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The Computational Complexity of Sandpiles

Author

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  • Cristopher Moore
  • Martin Nilsson

Abstract

Given an initial distribution of sand in an Abelian sandpile, what final state does it relax to after all possible avalanches have taken place? In d >= 3*, we show that this problem is P-complete, so that explicit simulation of the system is almost certainly necessary. We also show that the problem of determining whether a sandpile state is recurrent is P-complete in d >= 3. In d=1, we give two algorithms for predicting the sandpile on a lattice of size n, both faster than explicit simulation: a serial one that runs in time O(n log n), and a parallel one that runs in time O(log^3 n), i.e. in the class NC^3. The latter is based on a more general problem we call Additive Ranked Generability. This leaves the two-dimensional case as an interesting open problem. * >= is greater than or equal to.

Suggested Citation

  • Cristopher Moore & Martin Nilsson, 1998. "The Computational Complexity of Sandpiles," Working Papers 98-08-071, Santa Fe Institute.
    • Handle: RePEc:wop:safiwp:98-08-071
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