Micron’s client model Crucial has launched two new NVMe SSD product traces, together with their first high-end NVMe SSD which options Micron’s in-house SSD controller design. However, Crucial’s adoption of NVMe continues to lag behind most manufacturers as each new fashions are nonetheless utilizing PCIe Three interfaces whereas the high-end market is migrating to PCIe 4.
The Crucial P5 is the primary retail SSD to make use of a controller designed by Micron. Their in-house SSD controller design efforts date again not less than so far as their 2015 acquisition of Tidal Systems, however the first product with a Micron-designed SSD controller solely confirmed up a 12 months in the past: the Micron 2200 collection shopper OEM SSD. The Crucial P5 is a transparent step up from that, however nonetheless makes use of a PCIe gen3 interface, so it will not be setting any efficiency data and can face an growing variety of PCIe gen4 rivals because the 12 months goes on. However, it ought to nonetheless ship strong efficiency for all however essentially the most demanding prosumer use circumstances, particularly because it appears to be like like Intel will not offer PCIe gen4 host help this 12 months. The P5 additionally contains help for all the same old encryption requirements, options which can be lacking from many high-end NVMe SSDs that focus on the patron market completely and never enterprise prospects.
Crucial P5 SSD Specifications | |||||
Capacity | 250 GB | 500GB | 1 TB | 2 TB | |
Form Factor | M.2 2280 | ||||
Interface | PCIe 3.Zero x4, NVMe | ||||
Controller | Micron in-house design | ||||
NAND Flash | Micron 96L 3D TLC* | ||||
DRAM | Yes | ||||
Sequential Read | 3400 MB/s | ||||
Sequential Write | 1400 MB/s | 3000 MB/s | |||
Random Read IOPS | 210okay | 390okay | 430okay | ||
Random Write IOPS | 355okay | 500okay | |||
Max Power | 7 W | ||||
Encryption | TCG Opal 2.0, IEEE 1667, eDrive | ||||
Warranty | 5 years | ||||
Write Endurance | 150 TB 0.Three DWPD |
300 TB 0.Three DWPD |
600 TB 0.Three DWPD |
1200 TB 0.Three DWPD |
The Crucial P2 is their second entry-level NVMe SSD, however it isn’t a direct substitute for the QLC-based P1. The P2 is not less than initially solely obtainable in low capacities of 250GB and 500GB, and cuts prices by utilizing a DRAMless controller with TLC NAND quite than the P1’s mixture of cheaper QLC NAND however a controller with a DRAM cache. Micron hasn’t disclosed what controller is used on the P2, nevertheless it appears seemingly they’re sourcing from a 3rd social gathering as with earlier Crucial SSDs—and it won’t even be the identical controller for each capacities. While each capacities have efficiency specs that fall inside the ranges we anticipate for a four-channel DRAMless NVMe SSD, the 500GB mannequin is definitely the slower one by most metrics. This signifies that not less than considered one of both the NAND or the controller is meaningfully completely different from the 250GB mannequin. The 500GB is likely to be utilizing NAND components with a better per-die capability and thus not have any better parallelism, or it could be utilizing a wholly completely different controller (or each). The 500GB mannequin’s endurance ranking can also be the identical 150TB because the 250GB mannequin, which places it in QLC territory (although nonetheless higher than the 500GB P1’s 100TBW ranking).
Micron’s press launch for the P2 mentions that it will likely be obtainable in capacities as much as 1TB, however the spec sheets make no point out of the 1TB mannequin. This could also be one other state of affairs just like the 2TB Crucial P1 that was introduced as coming a bit later than the remainder of the lineup, however by no means hit the market.
Crucial P2 SSD Specifications | |||
Capacity | 250 GB | 500GB | |
Form Factor | M.2 2280 | ||
Interface | PCIe 3.Zero x4, NVMe | ||
Controller | undisclosed | ||
NAND Flash | Micron 96L 3D TLC* | ||
DRAM | No | ||
Sequential Read | 2100 MB/s | 2300 MB/s | |
Sequential Write | 1150 MB/s | 940 MB/s | |
Random Read IOPS | 170okay | 95okay | |
Random Write IOPS | 260okay | 215okay | |
Max Power | Source
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