scuttle::aggregateAcrossCells() crashes R on large SingleCellExperiment
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0
Entering edit mode
enricoferrero ▴ 660
@enricoferrero-6037
Last seen 3.0 years ago
Switzerland

Hello,

I'm working on a large SingleCellExperiment object (25982 genes x 143019 cells) and would like to perform a differential expression analysis across conditions using pseudobulking.

However, when I call scuttle::aggregateAcrossCells(), R works through it for a long time and then crashes. I tried sampling the columns to 1/10th of the size (14302 cells) and it works (after some time), so I think the only problem is the size of the SingleCellExperiment object.

What can I do to get this to work? Are there any workarounds I can use? The function doesn't seem to support parallelisation with BiocParallel as far as I can see.

Thank you! Enrico

library(tidyverse)
library(scater)
library(scran)
sce <- read_rds("../dat/sce.rds")

sce
class: SingleCellExperiment 
dim: 25982 143019 
metadata(4): cell_or_tissue_type_colors condition_colors replicate_group_colors replicategroup_colors
assays(2): counts logcounts
rownames(25982): Xkr4 Gm1992 ... CAAA01147332.1 AC149090.1
rowData names(5): ensembl_id gene_symbol n_cells is_mito is_ribo
colnames: NULL
colData names(88): sample organism ... label celltype
reducedDimNames(2): PCA UMAP
altExpNames(0):

# this crashes
pb <- aggregateAcrossCells(sce, ids = colData(sce)[, c("mouse", "label")])

# this works
sce <- sce[, sample(ncol(sce), ncol(sce)/10)]
pb <- aggregateAcrossCells(sce, ids = colData(sce)[, c("mouse", "label")])

# session info
sessionInfo( )
R version 4.0.3 (2020-10-10)
Platform: x86_64-pc-linux-gnu (64-bit)
Running under: CentOS Linux 7 (Core)

Matrix products: default
BLAS/LAPACK: /usr/prog/OpenBLAS/0.2.20-GCC-6.4.0-2.28/lib/libopenblas_haswellp-r0.2.20.so

locale:
 [1] LC_CTYPE=en_US.UTF-8       LC_NUMERIC=C               LC_TIME=en_US.UTF-8        LC_COLLATE=en_US.UTF-8    
 [5] LC_MONETARY=en_US.UTF-8    LC_MESSAGES=en_US.UTF-8    LC_PAPER=en_US.UTF-8       LC_NAME=C                 
 [9] LC_ADDRESS=C               LC_TELEPHONE=C             LC_MEASUREMENT=en_US.UTF-8 LC_IDENTIFICATION=C       

attached base packages:
[1] parallel  stats4    stats     graphics  grDevices utils     datasets  methods   base     

other attached packages:
 [1] scran_1.18.3                scater_1.18.3               SingleCellExperiment_1.12.0 SummarizedExperiment_1.20.0
 [5] Biobase_2.50.0              GenomicRanges_1.42.0        GenomeInfoDb_1.26.2         IRanges_2.24.1             
 [9] S4Vectors_0.28.1            BiocGenerics_0.36.0         MatrixGenerics_1.2.0        matrixStats_0.57.0         
[13] forcats_0.5.0               stringr_1.4.0               dplyr_1.0.2                 purrr_0.3.4                
[17] readr_1.4.0                 tidyr_1.1.2                 tibble_3.0.4                ggplot2_3.3.3              
[21] tidyverse_1.3.0            

loaded via a namespace (and not attached):
 [1] ggbeeswarm_0.6.0          colorspace_2.0-0          ggsignif_0.6.0            ellipsis_0.3.1           
 [5] rio_0.5.16                scuttle_1.0.4             bluster_1.0.0             XVector_0.30.0           
 [9] BiocNeighbors_1.8.2       fs_1.5.0                  rstudioapi_0.13           ggpubr_0.4.0             
[13] ggrepel_0.9.0             fansi_0.4.1               lubridate_1.7.9.2         xml2_1.3.2               
[17] sparseMatrixStats_1.2.0   jsonlite_1.7.2            broom_0.7.3               dbplyr_2.0.0             
[21] compiler_4.0.3            httr_1.4.2                dqrng_0.2.1               backports_1.2.1          
[25] assertthat_0.2.1          Matrix_1.3-0              limma_3.46.0              cli_2.2.0                
[29] BiocSingular_1.6.0        tools_4.0.3               rsvd_1.0.3                igraph_1.2.6             
[33] gtable_0.3.0              glue_1.4.2                GenomeInfoDbData_1.2.4    Rcpp_1.0.5               
[37] carData_3.0-4             cellranger_1.1.0          vctrs_0.3.6               writexl_1.3.1            
[41] DelayedMatrixStats_1.12.1 openxlsx_4.2.3            beachmat_2.6.4            rvest_0.3.6              
[45] lifecycle_0.2.0           irlba_2.3.3               statmod_1.4.35            rstatix_0.6.0            
[49] edgeR_3.32.0              zlibbioc_1.36.0           scales_1.1.1              hms_0.5.3                
[53] curl_4.3                  gridExtra_2.3             stringi_1.5.3             zip_2.1.1                
[57] BiocParallel_1.24.1       rlang_0.4.10              pkgconfig_2.0.3           bitops_1.0-6             
[61] lattice_0.20-41           tidyselect_1.1.0          magrittr_2.0.1            R6_2.5.0                 
[65] generics_0.1.0            DelayedArray_0.16.0       DBI_1.1.0                 pillar_1.4.7             
[69] haven_2.3.1               foreign_0.8-81            withr_2.3.0               abind_1.4-5              
[73] RCurl_1.98-1.2            modelr_0.1.8              crayon_1.3.4              car_3.0-10               
[77] viridis_0.5.1             locfit_1.5-9.4            grid_4.0.3                readxl_1.3.1             
[81] data.table_1.13.6         reprex_0.3.0              munsell_0.5.0             beeswarm_0.2.3           
[85] viridisLite_0.3.0         vipor_0.4.5
scran SingleCellExperiment scuttle scater • 2.8k views
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1
Entering edit mode
Aaron Lun ★ 28k
@alun
Last seen 29 minutes ago
The city by the bay

Hm. This works pretty well for me:

library(scuttle)
library(scRNAseq)
sce <- ZilionisLungData()
## class: SingleCellExperiment
## dim: 41861 173954
## metadata(0):
## assays(1): counts
## rownames(41861): 5S_rRNA 5_8S_rRNA ... snosnR66 uc_338
## rowData names(0):
## colnames(173954): bcIIOD bcHTNA ... bcELDH bcFGGM
## colData names(16): Library Barcode ... used_in_NSCLC_non_immune
##   used_in_blood
## reducedDimNames(5): SPRING_NSCLC_all_cells
##   SPRING_NSCLC_and_blood_immune SPRING_NSCLC_immune
##   SPRING_NSCLC_non_immune SPRING_blood
## altExpNames(0):
groups <- sample(100, ncol(sce), replace=TRUE)
out <- aggregateAcrossCells(sce, groups)
## class: SingleCellExperiment
## dim: 41861 100
## metadata(0):
## assays(1): counts
## rownames(41861): 5S_rRNA 5_8S_rRNA ... snosnR66 uc_338
## rowData names(0):
## colnames(100): 1 2 ... 99 100
## colData names(18): Library Barcode ... ids ncells
## reducedDimNames(5): SPRING_NSCLC_all_cells
##   SPRING_NSCLC_and_blood_immune SPRING_NSCLC_immune
##   SPRING_NSCLC_non_immune SPRING_blood
## altExpNames(0):

Last step takes a few seconds on my laptop (16 GB RAM, not that all of it is used here).You also just pass a BPPARAM via ..., but for a few seconds, it isn't really worth it.

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2
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Thanks Aaron. For whatever reason, using BPPARAM did the trick! I suspect this is related to the problem described by Steve, with parallelisation splitting the object into smaller chunks.

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0
Entering edit mode

There should be no loss of sparsity at any stage inside aggregateAcrossCells; if this is happening, it is a bug. If you can make a minimum example with public data (e.g., ZilionisLungData), it would be helpful.

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@steve-lianoglou-2771
Last seen 21 months ago
United States

I ran into this problem recently as well: my call to aggregateAcrossCells() was eventually crashing with an error message (that I unfortunately didn't copy verbatim) that lead me to believe that there is some matrix densification going on during the aggregation, and the temp counts matrix was larger (ie. ncol() * nrow()) than .Machine$integer.max.

I was able to get around it by splitting my SingleCellExperiment (xsce) into two halves, bulking it up that way, then combining the results when done, like so:

top <- xsce[1:16000, ]
top.agg <- aggregateAcrossCells(
  top,
  ids = colData(top)[, c("sample_id", "cluster_all")]) 

bottom <- xsce[!rownames(xsce) %in% rownames(top),]
bottom.agg <- aggregateAcrossCells(
  bottom,
  ids = colData(bottom)[, c("sample_id", "cluster_all")]) 

pbulk <- rbind(top.agg, bottom.agg)

In my case, the number of cells in xsce were small enough such that 16000 * ncol(xsce) was less than .Machine$integer.max. If that's not true for you, you can try splitting your SingleCellExperiment into smaller chunks and combine each of them after.

Writing a small utility function that accepts a SingleCellExperiment and a "chunk size" (row count, in my approach) should be pretty straightforward ... back calculating a default chunk size is also doable ...

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0
Entering edit mode

Thank Steve! I think the problem was indeed similar. I solved it simply using BPPARAM in the end, but I suspect this is because parallelisation splits the object into smaller chunks.

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