Intel SSD 760P M.2 NVMe SSD Review (512GB)

PCMARK 8 STORAGE

The SSD Review uses PCMark 8’s Storage test suite to create testing scenarios that might be used in the typical user experience. With 10 traces recorded from Adobe Creative Suite, Microsoft Office and a selection of popular games, it covers some of the most popular light to heavy workloads. Unlike synthetic storage tests, the PCMark 8 Storage benchmark highlights real-world performance differences between storage devices. After an initial break-in cycle and three rounds of the testing, we are given a file score and bandwidth amount. The higher the score/bandwidth, the better the drive performs.

PCMARK 8 STORAGE RESULTS

In PCMark 8 the Intel 760P scored 5067 points and averaged 490.40 MB/s in bandwidth.

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With its average bandwidth of 490.40MB/s, the Intel 760P ranks between the Intel 750 400GB and Samsung 960 EVO 250GB. This result also ranks it above the WD Black PCIe and Intel’s very own 600P by quite a margin.

PCMARK 8 EXTENDED STORAGE WORKLOAD CONSISTENCY TESTING

For our last benchmark, we have decided to use PCMark 8 Extended Storage Workload in order to determine steady-state throughput of the SSD. This software is the longest in our battery of tests and takes just under 18 hours per SSD. As this is a specialized component of PCMark 8 Professional, its final result is void of any colorful graphs or charts typical of the normal online results and deciphering the resulting excel file into an easily understood result takes several more hours.

There are 18 phases of testing throughout the entire run, 8 runs of the Degradation Phase, 5 runs of the Steady State Phase and 5 runs of the Recovery Phase. In each phase, several performance tests are run of 10 different software programs; Adobe After Effects, Illustrator, InDesign, Photoshop Heavy and Photoshop Light, Microsoft Excel, PowerPoint and Word, as well as Battlefield 3 and World of Warcraft to cover the gaming element.

  • PRECONDITIONING -The entire SSD is filled twice sequentially with random data of a 128KB file size. The second run accounts for overprovisioning that would have escaped the first;
  • DEGRADATION PHASE – The SSD is hit with random writes of between 4KB and 1MB for 10 minutes and then a single pass performance test is done of each application. The cycle is repeated 8 times, and with each time, the duration of random writes increases by 5 minutes;
  • STEADY STATE PHASE – The drive is hit with random writes of between 4KB and 1MB for 45 minutes before each application is put through a performance test. This process is repeated 5 times;
  • RECOVERY PHASE – The SSD is allowed to idle for 5 minutes before and between performance tests of all applications. This is repeated 5 times which accounts for garbage collection; and
  • CLEANUP – The entire SSD is written with zero data at a write size of 128KB

In reading the results, the Degrade and Steady State phases represent heavy workload testing while the recovery phase represents typical consumer light workload testing.

PCMARK 8 RESULTS

As you can see, performance is recorded in terms of Bandwidth and Latency. Bandwidth (or throughput) represents the total throughput the drive is able to sustain during the tests during each phase. Latency, at least for the purposes of PCMark 8, takes on a different outlook and for this, we will term it ‘Total Storage Latency’. Typically, latency has been addressed as the time it takes for a command to be executed, or rather, the time from when the last command completed to the time that the next command started. This is shown below as ‘Average Latency’.

PCMark 8 provides a slightly different measurement, however, that we are terming as ‘Total Storage Latency’. This is represented as being the period from the time the last command was completed until the time it took to complete the next task; the difference, of course, is that the execution of that task is included in ‘Total Storage Latency’. For both latency graphs, the same still exists where the lower the latency, the faster the responsiveness of the system will be. While both latency charts look very similar, the scale puts into perspective how just a few milliseconds can increase the length of time to complete multiple workloads.

For a more in-depth look at Latency, Bandwidth, and IOPS check out our primer article on them here.

AVERAGE BANDWIDTH (OR THROUGHPUT)

These results show the total average bandwidth across all tests in the 18 phases. In this graph the higher the result the better.

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AVERAGE LATENCY (OR ACCESS TIME)

These results show the average access time during the workloads across all tests in the 18 phases. In this graph the lower the result the better.

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Right away we can see that the Intel 760P delivers quite the performance boost over the previous generation Intel 600P.  During the degrade and steady state phases we see it’s latency is 1/3rd that of the Intel 600P’s, and much more consistent. It also delivers over twice the bandwidth in these heavy workload phases. During the Recovery phases, there is also some improvement, just not as drastic. Just like PCMark 8 normal run results before, the Intel 760P’s PCMark 8 Extended results put it above the WD Black and Plextor M8Se, but it is still behind many of its other competitors.

 

2 comments

  1. blank

    How about the maximum power consumption of the Intel 760p during full throttle writing?
    I want to buy an SSD that consumes not so much power and does not overheat, at a decent/medium speed (faster than a SATA though).

    • blank

      I’ve recorded about 5.25-5.5W during a large file copy to itself. Unless you are trasnfering multiple 60-100GB transfers within minutes from one NVMe SSD to another, you wont have overheating issues. Transfering from a SATA drive to an NVMe SSD isn’t going to cause much heat at all. With most drives, you can usually transfer from SATA to NVMe all day without heat issues.

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