论文信息 - Additive Complexity and p-adic Roots of Polynomials

Additive Complexity and p-adic Roots of Polynomials

Consider any nonzero univariate polynomial with rational coefficients, presented as an elementary algebraic expression (using only integer exponents). Letting σ(f) denotes the additive complexity of f , we show that the number of rational roots of f is no more than 15 + σ(f)(24.01)σ(f)!. This provides a sharper arithmetic analogue of earlier results of Dima Grigoriev and Jean-Jacques Risler, which gave a bound of C 2 for the number of real roots of f , for some constant C with 1<C <32. We extend our new bound to arbitrary finite extensions of the ordinary or p-adic rationals, roots of bounded degree over a number field, and geometrically isolated roots of multivariate polynomial systems. We thus extend earlier bounds of Hendrik W. Lenstra, Jr. and the author to encodings more efficient than monomial expansions. We also mention a connection to complexity theory and note that our bounds hold for a broader class of fields.

J. Maurice Rojas

[1] N. Koblitz. p-adic Numbers, p-adic Analysis, and Zeta-Functions , 1977 .

[2] J. Maurice Rojas. Computational Arithmetic Geometry I. Sentences Nearly in the Polynomial Hierarchy , 2001, J. Comput. Syst. Sci..

[3] J. Maurice Rojas,et al. Toric intersection theory for affine root counting , 1996, math/9606215.

[4] Jan Denef,et al. P-adic and real subanalytic sets , 1988 .

[5] Allan Borodin,et al. On the Number of Additions to Compute Specific Polynomials , 1976, SIAM J. Comput..

[6] Jean-Jacques Risler,et al. Additive Complexity and Zeros of Real Polynomials , 1985, SIAM J. Comput..

[7] H. Lenstra. On the factorization of lacunary polynomials , 1999 .

[8] L. Lipshitz,et al. p-adic zeros of polynomials. , 1988 .

[9] Michael Shub,et al. Some Remarks on Bezout’s Theorem and Complexity Theory , 1993 .

[10] J. M. Rojas. Algebraic Geometry Over Four Rings and the Frontier to Tractability , 2000, math/0005204.

[11] Lenore Blum,et al. Complexity and Real Computation , 1997, Springer New York.