On the Quantitative Hardness of CVP

Abstract

[1]#1 CVP SVP CVPP [1]#1 For odd integers p ≥ 1 (and p = ∞), we show that the Closest Vector Problem in the p norm (p) over rank n lattices cannot be solved in 2(1-) n time for any constant > 0 unless the Strong Exponential Time Hypothesis (SETH) fails. We then extend this result to "almost all" values of p ≥ 1, not including the even integers. This comes tantalizingly close to settling the quantitative time complexity of the important special case of 2 (i.e., in the Euclidean norm), for which a 2n +o(n)-time algorithm is known. In particular, our result applies for any p = p(n) ≠ 2 that approaches 2 as n ∞. We also show a similar SETH-hardness result for ∞; hardness of approximating p to within some constant factor under the so-called Gap-ETH assumption; and other quantitative hardness results for p and p for any 1 ≤ p < ∞ under different assumptions.