International audienceIn this paper we prove that computing the solution of an initial-value problem $\dot{y}=p(y)$ with initial condition $y(t_0)=y_0\in\R^d$ at time $t_0+T$ with precision $e^{-\mu}$ where $p$ is a vector of polynomials can be done in time polynomial in the value of $T$, $\mu$ and $Y=\sup_{t_0\leqslant u\leqslant T}\infnorm{y(u)}$. Contrary to existing results, our algorithm works for any vector of polynomials $p$ over any bounded or unbounded domain and has a guaranteed complexity and precision. In particular we do not assume $p$ to be fixed, nor the solution to lie in a compact domain, nor we assume that $p$ has a Lipschitz constant
We show, in answer to K. Ko’s question raised in 1983, that an initial value problem given by a poly...
We address complexity issues for linear differential equations in characteristic~$p>0$: resolution a...
We prove that the binary complexity of solving ordinary polynomial differential equations in terms o...
International audienceIn this paper we prove that computing the solution of an initial-value problem...
lyon.fr In this paper we prove that computing the solution of an initial-value problem y ̇ = p(y) w...
In this paper we investigate the computational complexity of solving ordinary differential equations...
International audienceIn this paper we consider the computational complexity of solving initial-valu...
Abstract. In this abstract we present a rigorous numerical algorithm which solves initial-value prob...
In this paper we consider the computational complexity of solving initial-value problems de ned with...
The computational complexity of the solution y of the differential equation y′(x) = f(x, y(x)), with...
The outcomes of this article are twofold. Implicit complexity. We provide an implicit characteriz...
objects encountered in analysis, such as real functions, from the viewpoints of computability and co...
AbstractWe present a new method to obtain lower bounds for the time complexity of polynomial evaluat...
Abstract. How complex could the solution be to an initial value prob-lem given by a polynomial-time ...
Abstract. In this paper we consider the computational complexity of solving initial-value problems d...
We show, in answer to K. Ko’s question raised in 1983, that an initial value problem given by a poly...
We address complexity issues for linear differential equations in characteristic~$p>0$: resolution a...
We prove that the binary complexity of solving ordinary polynomial differential equations in terms o...
International audienceIn this paper we prove that computing the solution of an initial-value problem...
lyon.fr In this paper we prove that computing the solution of an initial-value problem y ̇ = p(y) w...
In this paper we investigate the computational complexity of solving ordinary differential equations...
International audienceIn this paper we consider the computational complexity of solving initial-valu...
Abstract. In this abstract we present a rigorous numerical algorithm which solves initial-value prob...
In this paper we consider the computational complexity of solving initial-value problems de ned with...
The computational complexity of the solution y of the differential equation y′(x) = f(x, y(x)), with...
The outcomes of this article are twofold. Implicit complexity. We provide an implicit characteriz...
objects encountered in analysis, such as real functions, from the viewpoints of computability and co...
AbstractWe present a new method to obtain lower bounds for the time complexity of polynomial evaluat...
Abstract. How complex could the solution be to an initial value prob-lem given by a polynomial-time ...
Abstract. In this paper we consider the computational complexity of solving initial-value problems d...
We show, in answer to K. Ko’s question raised in 1983, that an initial value problem given by a poly...
We address complexity issues for linear differential equations in characteristic~$p>0$: resolution a...
We prove that the binary complexity of solving ordinary polynomial differential equations in terms o...