I'm building ProForta.com, a prototype app for a self-sovereign AI architecture where you gain control over your health data wherever it resides, the AIs go to your data to gather insights, and raw data custody remains…
[dead]
On-device isn't only cheaper/faster - for health data it's the whole point! The self-sovereign community desperately needs an affordable AI appliance and Apple is still the most likely candidate to deliver on the…
I'm looking at adopting a mesh network architecture for self-sovereign inference across longitudinal health records.
I got myself a NVIDIA DGX Spark to build on unified-memory hardware at home. Now running a health-AI node for all my longitudinal health data - insights are generated on the box so that raw data never leaks.
the failure wasn’t the science - it was the custody model (your DNA sequence became someone else’s asset). This problem is not limited to 23andMe and the fix is a programatic custody model for health data where the data…
I'm building ProForta.com, a prototype app for a self-sovereign AI architecture where you gain control over your health data wherever it resides, the AIs go to your data to gather insights, and raw data custody remains…
[dead]
On-device isn't only cheaper/faster - for health data it's the whole point! The self-sovereign community desperately needs an affordable AI appliance and Apple is still the most likely candidate to deliver on the…
I'm looking at adopting a mesh network architecture for self-sovereign inference across longitudinal health records.
I got myself a NVIDIA DGX Spark to build on unified-memory hardware at home. Now running a health-AI node for all my longitudinal health data - insights are generated on the box so that raw data never leaks.
the failure wasn’t the science - it was the custody model (your DNA sequence became someone else’s asset). This problem is not limited to 23andMe and the fix is a programatic custody model for health data where the data…