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

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okoth ochola 2024년 2월 27일

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

댓글: Dyuman Joshi 2024년 2월 29일

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

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Aquatris 2024년 2월 27일

MATLAB Online에서 열기

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 2024년 2월 29일

MATLAB Online에서 열기

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.

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