Serial ATA, Here and Now

Xev writes "We have heard a lot about this new technology; over at HEXUS.net they have a review of a retail drive. The first on the internet, it is interesting to see the performance of the unit as well as the hotswap feature, and other new functions. Is this a solution to cheaper hot swap?"

Ahem.

[Doktor+Memory]

Is it just me, or were the first several pages of this "article" written by cutting and pasting directly from Seagate's own product description and SATA white papers?

That they then split the article out over a zillion "pages" to pump up their ad impression numbers is insult on top of injury.

Re:Ahem.

[Noehre]

Obviously you don't read many hardware reviews.

Welcome to the world of hardware reviews.

As you'll start to notice, 99% of reviews are spread over billions of pages and generally consist of cut-and-paste descriptions.

Any actual analysis is so horrible and incomplete as to make the review worthless. Very fiew hardware review sites do an actual good job of doing hardware reviews. Storagereview I view as the best. Too bad they only do hard drives!

For other stuff, skip right to the Arstechnica hardware forums. Best place there is for mildly biased hardware discussion.

nice review

[Phosphor3k]

All I get is

We are having major server problems at the moment. Something is up - we will fix this ;)

Something is up? Thats a nice way of saying their server is dying under the load of thousands of geeks.

Re:nice review

[sporty]

It could be a Serial ATA drive failure :)

here's the text, server seems to be /. already

Click here to print review

Review Title: Seagate ST380023AS Hard Drive

Reviewer: Simon Maltby

Date of Review: 30th December 2002

Sample Provided by Seagate
Introduction to SATA

Seagate UK kindly have supplied us with one of their new Serial ATA hard drives. We take a look at the new SATA format and attempt to determine what the new format means in real life. Will SATA produce any real improvement in performance?

Before we begin looking at the physical drive it is worth reading a little about the SATA format. The following extract from Seagate's web site provides us with an insight into the serial ATA standard and more importantly it's expected development path.

About the Serial ATA (SATA) format

Most desktop storage systems today use a parallel bus interface referred to as Ultra ATA/100. The parallel ATA interface has been in use on desktop systems as the mainstream internal storage inter-connect, since the 1980\'s (over 15 years!). Today\'s PCs demand higher speeds, more robust data integrity and flexibility for innovative smaller designs. Physically and electrically, the current parallel bus has run into limitations that will prevent this bus from providing higher speeds of data transfers. The move to a new technology is inevitable in the eyes of industry leaders such as Intel, Dell, Seagate, Maxtor and APT.

These same leaders formed the SerialATA.org and are highly dedicated to bringing this new technology to the forefront of today\'s PCs. Serial ATA is designed to overcome the limitations of parallel ATA while providing scalability for years to come. Setting the goal to be compatible and at cost parity with current parallel ATA drives when in volume, the SerialATA organization is promoting the adoption of Serial ATA in all systems where ATA drives are being used today.

Serial ATA... the future?

What is Serial ATA?

Serial ATA is a \"serial\" architecture as opposed to today\'s \"parallel\" ATA internal disc drive bus. Serial ATA wraps many bits of data into a packet and then at a higher speed (up to 50% higher) than parallel, transfers the packet of data down the wire to or from the host. Today Cyclic Redundancy Checking (CRC) is performed on the data being transmitted back and forth but not on the commands. Serial ATA integrates CRC on the command and data packet level for enhanced bus reliability. Cyclic redundancy code detects all single and double-bit errors and ensures detection of 99.998% of all possible errors. A Serial ATA drive can transfer data at 150MB/sec on the bus to the host system with extremely reliable accuracy and the Serial ATA interface will continue to allow scalability for a very long time.

Generation 1 Generation 2 Generation 3
Approximate Data Rate 150mb/sec 300mb/sec 600mb/sec
Approximate Bus Speed 1.5gb/sec 4gb/sec 6gb/sec
Approximate Introduction Fall of \'02 Mid \'04 Mid \'07

Additional Benefits

In addition to a faster, more reliable bus, Serial ATA improves cabling and connectors for a robust yet simpler integration. Gone are the days of bent pins and clumsy cabling and needless returned hard drives. Serial ATA cables are thinner and longer for improved system airflow and innovative system designs such as small form factor and consumer electronic boxes. Connectors are easier to snap into place without any pins but rather a blind-mate type of connection. Without the wide cables, system integrators can easily route the longer data cables (1 meter) within the system for simplicity or innovative designs.

Seagate Technology, A Native in Serial ATA Still in its early market entry stage, Serial ATA provides immediate benefits to desktop users. Serial ATA, an innovative new interface, allows continued performance growth, enhanced data reliability, and overall improved system dynamics above and beyond what Parallel can efficiently continue to provide.

A true \"Native\" Serial ATA solution offers customers the \"Real McCoy\" in Serial ATA technology. By implementing Serial ATA technology, not only on the physical layer of the drive, but also in the ATA controller link and transport layers, Seagate drives can communicate from the drive to the host directly up to the full 150MB/sec speed on the bus. In addition, the native solution incorporates command queuing, which can be a big performance boost in operating systems that can take advantage of that type of function. Some drive manufacturers may not immediately offer these \"native\" Serial ATA features on their 1st generation Serial ATA drives due to the difficulty of this integration.

The Test Drive I

The drive it\'s self looks just like any other computer hard disk drive. Consistent with other Seagate barracuda drives this one is very well built, solid and as attractive as a rectangular box of metal and plastic can be. The label clearly identifies the drive and provides setup information.

Review Model Seagate ST380023AS
Size 80gb
Speed 7,200rpm
Seek Time (Average) 9ms
Interface Serial ATA

Here is the description of the drive from Seagate\'s web site...

Seagate\'s Barracuda ATA V with Serial ATA Interface leverages the mechanics of the industry\'s quietest 7200 rpm desktop drive. The Barracuda ATA V offers 80GB and 120GB capacities with an 8MB cache for mainstream, high performance PCs, and entry-level servers. The product features all FDB motors, superior reliability and the next generation interface - Serial ATA. The SATA Barracuda includes Seagate\'s exclusive 3D Defense System and a one-year limited warranty.

Features Benefits
7,200 RPM desktop performance Improves overall PC performance
350 Gs nonoperating shock Protects drive from shock and vibration
3D Defense System Industry\'s most comprehensive drive and data protection system
DiscWizard software World\'s best disc installation software utility
SoftSonic(TM) FDB motor Quietest acoustics on any desktop drive
8-Mbyte cache buffer Improved performance
Serial ATA interface Fastest data transfer rates

The Test Drive II

SATA drives can not be connected to your computer with the standard IDE and Molex power connectors as becomes clear when viewing the back of the drive. Two new interfaces are need to use the drive. If you have a motherboard with serial ATA support you will have probably been supplied with an SATA data cable as shown below. However you will also need a Molex to SATA power conversion lead which is not supplied with either the motherboard or hard drive. I can foresee this power lead becoming a source of frustration for many people ordering SATA drives, hopefully when the drives hit the retail market the cable will be supplied with the hard drive.

Connecting the drive is very easy indeed. The SATA connectors are very well designed and will only fit the correct way round. There are no pins to bend or break as the fittings are more like USB than IDE.

Currently motherboards with SATA connectors run via the PCI bus. Some have connection via a SATA RAID controller, but our test board used a single SATA connector which is linked to a stand alone SATA controller chip. Once installed and booted the drive was displayed in the Bios taking the place of the primary IDE device. Windows XP located the drive as new hardware and the drive was fully visible. The Seagate drive is fully SMART enabled. This gives access to drive monitoring information including temperature.

Benchmarks I

Test Setup

* DFI NB80-EA Granite Bay motherboard
* P4 2.66Mhz CPU, 512MB DDR3500 RAM
* Seagate 80GB SATA150 Hard Disk Drive
* Maxtor 120GB 8MB ATA133 Cache Hard Drive on IDE
* Maxtor 60GB 2MB ATA100 Cache Hard Drive
* 2 Weston Digital 80GB 8MB Cache drives on Promise Raid Controller on Raid0
* Speedfan utility for SMART monitoring including hard drive temperature

HD Tech - Read Results Graph

The HD Tech benchmark is recognised as the most comprehensive hard drive test available. The benchmark evaluates the Hard drives performance across the whole drive regardless of how the drive is partitioned. It is common for performance to drop the further into the drive the test goes. This is due to the sectors at the end of the disk being physically further from the drives starting point.

Seagate SATA ATA150

Maxtor ATA133

The graphs above show two interesting trends. Although the computer was able to read information from the Maxtor drive faster than the Seagate drive, the opposite is true when it comes to writing data. The Seagate drive shows a consistent write speed with a few downward troughs, where as the Maxtor drive shows a few peaks in performance. Secondly although both drives show the expected reduction in read speed the further into the drive the test goes, the Seagate drive shows a slower decline dropping from circa 40k to 25k. The Maxtor drops more steeply from 50k down to 25k.

The graphs below show the results of all the HD Tech tests carried out during the review. As the benchmark requires unpartitioned drives to test writing speeds only two drives were able to be tested, the Seagate SATA and the Maxtor 120GB 8MB Cache.

Read speed average results

Write speed average results

The Seagate SATA drive did not perform as well as we had hoped in the read tests. Performance was lower than the other 8MB Cache drives whether in a raid configuration or straight forward IDE. The drive is far from being slow, but with the same 8MB Cache and the equivalent of ATA150 transfer speeds we hoped for more. Despite the average scores showing lower the Seagate drive did display better consistency across the drive as a whole and also proved significantly better in the write tests, some 30% better than the Maxtor.

Benchmarks II

Sandra Benchmark

The Sandra benchmark is less reliable than the HD Tech because it tests a partition rather than the whole drive and as we have seen performance changes depending on where on the drive the partition is located. When testing for the review we ensured that all the test drives had the same sized partition and that it was at the start of the physical disk.

The results show the same story as HD tech, although we are unable to break down the Sandra scores to establish where the Seagate drive falls down.

General Usage

Hot Swapping

An interesting attribute associated with SATA devices is that they should be \'Hot Swappable\', that means that you should be able to move devices around while your operating system is running. On the face of it this would be very useful. Care must be taken when moving hard disks around because while the internal discs are spinning damage can be caused easily. With the SATA drive installed as a non system disk we were able to disconnect the drive with windows XP running. Unlike USB device when removed, windows did not realise that the drive was no longer connected and it remained visible!

Noise

Seagate have produced a very well built drive in the ST380023AS. The casing is very solid and the mechanism well balanced. As a result it is most defiantly the quietest hard disk drive I have ever used. If you are looking for an ultra quiet drive then this one should be on your shopping list.

Reliability

The test drive was run continually for a week cycling the Sandra benchmark. Although the drive can get quite hot, rising to 45c under very heavy load, it performed without fault. SMART monitoring did not detect any problems during our testing. It should be remembered that a weeks hard testing does not give any real indication of the drives long term reliability, but we can take a great deal of comfort from the fact that the IDE Barracuda drives have proven to be one of the most reliable in the market thus far.

Price

Although SATA drives have not hit the retail market place in the UK yet The 80GB Seagate drive is expected to retail for circa £115 including VAT. This puts a small premium on the SATA format.

Conclusion

The read performance of the Seagate ST380023AS was not as good as we had hoped for. On the other hand write performance was better than we hoped for. In summary one fact is clear, the SATA interface works differently to the IDE interface and when you consider that this is a first generation SATA drive, linked to a motherboard that has the SATA interface located on the PCI bus, limiting it's potential, the overall performance is very good indeed.

The benefits of ultra fast data writing would make this drive ideal for write hungry tasks like video rendering or data backup. The Seagate drive itself is very well made and seems to be very robust. Its quiet operation makes it ideal for inclusion in a system where quietness is of benefit.

Serial ATA is in its infancy. Seagate have produced an excellent hard disk drive at the high quality end of the market place which should be very well received. I for one will be very sorry to have to part with this drive when Seagate ask for it back.

Pros

* Very Quiet
* Robust
* Very fast write performance
* Simple SATA data cable connection

Cons

* Needs power adapter (Not supplied)
* Slower read performance than expected
* SATA comes at a price premium

'bout time

[The+Tyro]

I'm currently building a computer for a good friend of mine, and we had planned on building in a Serial ATA RAID for fault tolerance.

Yeah, well... We had all the parts weeks ago... all except the !@X&@! serial ATA drives. Nobody had 'em, and nobody could get 'em. We also couldn't find Serial ATA mobile racks to mount the RAID drives... apparently nobody has those either.

We ended up having to use standard Parallel ATA drives (spare me the "SCSI R0XX0R5!!" flames... this is RAID on the semi-cheap, and it's not a server).

Ah well, nice to see that Somebody can finally lay their hands on these.

Re:'bout time

[AtrN]

we had planned on building in a Serial ATA RAID for fault tolerance

Tolerating failure and using a first release of something don't really go together. Best to wait a while and let others find out what does or doesn't work properly.

What is serial ATA?

[dagg]

I didn't have a clue what serial ATA was (I'm not a hardware person), so I did a search and found The Serial ATA Working Group web site. That site has an interesting picture showing the difference in cables between parallel and serial cables here . The benefit (with the smaller cables), is that it is easier to maneuver the drives in PC cases. Other benefits of serial ATA are discussed at the web site.

Conclusion of article

[DynamicBits]

Since the site is already /.ed, and people say the first few pages are copied from the manufacturer's site, here is the conclusion:

Page originally available at: hexus.net

Conclusion

The read performance of the Seagate ST380023AS was not as good as we had hoped for. On the other hand write performance was better than we hoped for. In summary one fact is clear, the SATA interface works differently to the IDE interface and when you consider that this is a first generation SATA drive, linked to a motherboard that has the SATA interface located on the PCI bus, limiting it's potential, the overall performance is very good indeed.

The benefits of ultra fast data writing would make this drive ideal for write hungry tasks like video rendering or data backup. The Seagate drive itself is very well made and seems to be very robust. Its quiet operation makes it ideal for inclusion in a system where quietness is of benefit.

Serial ATA is in its infancy. Seagate have produced an excellent hard disk drive at the high quality end of the market place which should be very well received. I for one will be very sorry to have to part with this drive when Seagate ask for it back.

Pros

• Very Quiet
• Robust
• Very fast write performance
• Simple SATA data cable connection

Cons

• Needs power adapter (Not supplied)
• Slower read performance than expected
• SATA comes at a price premium

Re:Conclusion of article

[p4]

Pros:
Very Quiet
Sending serially, one bit at a time, is quieter than in parallel? I didn't know bits made so much noise ...

Re:Is hotswap relevant?

[TiMac]

Note that I said "theoretically" and that in the *future*, SATA will push the speed limits. I believe PCI-X and Hypertransport technologies will make your comments about the current PCI bus completely irrelevant.

I could be wrong though--wouldn't be the first time ;)

You're mixing your terms...

[z84976]

Firewire is 400mbit, USB 2 is over 400mbit... but SCSI-160 is 160 mBYTE, which is considerably faster. The PCI bus is capable of 133ish mBYTEs per second throughput, significantly (8x) faster than 133mBIT. Of course, if you're going to be using SCSI-160 with any real intent for performance, you're going to be using a 64-bit 66MHz PCI bus/device (try finding quality cards that work in 32bit 33Mhz pci slots at 160). That is considerably faster, capable of transfering up to 512 mBYTES per second. That's not too bad, really, for such a general purpose I/O bus. Compare that to the cpu-ram interconnect speed of an Athlon, which is FAST at 2.1 gBYTE per second per cpu.

Firewire and USB are neat, and darned quick (quicker than most drives can go... by themselves) but 400 mBIT is really only about 40 megabytes (ok little more) per second max. Not even in the same league.

Simply more convenient

[l33t-gu3lph1t3]

SATA will scale better than parallel ATA - PATA is hard to scale given its bus nature. SATA should scale well up to at least 600MBPS theoretical throughput.

SATA has a smaller footprint than PATA, thus making it more economical to implement in mainboards where PCB space is at a premium. There is also a reduction of signal wires, so again it is more economical to use the drives.

SATA's smaller cables also allow for more creative formfactors and cabling solutions. PATA had short, wide, and ugly cabling. SATA has longer spec cabling, and its much thinner than PATA's, so cable routing is easier for OEMs.

Simply put, in its current form SATA isn't really a revolution, it's an evolution of the ATA standard, more out of convenience than anything.

Re:Simply more convenient

[FueledByRamen]

Have you looked at why Fibre Channel is more expensive? Well, there are a few reasons. FC is designed to be used in HUGE, HUGE datacenter environments. An FC switched fabric can have 16 million devices on it, all speaking SCSI and/or IP. You can run your massive disk array in its own room up to 5km away, thanks to single-mode fiber optics, which are a part of the spec. FC itself isn't too impressive until you look at the bigger picture for it. Another thing it has going for it (like scsi except on a larger scale, unlike Serial ATA unless I'm mistaken) is that in a switched fabric, any device can talk to any other device. For example, my workstation could go over and read a disk that was currently being accessed by 6 other devices from around the datacenter, and it would just put my request in the command queue and respond to it in turn. (Writing is the same way, but you must use a file system designed for multiple writers unless you like FS corruption.)

Another thing, it's currently faster than SCSI. As far as I remember, 4Gbit FC is out, and 8 (or maybe 6) Gbit is on the way. You don't even need all of your devices to talk that fast (most drives are 1Gbit, maybe 2Gbit), as long as your switch can handle the speed differences, as it should be able to. Even the 4Gbit is faster than Ultra/320 SCSI, and the 6 or 8Gbit will kick the pants off of it.

Also, unlike SCSI, the cabling requirements are EASY, and the interface cards are inexpensive. I built a JBOD (just a bunch of disks) out of ST39102FC drives (9.1gb 1" 10000rpm Seagate), and you know what I used to cable it together? Cat5. Standard category-5 ethernet cable, at less than 10 cents a foot. Of course, that doesn't include the power cabling, but that's all standardized anyways. Interfacing to an FC drive? Nothing. I grabbed a copy of the drive's tech manual from Seagate's web site, which had all of the pinouts for the FC connector, the SCA40. I whipped up a board in ExpressPCB (because it's easy to order boards from them and the software's free), ordered the mating SCA40 connector from Mouser Electronics, and soldered it all together. It didn't even require any passive components besides a couple of status LEDs (which are optional of course) - just the connectors. Total cost per drive? $10 for the interface card, give or take a dollar, and the cabling is negligable. Buying the connectors and PCBs in bulk will cut down even farther on the cost (mainly because the SCA40 connectors are $6.50 or so in singles). You can have up to 120 drives on a non-switched loop. I'd love to see a SCSI card do that, not to mention the cabling associated! The FC HBA was a surplus HP part which cost me a whole $25 from Fleabay. I soldered my own cable to it where the GBIC module would normally go (thanks, IBM, for the manual on your GBICs!) and popped it in. Finding drivers aside (hpaq's website sucks), works perfectly.

Of course, one problem with a simple FC loop like what I built is that if you remove a drive, the loop is broken. That problem can easily be solved - Maxim Semiconductor makes a neat little chip that will do port-bypass for you, and the signal for it's already on the SCA connector. Add the chip, the resistor, and the extra PCB space - you've blown a whole $4 more per interface card. Optionally, you could just hook up everything to a FC hub, which handles the bypass automatically. Maxim even sells a chip that basically allows you to build a 4-port FC hub for a few bucks, and they're daisy-chainable to the whole loop capacity of 120 drives.

Re:How is Linux Support?

[whiteranger99x]

from what i can tell, These guys are addressing that very issue, considering that they're an adopter of it.

Ummm... what's the deal with the special power con

[haggar]

Why the new connector? After all, it does plug, ultimately, in a standard ATX power supply. And they even provide a conversion cable ( == less reliable).

Re:Ummm... what's the deal with the special power

[ottffssent]

New because the old friction-fit molex power connectors suck.

Actually, it's for hot-swapability. The old molex power connectors would make your drive virtually glued in, and you'd have to jiggle it to get the contacts to fit. The new power connectors are designed for hot-swap operation. They're smaller, easier to slide in and out, and have longer ground wires which ensures the drive is grounded *before* any power is delivered. The same long-short wiring is used in the data cables, where the 3 grounding pins connect before the 4 data pins (two pairs using differential signalling) connect.

I'm not sure how you figure an adapter is less reliable. Have you *ever* had a molex power connector come apart on you unexpectedly? I count myself lucky if I can get them apart on purpose!

This early in the migration, there may be issues here and there, but when SATA becomes the standard, there will be connectors for it right on the PSU's cabling, and motherboards will support tons of SATA channels straight to the northbridge rather than ganged onto the PCI bus, and maybe hotswap drives will start to be the norm. Alright, not that last bit, but the first two should happen pretty quickly since SATA is cheaper for the manufacturer, as well as better for the consumer.

Re:What I really want to see - Careful

[frovingslosh]

These drives will also be the first drives available with 'digital rights management" built in. While you may get away with using them in a current MP3 player, be careful. You may find when you get them near a Longhorn system some day that M$ was serious about that "we have the right to delete anything we damn well please" provision in the click through license; even if the company who built the computer clicked it rather than you.

Why oh why?

[evilviper]

Right now, I use IDE on most of my machines. Why? Because most of the time I don't need great disk IO, I don't need more than 2-3 drives, and I can usually live with the lack of reliability that is IDE.

That said, SCSI is far better, and is doing now, for reasonable prices, what Serial ATA is only claiming it will be able to do eventually, and a lot more in addition. SCSI drives with comparable specs, right now, don't cost much more than IDE drives. If the push to serial increases the prices, suddenly, SCSI will be the bargain interface, as well as the performance interface, which eliminates the entire IDE/ATA market. In addition, SCSI to IDE adapters would give most users backwards compatibility, which would eliminate that from being a benefit to serial ATA as well.

So, it may soon be time for everyone to make the switch.

Re:Don't get too excited about the speed

[Zathrus]

*beats head against wall*

Who gives a crap about the PCI bus speed, or the theoretical maximum throughput of the ATA bus? The drives can't generate more than ~50 MB/s sustained transfer rate anyway. Yup, that's right! ATA-66 is fast enough for every PATA and SATA drive on the market today.

Oh, sure, you'll spike the transfer rate when reading from cache. I've done the numbers before, and it's something like a 0.1 millisecond difference between ATA-66 and ATA-133, since the largest cache is a mere 8 MB.

You are correct about SATA being faster than PCI, but it just doesn't matter. Nor do the future possibilities of SATA-300 or -600. The hardware just isn't fast enough.

And just to cover all the bases, once SATA is integrated into the south bridge chipset it won't be reliant on PCI. In the case of nVidia chipsets (and any Athlon64/Opteron chipset) it would then go over HyperTransport, which is 800 MB/s. I'm not sure what the backplane speed on Intel chips is, but I believe it's faster than PCI.