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  • 0 posts edited
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  • 7 votes cast
May
14
comment Update initial condition in ODE solver each time step
Thank you very much - very eloquent and explained perfectly. Makes complete sense.
May
14
comment Update initial condition in ODE solver each time step
You're right - it should have been tagged as scipy and not matlab. Thank you.
Jan
22
comment Generate lognormal random numbers in MATLAB?
Okay - what if I want to generate random number from a log normal distribution which has a mean = 0.3 and std. dev = 0.05?
Dec
5
comment Longest Common Subsequence Length function not returning the correct length?
You're right. I found my remaining errors and posted the correct solution. Thank you.
Dec
5
comment Longest Common Subsequence Length function not returning the correct length?
I've tried the wiki's implementation already. Doesn't work for me. Maybe my indexing is off somewhere?
Dec
5
comment Longest Common Subsequence Length function not returning the correct length?
I'm expecting 3 because the longest common subsequence is HLO. For this particular example, my program returns 4.
Dec
5
comment Longest Common Subsequence Length function not returning the correct length?
I found one error - made the edit. Still not returning correct value.
Nov
21
comment Error using Insertion Sort algorithm - array is not sorted exactly.
Thank you for spotting that error - that is correct. Also, I changed it to a void function - no need to return a value.
Nov
21
comment Error using Insertion Sort algorithm - array is not sorted exactly.
Actually, I ran a small test case and the Insertionsort function works. It is actually my implementation of the Quicksort_Insert_M3 that doesn't - not sure where though.
Nov
21
comment Why do these two versions of quicksort give drastic differences in number of comparisons made?
void Insertionsort(int S[], int low, int hi) { if((hi-low)+1>1) Insertionsort(S,low,hi); Insert(S,hi-low+1); } Would that be how InsertionSort should look? And when I call it: if((hi-low)<=8) Insertionsort(S,low,hi);
Nov
21
comment Why do these two versions of quicksort give drastic differences in number of comparisons made?
@Sebastian: But InsertionSort only needs to know the number of elements, which would be hi+1 correct? Why do I need the lower boundary as well? I have tested with hi+1 - I do get better comparison results, but maybe this isn't quite right.
Nov
21
comment Why do these two versions of quicksort give drastic differences in number of comparisons made?
Stupid me. I see where I was mistaken there. So, now I'm thinking instead of InsertionSort(S,n) it should be InsertionSort(S,hi+1). Yes?
Nov
21
comment Why do these two versions of quicksort give drastic differences in number of comparisons made?
My code never (at least shouldn't) call InsertionSort when I pass an array of size n > 8. For example, for an array of size n = 500, the call to Version #2 would be: Quicksort_Insert_M3(S,500,0,499). So, for that call, low = 0 and hi = 499, so hi-low > 8 and InsertionSort isn't called. Right?
Nov
21
comment Why do these two versions of quicksort give drastic differences in number of comparisons made?
InsertionSort is only called when (hi-low)<=8. This never happens when I have an array size of n = 500 for example. A call to the function would look something like: Quicksort_Insert_M3(S,500,0,499). So, for that call, low = 0 and hi = 499, so hi-low > 8 and InsertionSort isn't called. Right?
Oct
25
comment Matrix dimensions error in MATLAB
I just did a tspan = linspace(0,10,100) then called [t,y] = ode45(@lv,tspan,[30.0; 4.0], [], p in lvperun and it works perfectly.
Oct
24
comment Cython code 3-4 times slower than Python / Numpy code?
That makes sense. Any suggestions on how I compile? I'm very new to Cython and I'm just trying to follow an example online on how to compile it.
Oct
24
comment Cython code 3-4 times slower than Python / Numpy code?
All this code is doing is generating synthetic data using randomly generated parameters k and d. I solve the system of ODE's many times and take the average E_avg of the time course of dEand plot it. I know what the plot should look like, and when I use double t as the argument, it looks perfect. However, when I was trying to pass t as an array to myc_rb_e2f(), I was getting the wrong plot. I have a setup.py file. So from IPython, I do: %run setup.py build_ext --inplace; import myscript; myscript.main(); That compiles and runs my code.
Oct
24
comment Cython code 3-4 times slower than Python / Numpy code?
First, thank you so much. I tried including the types of the parameters to myc_rb_e2f() before I posted my question, but I was getting bad results because I was passing np.ndarray[double,ndim=1] t instead of double t. Changing to double t gave me correct results - why do you pass t as a double instead of as an array? Also, your speed up helps tremendously. My code went from 100s to 40s with your edit.
Oct
24
comment Cython code 3-4 times slower than Python / Numpy code?
I ran cProfile on my script -- I copied some of the output lines which I thought would be useful for you guys: 1 1.530 1.530 240.323 240.323 myc_rb_e2f.py:1(<module>) 12267587 154.889 0.00 154.88 0.00 myc_rb_e2f.py:7(myc_rb_e2f) 5000 0.024 0.000 238.539 0.048 odepack.py:18(odeint) 5000 83.554 0.017 238.443 0.048{scipy.integrate._odepack.odeint} To me, it looks like the only thing taking my time is the integrate calls. Keep in mind, this is the profile on the Python / Numpy code - not the Cython code.
Oct
24
comment Cython code 3-4 times slower than Python / Numpy code?
@Zhenya - I have never profiled before. Can you tell me how I would do this?