What is the difference between SHR and RAID?
Synology Hybrid RAID or SHR, has been around for quite a while now, and though it has not make the big impact that Synology NAS’ Btrfs file system has, it is still an increasing popular choice for many when it comes to protecting their hardware and their data in a Hard Drive enclosure. Both NAS and DAS utilise RAID as a form of protection from a HDD or SSD failing and the consequences of data loss that can follow. It should always be highlighted that both traditional RAID and SHR are NOT forms of Backing up and you should ALWAYS have a offsite or at the very least off-system backup in place creating real-time images and copies of your mission critical data. However coming back to the subject at hand, which method of redundancy should you be considering for your storage array – RAID or SHR?
What is RAID?
That isn’t to say that pooling smaller drives does not still happen, but with drives currently available to buy in 8TB such at the Seagate Archive Drive, you can see why the purpose of RAID in archive and cold storage is more about hardware protection.
Available in numerous types, but the most popular of which is below:
- JBOD – Just a Bunch of Disks, not really a RAID in any shape or form.
- RAID 0 – A method of combining two hard drives or more into a single GIANT volume of data, however if you lose one drive, you lose all your data!
- RAID 1 – Using pairs of drives, this will HALF your total capacity, but give you a complete and up to the second copy of all your data. Meaning if a drive fails, you have an EXACT copy ready to access.
- RAID 5 – One of the most popular RAID levels, It requires at least 3 drives or more, data is written across the drives in stripes (waves) and across each stripe of data one drive holds a tiny nugget of data called ‘parity’ with is basically a coded blueprint of the data on the other drives in that stripe, then each stripe has the parity deposited on a different disk each time. The result is that if a drive fails, the system can re-build the data using the parity (blueprints) on each stripe. This can take time though and it should also be noted that the read and write of data in a RAID 5 is a little slower than normal as the system has to work out background calculations whilst writing data.
- RAID 10 – Think of this as a combination of RAID 0 and RAID 1, or RAID 1+0. You require at least 4 drives and drives are paired up as 2×2. The result is that you have two hard drives whose capacity to added together, and another pair of drives creating real time copies (again, up to the second) of all the data. Probably the most expensive of all the RAID types here in terms of cost per GB, but gives you much MUCH higher read and write speeds compared to other RAID levels.
What is SHR?
SHR is far more automatic RAID choice and designed for the less technically minded to protect their data from hardware failure, without having to delve to deeply into complex matters like parity and striping. It is also significantly easier to set up and considerably more scalable than traditional RAID. It is not supported on all Synology NAS server devices but I would recommend checking in advance that your chosen Synology NAS can utilise SHR here. But otherwise if your NAS can support it, SHR arrives with a host of benefits both in terms of deployment speed and in maximum available capacity. SHR doesn’t arrive in multiple types like RAID, but in just two different versions. SHR and SHR-2. SHR gives you the ability protect your data from 1 lost hard drive and SHR-2 protects you from two. However the key strengths in a Synology SHR RAID setup is:
- You only need two disks to build an SHR array and after that you can add drives to the Synology Hybrid RAID at anytime.
- In an SHR Volume, you can mix and match Hard Drives and let the calculations of the SHR layer do the work. This isn’t just at the moment of installation, but anytime you like. So, if you have for example 4 x 2TB drives in a 8-Bay enclosure and at a later date add 4x 4TB drives, not only will you be able to add these larger drives of any BRAND or speed, but also get the much, much bigger total capacity made available to you. With an SHR RAID, regardless of the mixing of the drives, in terms of redundancy vs Capacity, you will only lose 1x the largest drive. Whereas in a RAID 5 if you mixed drives, ALL of them will be viewed and RAID’ed as as the smallest available drive and you still only have redundancy for a single drive. So, in practice:
- Like traditional RAID, SHR will provide you with the ability to protect your data from the loss of a single HDD or SSD. However with SHR-2 you will be protected from losing 2 HDD or SSD.
- Slightly less speed than a traditional RAID. Less than 1% difference between SHR and RAID 5, for example.
SHR vs RAID – Which is better?
And so, down to business. Now you know what SHR and RAID are, what is now important is which should you choose. Both are excellent methods of redundancy and have their own benefits. But lets take a look below at their strength and weaknesses:
SHR Strengths
- Faster to setup
- Expandable
- Ability to mix drives
- Greater available capacity when mixing drives whilst still maintaining 1 disk of redundancy
- If a drive fails, the Synology can still access the full volume data – though will operate much slower till a replacement drive is installed
- Drives can be carrier over to a new SHR supported Synology and the new NAS will see the volume and the data
SHR Weaknesses
- A little slower than traditional RAID but equal speed to RAID 5 and 6
- You cannot remove the Drives in an SHR RAID and install them in a new non-SHR NAS, they will need to be formatted.
And now onto Traditional RAID
RAID Strengths
- Broader options for deployment. More task specific RAID sets like RAID 10 or RAID 50 are possible
- Better chance of Hard Drives being recognized in a new NAS/DAS enclosure if you install them in a new unit
- Still scalable between RAIDs, but not as much as SHR
- On the whole, better Read and Write speeds available
- Not just limited to Synology
RAID Weaknesses
- You cannot effectively mix drives and to increase the total capacity will in all likelihood only be possible by replacing ALL drives in the array
- Cannot access the data after a drive failure until a new drive is installed (exception of RAID 1)
- Takes noticeably longer to create a RAID array compared with likewise SHR
RAID or SHR – The Result
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