Absolutely. The joint venture agreement that we signed was for a joint partnership to complete the development of the advanced fuel CANDU reactor for deployment, initially in China, but then for international deployment together.
With the geneology of CANDU reactors, the CANDU 6 reactor is what I would call the workhorse of the international fleet. It's a 750-megawatt pressure tube reactor that uses natural uranium that we deployed internationally in the markets that I mentioned.
The enhanced CANDU 6 is what we call the generation III variant of that design. That went through the three stages of pre-licensing with the Canadian Nuclear Safety Commission. That meets all of the post-Fukushima safety and regulatory updates that were required. We designed the reactor to meet those qualifications.
The AFCR is basically taking an additional variant on the EC6 design, taking all of those upgrades and making what I would say are minor modifications to optimize it to use this recycled uranium-type fuel.
Fundamentally, all of the reactors, including the ones at Bruce and Darlington, come from the same fundamental concept, which is horizontal pressure tubes utilizing natural uranium fuel and heavy water as a moderator.