Tuesday, September 26th 2023
Solidigm Launches the D7-P5810 Ultra-Fast SLC SSD for Write-Intensive Workloads
Solidigm today announced the D7-5810, an enterprise SSD for extremely intensity write workloads. Such a drive would be capable of write endurance in the neighborhood of 50 DWPD. For reference, the company's D7-P5620, a write-centric/mixed workload drive for data-logging, and AI ingest/preparation, offers around 3 DWPD of endurance, depending on the variant; and the read-intensive drive meant for CDNs, the D5-P5336, offers around 0.5 DWPD. Use cases for the new D7-P5810 include high performance caching for flash arrays dealing with "cooler" data; high-frequency trading, and HPC.
Solidigm D7-P5810 uses SK hynix 144-layer 3D NAND flash that's made to operate in a pure SLC configuration. The drive comes in 800 GB and 1.6 TB capacities, and offers 50 DWPD over an endurance period of 5 years (4K random writes). More specifically, both models offer 73 PBW (petabytes written) of endurance. The drive comes in enterprise-relevant 15 mm-thick U.2 form-factor, with PCIe Gen 4 x4 interface, with NVMe 1.3c and NVMe MI 1.1 protocols.
In terms of manufacturer-rated performance, Solidigm is claiming up to 865,000 IOPS 4K random reads (QD256), up to 495,000 IOPS 4K random writes (QD256), and response times of 13 µs for 4K sequential writes (QD1), and 10 µs sequential read at QD1. The drive offers up to 6.4 GB/s sequential reads (128K, QD128), and up to 4 GB/s sequential writes (128K, QD128). Solidigm D7-P5810 is being offered as a persistent write buffer, and a medium tiered above capacity-focused media such as the QLC-based Solidigm D5-P5336, the pure-SLC drive stores "data about data," under a cloud-storage acceleration layer (CSAL).
Solidigm is launching the D7-P5810 series with the 800 GB model, with the 1.6 TB model joining the lineup in the first half of 2024.
A new addition to Solidigm's high-performing D7 Series, the D7-P5810 is designed for high-endurance and extreme write-intensive workloads. This ultra-fast Storage Class Memory (SCM) SSD offers up to 50 Drive Writes Per Day (DWPD) for random, 65 DWPD for sequential, and up to 2X better performance than the competition for caching, high-performance computing (HPC), data logging, journaling, and more, at less than ~20% of the cost of non-NAND SCM technologies.
SLC as a Storage Accelerator
The D7-5810 is ideally suited as a storage accelerator in front of highly dense capacity tiers (like QLC-based SSDs), adding significant benefit in the following use cases:
The D7-P5810 is available now in 800 GB (U.2 15 mm form factor). A 1.6 TB version will be available in the first half of 2024.
Source:
Solidigm
Solidigm D7-P5810 uses SK hynix 144-layer 3D NAND flash that's made to operate in a pure SLC configuration. The drive comes in 800 GB and 1.6 TB capacities, and offers 50 DWPD over an endurance period of 5 years (4K random writes). More specifically, both models offer 73 PBW (petabytes written) of endurance. The drive comes in enterprise-relevant 15 mm-thick U.2 form-factor, with PCIe Gen 4 x4 interface, with NVMe 1.3c and NVMe MI 1.1 protocols.
Solidigm is launching the D7-P5810 series with the 800 GB model, with the 1.6 TB model joining the lineup in the first half of 2024.
Solidigm Press Release
Solidigm, a leading global provider of innovative NAND flash memory solutions, is proud to announce the company's first ultra-fast, single-level cell (SLC) solid-state storage drive (SSD) for the data center market—the Solidigm D7-P5810. The D7-P5810 is a PCIe Gen 4.0 drive built on Solidigm's proven 144-layer SLC 3D NAND.A new addition to Solidigm's high-performing D7 Series, the D7-P5810 is designed for high-endurance and extreme write-intensive workloads. This ultra-fast Storage Class Memory (SCM) SSD offers up to 50 Drive Writes Per Day (DWPD) for random, 65 DWPD for sequential, and up to 2X better performance than the competition for caching, high-performance computing (HPC), data logging, journaling, and more, at less than ~20% of the cost of non-NAND SCM technologies.
SLC as a Storage Accelerator
The D7-5810 is ideally suited as a storage accelerator in front of highly dense capacity tiers (like QLC-based SSDs), adding significant benefit in the following use cases:
- Metadata/logging: placing performance-sensitive data such as metadata or logs on SLC can accelerate system performance by using SLC as a dedicated Write-Ahead Log in Ceph clusters, for example.
- Caching: SLC SSDs can act as a write buffer or cache to help remove performance bottlenecks, dramatically improve application performance, and improve TCO.
- Tiering: data is written first to the SLC SSD so commits are fast, and subsequent reads are faster. As data becomes colder, it can be aggregated, compressed, and written in bulk to underlying higher-capacity QLC drives (like Solidigm's D5-P5336) for space-efficient storage on that media. Write-shaping software such as Cloud Storage Acceleration Layer (CSAL), further delivers a solution that extends the density, TCO and sustainability value of QLC to more workloads.
The D7-P5810 is available now in 800 GB (U.2 15 mm form factor). A 1.6 TB version will be available in the first half of 2024.
Solidigm Slide Deck
42 Comments on Solidigm Launches the D7-P5810 Ultra-Fast SLC SSD for Write-Intensive Workloads
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No, not in Gigabyte, but in Gigabit.
The 860 pro if I'm not mistaken was the last SSDs to use MLC. There is still some stock on the market for those interested.
It's main benefit is endurance but for OS drive it's largely wasted unless you do full drive writes daily for some reason.
Also the press release is pretty vague as to whether this really is 100% SLC because last i checked there was no 144 layer SLC in production.
So my suspicion is that it's TLC with a larger that normal cache that acts like SLC so pseudo-SLC.
it's QLC running in pSLC Mode, the drive should be 4TB but since its a 1/4 o the capacity, its 1TB with 800GB available so its over 200GB of over provisioning
www.techpowerup.com/ssd-specs/solidigm-d7-p5810-800-gb.d1674
Over provisioning also seems to be following the long term trend of being cut back. 30% in DC P4600, 20% in this drive, and I think enterprise used to be over 50%.
The lowercase "p" ... means "pseudo", which is Greek for "fake". I don't see anything fake or false or deceptive in this implementation.
This Solidigm drive, if designed properly, writes data properly - as fast or slow as necessary, with as much charge as necessary, obviously without additional SLC caching, and it stores only two levels per cell ("some electrons" or "no electrons"). So what could possibly make it pseudo? Or does "p" stand for "pure", as is emphasised by Intel, I mean, Solidigm?
SLC caching in TLC/QLC drives is different, it might be somehow "fake" SLC because it probably uses some accelerated write procedure and low level of electric charge without much regard for data retention - because it's short term. Also random writes are stored sequentially in order to achieve very high speeds, and later moved out of SLC cache to their proper locations.So you think that when you write data to this SSD, it's first stored in the SLC cache, then eventually moved to permanent storage with 4 bits per cell, but Intel, erm, Solidigm won't tell that to us? That would be extremely deceptive advertising even for a consumer SSD, let alone enterprise.