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For 6TB HDDs, WD Better Than Seagate, HGST 8TB Helium Unit Too Expensive

Comparison by huge user Backblaze

 Our 6TB HDD Face-Off
blackblaze,klein Report on blog of Andy Klein, Blackblaze, Inc.

Backblaze is transitioning from using 4TB HDDs to 6TB HDDs in the Storage Pods we will be deploying over the coming months. With over 10,000 HDDs needing to be purchased over the next several months, the choice of which 6TB HDD to use is critical. Let’s take a look at how we’re navigating this transition.

Blackblaze,6GB HDD,seagate,WD f1

Getting Started
We started the process in September when we purchased and deployed our first  TB HDDs. We purchased Western Digital (WD60EFRX) and Seagate (STBD6000100) HDDs. We deployed two Storage Pods, each with 45 drives from each brand. The Western Digital Storage Pod was designated UL796 and the Seagate Storage Pod was designated UL800. Each Pod was identical in its design and configuration except for the HDDs used.

Set Up
In a previous post we described how we set up and load tested our Storage Pods. Each of the 6TB drive Pods passed their set up and load testing without incident and were deployed, first the Western Digital Pod and a few days later the Seagate. For comparison purposes we also deployed Storage Pod UL838, which had 4TB HGST drives installed.

Into the Fire
Backblaze currently receives 130TB of data from our customers to store each day. Data arrives in similarly sized encrypted blocks of data. On any given day, there are 20-40 Storage Pods accepting these data blocks as they arrive. As a block arrives it is passed to a Storage Pod, if that Pod is busy, the data block is passed to the next Pod in line. Over the course of each day this results in all the available Storage Pods being given the same opportunity to accept data at the same rate.
    
Newly installed Storage Pods accept data for the most part unencumbered until they reach 80% full. At that point a Storage Pod will reduce the amount of data it receives each day. New Storage Pods come on line on a regular basis so that arriving data always has a place to go without delay.

When UL796, UL800 and UL 838, came online we recorded various statistics with regards to how much data they loaded. Here’s a sample of the relevant storage data collected on one of those days.

Blackblaze,6GB HDD,seagate,WD f2

The amount of data each of these Storage Pods received each day of the period of observation is shown below. We stopped recording when a given Storage Pod reached 80% full.

Blackblaze,6GB HDD,seagate,WD f3

Blackblaze,6GB HDD,seagate,WD f4

Since the three Storage Pods did not start accepting data on the same day, there could be some differences in data stored by day. The following chart aligns the three Storage Pods over the same calendar days, e.g. Day 1 is Sep. 19th, Day 2 is Sep. 20th, etc.

Blackblaze,6GB HDD,seagate,WD f5

Observe that the different Storage Pods filled up at different rates. Here is how quickly each Pod reached 80% capacity.

Blackblaze,6GB HDD,seagate,WD f6

This translates to the following average data stored per day for each Storage Pod.

Blackblaze,6GB HDD,seagate,WD f7

The Western Digital HDD loaded data faster than the Seagate and even edged out the HGST.

Evaluation
Let’s review the Seagate and Western Digital drives so far:

  • Initial reliability (how many drives failed) – No failures.
  • Running reliability (3 months) – No failures
  • SMART Stats (3 months) – No error conditions recorded for the 5 stats that we utilize.
  • HDD Cost – about the same.
  • Energy Use – The Seagate drives were 7,200 rpm and used slightly more electricity than the Western Digital drives which were 5,400 rpm. This small difference adds up when you place 45 drives in a Storage Pod and then stack 10 Storage Pods in a cabinet.
  • Loading speed – Edge to Western Digital, by a little over 1TB per day on average.

Our goal is to find HDD models that are reliable and cost effective in our environment. The ‘One Pod’ test has proven over the years to be a good starting point to eliminate those HDDs models that are obviously incompatible with our environment.

Next Step: Scaling the Test
Based on the results, we have ordered 230 Western Digital drives to fill 5 Storage Pods (with 5 spare drives). These will be installed, load tested and deployed shortly. Assuming the Western Digital drives continue to perform as well in the 5 Storage Pods, we’ll move forward with using the Western Digital 6TB drives in our Storage Pods over the coming months.

Is Seagate Shutout?
The Seagate 6TB drives performed well, albeit they loaded a little slower. They also use a little more electricity than we’d like. Still they are not shut out. We really like to have multiple qualified HDDs to order and use in our Storage Pods. Diversification is good. To that end we expect to order additional Seagate 6TB HDDs over the coming months, build them into Storage Pods and monitor how they perform. Assuming they perform well, the 6TB Seagate HDDs would be added to our list of qualified drives.

Victory is Fleeting
Today the Western Digital HDDs are first in line to be our choice for 6TB drives. Of course, we just ordered 45 HGST 8TB Helium HDDs for testing. Their unit price is still a too high for cost effective deployment, but thanks to the return of a relentlessly decreasing HDD pricing curve, it could be just a matter of time. In fact, Seagate is now beginning to ship their 8TB SMR HDDs for a reported $260 a drive. Availability is spotty at the moment, but is certain to improve over the coming months. Using either the HGST or the Seagate 8TB drives means a 360TB Storage Pod is imminent – we can hardly stand the wait …

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