 I do geometry and I calculate geometrical objects. Oh, there we go. This is a configuration of regular tachyhedra called the 20 group. When you restrict all of the side lengths to be unit length, what happens is you get gaps. The idea is you rotate everything until it locks in place. The notion is that down at the Planck scale in space, everything is discretized into a point space. And we think that this is representative of the structure of the Planck scale and discretization of space. So we're working with E8. It's an eight-dimensional lattice of points being projected down into four-dimensional space. And then from there, we project it down into three dimensions to get something that we think might be the point space that the universe operates on. So here we have points in space. A lot of these points are in four dimensions, so you can rotate the points in the fourth dimension. This is just a projection down into three-dimensional space. And I'm highlighting some vertices off and on. Randomly, the vertices are taken from the point space. And here I can view them and really get a feel for what I'm looking at. Well, let me get some more vertices going. Wow, that's a lot. There we go. What is this? So this is a set of points that I'm working with. Down at the Planck scale, we believe that space is quantized distance-wise into a set of points instead of being a smooth manifold, a smooth space, a continuum, that really you have one thing jumping to the next point, jumping to the next point. And that's what motion really is, traveling from one vertex to the next. Here is part of that. It's like a video game. Except more fun because I create it. So is reality a video game? Well, that's the real question. Is reality made out of actual stuff, made of things, or is it more of a moving, you know, is it just all information? Is it all ethereal? You know, can you go down to the atomic, subatomic, quantum level and see things moving around, or is it just really a collection of information? That's the question that's being asked by QGR. That's the question at the heart of our research.