Megamap
Rank and compare compounds
Combine AI + human expertise to score and rank compounds
Human expertise coupled with unbiased AI
Rank your drug screen using a powerful combination of your scientists' expertise and unbiased AI features
Extract and use meaningful, interpretable cell features
Interpretable, biologically meaningful features surfaced to help your team understand mechanisms of action
Build custom scores to rank thousands of drugs
Create customized scorings of many interpretable features to rank your high content drug screens
Extract meaningful, interpretable features from your images
Spring's AI technology helps scientists work their way towards interpretability of complex imaging data so you can spend your time interrogating meaningful biology, not writing code and battling finnicky image analysis settings. Rank your drug screens with a combination of meaningful measurements from immune cell populations to metabolism to cell-to-cell interactions to intracellular tracking to mitochondrial networks to actin dynamics to multiple types of cell death quantification to more.
Extract meaningful, interpretable features from your images
Spring's AI technology helps scientists work their way towards interpretability of complex imaging data so you can spend your time interrogating meaningful biology, not writing code and battling finnicky image analysis settings. Rank your drug screens with a combination of meaningful measurements from immune cell populations to metabolism to cell-to-cell interactions to intracellular tracking to mitochondrial networks to actin dynamics to multiple types of cell death quantification to more.
Extract meaningful, interpretable features from your images
Spring's AI technology helps scientists work their way towards interpretability of complex imaging data so you can spend your time interrogating meaningful biology, not writing code and battling finnicky image analysis settings. Rank your drug screens with a combination of meaningful measurements from immune cell populations to metabolism to cell-to-cell interactions to intracellular tracking to mitochondrial networks to actin dynamics to multiple types of cell death quantification to more.
Extract meaningful, interpretable features from your images
Spring's AI technology helps scientists work their way towards interpretability of complex imaging data so you can spend your time interrogating meaningful biology, not writing code and battling finnicky image analysis settings. Rank your drug screens with a combination of meaningful measurements from immune cell populations to metabolism to cell-to-cell interactions to intracellular tracking to mitochondrial networks to actin dynamics to multiple types of cell death quantification to more.
Build custom scores to rank experimental conditions
Scientists can create customized ranking scores that combine their own hand-selected list of features. Save and share these scores with your team to rank high content drug screens across many different meaningful measurements. These hand-crafted custom scores are a powerful way for human expertise to combine with, and benefit from, cell features surfaced by AI.
Build custom scores to rank experimental conditions
Scientists can create customized ranking scores that combine their own hand-selected list of features. Save and share these scores with your team to rank high content drug screens across many different meaningful measurements. These hand-crafted custom scores are a powerful way for human expertise to combine with, and benefit from, cell features surfaced by AI.
Build custom scores to rank experimental conditions
Scientists can create customized ranking scores that combine their own hand-selected list of features. Save and share these scores with your team to rank high content drug screens across many different meaningful measurements. These hand-crafted custom scores are a powerful way for human expertise to combine with, and benefit from, cell features surfaced by AI.
Build custom scores to rank experimental conditions
Scientists can create customized ranking scores that combine their own hand-selected list of features. Save and share these scores with your team to rank high content drug screens across many different meaningful measurements. These hand-crafted custom scores are a powerful way for human expertise to combine with, and benefit from, cell features surfaced by AI.
Combine imaging with other data modalities in one platform
Spring's ranking product combines imaging quantifications with any additional data type you choose to upload, all in one platform. Combine experimental modalities into a single screen based on your experimental needs for a powerful ranking, such as this example on the right that couples high-content imaging readouts with secreted protein profiles to create a multi-modality ranking of a high-throughput drug screen.
Combine imaging with other data modalities in one platform
Spring's ranking product combines imaging quantifications with any additional data type you choose to upload, all in one platform. Combine experimental modalities into a single screen based on your experimental needs for a powerful ranking, such as this example on the right that couples high-content imaging readouts with secreted protein profiles to create a multi-modality ranking of a high-throughput drug screen.
Combine imaging with other data modalities in one platform
Spring's ranking product combines imaging quantifications with any additional data type you choose to upload, all in one platform. Combine experimental modalities into a single screen based on your experimental needs for a powerful ranking, such as this example on the right that couples high-content imaging readouts with secreted protein profiles to create a multi-modality ranking of a high-throughput drug screen.
Combine imaging with other data modalities in one platform
Spring's ranking product combines imaging quantifications with any additional data type you choose to upload, all in one platform. Combine experimental modalities into a single screen based on your experimental needs for a powerful ranking, such as this example on the right that couples high-content imaging readouts with secreted protein profiles to create a multi-modality ranking of a high-throughput drug screen.
See it in action
“The Spring platform allows us to spend time thinking about our hypothesis instead of writing code.”
— PRINCIPAL SCIENTIST, BIG PHARMA
“The Spring platform allows us to spend time thinking about our hypothesis instead of writing code.”
— PRINCIPAL SCIENTIST, BIG PHARMA
“The Spring platform allows us to spend time thinking about our hypothesis instead of writing code.”
— PRINCIPAL SCIENTIST, BIG PHARMA
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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