Tenants & Workloads
Reliable Integrated Capacity for High-Load Compute.
The GridCore Model delivers power and compute capacity as an integrated platform — where the energy source, compute buildings, cooling, network, security, and operations team are coordinated through a single operating framework, not assembled from separate vendors with separate interfaces.
Managed
Power Delivery
Generation, distribution, UPS, and metering as one system
High-Density
Compute Ready
Power and cooling basis of design adapted per workload
Staged
Onboarding
Load release tied to evidence-based readiness review
One
Escalation Path
Campus team owns the operational interface
Why Integration Matters
Fewer Interface Gaps. One Escalation Path.
When power, cooling, network, security, and operations are coordinated by one platform, your exposure to interface failures — and interface ambiguity — is reduced by design.
No Energy-to-Campus Handoff Risk
Power is generated on-site and distributed to your infrastructure through a single integrated system — no utility dependency, no separate energy operator, no gap.
Maintenance Coordinated Across Systems
Plant maintenance, prefabricated cooling module maintenance, and compute building maintenance are all coordinated under one operations center. You do not need to manage multiple vendor windows.
Operational Interface Directly with the Campus Team
Your technical interface is with the campus operations team — not a facilities vendor, not a utility, not a subcontractor. One point of contact for operations, one escalation path.
Evidence-Based Readiness
Before your load goes live, we run structured commissioning and readiness reviews. You do not inherit undocumented assumptions.
Customer Assurance Standards
Workload Types
Built for High-Load Digital Infrastructure
The campus is purpose-built for demanding compute workloads. Whether you are running hyperscale infrastructure, AI training, or enterprise colocation, the campus model is designed to support you.
Hyperscale Compute
Large-scale compute infrastructure requiring reliable, high-capacity power delivery with minimal exposure to grid variability.
- High MW/rack density capability
- Redundant power feeds per hall
- Scalable white space with phased delivery
- Structured cabling and network demarcation
AI and HPC Workloads
AI training, inference, and high-performance compute requiring sustained high-density power delivery with low PUE and high uptime.
- High power density per rack (30 kW+)
- Liquid cooling readiness
- Uninterrupted load delivery for training jobs
- Connectivity to major network exchanges
Enterprise and Colocation
Enterprise workloads and colocation operators requiring reliable capacity with controlled access, strong physical security, and compliance-ready infrastructure.
- Compliant physical security posture
- Separate tenant cages or suites
- Remote hands support availability
- Uptime and SLA documentation
Anchor Tenants and Large-Footprint Users
Large-footprint customers requiring dedicated building capacity with custom prefabricated module configurations, direct energy coordination, and deep operational collaboration over a long-term agreement.
- Dedicated building(s) with prefabricated power and cooling modules
- Energy coordination and usage metering
- Joint operational procedures and interfaces
- Long-term agreement with phased delivery options
Onboarding Process
A Controlled, Coordinated Path to Operations
We do not hand over space and power and wish you luck. Tenant onboarding is a coordinated, staged process designed to protect your operations and ours.
01
Initial Scoping
Discuss capacity requirements, timeline, density needs, and operational expectations. Understand fit with campus design and phasing.
02
Technical Requirements Review
Document power, cooling, connectivity, and security requirements. Map to campus infrastructure capabilities and identify any customization.
03
Capacity Agreement
Define reserved capacity, power allocation, SLA terms, maintenance coordination protocols, and commercial terms.
04
Infrastructure Readiness Review
Joint review of campus commissioning data, power system validation, cooling performance, and security program status before tenant equipment installation.
05
Equipment Installation
Coordinated tenant equipment installation under campus access controls, with logistics support, safety induction, and power-up coordination.
06
Staged Power-Up and Operations
Incremental load introduction following validated procedures. Transition to steady-state operations with defined support interfaces and escalation paths.
Commercial Framework
Universal Data Center Agreement Framework
ECC campus agreements may use the Universal Data Center Agreement (DCAF) Framework — an open, standardized commercial structure covering both the Master Service Agreement (MSA) and Statement of Work (SOW). The commercial framework should match the actual operating model: power capability, load behavior, maintenance windows, SLA scope, and responsibility boundaries.
Sample documents are available for review. All executed agreements are tailored to reflect the specific capacity, service model, phase, and operational requirements of the deployment.
Learn more about the DCAF Framework at dcaf.gridsiteinc.comFAQ
Frequently Asked Questions
Common questions from prospective tenants and infrastructure customers.
Begin a Conversation
Ready to discuss capacity, timing, and technical fit?
Discuss your compute requirements, power needs, timeline, and commercial fit with the ECC team. Use the contact form or reach out directly to start a confidential scoping discussion.