Why do my code takes long to for small inputs or r

2 views (last 30 days)

okoth ochola on 27 Feb 2024

0
Link

Direct link to this question

https://au.mathworks.com/matlabcentral/answers/2087408-why-do-my-code-takes-long-to-for-small-inputs-or-r

Commented: Dyuman Joshi on 29 Feb 2024

Hi, I have the following attached code. Have posted it here a couple of times, this time I only need to ask a simple question, if I put small values of r, such as the hypothetica classical radius of a electron, r=2.38e-15, The code takes forever to run, my laptop 1i 16 Gb Ram, SSD. Is this supposed to be? apparently this is repeating itself even if I put r=2.38e-10

clear

clc

r= 2.38e-15; %input('Enter the radius of each electron\n');

R= 2; %input('Enter the the radius of the electron path\n');

T= 5; %input('Input the desire period\n');

t= (0:0.01:30)';

n=R/r;

h=6.626e-34;

me=9.109e-31;

acc1=900;

f=4e34;

%A=sqrt((h*f)/(R*acc1*me));

for i=1:1:numel(t)

m1=n*(abs(sin(pi*t(i)/T)));

m2=n*sqrt(abs(sin(pi*t(i)/T)));

if m1<2*cos(pi/6)

A=sqrt((h*f)/(R*acc1*me));

f0(i,1)=fix(A*fix(m2));

else

m=1:1:fix((m1*r)/(2*r*cos(pi/6)));

for j=1:1:numel(m)

f1(j,1)=fix(A*fix(m2*2*sin(acos((m(j)*sqrt(3)/m1)))));

if j==numel(m)

mmax=m(end);

f10=m2*2*sin(acos((mmax*sqrt(3)/m1)));

f11=(fix(f10/2))/2;

f12=f11-fix(f11);

if f12==0

Na=1:1:((fix(f10/2)-2)/2);

for a=1:1:((fix(f10/2)-2)/2)

f13(a,1)=2*fix(2*((m1*r*sin(acos((2*r*Na(a))/(m1*r))))-(2*mmax*r*cos(pi/6)))/r);

if a==numel(Na)

f14=2*fix(2*((m1*r*sin(acos((r)/(m1*r))))-(2*mmax*r*cos(pi/6)))/r);

f15=fix(A*(fix(m2)+f14+sum(f13(1:a))));

f1(j,1)=f15;

end

else

Nb=1:1:((fix(f10/2)-1)/2);

for b=1:1:((fix(f10/2)-1)/2)

f16(b,1)=2*fix(2*((m1*r*sin(acos((2*r*Nb(b))/(m1*r))))-(2*mmax*r*cos(pi/6)))/r);

if b==numel(Nb)

f17=fix(2*((m1*r)-(2*mmax*r*cos(pi/6)))/r);

f18=fix(A*(fix(m2)+f17+sum(f16(1:b))));

f1(j,1)=f18;

end

% move this code outside the if-else statement #############

f2=(sum(f1(1:j)));

f0(i,1)=f2;

end

if i==numel(t)

plot(t,f0)

end

2 Comments
Show NoneHide None

Aquatris on 27 Feb 2024

Open in MATLAB Online

At a first glance, when you select small r, your

n=R/r

becomes really large value. As a result, your

m1=n*(abs(sin(pi*t(i)/T)));

becomes really large value. Then you use this large value to create a realy large vector

m=1:1:fix((m1*r)/(2*r*cos(pi/6)));

which requires a lot of RAM.

So yeah I think you either need a super computer for this calculation or change somethings in your code :D

Dyuman Joshi on 29 Feb 2024

Open in MATLAB Online

Let's see the amount of RAM required (for the max/extreme case) -

r= 2.38e-15; %input('Enter the radius of each electron\n');
R= 2; %input('Enter the the radius of the electron path\n');
T= 5; %input('Input the desire period\n');
t= (0:0.01:30)';
n= R/r;
m1=n*(abs(sin(pi*t/T)));
ans = 0
val = fix((max(m1)*r)/(2*r*cos(pi/6)))
val = 4.8517e+14
%m = 1:1:fix((M*r)/(2*r*cos(pi/6)));

So, defining m will require

fprintf('%f GB of RAM', val*8/(1024)^3)
3614785.473322 GB of RAM

And, unfortunately, you do not have that much ram.

Answers (0)

Products

MATLAB

Release

R2018a

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!