We’ve already hit a perceived user experience limit. The perception of responsiveness in blind tests between SATA and NVMe SSDs isn’t always apparent–people sometimes say the SATA drive is faster–even though the speed difference on paper is substantial.
IMO, programmers haven’t exploited the possibilities of extremely fast mass storage yet. The orders of magnitude difference in speed isn’t fully realized. It’s not just faster, it’s faster in a way that requires new approaches. Unlike multicore CPUs over a decade ago, this change in thinking has gone relatively unnoticed by programmers.
We’ve already hit a perceived user experience limit. The perception of responsiveness in blind tests between SATA and NVMe SSDs isn’t always apparent–people sometimes say the SATA drive is faster–even though the speed difference on paper is substantial.
IMO, programmers haven’t exploited the possibilities of extremely fast mass storage yet. The orders of magnitude difference in speed isn’t fully realized. It’s not just faster, it’s faster in a way that requires new approaches. Unlike multicore CPUs over a decade ago, this change in thinking has gone relatively unnoticed by programmers.
Well maybe, it’s just storage like HD or RAM.
But to do what (outside scientific software)?
Make everything faster. Space that isn’t used for caching data is space that’s wasted.
This isn’t necessarily about apps that run on your desktop or phone. Most code in the world runs on servers, and the use cases are different.