cycle_brent.html

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      CYCLE_BRENT - Cycle Detection by Brent's Method
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      CYCLE_BRENT <br> Cycle Detection by Brent's Method
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    <p>
      <b>CYCLE_BRENT</b>
      is a C++ library which
      analyzes a cycle in an iterated function sequence using Brent's method.
    </p>

    <p>
      Suppose we a repeatedly apply a function f(), starting with the argument
      x0, then f(x0), f(f(x0)) and so on.  Suppose that the range of f is finite.
      Then eventually the iteration must reach a cycle.  Once the cycle is reached,
      succeeding values stay within that cycle.
    </p>

    <p>
      Starting at x0, there is a "nearest element" of the cycle, which is
      reached after MU applications of f.
    </p>

    <p>
      Once the cycle is entered, the cycle has a length LAM, which is the number
      of steps required to first return to a given value.
    </p>

    <p>
      This function uses Brent's method to determine the values of MU and LAM,
      given F and X0.
    </p>

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      Licensing:
    </h3>

    <p>
      The computer code and data files described and made available on this
      web page are distributed under
      <a href = "../../txt/gnu_lgpl.txt">the GNU LGPL license.</a>
    </p>

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      Languages:
    </h3>

    <p>
      <b>CYCLE_BRENT</b> is available in
      <a href = "../../c_src/cycle_brent/cycle_brent.html">a C version</a> and
      <a href = "../../cpp_src/cycle_brent/cycle_brent.html">a C++ version</a> and
      <a href = "../../f77_src/cycle_brent/cycle_brent.html">a FORTRAN77 version</a> and
      <a href = "../../f_src/cycle_brent/cycle_brent.html">a FORTRAN90 version</a> and
      <a href = "../../m_src/cycle_brent/cycle_brent.html">a MATLAB version</a> and
      <a href = "../../py_src/cycle_brent/cycle_brent.html">a PYTHON version</a>.
    </p>

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      Related Data and Programs:
    </h3>

    <p>
      <a href = "../../cpp_src/cycle_floyd/cycle_floyd.html">
      CYCLE_FLOYD</a>,
      a C++ library which
      carries out an iterated function evaluation, and seeks to determine the
      nearest element of a cycle, and the cycle's length, using Floyd's method.
    </p>

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      Reference:
    </h3>

    <p>
      <ol>
        <li>
          Richard Brent,<br>
          An improved Monte Carlo factorization algorithm,<br>
          BIT,<br>
          Volume 20, Number 2, 1980, pages 176-184.
        </li>
      </ol>
    </p>

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      Source Code:
    </h3>

    <p>
      <ul>
        <li>
          <a href = "cycle_brent.cpp">cycle_brent.cpp</a>, the source code.
        </li>
        <li>
          <a href = "cycle_brent.hpp">cycle_brent.hpp</a>, the source code.
        </li>
        <li>
          <a href = "cycle_brent.sh">cycle_brent.sh</a>,
          BASH commands to compile the source code.
        </li>
      </ul>
    </p>

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      Examples and Tests:
    </h3>

    <p>
      <ul>
        <li>
          <a href = "cycle_brent_prb.cpp">cycle_brent_prb.cpp</a>,
          a sample calling program.
        </li>
        <li>
          <a href = "cycle_brent_prb.sh">cycle_brent_prb.sh</a>,
          BASH commands to compile and run the sample program.
        </li>
        <li>
          <a href = "cycle_brent_prb_output.txt">cycle_brent_prb_output.txt</a>,
          the output file.
        </li>
      </ul>
    </p>

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      List of Routines:
    </h3>

    <p>
      <ul>
        <li>
          <b>CYCLE_BRENT</b> finds a cycle in an iterated mapping using Brent's method.
        </li>
        <li>
          <b>TIMESTAMP</b> prints the current YMDHMS date as a time stamp.
        </li>
      </ul>
    </p>

    <p>
      You can go up one level to <a href = "../cpp_src.html">
      the C++ source codes</a>.
    </p>

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    <i>
      Last revised on 17 June 2012.
    </i>

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