Abstract
We analyze the complexity of the computation of the class group structure, regulator, and a system of fundamental units of an order in a certain class of number fields. Our approach differs from Buchmannâs, who proved a complexity bound under the generalized Riemann hypothesis of L ( 1 / 2 , O ( 1 ) ) L(1/2,O(1)) when the discriminant tends to infinity with fixed degree. We achieve a heuristic subexponential complexity in O ( L ( 1 / 3 , O ( 1 ) ) ) O(L(1/3,O(1))) under the generalized Riemann hypothesis when both the discriminant and the degree of the extension tend to infinity by using techniques due to Enge, Gaudry and ThomĂ© in the context of algebraic curves over finite fields. We also address rigorously the problem of the precision of the computation of the regulator.
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