Why are some Physicists now saying spacetime is doomed? What is a cosmological polytope?
The idea that spacetime is doomed is a provocative notion that has gained some attention in the physics community in recent years. Some physicists suggest that the concept of spacetime as a fundamental structure in the universe may be fundamentally flawed and require a radical rethinking.

One of the main reasons behind this idea is the challenge posed by the reconciliation of quantum mechanics and general relativity, which are the two pillars of modern physics. Quantum mechanics describes the behavior of matter and energy on small scales, while general relativity describes the behavior of gravity on large scales. However, the two theories appear to be incompatible at a fundamental level, and physicists have been searching for a unified theory that can reconcile the two for decades.

One proposed solution to this problem is the idea that spacetime may not be a fundamental structure of the universe, but instead emerges from some underlying quantum system. Some theories suggest that spacetime may be an emergent property of a network of quantum entanglement between particles, or that it may be a holographic projection from a higher-dimensional space.

As for the cosmological polytope, it is a mathematical concept that arises in the context of cosmology, which is the study of the large-scale structure and evolution of the universe. A polytope is a geometric object with flat sides that exists in any number of dimensions, and a cosmological polytope is a polytope that describes the geometry of the universe on large scales.

In particular, cosmological polytopes can be used to model the spatial curvature of the universe, which is a measure of the extent to which space is curved on large scales. Different types of polytopes correspond to different possible geometries for the universe, such as flat, positively curved (like a sphere), or negatively curved (like a saddle). By studying the properties of the universe on large scales, astronomers can use cosmological polytopes to test different models of the universe and constrain parameters such as the density of matter and dark energy.
Thanks that's quite interesting. Can you find a way to relate polytopes and hypergraphs and what Stephen Wolfram thinks of the real structure of a computational universe.