![]() A centralized location enables optimal trace lengths, which in theory, at least, makes for more efficient data transfers. The E18 controller when paired with 176Layer flash is placed on the center of the PCB between flash chips. Custom Seagate enhanced firmware is what Seagate did with the FireCuda 520 as well, and that drive did indeed seem to have a little extra sauce as compared with other similarly configured SSDs.Īnother difference between the FireCuda 530 and current 1TB-2TB E18 based SSDs with 96Layer flash is controller placement. Another aspect that differentiates Seagate/Phison collaborations from others is controller firmware exclusive to Seagate. This new flash is fast, reaching speeds of 1600 MT/s which really lets the E18 controller eat. The FireCuda 530 is bit different than the plethora of current E18 based SSDs for a few reasons, most notable of which is its fresh out of the fab 176Layer Micron flash array. However, until now, E18 based retail drives have only been paired with 96Layer Micron flash. Phison's E18 controller is by far the most prolific controller in its class, finding its way onto more Gen4 SSDs than any other. Propelling the FireCuda 530 to these record level speeds is a controller we are intimately familiar with, the Phison E18. Impressive and proof that Seagate's FireCuda 530 has the best overall sequential throughput of any 1TB flash-based consumer SSD available at this time.Īs it did with the FireCuda 520, Seagate has again partnered with Phison Electronics to bring forth the FireCuda 530. Sequential read speeds are known to be fastest on AMD X570 systems, and ours is delivering jaw-dropping sequential speeds of 7,461/6,102 MB/s. ![]()
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