Single-cell imaging at-scale
Fast single-cell analysis for big data
Cloud-based, highly-optimized platform for fast single-cell analysis at-scale.
Fast single-cell analysis for big data
Cloud-based, highly-optimized platform for fast single-cell analysis at-scale.
Fast single-cell analysis for big data
Cloud-based, highly-optimized platform for fast single-cell analysis at-scale.
Fast single-cell analysis for big data
Cloud-based, highly-optimized platform for fast single-cell analysis at-scale.
Automatic single-cell analysis and featurization
Immediately after upload, we'll automatically run our full suite of single-cell analysis and featurization across your entire dataset
Explore experiments from screen to single cells
Dive into your data and ask questions at the experimental level or all the way down to single cells using the world's most advanced suite of cell image analysis technology
Cloud-based, blazing fast interrogation of big data
Benefit from our highly-optimized, GPU-based cloud environment that's custom built for analyzing huge amounts of cell imaging data blazingly fast
Automatically analyze hundreds of single-cell features
Master single-cell analysis with our automatic generation of hundreds of useful single-cell features. Easily and quickly start exploring these features without endless setting configurations or fidgeting with finnicky segmentation issues. The Spring Engine offers two distinct buckets of features: "traditional features" that you may be familiar with (e.g. cell shape, intensities, textures, etc) AND far more advanced AI embeddings-driven features that are trained to detect your cells' most experimentally meaningful features.
Automatically analyze hundreds of single-cell features
Master single-cell analysis with our automatic generation of hundreds of useful single-cell features. Easily and quickly start exploring these features without endless setting configurations or fidgeting with finnicky segmentation issues. The Spring Engine offers two distinct buckets of features: "traditional features" that you may be familiar with (e.g. cell shape, intensities, textures, etc) AND far more advanced AI embeddings-driven features that are trained to detect your cells' most experimentally meaningful features.
Automatically analyze hundreds of single-cell features
Master single-cell analysis with our automatic generation of hundreds of useful single-cell features. Easily and quickly start exploring these features without endless setting configurations or fidgeting with finnicky segmentation issues. The Spring Engine offers two distinct buckets of features: "traditional features" that you may be familiar with (e.g. cell shape, intensities, textures, etc) AND far more advanced AI embeddings-driven features that are trained to detect your cells' most experimentally meaningful features.
Automatically analyze hundreds of single-cell features
Master single-cell analysis with our automatic generation of hundreds of useful single-cell features. Easily and quickly start exploring these features without endless setting configurations or fidgeting with finnicky segmentation issues. The Spring Engine offers two distinct buckets of features: "traditional features" that you may be familiar with (e.g. cell shape, intensities, textures, etc) AND far more advanced AI embeddings-driven features that are trained to detect your cells' most experimentally meaningful features.
Easily report, filter, and sort aggregated or single-cell results
Customize reports, filter results, sort experimental conditions and more. Save and share your analyses with your team. Explore aggregated results at the experimental level or dive into single-cell data.
Easily report, filter, and sort aggregated or single-cell results
Customize reports, filter results, sort experimental conditions and more. Save and share your analyses with your team. Explore aggregated results at the experimental level or dive into single-cell data.
Easily report, filter, and sort aggregated or single-cell results
Customize reports, filter results, sort experimental conditions and more. Save and share your analyses with your team. Explore aggregated results at the experimental level or dive into single-cell data.
Easily report, filter, and sort aggregated or single-cell results
Customize reports, filter results, sort experimental conditions and more. Save and share your analyses with your team. Explore aggregated results at the experimental level or dive into single-cell data.
Fast exploration of big data
Speed is a top priority for us. We know scientists in this field are used to sitting around and waiting forever for their analyses, or they're stuck using software that makes them wait forever for their answers. Spring's platform is highly-optimized, cloud-based, and makes heavy use of GPUs to provide a snappy, smooth interface for scientists to explore even massive imaging datasets.
Fast exploration of big data
Speed is a top priority for us. We know scientists in this field are used to sitting around and waiting forever for their analyses, or they're stuck using software that makes them wait forever for their answers. Spring's platform is highly-optimized, cloud-based, and makes heavy use of GPUs to provide a snappy, smooth interface for scientists to explore even massive imaging datasets.
Fast exploration of big data
Speed is a top priority for us. We know scientists in this field are used to sitting around and waiting forever for their analyses, or they're stuck using software that makes them wait forever for their answers. Spring's platform is highly-optimized, cloud-based, and makes heavy use of GPUs to provide a snappy, smooth interface for scientists to explore even massive imaging datasets.
Fast exploration of big data
Speed is a top priority for us. We know scientists in this field are used to sitting around and waiting forever for their analyses, or they're stuck using software that makes them wait forever for their answers. Spring's platform is highly-optimized, cloud-based, and makes heavy use of GPUs to provide a snappy, smooth interface for scientists to explore even massive imaging datasets.
“Phenosorter and this platform has ended up being pretty powerful for us.”
— PRINCIPAL SCIENTIST, PUBLIC BIOTECH
“Phenosorter and this platform has ended up being pretty powerful for us.”
— PRINCIPAL SCIENTIST, PUBLIC BIOTECH
“Phenosorter and this platform has ended up being pretty powerful for us.”
— PRINCIPAL SCIENTIST, PUBLIC BIOTECH
See what happens when scientists use Spring
Ready to get started?
Try out our tools with your existing workflow, or we can create a custom experience for you.
For industry
Spring tools are licensed by pharma, biotechs, startups, and research groups of all kinds.
For academics
We make it easy for academic research groups and non-profits to try Spring's tools.
For educators
Educators are invited to use Spring in the classroom and with their research students.
Ready to get started?
Try out our tools with your existing workflow, or we can create a custom experience for you.
Ready to get started?
Try out our tools with your existing workflow, or we can create a custom experience for you.
Ready to get started?
Try out our tools with your existing workflow, or we can create a custom experience for you.
Ready to get started?
Try out our tools with your existing workflow, or we can create a custom experience for you.
PARTNERSHIPS
Spring's tech is used by a range of partners across biotech, pharma, and academic research. We provide both strategic collaborations and software licensing.
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