Optane practical TBW endurance is way higher than that of even TLC flash, never mind QLC or PLC which is the current standard for consumer NAND hardware. It even seems to go way beyond what's stated on the spec sheet. However, while Optane excels for write-heavy workloads (not read-heavy, where NAND actually performs very well) these are also power-hungry which is a limitation for modern AI workflow.

The extra capacity of modern SSD is a good point, especially now that we have 100TB+ SSD.

But Optane still offered 100 DWPD (drive writes per day), up to 3.2TB. Thats still just so many more DWPD than flash ssd. A Kioxia CM8V for example will do 12TB at 3 DWPD. The net TBW is still 10x apart.

You can get back to high endurance with SLC drives like the Solidigm p7-p5810, but you're back down to 1.6TB and 50 DWPD, so, 1/4 the Intel P5800X endurance, and worse latencies. I highly suspect the drive model here is a homage, and in spite of being much newer and very expensive, the original is still so much better in so many ways. https://www.solidigm.com/content/solidigm/us/en/products/dat...

You also end up paying for what I assume is a circa six figure drive, if you are substituting DWPD with more capacity than you need. There's something elegant about being able to keep using your cells, versus overbuying on cells with the intent to be able to rip through them relatively quickly.