ racks
- Rear-door and in-row liquid options
- Integrated with ops center monitoring
- Low PUE design target
Carrier-Neutral Connectivity. Dark Fiber Options.
The campus provides structured network demarcation and carrier-neutral connectivity access. Dark fiber and lit fiber options connect to major regional network exchanges. Tenant network requirements are documented during technical onboarding and mapped to campus infrastructure capabilities.
- Carrier-neutral meet-me room
- Dark fiber and lit fiber options
- Regional network exchange connectivity
- Structured tenant network demarcation
- OT/IT network segmentation
- Requirements defined at onboarding
Why Integration Matters
One Platform. One Escalation Path. No Interface Gaps.
Conventional colocation assembles capacity from separate vendors — a utility for power, a landlord for space, a cooling OEM for infrastructure, and a carrier for connectivity. Every handoff is a potential failure point. Every vendor has a separate maintenance window. Every contract has a different SLA.
At Sovereign Shield ECC, the hydro-electric generation, distribution infrastructure, compute buildings, prefabricated modules, and operations team are all part of one Canadian sovereign platform. Your operational interface is with the campus team — not a subcontractor, not a utility, not a third-party OEM.
Behind-the-Meter Hydro Supply
Power arrives behind-the-meter directly from hydro-electric generation. No utility queue. Distribution is managed on-campus by the campus team.
Maintenance Coordinated Across All Systems
Plant, cooling, and building maintenance are coordinated under one operations center.
Single Operations Interface
One point of contact. One escalation path. No vendor finger-pointing.
Evidence-Based Commissioning
Structured readiness reviews before your load goes live. You do not inherit undocumented assumptions.
Workload Types
Built for Demanding Compute
The campus model is purpose-built for high-load digital infrastructure. Whether you run hyperscale cloud, AI training, HPC, or enterprise workloads, the capacity is designed for you.
Hyperscale Compute
Large-scale cloud and compute infrastructure requiring reliable, high-capacity power with minimal grid exposure and scalable white space delivery.
AI Training and Inference
Sustained high-density GPU workloads requiring 30 kW+ per rack, liquid cooling readiness, and uninterrupted load delivery for long-running training jobs.
HPC and Scientific Compute
High-performance compute clusters with demanding power density, low-latency internal fabric requirements, and sensitivity to power interruption.
Enterprise Colocation
Enterprise workloads requiring reliable capacity with controlled access, strong physical security, SLA documentation, and compliance-ready infrastructure.
Anchor and Large-Footprint Tenants
Dedicated building capacity with custom module configurations, energy coordination, joint operational procedures, and long-term phased delivery agreements.
Edge and Regional Deployment
Regional compute deployments requiring reliable capacity outside of primary coastal markets with strong connectivity access and long-term operational stability.
Onboarding Process
A Controlled Path to Operations
Tenant onboarding is a coordinated, staged process. We do not hand over space and power and step back.
01
Initial Scoping
Capacity requirements, power density, cooling approach, timeline, and fit with campus phasing.
02
Technical Requirements Review
Document power, cooling, connectivity, and security requirements. Map to campus infrastructure.
03
Capacity Agreement
Reserved capacity, power allocation, SLA terms, maintenance protocols, and commercial terms.
04
Infrastructure Readiness Review
Joint review of commissioning data, power validation, cooling performance, and security posture.
05
Equipment Installation
Coordinated installation under campus access controls with safety induction and power-up coordination.
06
Staged Power-Up
Incremental load introduction following validated procedures. Transition to steady-state operations.
Commercial Framework
Universal Data Center Agreement Framework
All colocation agreements are executed under the Universal Data Center Agreement (DCAF) Framework — an open, standardized commercial structure governing both the MSA and SOW. DCAF provides clear, balanced baseline protections reflecting industry-standard expectations for colocation and managed infrastructure services.
Learn more about the DCAF Framework at dcaf.gridsiteinc.comFAQ
Frequently Asked Questions
Common questions from prospective customers and infrastructure operators.
Reserve Turnkey Colocation Capacity.
Phase 1 reservations are open for Canadian hydro-powered compute capacity. Submit a reservation request to begin the capacity allocation process.