I have a dataset consisting of 70,000 numeric values representing distances ranging from 0 till 50, and I want to cluster these numbers; however, if I'm trying the classical clustering approach, then I would have to establish a 70,000X70,000 distance matrix representing the distances between each two numbers in my dataset, which won't fit in memory, so I was wondering if there is any smart way to solve this problem without the need to do stratified sampling? I also tried bigmemory and big analytics libraries in R but still can't fit the data into memory
70000 is not large. It's not small, but it's also not particularly large... The problem is the limited scalability of matrix-oriented approaches.
But there are plenty of clustering algorithms which do not use matrixes and do no need
O(n^2) (or even worse,
You may want to try ELKI, which has great index support (try the R*-tree with SortTimeRecursive bulk loading). The index support makes it a lot lot lot faster.
If you insist on using R, give at least kmeans a try and the
fastcluster package. K-means has runtime complexity
O(n*k*i) (where k is the parameter k, and i is the number of iterations); fastcluster has an
O(n) memory and
O(n^2) runtime implementation of single-linkage clustering comparable to the SLINK algorithm in ELKI. (The R "agnes" hierarchical clustering will use
O(n^3) runtime and
Implementation matters. Often, implementations in R aren't the best IMHO, except for core R which usually at least has a competitive numerical precision. But R was built by statisticians, not by data miners. It's focus is on statistical expressiveness, not on scalability. So the authors aren't to blame. It's just the wrong tool for large data.
Oh, and if your data is 1-dimensional, don't use clustering at all. Use kernel density estimation. 1 dimensional data is special: it's ordered. Any good algorithm for breaking 1-dimensional data into inverals should exploit that you can sort the data.
You can use
kmeans, which normally suitable for this amount of data, to calculate an important number of centers (1000, 2000, ...) and perform a hierarchical clustering approach on the coordinates of these centers.Like this the distance matrix will be smaller.
## Example # Data x <- rbind(matrix(rnorm(70000, sd = 0.3), ncol = 2), matrix(rnorm(70000, mean = 1, sd = 0.3), ncol = 2)) colnames(x) <- c("x", "y") # CAH without kmeans : dont work necessarily library(FactoMineR) cah.test <- HCPC(x, graph=FALSE, nb.clust=-1) # CAH with kmeans : work quickly cl <- kmeans(x, 1000, iter.max=20) cah <- HCPC(cl$centers, graph=FALSE, nb.clust=-1) plot.HCPC(cah, choice="tree")
using your method and after running
cah <- HCPC(cl$centers, graph=FALSE, nb.clust=-1)I get this error :
Error in catdes(data.clust, ncol(data.clust), proba = proba, row.w = res.sauv$call$row.w.init) : object 'data.clust' not found– Pie-tonOct 26, 2019 at 10:01
Another non-matrix oriented approach, at least for visualizing cluster in big data, is the largeVis algorithm by Tang et al. (2016). The largeVis R package has unfortunately been orphaned on CRAN due to lacking package maintenance, but a (maintained?) version can still be compiled from its gitHub repository via (having installed
library(devtools) install_github(repo = "elbamos/largeVis")
A python version of the package exists as well. The underlying algorithm uses segmentation trees and a neigbourhood refinement to find the
K most similar instances for each observation and then projects the resulting neigbourhood network into
dim lower dimensions. Its been implemented in
C++ and uses
OpenMP (if supported while compiling) for multi-processing; it has thus been sufficiently fast for clustering any larger data sets I have tested so far.