Project–Platform hybrid model
Projects do not scale, Platforms do not learn
TiByte does both by delivering Nuclear‑AI factories as a project and a platform together.
The project side leads site development, integrated nuclear‑plus‑data‑centre design, and delivery of 300 MW Nuclear‑AI factories into operation.
The platform side captures what works on those sites into shared data, models, and playbooks, so each new factory is faster to approve, cheaper to build, and simpler to run.
Work with TiByte and your site becomes part of a learning fleet: every project strengthens the platform, and the platform, in turn, de‑risks and upgrades every future project.
Nuclear-AI factory Platform
The Nuclear‑AI factory platform converts individual projects into a scalable, financeable asset class. It systematises site experience into quantitative models of factory performance, applies an optimisation layer to balance schedule, CAPEX, , and reliability, and codifies the results into playbooks that govern FOAK and NOAK Nuclear‑AI factories.
As the fleet grows, each successive project is underwritten with a deeper evidence base on cost, risk, and operating outcomes, enabling shorter delivery cycles, stronger bankability, and progressively lower cost of compute.
Knowledge ingestion
The platform aggregates structured data from FOAK pilots and NOAK Nuclear‑AI factories, including design choices, cost, schedules, regulatory milestones, and operating performance.
It builds a continually updated evidence base, so every new project starts with lower uncertainty bands for sponsors and lenders.
Knowledge modelling
Every project data is organised into quantitative models that describe how Nuclear‑AI factories perform across sites, configurations, and stages of the asset lifecycle.
These models isolate the key drivers of risk, cost, and reliability, giving sponsors and lenders more defensible forecasts for project returns and bankability.
Optimisation engine
An optimisation engine runs on the platform’s models to identify factory configurations that best trade off time‑to‑power, capital cost, operating cost, and reliability.
It systematically improves project economics and risk, enabling standard deal structures that can be underwritten across a portfolio of sites.
Developer playbooks
The platform then codifies this knowledge into developer playbooks that steer real projects from FOAK pilots through scaled NOAK fleets.
The playbooks set out clear stages, responsibilities, and risk‑allocation principles, turning the platform into a predictable, bankable delivery process for Nuclear‑AI factories.
Nuclear-AI factory
Project
A single facility that combines on‑site nuclear generation, high‑density AI compute, advanced cooling, and grid interfaces in one integrated design.
Each project is delivered as a standardized module for large‑scale AI workloads, with dedicated power, networking, and resilience, so customers can treat the site as a long‑term anchor for their AI fleet.
300
MW compute
1.1
PUE
Tier III
Uptime class
Still interested? Exploring a collaboration?
contact@ti-byte.com
+1 (302) 237 38458
The Green #10894
Dover, 19901, United States