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I encountered a memory problem in Mathematica when I tried to process my experimental data. I'm using Mathematica to find the optimal parameters for a system of three partial differential equations.

When the e parameter was greater than 0.4, Mathematica consumed a lot of memory. For e < 0.4, the program worked properly.

I have tried using $HistoryLength = 0, and reducing AccuracyGoal and WorkingPrecision with no success.

I'm trying to understand what mistakes I made, and how I may limit the memory usage.

Clear[T, L, e, v, q, C0, R, data, model];
T = 13200; 
L = 0.085; 
e = 0.41; 
v = 0.000557197; 
q = 0.1618; 
C0 = 0.0256; 
R = 0.00075;

data = {{L, 600, 0.141124587}, {L, 1200, 0.254134509}, {L, 1800, 
    0.342888644}, {L, 2400, 0.424476295}, {L, 3600, 0.562844542}, {L, 
    4800, 0.657111356}, {L, 6000, 0.75137817}, 
       {L, 7200, 0.815876516}, {L, 8430, 0.879823594}, {L, 9000, 
    0.900771775}, {L, 13200, 1}};

model[(De_)?NumberQ, (Kf_)?NumberQ, (Y_)?NumberQ] := 
 model[De, Kf, Y] =  yeld /. Last[Last[
       v D[Ci[z, t], z] + D[Ci[z, t], t] == -((
         3 (1 - e) Kf (Ci[z, t] - C0))/(
         R e (1 - (R Kf (1 - R/r[z, t]))/De))),
       D[r[z, t], t] == (R^2 Kf (Ci[z, t] - C0))/(
        q r[z, t]^2 (1 - (R Kf (1 - R/r[z, t]))/De)),
       D[yeld[z, t], t] == Y*(v e Ci[z, t])/(L q (1 - e)),
       r[z, 0] == R,
       Ci[z, 0] == 0,
       Ci[0, t] == 0,
       yeld[z, 0] == 0},
      {r[z, t], Ci[z, t], yeld}, {z, 0, L}, {t, 0, T}]]]

fit = FindFit[
  data, {model[De, Kf, Y][z, t], {0.97  < Y < 1.03, 
    10^-6 < Kf < 10^-4, 10^-13 < De < 10^-9}}, 
     {{De, 10^-12}, {Kf,  10^-6}, {Y, 1}}, {z, t}, Method -> NMinimize]

data = {{600, 0.141124587}, {1200, 0.254134509}, {1800, 
    0.342888644}, {2400, 0.424476295}, {3600, 0.562844542}, {4800, 
    0.657111356}, {6000, 0.75137817}, {7200, 0.815876516}, 
       {8430, 0.879823594}, {9000, 0.900771775}, {13200, 1}}; 

YYY = model[De /. fit[[1]], Kf /. fit[[2]], Y /. fit[[3]]]; 

Show[Plot[Evaluate[YYY[L, t]], {t, 0, T}, PlotRange -> All], 
 ListPlot[data, PlotStyle -> Directive[PointSize[Medium], Red]]]

Link to the .nb file: http://www.4shared.com/folder/249TSjlz/_online.html

share|improve this question
Welcome to StackOverflow. Please clean up the spelling, grammar, and punctuation in the text of your question to the best of your ability. Thank you. (Use the edit link below your question.) –  Mr.Wizard Nov 29 '11 at 13:47
What do you mean by expressions like (Subscript[C, i]^(1,0))[z,t] in model? Was that supposed to be Derivative[1,0][Subscript[C, i]][z,t]? –  Heike Nov 29 '11 at 13:59
Also, I cannot download your Notebook file. The site appears to be trying to install something on my machine. –  Mr.Wizard Nov 29 '11 at 14:00
@Mr.Wizard, I formatted the code and corrected the grammar for the OP, so it should be more readable. –  rcollyer Nov 29 '11 at 15:53
@Mr.Wizard Sorry, i reshare the file. Previous was Russians site, I dont know why it thry to download somthikn on you PC –  user1058051 Dec 1 '11 at 9:48

1 Answer 1

up vote 3 down vote accepted

I have a sneaking suspicion the reason why it's failing on you is because you're caching the results.

Do you need to store every single solution that NDSolve is producing? I'm somewhat skeptical of whether this is useful or not for Findfit, since I highly doubt it would revisit a past result.

Besides, it's not like you're talking about integers where there's a finite domain you're talking about. You're using reals and even over the range you specify, there's A LOT of different solutions possible. I don't think you want to store each and every one of them.

Rewrite your code so that instead of having:

model[(De_)?NumberQ, (Kf_)?NumberQ, (Y_)?NumberQ] := 
 model[De, Kf, Y] =  yeld /. Last[Last[

You instead have:

model[(De_)?NumberQ, (Kf_)?NumberQ, (Y_)?NumberQ] := 

By caching your previous results, you're going to eat up memory like no tomorrow with FindFit. Typically it's useful when you have a recurrence relation, but here I'd seriously advise against it.

Some Notes:

After running for 2415 seconds on my machine, Mathematica's memory usage went from 112,475,400 bytes to 1,642,280,320 bytes with the caching.

I'm currently running the code without the caching now.

share|improve this answer
that is a good point. in any case, what you suggest is to suffer potentially slower performance for lower memory consumption. I admit I have not yet played with this problem though. –  acl Dec 12 '11 at 1:13
@acl: I'm still not convinced that memoizing the results of NDSolve would even help performance. I'm trying to run his code on my machine with and without the memoization, but it seems to be slow either way. Will post cpu time and memory usage once both runs finish. –  Mike Bantegui Dec 12 '11 at 1:17
I agree, in this case it looks like memoizing won't help speed, for the reasons you outlined. I tried running this some time ago but cut and pasting the code didn't work, and I have had no time to revisit it to see if the edits make it runnable. –  acl Dec 12 '11 at 1:21
@acl: The question has the code from the uploaded notebook, along with some minor syntactical changes on my part. It should run fine. –  Mike Bantegui Dec 12 '11 at 1:25
@Mike Bantegui Thanks a lot! –  user1058051 Dec 14 '11 at 10:05

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