Viper Gaming VPR100 RGB 1TB M.2 SSD Review: Page 5 of 6

Posted by Damon Bailey on Monday, January 20, 2020 - 8:00am

System Configuration & Testing

CPU: Intel Core i9-9900KS

Motherboard: ASRock Z390 Phantom Gaming 9

RAM: 16GB G.Skill TridentZ RGB 3200Mhz

GPU: Nvidia RTX 2080 FE

Drive: Viper VPR100 RGB 1TB

OS: Windows 10 Professional 1909

 

Windows shows us 953GB of space available after formatting.

CrystalDiskInfo

A HDD/SSD utility software which supports a part of USB, Intel RAID, and NVMe.

CrystalDiskInfo shows the drive connected with four lanes of PCIe 3.0 with NVMe Express 1.3.

ATTO Disk Benchmark

“As the industry's leading provider of high-performance storage & network connectivity products, ATTO has created a widely-accepted Disk Benchmark freeware utility to help measure storage system performance. As one of the top tools utilized in the industry, Disk Benchmark identifies performance in hard drives, solid-state drives, RAID arrays as well as connections to storage. Top drive manufacturers, like Hitachi, build and test every drive using the ATTO Disk Benchmark"

Atto registers reads just a touch under the 3300MB/s on reads and close to the 2900MB/s on writes.

 

CrystalDiskMark 7.0

“CrystalDiskMark is designed to quickly test the performance of your hard drives. Currently, the program allows measuring sequential and random read/write speeds."

We see speeds just a hair faster than ATTO’s but a bit short of the 3900MB/s on the reads Viper claims the drive can accomplish with CDM.

 

Anvil's Storage Utilities

Anvil's Storage Utilities is a powerful tool that was designed in order to provide you with a simple means of assessing the read and write performance of your Solid State Drive or Hard Disk Drive.

The benchmark tool helps you monitor and check the response time of your unit as well as view the system information collected using Windows Management Instrumentation (WMI).

Anvil’s Storage Utilities has been designed to be the most comprehensive benchmark tool for Solid State Drives on the market. That does not mean that you can’t use it for conventional platter-based drives as well, but you do get the most out of the program when you test the speed and performance of SSDs with it. The program has gone through a series of beta and release candidate builds already and is currently available as Release Candidate 3. It is usually linked from this forum thread, which currently is not the case for the RC build which you can download here directly. You can’t use previous builds as they are set to expire automatically.

You can run a benchmark right away by selecting a drive from the menu at the top right or check out the settings first to make sure everything is configured correctly here. Here you can simulate a compression level of the test file, e.g. database, application or uncompressed, and whether you’d like to use the same test file on consecutive runs or generate a new one every time. As far as benchmarks go, you can run a standard SSD benchmark that is testing read, write, or both performances of the drive, or run threaded IO benchmarks only.

Anvil shows a little lower on the sequential speeds as well.

 

AS SSD

The AS SSD benchmark determines the performance of Solid State Drives (SSD). The tool contains six synthetic and three copy tests.

The synthetic tests determine the sequential and random read and write performance of the SSD. These tests are carried out without using the operating system cache. In Seq-test the program measures how long it takes to read a 1 GB file to write respectively. 4K test the read and write performance is determined at random 4K blocks. The 4K-64 corresponds to the test Third 4K procedure except that the read and write operations are distributed to 64 threads. This test should SSDs pose with Native Command Queuing (NCQ), differences between the IDE operation mode where NCQ is not supported, and the AHCI mode. The additional compression test can measure the power of the SSD in response to the compressibility of the data. This is especially for the controllers that use to increase the performance and life of the cell compression, important.

In the first three synthetic tests and the compression test, the size of the test file 1 GB. Finally, the access time of the SSD is calculated, wherein the access to read over the entire capacity of the SSD (Full Stroke) is determined. The write access test, however, is done with a 1 GB big test file.

AS SSD uses a little different testing method and lands right at 2500MB/s on both reads and writes.

The copy benchmark flies through all three testing segments.

On the compression segment, we see sustained fast and stable read at about 2600MB/s and write performance hovers around 2800MB/s with frequent dips to around 2GB/s as the cache fills up and has to flush every so often.

With no airflow, the drive creeps up to around 60C while under heavy benchmarking loads, warm, but still under the 70C max operating temp. With just a small amount of airflow, the drive lands in the low to mid 40C range under load, indicating the heatsink can easily cope with the drive.

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