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I have a counter. After N time it increases by one. Which algorithm do I change the number N, to counter increased rapidly at first, and finally slowed down.


UPD: Source code on Java:

currentProcent = 0;
deltaSecond = 3000f / (float) bigProcNumber;    // 3000f - 3 second, is fixed
new Thread(new Runnable() {
   public void run() {
      try {
         while (currentProc != (int) bigProcNumber) {
            Thread.sleep((int) (deltaSecond));
            // UI Change
      } catch (InterruptedException e) {

I need to change the deltatime, but it is necessary that the sum of all deltatimes was equal to 3000 milliseconds.

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You can do something like "counter = counter + 100/counter" or something similar. –  AKJ Nov 15 '12 at 10:21
Your question is very vague. It's clear you are looking for a function of N that increases monotonically - it's no problem to create one. So you can specify properties you would like to have. it can be anything from N_next = N+1 to more complicated N_next = N! + N^2 + 1 –  bdecaf Nov 15 '12 at 10:51
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2 Answers

  1. Uppercase 'N' is reserved. Don't use is as a variable name.

  2. It sounds like you want to build a clock counter with a variable rate. Mathematica has a couple of different ways to control clocks, and they have different characteristics. (look at Pause[], the functions related to CreateScheduledTask[] or controlling update intervals in Dynamic e.g.) Give us more hints of what you're trying to do. Example code is good.

  3. Here's an example of a Pause-based timer.

    t = 0;
     t += dt;
     Line[{{0., 0.}, {Cos[t/(2 Pi)], -Sin[t/(2 Pi)]}}]}]
     {{dt, 0.5}, 0.1, 1, 0.1, PopupMenu}
  4. Be careful using timers around Dynamic. Here's an example using Dynamic to control the clock.

     DynamicModule[{t = 0},
       Line[{{0., 0.}, {Cos[#/(2 Pi)], -Sin[#/(2 Pi)]} &@
        Dynamic[t += dt, UpdateInterval -> dt]}]
    ,{{dt, 0.5}, 0.1, 1, Appearance -> "Labeled"}
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Good advice on (1). –  High Performance Mark Nov 15 '12 at 13:38
@Cfr - Thanks for the formatting. The editor here seems to be straightforward enough, but I simply can't get it do much useful on Safari. Firefox seems to work better. –  Fred Klingener Nov 15 '12 at 15:07
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If I interpret your question correctly you want to find a function which increases rapidly at first and more slowly later, something with a shape like this perhaps ?

enter image description here

I made the graphic using the Log function which would probably be suitable, but there are many others.

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Yes, that's right. But I do not know how to implement it in my case, look, please on update with source. –  bloodvlad Nov 16 '12 at 7:19
I neither read nor write Java, but I'm sure someone else will help you. –  High Performance Mark Nov 16 '12 at 9:30
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