AnandTech Storage Bench - Light

Out Light storage test has relatively more sequential accesses and lower queue depths than The Destroyer or the Heavy test, and it's by far the shortest test overall. It's based largely on applications that aren't highly dependent on storage performance, so application launch times and file load times are what dominate this test. Details of the Light test can be found here.

AnandTech Storage Bench - Light (Data Rate)

The Light test starts to show a distinct advantage for NVMe, and the Samsung UBX controller is performing much better than Intel's SSD 750.

AnandTech Storage Bench - Light (Latency)

The three Samsung NVMe drives have the lowest average service time and the SATA drives are all looking quite slow by comparison.

AnandTech Storage Bench - Light (Latency)

The PCIe drives are all very good about keeping latency outliers to a minimum, but none have yet managed to complete the entire test without any request taking more than 10ms.

AnandTech Storage Bench - Light (Power)

Despite stellar performance, the 950 Pro's power efficiency is poor. If our system could make use of some power management capabilities this situation could be very different, but for many consumers this is just the way things are for PCIe drives. The lack of power management support may be slightly helping some of the latency scores, as transitioning between power states usually requires a short interruption in service.

AnandTech Storage Bench - Heavy Random Performance
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  • Der2 - Thursday, October 22, 2015 - link

    Wow. The 950. A BEAST in the performance SHEETS.
  • ddriver - Thursday, October 22, 2015 - link

    Sequential performance is very good, but I wonder how come random access shows to significant improvements.
  • dsumanik - Thursday, October 22, 2015 - link

    Your system is only as fast as the slowest component.

    Honestly, ever since the original x-25 the only performance metric I've found to have a real world impact on system performance (aside from large file transfers) with regards to boot times, games, and applications is the random write speed of a drive.

    If a drive has solid sustained random write speed, your system will seem to be much more responsive in most of my usage scenarios.

    950 pro kind of failed to impress in this dept as far as I'm concerned. While i am glad to see the technology moving in this direction, I was really looking for a generational leap here with this product, which didn't seem to happen, at least not across the board.

    Unfortunately I think i will hold off on any purchases until i see the technology mature another generation or two, but hey if you are a water-cooling company, there is a market opportunity for you here.

    Looks like until some further die shrinks happen nvme is going to be HOT.
  • AnnonymousCoward - Thursday, October 22, 2015 - link

    > Your system is only as fast as the slowest component.

    Uhh no. Each component serves a different purpose.
  • cdillon - Thursday, October 22, 2015 - link

    >> > Your system is only as fast as the slowest component.
    >Uhh no. Each component serves a different purpose.

    Memory, CPU, and I/O resources need to be balanced if you want to reach maximum utilization for a given workload. See "Amdahl's Law". Saying that it's "only as fast as the slowest component" may be a gross over-simplification, but it's not entirely wrong.
  • xenol - Wednesday, November 4, 2015 - link

    It still highly depends on the application. If my workload is purely CPU based, then all I have to do is get the best CPU.

    I mean, for a jack-of-all-trades computer, sure. But I find that sort of computer silly.
  • xype - Monday, October 26, 2015 - link

    Your response makes no sense.
  • III-V - Thursday, October 22, 2015 - link

    I find it odd that random access and IOPS haven't improved. Power consumption has gone up too.

    I'm excited for PCIe and NVMe going mainstream, but I'm concerned the kinks haven't quite been ironed out yet. Still, at the end of the day, if I were building a computer today with all new parts, this would surely be what I'd put in it. Er, well maybe -- Samsung's reliability hasn't been great as of late.
  • Solandri - Thursday, October 22, 2015 - link

    SSD speed increases come mostly from increased parallelism. You divide up the the 10 MB file into 32 chunks and write them simultaneously, instead of 16 chunks.

    Random access benchmarks are typically done with the smallest possible chunk (4k) thus eliminating any benefits from parallel processing. The Anandtech benchmarks are a bit deceptive because they average QD=1, 2, 4 (queue depth of 1, 2, and 4 parallel data read/writes). But at least the graphs show the speed at each QD. You can see the 4k random read speed at QD=1 is the same as most SATA SSDs.

    It's interesting the 4k random write speeds have improved substantially (30 MB/s read, 70 MB/s write is typical in SATA SSDs). I'd be interested in an in-depth Anandtech feature delving into why reads seem to be stuck at below 50 MB/s, while writes are approaching 200 MB/s. Is there a RAM write-cache on the SSD and the drive is "cheating" by reporting the data as written when it's only been queued in the cache? Whereas reads still have to wait for completion of the measurement of the voltage on the individual NAND cells?
  • ddriver - Thursday, October 22, 2015 - link

    It is likely samsung is holding random access back artificially, so that they don't cannibalize their enterprise market. A simple software change, a rebrand and you can sell the same hardware at much higher profit margins.

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