- Scaleflux CSD 5320 SSD incorporates compression engines directly into equipment for greater efficiency
- Sequential writing speeds exceed 13 GB / s when managing compressible corporate data
- Random IOPS performances are approaching 3.3 million specific business workloads
Scaleflux introduced the CSD 5320, a reader in the solid state PCIe Gen5 Enterprise which rests strongly on the compression on the devices.
Unlike traditional storage devices that write and simply read the data, this model directly integrates compression and decompression engines into the equipment.
The company maintains that this design allows companies to store much more data than the physical Nand would normally allow it, in some cases up to four times the gross capacity.
Performance complaints and tests
Scaleflux claims that by reducing the amount of data written physically, the device also aims to extend the Endurance of the reader, which was a persistent challenge for high performance flash storage.
Independent tests by Tweaktown Sequential writing speeds reported above 13 GB / s when processing compressible data.
This figure exceeds what has been recorded from many competitors from PCIe Gen5.
The sequential reading performance culminated at more than 14 GB / S, which is far beyond the typical expectations for a reader in this class.
Random performance references also indicate figures approaching 3.3 million PIO in certain workloads.
These figures would put the CSD 5320 at the top of the results of the current company, which potentially pleases it for the fastest SSD on the market.
The CSD 5320 performs more entry and exit operations by Watt than many conventional competitors, and some tests suggest that it has more than 3 times the writing efficiency of other Gen5 business records.
Although rapid, the real advantage of this chip can reside in the way it balances energy consumption against flow, especially in data centers where power budgets are already stretched.
The 7.68 TB model is only an option in a line that varies up to 128 TB of physical nand, with effective storage reaching up to 256 TB when compression is taken into account.
This places it among the largest SSD offers in the company segment, at least on paper.
Endurance claims are also aggressive, with Scaleflux suggesting that compressible workloads can see up to six times the life that can be used in relation to conventional NAND storage.
These projections, however, fully depend on the compression of a client’s data.
Although the examination reveals extraordinary performance, prudent buyers of companies will likely require long -term validation.
The CSD 5320 could offer exceptional performance in the right conditions, but its real value will depend less on advanced benchmarks and more knowing whether its workloads align with the promises made.
