HDDNewInternal 3.5"
Dell NWCCG 6TB 7.2K 3.5 400-AFNY, 400-AGFU, PRNR6
Capacity6 TB
InterfaceHDD
Warranty3 months
Cost / GB$0.02
$111
$18.5per TB
CMR vs SMR: the recording method that bites in arrays
Two ways of laying tracks on a platter look identical on a spec sheet but behave very differently under sustained writes. Knowing which a drive uses can save a NAS rebuild — or a weekend.
CMR (conventional magnetic recording) and SMR (shingled magnetic recording) are two ways of writing data tracks onto a hard drive’s platters. The difference is invisible in casual use and on most marketing material, but it changes how a drive behaves under sustained writes — and in a RAID array or NAS, that difference can turn a routine rebuild into a multi-day ordeal or an outright failure.
How each method writes
On a CMR drive, write tracks sit side by side with small gaps, each independently writable. To change data, the drive simply rewrites that track. It is straightforward and consistent — the write speed you get at the start is roughly the write speed you get throughout.
SMR squeezes more capacity from the same platters by overlapping write tracks like roof shingles, because the write head is wider than the read head. That packs data more densely and lowers cost, but with a catch: you can no longer rewrite a single track without disturbing the ones overlapping it. The drive must read a whole band of shingled tracks, modify it, and rewrite the band. To hide this, SMR drives use a fast CMR-style cache zone and reorganise data later during idle time.
The SMR write cliff
That caching trick works beautifully for short bursts. Light, bursty writes land in the cache and the drive looks as fast as any CMR model. But sustained writes — copying hundreds of gigabytes, or worse, a RAID rebuild — fill the cache, and then the drive must do the slow read-modify-write dance in real time. Throughput can collapse from normal speeds to a tiny fraction, and stay there until the workload stops and the drive catches up. This is the SMR ‘write cliff’, and it is why SMR is poison for write-heavy roles.
Why SMR stalls RAID and NAS rebuilds
When a drive in a RAID array fails and you replace it, the array reconstructs the missing data by writing the entire contents of the new drive — a sustained, full-drive write that is exactly the workload SMR handles worst. An SMR drive can slow a rebuild from hours to days, during which the array is degraded and vulnerable to a second failure. In some cases the controller times the drive out and ejects it, failing the rebuild entirely. This is the real-world reason every serious NAS guide, including ours on NAS hard drives, insists on CMR for array members.
| Attribute | CMR (conventional) | SMR (shingled) |
|---|---|---|
| Track layout | Independent, gapped tracks | Overlapping, shingled tracks |
| Random rewrites | Direct and fast | Slow read-modify-write of a band |
| Sustained write speed | Consistent | Collapses once cache fills |
| Cost per terabyte | Slightly higher | Slightly lower |
| RAID / NAS rebuilds | Recommended | Avoid — can stall or fail |
| Good for | NAS, RAID, video capture, busy desktops | Cold storage, write-once archival, single-disk backup |
How to tell CMR from SMR
Manufacturers have historically been coy about labelling SMR, and a few episodes of quietly shipping SMR drives in NAS-marketed lines caused real anger. So verify before you buy:
- Check the maker’s spec sheet — most now state ‘CMR’ or ‘SMR’ explicitly, sometimes only in a footnote or a separate technical PDF.
- Consult community CMR/SMR lists that crowd-source drive models, since the recording method can vary by capacity within the same product family.
- Beware the cheapest small drives — SMR is most common in lower-cost desktop and portable 2.5-inch drives, and at certain mid capacities.
- Cache and warranty hints — unusually large caches on a budget drive, or a model marketed for ‘archive’ use, can be a tell, though they are not definitive.
When SMR is perfectly fine
SMR is not bad technology — it is mismatched technology when used wrong. For write-once, read-many data it is genuinely cost-effective: an external backup drive you fill once and shelve, a cold archive disk, a single-drive media store that mostly serves reads. In those roles the write cliff never bites because you never sustain heavy writes, and you bank the lower cost per terabyte. The rule is simple: CMR for anything that lives in an array or sees regular writes; SMR is acceptable only for write-once, single-disk archival.
Never put SMR in a RAID array
If you are building or expanding a NAS or RAID set, confirm every drive is CMR before you buy. A single SMR drive can sabotage a rebuild and leave the array exposed. When in doubt, choose drives explicitly rated for NAS or enterprise use, which are CMR — see our NAS drive picks and enterprise drives.
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Internal hard drives for write-heavy roles
Live high-value internal HDDs sorted by real cost per terabyte. For arrays, confirm CMR on the spec sheet.
HDDUsedInternal 3.5"
(Old Model) Seagate 2TB Surveillance HDD 5900RPM SATA 6.0GB/s 64MB Hard Drive (ST2000VX003)
Capacity2 TB
InterfaceHDD
Warranty3 years
Cost / GB$0.02
$39
$19.5per TB
HDDUsedInternal 3.5"
3TB 7200RPM 128MB CACHE SAS/6GB/S NO ENCRYPTION (ST3000NM0023) -
Capacity3 TB
InterfaceHDD
Warranty—
Cost / GB$0.02
$60
$20per TB
HDDUsedInternal 3.5"
MDD (MDD28TSATA51272E) 28TB 7200RPM 512MB Cache SATA 6.0Gb/s 3.5inch Internal Enterprise Hard Drive - 5 Years Warranty (Renewed)
Capacity28 TB
InterfaceHDD
Warranty5 years
Cost / GB$0.02
$580
$20.71per TB
Before you buy
Frequently asked questions
How do I know if a hard drive is CMR or SMR?+
Check the manufacturer’s detailed spec sheet or technical product PDF, which usually states the recording method — sometimes only in a footnote. Because it can vary by capacity within the same family, also consult community-maintained CMR/SMR lists. NAS- and enterprise-rated drives are CMR; the cheapest small desktop and portable drives are the most likely to be SMR.
Is it ever OK to use an SMR drive?+
Yes — for write-once, read-many data. An external backup drive you fill once and shelve, a cold archive disk, or a single-drive media library that mostly serves reads are all fine on SMR, and you pocket the lower cost per terabyte. Just keep SMR out of RAID arrays and away from any role with heavy, sustained writes.
What actually happens if I put an SMR drive in a NAS?+
Light use may seem fine, but a rebuild or large sustained write fills the drive’s cache and performance collapses to a crawl. A RAID rebuild can stretch from hours to days, leaving the array degraded and exposed to a second failure — and some controllers time the slow drive out and fail the rebuild entirely. Use CMR drives in arrays.
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