---
library_name: scvi-tools
license: cc-by-4.0
tags:
- biology
- genomics
- single-cell
- model_cls_name:SCVI
- scvi_version:1.2.0
- anndata_version:0.11.1
- modality:rna
- tissue:various
- annotated:True
---
ScVI is a variational inference model for single-cell RNA-seq data that can learn an underlying
latent space, integrate technical batches and impute dropouts.
The learned low-dimensional latent representation of the data can be used for visualization and
clustering.
scVI takes as input a scRNA-seq gene expression matrix with cells and genes.
We provide an extensive [user guide](https://docs.scvi-tools.org/en/1.2.0/user_guide/models/scvi.html).
- See our original manuscript for further details of the model:
[scVI manuscript](https://www.nature.com/articles/s41592-018-0229-2).
- See our manuscript on [scvi-hub](https://www.biorxiv.org/content/10.1101/2024.03.01.582887v2) how
to leverage pre-trained models.
This model can be used for fine tuning on new data using our Arches framework:
[Arches tutorial](https://docs.scvi-tools.org/en/1.0.0/tutorials/notebooks/scarches_scvi_tools.html).
# Model Description
Tabula Sapiens is a benchmark, first-draft human cell atlas of nearly 500,000 cells from 24 organs of 15 normal human subjects.
# Metrics
We provide here key performance metrics for the uploaded model, if provided by the data uploader.
Coefficient of variation
The cell-wise coefficient of variation summarizes how well variation between different cells is
preserved by the generated model expression. Below a squared Pearson correlation coefficient of 0.4
, we would recommend not to use generated data for downstream analysis, while the generated latent
space might still be useful for analysis.
**Cell-wise Coefficient of Variation**:
Not provided by uploader
The gene-wise coefficient of variation summarizes how well variation between different genes is
preserved by the generated model expression. This value is usually quite high.
**Gene-wise Coefficient of Variation**:
Not provided by uploader
Differential expression metric
The differential expression metric provides a summary of the differential expression analysis
between cell types or input clusters. We provide here the F1-score, Pearson Correlation
Coefficient of Log-Foldchanges, Spearman Correlation Coefficient, and Area Under the Precision
Recall Curve (AUPRC) for the differential expression analysis using Wilcoxon Rank Sum test for each
cell-type.
**Differential expression**:
Not provided by uploader
# Model Properties
We provide here key parameters used to setup and train the model.
Model Parameters
These provide the settings to setup the original model:
```json
{
"n_hidden": 128,
"n_latent": 20,
"n_layers": 3,
"dropout_rate": 0.05,
"dispersion": "gene",
"gene_likelihood": "nb",
"latent_distribution": "normal",
"use_batch_norm": "none",
"use_layer_norm": "both",
"encode_covariates": true
}
```
Setup Data Arguments
Arguments passed to setup_anndata of the original model:
```json
{
"layer": null,
"batch_key": "donor_assay",
"labels_key": "cell_ontology_class",
"size_factor_key": null,
"categorical_covariate_keys": null,
"continuous_covariate_keys": null
}
```
Data Registry
Registry elements for AnnData manager:
|�[1m �[0m�[1m Registry Key �[0m�[1m �[0m|�[1m �[0m�[1m scvi-tools Location �[0m�[1m �[0m|
|-------------------|--------------------------------------|
|�[94m �[0m�[94m X �[0m�[94m �[0m|�[35m �[0m�[35m adata.X �[0m�[35m �[0m|
|�[94m �[0m�[94m batch �[0m�[94m �[0m|�[35m �[0m�[35m adata.obs['_scvi_batch'] �[0m�[35m �[0m|
|�[94m �[0m�[94m labels �[0m�[94m �[0m|�[35m �[0m�[35m adata.obs['_scvi_labels'] �[0m�[35m �[0m|
|�[94m �[0m�[94m latent_qzm �[0m�[94m �[0m|�[35m �[0m�[35m adata.obsm['scvi_latent_qzm'] �[0m�[35m �[0m|
|�[94m �[0m�[94m latent_qzv �[0m�[94m �[0m|�[35m �[0m�[35m adata.obsm['scvi_latent_qzv'] �[0m�[35m �[0m|
|�[94m �[0m�[94m minify_type �[0m�[94m �[0m|�[35m �[0m�[35madata.uns['_scvi_adata_minify_type']�[0m�[35m �[0m|
|�[94m �[0m�[94mobserved_lib_size�[0m�[94m �[0m|�[35m �[0m�[35m adata.obs['observed_lib_size'] �[0m�[35m �[0m|
- **Data is Minified**: False
Summary Statistics
|�[1m �[0m�[1m Summary Stat Key �[0m�[1m �[0m|�[1m �[0m�[1mValue�[0m�[1m �[0m|
|--------------------------|-------|
|�[94m �[0m�[94m n_batch �[0m�[94m �[0m|�[35m �[0m�[35m 2 �[0m�[35m �[0m|
|�[94m �[0m�[94m n_cells �[0m�[94m �[0m|�[35m �[0m�[35m11505�[0m�[35m �[0m|
|�[94m �[0m�[94mn_extra_categorical_covs�[0m�[94m �[0m|�[35m �[0m�[35m 0 �[0m�[35m �[0m|
|�[94m �[0m�[94mn_extra_continuous_covs �[0m�[94m �[0m|�[35m �[0m�[35m 0 �[0m�[35m �[0m|
|�[94m �[0m�[94m n_labels �[0m�[94m �[0m|�[35m �[0m�[35m 6 �[0m�[35m �[0m|
|�[94m �[0m�[94m n_latent_qzm �[0m�[94m �[0m|�[35m �[0m�[35m 20 �[0m�[35m �[0m|
|�[94m �[0m�[94m n_latent_qzv �[0m�[94m �[0m|�[35m �[0m�[35m 20 �[0m�[35m �[0m|
|�[94m �[0m�[94m n_vars �[0m�[94m �[0m|�[35m �[0m�[35m3000 �[0m�[35m �[0m|
Training
**Training data url**: Not provided by uploader
If provided by the original uploader, for those interested in understanding or replicating the
training process, the code is available at the link below.
**Training Code URL**: Not provided by uploader
# References
The Tabula Sapiens Consortium. The Tabula Sapiens: A multiple-organ, single-cell transcriptomic atlas of humans. Science, May 2022. doi:10.1126/science.abl4896