When you use parfor and the symbolic toolbox, does one MuPAD engine get allocated per worker, or do all of the workers end up talking to the same client?
The MuPAD engine is normally a seperate process that is communicated with by TCP/IP.
Using symbolic subs call inside parfor loop
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I have the following pieces of code where the symbolic expressions to be evaluated are quite heavy.
classdef T4
properties (SetAccess = private)
% symbolic properties
xe % vector of symbolic variables
ge % vector or matrix of symbolic expressions depending on xe
% numeric properties
se % numeric vector or matrix
Xe % numeric values to be assigned
end
methods
% all other methods
function T = computeG(T);
T.se = double(subs(T.ge,T.xe,T.Xe));
end
end
end
nT = 5;
Tv(nT,1) = T4;
for i=1:nT
Tv(i) = computeG(Tv(i));
end
I do not get any gain, in fact it is worse if I use instead
parfor i=1:nT
Tv(i) = computeG(Tv(i));
end
3 Commenti
Walter Roberson
il 14 Ott 2020
My tests show that one mupad kernel process is allocated for each worker. (The kernels use a lot less memory than I might have guessed. They also have about 39 megabytes of shared memory; I am not sure what that is used for.)
Risposte (1)
Raymond Norris
il 13 Ott 2020
Hi Antonio,
You're just not giving each of the workers enough work to do. Maybe you only need to run nT=5, but see what happens when you set it to 100, 200, or 1000. You should then start to see improvements.
Thanks,
Raymond
5 Commenti
Walter Roberson
il 14 Ott 2020
My test showed that a separate mupad kernel is launched for each parfor worker, so there would be no need to rewrite the symbolic functions themselves: each worker gets its own (single-threaded) engine.
It is not possible to rewrite the internals of symbolic functions to use parfor / spmd, as the internals of symbolic functions live inside the MuPAD engine, either in the form of binary files are in the form of MuPAD code.
Antonio Bilotta
il 14 Ott 2020
Maybe the situation is not so plain. I am performing some tests with nT=40. In my code the for loop is called several times and in the case of the normal for I get the following times which change only the first time but then they remain quite stable
In the case of the parfor I get the following times which increase as analysis proceeds (I performed only 3 steps but usually more steps are required).
To be more precise the exact code is not so much different (the class function contains 2 "subs" calls).
function T = computeG(T);
T.se = double(subs(T.ge,T.xe,T.Xe)); % evaluation of a vector
T.Ke = double(subs(T.Je,T.xe,T.Xe)); % evaluation of a matrix
end
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