In my code, I have a line where I calculate the cumulative sum of a vector, A, using the cumsum() function in MATLAB (R2017b). However, between each iteration, only one element in the vector A changes, and so really it's only the values from that point onwards that change. I was wondering if there was a faster way of doing this? I have tried A(elementNumber:end) = A(elementNumber:end) - oldValue + newValue, but this isn't any faster.
Additionally, I then use the find() function at each iteration to find the first index in this cumulative sum matrix where the value first exceeds a certain value.
I was wondering if there was a faster way to perform either of these in MATLAB?
An example of the kind of code I am using is given below:
beta = 0.05; S = randi(130, 15000, 1); I = randi(130, 15000, 1); tmax = 10000; n=1; t(1) = 0; t1=0; rates = (beta.*S.*I); cums = cumsum(rates); numI = sum(I); Rtot = cums(end); n=1; t(1) = 0; t1=0; while t1<tmax if n>1 newRate = beta*S(eventHouseNum)*I(eventHouseNum); % rates(eventHouseNum) = beta*S(eventHouseNum)*I(eventHouseNum); cums(eventHouseNum:end) = cums(eventHouseNum:end) - rates(eventHouseNum) + newRate; rates(eventHouseNum) = newRate end Rtot = cums(end); if Rtot==0 return end randNums = rand(2,1); dt=-log(randNums(1))/Rtot; P=randNums(2)*Rtot; eventHouseNum = find(cums>=P,1); S(eventHouseNum) = S(eventHouseNum)-1; I(eventHouseNum) = S(eventHouseNum)+1; numI = numI+1; n=n+1; t(n)=t(n-1)+dt; t1=t(n); Iarray1(n) = numI; end