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I have a model that is predicting a time-series. So I have just 5 parameter - which I then use to calculate the time-series as transformed parameters producing a 7200x3 matrix - which will then be compared with the observations.

So far so good - works as expected when just doing 100 iterations. But now I used SNOW to parallelize this calculation to create 6x1000 iteration. Took an hour - but looks fine. Only problem is I can no longer load the resulting rdata file. It is 11GB in size - so that might be it.

I will need to increase the number of simulations - so I need to find a way to work with data this size. How do other people deal with this problem?

Code

(trying to make a simple example - so it will be readable)

R script

library(rstan)
library(foreach)
library(doSNOW)

model.c <- stanc(file="3c_model.stan")
model.comp <- stan_model(stanc_ret=model.c) 
cl <- makeCluster(6, type="SOCK")
registerDoSNOW(cl)
num_chains <- 6
parallel_fit <- foreach(i = 1:num_chains,.packages='rstan') %dopar% {
  s <- sampling(model.comp, data=stan.list, chains=1, iter= 1000)
}
fits <- sflist2stanfit(parallel_fit)
stopCluster(cl)

relevant part of the model

functions { 
  vector evolve(vector pre, real inp, real p1){
     vector[3] out;
     out[1] <- pre[1] + pre[2]/p1;
     out[2] <- pre[2] + pre[3]/p1;
     out[3] <- pre[3]/p1 + inp;
  }
}

data {
  int<lower=1> N ;
  real<lower=0> y[N] ;
  real<lower=0> inp[N] ;
}

parameters { 
  vector<lower=0, upper=5000>[3] init_ss; 
  real<lower=0, upper=60> p1;
}

transformed parameters {      
  vector[3] state[N];
  state[1] <- init_ss;
  for (i in 2:N){
    state[i] <- evolve(state[i-1], inp[i-1] ,p1);
  }
}

model {   
  p1 ~ gamma(1, 10);
  init_ss ~ gamma(1,100);
  for (i in 100:N){
    if (y[i] >0 ) 
      y[i] ~ normal(state[i][1], 1) ;
  }
}

update

I was successful reorganizing the code following the example in the Modeling Language Manual p41 - now the state space is no longer stored. Unfortunately I still need the trajectories (at least at this development stage). So I will leave this open in hope someone has a clever solution.

share|improve this question
1  
Save the data in chunks or save as an ASCII file and read in chunks or use a database or use the bigmemory package. –  Roland Aug 6 at 9:44
    
Post your code. Most likely you don't need to actually save all the simulation details. –  Hong Ooi Aug 6 at 10:33
    
@Roland That was my first idea as well. From what I was seeing I would need to do this during the call to sampling and I'm not confident how to make this. Also it would be most helpful if I was still able to use rstans functions like traceplot for now. –  bdecaf Aug 6 at 11:05
    
if it is 11 GB the easiest would be to just buy a bit of extra RAM 4 modules of 4GB would cost around 100$/€. a day of work would probably cost more... –  phonixor Aug 6 at 12:01
1  
I would start by specifying the sample_file argument to sampling so that the results are saved to the disk for safekeeping (i.e. in case of crashes). Also, the thin argument might ultimately be necessary. If you have enough RAM to analyze the results of one chain at a time, you could do that using the read_stan_csv function. For analysis that requires all the chains, you would probably have to write some custom stuff along the lines of what @Roland suggested. –  Ben Goodrich Aug 6 at 17:05

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