Western Digital’s Advanced Format: The 4K Sector Transition Begins
by Ryan Smith on December 18, 2009 12:00 AM EST- Posted in
- Storage
We had a chance to talk to Western Digital last week about a new hard drive technology they have coming down the pipe called Advanced Format. Ahead of the impending launch of the first Advanced Format drives, Western Digital is engaging in an education campaign about the technology, as it represents the first step in a general transition for hard drives, and is a transition that can’t be done completely behind the scenes. Specifically, Advanced Format is going to bring about some issues where older operating systems (and we’re looking almost exclusively at Windows XP here) will inadvertently harm drive performance by making certain assumptions about the drives that will no longer be true.
We’ll get in to the nitty-gritty about the impact of this in a bit, but first let’s start with Advanced Format. What is it? In a nutshell, it’s replacing the traditional 512 byte hard drive sector with a 4 kilobyte (4,096B) hard drive sector for a number of practical and technological reasons. Advanced Format is the name Western Digital is giving to drives implementing 4KB sectors.
The move to 4K-sectors has been some 10 years in the making, as research in the late 90’s identified that 512B sectors made less and less sense as drives continued to get larger. At a time when hard drives were measured in megabytes, 512B sectors were a good balance between technical factors and a desire to keep wasted space at a minimum (you can’t normally put 2 files in 1 sector), but times have changed and hard drive capacities are several orders of magnitude larger.
The crux of the problem is that there are 3 factors that are in constant need of balancing when it comes to hard drive design: areal density, the signal-to-noise ratio (SNR) in reading from drive platters, and the use of Error Correcting Code (ECC) to find and correct any errors that occur. As areal density is increases, sectors become smaller and their SNR decreases. To compensate for that, improvements are made to ECC (usually through the use of more bits) in order to maintain reliability. So for a drive maker to add more space, they ultimately need to improve their error-correction capabilities, which means the necessary ECC data requires more space. Rinse, wash, repeat.
The SNR for various areal densities
At some point during this process drive manufacturers stop gaining any usable space - that is, they have to add as much ECC data as they get out of the increase areal density in the first place - which limits their ability to develop larger drives. Drive manufacturers dislike this both because it hinders their ability to develop new drives, and because it means their overall format efficiency (the amount of space on a platter actually used to store user data) drops. Drive manufacturers want to build bigger drives, and they want to spend as little space on overhead as possible.
But all is not lost. The principle problem here is that ECC correction takes place in 512B chunks, while ECC can be more efficient when used over larger chunks of data. If ECC data is calculated against a larger sector, even though more ECC data is necessary than for a single 512B sector, less ECC data than the sum of multiple sectors is needed to maintain the same level of operational reliability. One estimate for 4K sector technology puts this at 100 bytes of ECC data needed for a 4K sector, versus 320 (40x8) for 8 512B sectors. Furthermore the larger sectors means that larger erroneous chunks of data can be corrected (burst error correction), something that was becoming harder as greater areal densities made it easier to wipe out larger parts of a 512B sector. As a result, the need for the larger sector is born.
As for why Western Digital and other drive makers are transitioning specifically to a 4K sector, the rationale is based on the earlier problems. 4K sectors are much larger than 512B sectors, which means they benefit more from our earlier ECC optimizations, which in turn brings a greater increase in format efficiency than using smaller sectors (i.e. 1K).
4K also happens to be a magical number elsewhere when it comes to computers – this is primarily rooted in the fact that a normal page of memory on an x86 processor continues to be 4KB (ed: 4MB pages also exist). The x86 page size in turn has also lead to file system clusters (the smallest unit of storage in a file system) becoming 4KB as 4KB clusters neatly fit in to a page of memory, while the need for smaller clusters has subsided amidst a general increase in file size (i.e. fewer files are smaller than 4KB and waste space). NTFS, EXT3, and HFS+ all default to 4KB clusters on modern hard drives. So 4KB physical sectors map perfectly with 4KB file system clusters, which in turn map perfectly with 4KB memory pages. And hence 4KB is the largest practical size for a hard drive sector at this time.
Old Sector | New Sector | x86 Mem Page | NTFS Cluster | HFS+ Cluster | |
Size | 512B | 4K | 4K | 4K | 4K |
So what’s the net benefit from all of this for consumers? At the moment, not a lot, which is why this is a low-key launch for Western Digital, and the focus of this is an education effort on what the use of 4K sectors means for older operating systems. The biggest benefit is going to be that this will enable Western Digital to more easily design drives over 2TB in size.
From a numbers perspective, Western Digital estimates that the use of 4K sectors will give them an immediate 7%-11% increase in format efficiency. ECC burst error correction stands to improve by 50%, and the overall error rate capability improves by 2 orders of magnitude. In theory these reliability benefits should immediately apply to all 4K sector drives (making the Advanced Format drives more reliable than regular drives), but Western Digital is not pushing that idea at this time.
IDEMA projected format efficiency and ECC burst sizes
With all of that said, to make this kind of advancement practical, a transition period is necessary. That transition period will be done through the use of 512B emulation technology, which will expose Advanced Format drives to the drive controller and operating system as having 512B sectors, when in reality they will have 4K sectors. Unfortunately, this method has a downside, which is the ultimate reason for Western Digital’s education campaign.
512 byte sector emulation: how the drive is laid out (physical) and what the OS sees (logical)
With the emulation of 512B sectors, there’s the risk that a partition could be misaligned compared to the 4K physical sectors - where it would be unwittingly started in the middle of such a sector. As a result, the clusters of a file system on that partition would end up straddling 4K sectors, which would cause performance problems. Specifically, in testing IDEMA (the drive manufacturers’ trade group) found that random writes in would be particularly impacted, as a Read-Modify-Write(RMW) would need to take place to update each sector, rather than a straight write(ed: This is very similar to writing to a dirty block on a SSD). Although this isn’t mechanically/electronically harmful in any way, the performance hit compared to a straight write makes it undesirable.
A single unaligned 4K cluster straddling 2 physical sectors
A misaligned partition under WinXP. Only LBAs divisible by 8 are aligned
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flynace - Friday, December 18, 2009 - link
So do these drives still run in 512k emulation mode under Win7?Or does Win7 recognize them as 4k drives thus partitioning and formating them accordingly?
Ryan Smith - Friday, December 18, 2009 - link
They still run in 512B emulation. The emulation is done at the drive controller level; with these WD drives it can not be disabled. Win7 is only aware to the point that it knows not to start a partition at a misaligned logical sector.therealnickdanger - Friday, December 18, 2009 - link
Hmm, OK I misread the article. I thought that Windows Vista/7 properly addressed 4KB chunks and it was only XP that was stuck in 512B emu-hell. So the new drives operate at 4KB at the hardware level, but regardless of OS, they are 512B at the interface level? Do we need to wait then for the next batch of WD drives that operate and interface at 4KB in order for Vista/7 to take advantage of this?I'm really looking forward to the 20% bump in useable storage space.
Candide08 - Friday, December 18, 2009 - link
Wouldn't the 20% increase in storage still be realized - as long as the drives platters are formatted with the 4k sectors?The interface would be breaking the 4k transfers into 512 byte chunks for backwards compatibility, at a bit of a performance cost.
When the 4k interfaces are released then the full performance gains will be realized in addition to the storage efficiency increases, yes?
Lukas - Sunday, December 20, 2009 - link
Yes. I'd also expect WD to ship some Black Edition drives that will be configurable between 512/4096 sectors on the interface, a long time before all shipped drive will default to 4096.Ryan Smith - Friday, December 18, 2009 - link
Yes, you need to wait for WD to ship drives that enable 4K sectors at the interface level. Due to the number of Win 5.x machines still in existence, this is likely a few years off in order to avoid the resulting grief for drive manufacturers. I suspect we're looking at 2014, but it could certainly be earlier.mczak - Friday, December 18, 2009 - link
I'm not sure exactly how 4K sectors will be exposed to the OS, but if the commands accessing the disks are different they could expose this without impacting old OS (by supporting both 512 and 4K access). Even if that's not possible, certainly WD could have made this switchable by jumper, so I can't see why WD would need several years to wait here.In theory I guess 4K access should be faster (less command i/o) or at least have less cpu overhead, but maybe the gains just aren't significant at all hence WD didn't bother.
azmodean - Friday, December 18, 2009 - link
This is just a little bit misleading, (probably not intentionally though). The current batch of drives will store data in 4K chunks, but will allow the OS to use 512-byte aligned addresses. You will still get the effective capacity increase and improved error correction in the drive, this is transparent to the OS. From what I can tell the only problem is that the drive itself has to work harder, and that there are some newer file systems that can optimize things further if they had a 4K interface size.Summary:
With the current batch of drives you get the space and ECC benefits of 4K sectors, but with some minor problems related to translation, which buys you compatibility with win XP.
With the next version of the tech (no idea when this will appear), the drives will remove the compatibility mode, and advanced filesystems will be able to optimize things further.
therealnickdanger - Friday, December 18, 2009 - link
Let's hope so! Thanks for clarifying things for my simple brain. ;-)cjb110 - Friday, December 18, 2009 - link
Couldn't the OS issue be fixed in a patch or service pack?If all manufactures will be going to 4k then it seems like Microsoft needs to start working on a proper fix for this. Rather than leaving to the manfuactures, which might end up producing a multitude of different 'fixes'.