Grab any SSD from a gaming PC, and you’ll find that it has one of two types of NAND flash memory chips: TLC or QLC. While the former is faster and more robust, the latter offers considerably more storage, making it ideal for housing terabyte-hungry games. And if SK Hynix’s developments with PLC chips come to fruition, we could see a return to sensible SSD prices.
PLC or Penta-Level Cell flash chips aren’t a new thing, as Intel, Toshiba, and SK Hynix all started working on their development a little over six years ago. Up to now, it doesn’t seem like much progress has been made, but as reported by Blocks and Files, it would appear that SK Hynix has perhaps unlocked the key to making them commercially viable.
Flash memory cells work by using a large voltage to effectively ram electric charge across an insulated gap. Once there, it can remain stored for very long periods of time before requiring a top-up. Single-Level Cell (SLC) works like a switch: it either has all the charge or none, giving you two states or one bit of digital information.
That only requires the voltage sensors with the flash chips to read one voltage, which is very quick and simple to do. However, because it’s only 1 bit of storage, you need a lot of SLCs to get any reasonable-sized memory capacity.
Which is where the likes of TLC, QLC, and PLC come in. With each of these, more charge states are used in the cell, giving rise to more bits of storage: three for TLC, four for QLC, and so on. However, this also increases the number of different voltages that need to be read, as well as decreasing the gap between them.
This slows down the whole process, with data reads and writes all taking longer, and makes them less reliable. Not just in terms of the accuracy of reading the voltages, but also the longevity of the cell itself. So much so with PLCs, that they’re just not usable right now.
SK Hynix’s solution to all of this is to chop the cells in half. Rather than requiring an enormous 31 voltage levels to get the five bits of storage, each half only requires six levels. The combination of the two halves’ voltages produces 36 voltage levels; more than enough for PLC. And since each half only has six levels, each one is more reliable and quicker to use.
Essentially, it’s a bit like jamming two almost-TLCs into one cell, giving you the storage benefits of PLC but without the drawbacks. Well, there is at least one drawback, namely the increased cost for the manufacturing process and the complex circuitry required to manage the split cells.
This used to cost under $230. Now it’s $430. (Image credit: Future)
But given that SK Hynix is one of the largest NAND flash manufacturers in the world, second only to Samsung, there’s a good chance that all of this can be made commercially viable. While we’re unlikely to see PLC SSDs in our gaming PCs any time soon, the rampant demand for flash storage by the AI industry will probably help speed things along.
If this all comes to fruition within a reasonable time, we could see standard SSDs drop back to a sensible price. But for now, it’s pretty grim out there if you want a high-capacity drive for your gaming rig.
