@kw_cooper Roxin and Fusi comes to mind: https://t.co/5qs5rIrMuI

@FlorinGogianu 2) Roxin and Fusi, 2013. They instantiated the theory in a simple memory system and were able to quantitatively demonstrate how transferring your memories from fast to slow learning regions overcomes the trade-off between strong and lasting

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

#PLOSCompBio: Efficient Partitioning of Memory Systems and Its Importance for Memory Consolidation http://t.co/1ZjL98TeQM

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

Efficient Partitioning of Memory Systems and Its Importance for Memory Consolidation http://t.co/QJT3VxavdO

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

#PLOSCompBio: Efficient Partitioning of Memory Systems and Its Importance for Memory Consolidation http://t.co/1ZjL98TeQM

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW

Having multiple forms of memory allows the brain to have its cake (stable storage) and eat it too (flexible change). http://t.co/3CRAYZEhCW