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For example, I have points

100 50
90 43
80 32

need to solve for y = 50


1/1/2009 100
1/3/2009 97
1/4/2009 94
1/5/2009 92
1/6/2009 91
1/7/2009 89

need to solve for y = 1/23/2009

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up vote 14 down vote accepted

The one I use is the numerics component of Math.NET

It contains "various interpolation methods, including barycentric approaches and splines".

But as the saying goes, there are lies, damn lies and bicubic spline interpolations.

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See if you can find what you want at ALGLIB. Of course, you'll still have to make decisions about the appropriate type of interpolation/extrapolation for your problem.

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Alglib is GPL license and not concurrent for the free version, and paid for the commercial concurrent version, just an FYI for others out there. – VoteCoffee Oct 9 '14 at 18:39

I don't know about libraries but here's a simple Secant solver :

class SecantSolver
    private int     _maxSteps= 10;
    private double _precision= 0.1;

    public SecantSolver(int maxSteps, double precision)
        _maxSteps= maxSteps;
        _precision= precision;

        if (maxSteps <= 0)
            throw new ArgumentException("maxSteps is out of range; must be greater than 0!");

        if (precision <= 0)
            throw new ArgumentException("precision is out of range; must be greater than 0!");


    private double ComputeNextPoint(double p0, double p1, Func<Double,Double> f)
        double r0 = f(p0);
        double r1 = f(p1);
        double p2 = p1 - r1 * (p1-p0) / (r1-r0); // the basic secant formula
        return p2;

    public double Solve( double lowerBound, double upperBound, Func<Double,Double> f, out String message)
        double p2,p1,p0;
        int i;
        p2= ComputeNextPoint(p0,p1,f);

        // iterate till precision goal is met or the maximum
        // number of steps is reached
        for(i=0; System.Math.Abs(f(p2))>_precision &&i<_maxSteps;i++) {

        if (i < _maxSteps)
            message = String.Format("Method converges in " + i + " steps.");
            message = String.Format("{0}. The method did not converge.", p2);

        return p2;


SecantSolver solver= new SecantSolver(200,              // maxsteps
                                      0.00000001f/100   // tolerance

string message;
double root= solver.Solve(0.10,   // initial guess (lower)
                          1.0,    // initial guess (upper)
                          f,      // the function to solve
                          out message
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ILNumerics Interpolation Toolbox brings all the standard interpolation functions. You will find various interpolation/ extrapolation functions with a common, simple interface. A particular advantage over other solutions is the speed: these functions are carefully optimized to be as fast as possible on multicore hardware and for large data.

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