Lets assume I have a binary matrix with 24 columns and 5000 rows. The columns are Parameters (P1 - P24) of 5000 subjects. The parameters are binary (0 or 1). (Note: my real data can contain as much as 40,000 subjects)

```
m <- matrix(, nrow = 5000, ncol = 24)
m <- apply(m, c(1,2), function(x) sample(c(0,1),1))
colnames(m) <- paste("P", c(1:24), sep = "")
```

Now I would like to determine what are all possible combinations of the 24 measured parameters:

```
comb <- expand.grid(rep(list(0:1), 24))
colnames(comb) <- paste("P", c(1:24), sep = "")
```

The final question is: How often does each of the possible row combinations from comb appear in matrix m? I managed to write a code for this and create a new column in comb to add the counts. But my code appears to be really slow and would take 328 days to complete to run. Therefore the code below only considers the 20 first combinations

```
comb$count <- 0
for (k in 1:20){ # considers only the first 20 combinations of comb
for (i in 1:nrow(m)){
if (all(m[i,] == comb[k,1:24])){
comb$count[k] <- comb$count[k] + 1
}
}
}
```

Is there computationally a more efficient way to compute this above so I can count all combinations in a short time? Thank you very much for your help in advance.