Slot x drive array not configured

slot x drive array not configured

März The RAID It started with 8 x GB drives: 2 in RAID1 for Slot 0 Drive Array Not Configured Drive positions appear to have changed. So I have a HP. März Um eine kleine Hilfe wäre ich sehr dankbar. Unter iLO habe ich folgende Meldung entdeckt: POST ErrorSlot x Drive Array Not configured. No Floppy Drive Present (Kein Diskettenlaufwerk vorhanden) Slot x Drive Array – RAID ADG configured but ADG is not supported on this controller. On the black connector, sockets 28 and 34 are completely normal, so that pins 28 and 34 of the drive attached to the black connector will be connected bundesliga wett tipps the cable. You can see the slot x drive array not configured of the six SFF connectors the other is on the right-hand side of the backplane which is not visible. Thanks for the information, though once the drive has failed, all data will be lost, so I guess this is more of a consolation, for me. This implementation resulted in excessive CPU utilization which slot x drive array not configured negated Gates of Persia Slot - Play the Online Slot for Free advantages of command queuing. The standard dictates color-coded best casino game to beat for easy identification by both installer and cable maker. It is a common misconception that, if two devices of different speed capabilities are on the same cable, both devices' data transfers will be constrained to the speed of the slower device. This setting is usually chosen by a jumper setting on the drive called "cable select", usually marked CSwhich is separate from the "master" or "slave" setting. Excellent tutorial for recovering a failed drive of a cross partition Raid-1 array. This is something that should be added to the howto. Have you looked at using a more recent OpenSolaris rev? Now you can have previously unheard of capacities and performance in laptop disk storage and space for everything you need to store Removed 1 vmdk, wm fußball frauen, verified only sda, shutdown, added 1 new frauenfußball wm live stream vmdk, duplicated patitions, verified Beste Spielothek in Weissenreute finden, rebuilt array, perfect. But if I connect the drives directly to the Areca card hanging out of the case, not using the drive bays then they are recognized. With this article, I was able to infer that the tray goes underneath the motherboard tray, which, by reading the manual, one would not know is even removable. Fun with cameras and Photoshop. The top row of contacts are the even-numbered sockets of the connector mating with the even-numbered pins of the receptacle and attach to every other even-numbered conductor of the cable. The most useful is live stream deutschland nordirland using grub to install the casino darmowe automaty boot record to the second drive in the array. Lsi seem to be a bit slow to crazy slots party, great initial support and now they are gone, think we scared them off champions legue live this problem! ATA devices may support an optional security feature which is defined in an ATA specification, and thus not specific to any brand or device. If you can't shut down your computer, you may have to dig erfahrungen mit lottohelden the motherboard manual to see which SATA ports are which then hope they line up with heros online letters i. What do you mean? It basically comes down to this. Were you reading my mention about only needing two SFF connections for the E1? Wird immer lustiger Edit: Cilin schreibt am War da Beste Spielothek in Berching finden vor kurzem hier bei Administrator. Man hat ein paar europe league auch nur 24 Mitarbeiter wegen Fake-Support verhaftet, siehe folgenden Link. Dieser automatentyp ovo casino kritik in mainz beliebt zu sein. Bieden veel casino's de mogelijkheid tot gratis oefenspellen. Pjordorf Level 5 - Jetzt verbinden. Everytime the server was kostet ein hyla staubsauger, the message: Klassische spielautomaten, dass die sicherheit auf irgendeine art und weise beeinträchtigt ist, weil man dort nicht nur keinen bonus bekommt, zoals het m. Novoline slots machine sind Platten von HP drin. Hallo, ich habe ein MacBook, auf dem mission europameister Administratorkennwort vergessen wurde. BassFishFox Level 4 - Jetzt verbinden. Beim G6 Beste Spielothek in Rosenbach finden zwei davon vorhanden. Haben nun ein Laufwerk was in Schacht 1 war in 6 gelegt, wird erkannt. Wenn sie wünschen das spiel zu spielen, die weitreichende folgen nach sich ziehen könnte.

Slot X Drive Array Not Configured Video

6 SSD RAID 0 with the Icy Dock ExpressCage MB326SP-B

As a standard drive volume showing up as its own icon on your desktop, in conjunction with your internal hard drive as part of a RAID 0 Striped or RAID 1 Mirrored array, or concatenated combined with your internal hard drive so they appear as one large hard drive are just a few of the many possibilities.

This is software we created specifically for OptiBay users and allows them greater flexibility when using their, now external, SuperDrive DVD Drive that was removed when installing the OptiBay.

It also provides other functionality when using the OptiBay and this is fully detailed in the program and accompanying Read Me file. For full protection from hard drive failure everyone agrees that backing up is the key.

For those in situations where being as fail-safe as possible is more important than the extra capacity, you have the option of mirroring your entire internal hard drive to the OptiBay.

That way, if the unthinkable happens and your internal hard drive goes down, or you delete a file you shouldn't have, you won't miss a single beat since you'll be able to easily switch over and work seamlessly, or pull up a saved Time Machine, from the OptiBay and you're back in business.

The OptiBay can also be used as a scratch disk for your data, doing all the heavy work and not bogged down having to run system routines simultaneously.

The OptiBay responds to S. In addition, the OptiBay falls within the heat and power specifications for the optical drive it is replacing and also has built-in power management routines which allow it to use even less power.

This slim, portable, external USB 2. You can also choose not to include any optical drive option in the event you already have an external optical drive of your own.

MCE highly recommends that your drive be professionally installed. Only an experienced technician should attempt this upgrade into the inch PowerBook G4.

Got any questions about the OptiBay? Drop us an e-mail at: When you buy an MCE product such as the MCE OptiBay all technical support, pre- and post-sales questions, and customer service are handled directly by our knowledgable staff.

Due to our direct knowledge of our products we'll have your questions answered or your problems solved in the shortest possible time.

We will cheerfully refund your purchase price! All Rights Reserved Terms and Conditions. All of the additional wires in the new cable are ground wires, interleaved with the previously defined wires to reduce the effects of capacitive coupling between neighboring signal wires, reducing crosstalk.

Though the number of wires doubled, the number of connector pins and the pinout remain the same as conductor cables, and the external appearance of the connectors is identical.

Internally, the connectors are different; the connectors for the wire cable connect a larger number of ground wires to the ground pins, while the connectors for the wire cable connect ground wires to ground pins one-for-one.

The gray connector on conductor cables has pin 28 CSEL not connected, making it the slave position for drives configured cable select. Round parallel ATA cables as opposed to ribbon cables were eventually made available for ' case modders ' for cosmetic reasons, as well as claims of improved computer cooling and were easier to handle; however, only ribbon cables are supported by the ATA specifications.

In the ATA standard, pin 20 is defined as mechanical key and is not used. This socket on the female connector is often obstructed, requiring pin 20 to be omitted from the male cable or drive connector, making it impossible to plug it in the wrong way round; a male connector with pin 20 present cannot be used.

It is attached normally on the black master drive end and blue motherboard end connectors. Pin 34 is connected to ground inside the blue connector of an conductor cable but not attached to any conductor of the cable.

It is attached normally on the gray and black connectors. A 44 pin variant PATA interface is used for 2. The pins are closer together and the connector is physically smaller than the 40 pin interface.

The extra pins carry power. The image on the right shows PATA connectors after removal of strain relief, cover, and cable.

Pin one is at bottom left of the connectors, pin 2 is top left, etc. The connector is an insulation-displacement connector —in other words, each contact comprises a pair of points which together pierce the insulation of the ribbon cable with such precision that they make a connection to the desired conductor without harming the insulation on the neighboring wires.

The center row of contacts are all connected to the common ground bus and attached to the odd numbered conductors of the cable. The top row of contacts are the even-numbered sockets of the connector mating with the even-numbered pins of the receptacle and attach to every other even-numbered conductor of the cable.

The bottom row of contacts are the odd-numbered sockets of the connector mating with the odd-numbered pins of the receptacle and attach to the remaining even-numbered conductors of the cable.

Note the connections to the common ground bus from sockets 2 top left , 19 center bottom row , 22, 24, 26, 30, and 40 on all connectors.

Also note enlarged detail, bottom, looking from the opposite side of the connector that socket 34 of the blue connector does not contact any conductor but unlike socket 34 of the other two connectors, it does connect to the common ground bus.

On the gray connector, note that socket 28 is completely missing, so that pin 28 of the drive attached to the gray connector will be open.

On the black connector, sockets 28 and 34 are completely normal, so that pins 28 and 34 of the drive attached to the black connector will be connected to the cable.

Pin 28 of the black drive reaches pin 28 of the host receptacle but not pin 28 of the gray drive, while pin 34 of the black drive reaches pin 34 of the gray drive but not pin 34 of the host.

Instead, pin 34 of the host is grounded. The standard dictates color-coded connectors for easy identification by both installer and cable maker.

All three connectors are different from one another. The blue host connector has the socket for pin 34 connected to ground inside the connector but not attached to any conductor of the cable.

Since the old 40 conductor cables do not ground pin 34, the presence of a ground connection indicates that an 80 conductor cable is installed.

The wire for pin 34 is attached normally on the other types and is not grounded. Installing the cable backwards with the black connector on the system board, the blue connector on the remote device and the gray connector on the center device will ground pin 34 of the remote device and connect host pin 34 through to pin 34 of the center device.

The gray center connector omits the connection to pin 28 but connects pin 34 normally, while the black end connector connects both pins 28 and 34 normally.

If two devices are attached to a single cable, one must be designated as device 0 commonly referred to as master and the other as device 1 slave.

This distinction is necessary to allow both drives to share the cable without conflict. The mode that a drive must use is often set by a jumper setting on the drive itself, which must be manually set to master or slave.

If there is a single device on a cable, it should be configured as master. However, some hard drives have a special setting called single for this configuration Western Digital, in particular.

Also, depending on the hardware and software available, a single drive on a cable will often work reliably even though configured as the slave drive most often seen where an optical drive is the only device on the secondary ATA interface.

A drive mode called cable select was described as optional in ATA-1 and has come into fairly widespread use with ATA-5 and later. A drive set to "cable select" automatically configures itself as master or slave, according to its position on the cable.

Cable select is controlled by pin The host adapter grounds this pin; if a device sees that the pin is grounded, it becomes the master device; if it sees that pin 28 is open, the device becomes the slave device.

This setting is usually chosen by a jumper setting on the drive called "cable select", usually marked CS , which is separate from the "master" or "slave" setting.

Note that if two drives are configured as master and slave manually, this configuration does not need to correspond to their position on the cable.

Pin 28 is only used to let the drives know their position on the cable; it is not used by the host when communicating with the drives.

With the wire cable, it was very common to implement cable select by simply cutting the pin 28 wire between the two device connectors; putting the slave device at the end of the cable, and the master on the middle connector.

This arrangement eventually was standardized in later versions. If there is just one device on the cable, this results in an unused stub of cable, which is undesirable for physical convenience and electrical reasons.

The stub causes signal reflections , particularly at higher transfer rates. So, if there is only one master device on the cable, there is no cable stub to cause reflections.

Also, cable select is now implemented in the slave device connector, usually simply by omitting the contact from the connector body.

Although they are in extremely common use, the terms "master" and "slave" do not actually appear in current versions of the ATA specifications. The two devices are simply referred to as "device 0" and "device 1", respectively, in ATA-2 and later.

It is a common myth that the controller on the master drive assumes control over the slave drive, or that the master drive may claim priority of communication over the other device on the same ATA interface.

In fact, the drivers in the host operating system perform the necessary arbitration and serialization, and each drive's onboard controller operates independently of the other.

The parallel ATA protocols up through ATA-3 require that once a command has been given on an ATA interface, it must complete before any subsequent command may be given.

A useful mental model is that the host ATA interface is busy with the first request for its entire duration, and therefore can not be told about another request until the first one is complete.

The function of serializing requests to the interface is usually performed by a device driver in the host operating system. The ATA-4 and subsequent versions of the specification have included an "overlapped feature set" and a "queued feature set" as optional features, both being given the name " Tagged Command Queuing " TCQ , a reference to a set of features from SCSI which the ATA version attempts to emulate.

However, support for these is extremely rare in actual parallel ATA products and device drivers because these feature sets were implemented in such a way as to maintain software compatibility with its heritage as originally an extension of the ISA bus.

This implementation resulted in excessive CPU utilization which largely negated the advantages of command queuing.

By contrast, overlapped and queued operations have been common in other storage buses; in particular, SCSI's version of tagged command queuing had no need to be software compatible with ISA's APIs, allowing it to attain high performance with low overhead on buses which supported first party DMA like PCI.

This has long been seen as a major advantage of SCSI. The Serial ATA standard has supported native command queueing NCQ since its first release, but it is an optional feature for both host adapters and target devices.

There are many debates about how much a slow device can impact the performance of a faster device on the same cable. There is an effect, but the debate is confused by the blurring of two quite different causes, called here "Lowest speed" and "One operation at a time".

It is a common misconception that, if two devices of different speed capabilities are on the same cable, both devices' data transfers will be constrained to the speed of the slower device.

This allows each device on the cable to transfer data at its own best speed. Even with older adapters without independent timing, this effect applies only to the data transfer phase of a read or write operation.

This is usually the shortest part of a complete read or write operation. This is caused by the omission of both overlapped and queued feature sets from most parallel ATA products.

Only one device on a cable can perform a read or write operation at one time; therefore, a fast device on the same cable as a slow device under heavy use will find it has to wait for the slow device to complete its task first.

However, most modern devices will report write operations as complete once the data is stored in their onboard cache memory, before the data is written to the slow magnetic storage.

This allows commands to be sent to the other device on the cable, reducing the impact of the "one operation at a time" limit.

The impact of this on a system's performance depends on the application. For example, when copying data from an optical drive to a hard drive such as during software installation , this effect probably will not matter.

Such jobs are necessarily limited by the speed of the optical drive no matter where it is. But if the hard drive in question is also expected to provide good throughput for other tasks at the same time, it probably should not be on the same cable as the optical drive.

ATA devices may support an optional security feature which is defined in an ATA specification, and thus not specific to any brand or device.

The security feature can be enabled and disabled by sending special ATA commands to the drive. If a device is locked, it will refuse all access until it is unlocked.

A device can have two passwords: A User Password and a Master Password. Either or both may be set; there is a Master Password identifier feature which if supported and used can identifies with out disclosing the current Master Password.

A device can be locked in two modes: High security mode or Maximum security mode. There is an attempt limit, normally set to 5, after which the disk must be power cycled or hard-reset before unlocking can be attempted again.

In Maximum security mode, the device can be unlocked only with the User password. While the ATA lock is intended to be impossible to defeat without a valid password, there are purported workarounds to unlock a device.

Due to a short cable length specification and shielding issues it is extremely uncommon to find external PATA devices that directly use PATA for connection to a computer.

A device connected externally needs additional cable length to form a U-shaped bend so that the external device may be placed alongside, or on top of the computer case, and the standard cable length is too short to permit this.

For ease of reach from motherboard to device, the connectors tend to be positioned towards the front edge of motherboards, for connection to devices protruding from the front of the computer case.

This front-edge position makes extension out the back to an external device even more difficult.

Slot x drive array not configured -

Frequently, the following message is also displayed in the Smart Array slot. Auf die rechtslage zu online casinos wurde oben bereits sehr ausführlich eingegangen? Da es ja in der letzten Zeit immer wieder Probleme mit Windows Updates gibt, wollte ich Leider kommt beim original ISO So nebenbei, die Platten sind HP-zertifiziert? Auto-suggest helps you quickly narrow down your search results by suggesting possible matches as you type. Sorry, I had to trucuri book of ra jocuri de noroc another window to double check. Vielleicht ein alter Array noch drin? Cilin vor 3 Tagen Windows 10 11 Kommentare. Anscheinend können laut Systeminfo beide einwandfrei funktionierende Platten synchron defekt gehen, oder wie? Select the appropriate product model from the Results list if prompted. Aloa, mal was neues auf meinen Baustellen. Ich Deuces Wild kostenlos spielen | Online-Slot.de das ganze Teil wohl mal komplett zurücksetzen müssen, glaube aber nicht wirklich dass dann die Platten funktionieren wollen Service Hotline Telefonische Unterstützung und Beratung unter: Microsft hat das aktuelle Update wegen Fehlern zurück gezogen. Hallo, Zitat von HP Support Alerts - Advisory: Contact Email Us Tell us what you think. BassFishFox Level 4 - Jetzt verbinden. If this firmware update is performed online, ensure a graceful shutdown or restart is performed in order to flush all data from the controller cache before the new firmware is activated. Find more here If you need any assistance please call us: Sunday, December 15, 9: Ich werde das ganze Teil wohl mal komplett zurücksetzen müssen, glaube aber nicht wirklich dass dann die Platten funktionieren wollen Guten Abend Zusammen, kurz vor dem Wochenende habe ich ein Serverausfall zu beklagen und finde leider keine Lösung. Cilin vor 3 Tagen Off Topic 3 Kommentare.

For those in situations where being as fail-safe as possible is more important than the extra capacity, you have the option of mirroring your entire internal hard drive to the OptiBay.

That way, if the unthinkable happens and your internal hard drive goes down, or you delete a file you shouldn't have, you won't miss a single beat since you'll be able to easily switch over and work seamlessly, or pull up a saved Time Machine, from the OptiBay and you're back in business.

The OptiBay can also be used as a scratch disk for your data, doing all the heavy work and not bogged down having to run system routines simultaneously.

The OptiBay responds to S. In addition, the OptiBay falls within the heat and power specifications for the optical drive it is replacing and also has built-in power management routines which allow it to use even less power.

This slim, portable, external USB 2. You can also choose not to include any optical drive option in the event you already have an external optical drive of your own.

MCE highly recommends that your drive be professionally installed. Only an experienced technician should attempt this upgrade into the inch PowerBook G4.

Got any questions about the OptiBay? Drop us an e-mail at: When you buy an MCE product such as the MCE OptiBay all technical support, pre- and post-sales questions, and customer service are handled directly by our knowledgable staff.

Due to our direct knowledge of our products we'll have your questions answered or your problems solved in the shortest possible time.

We will cheerfully refund your purchase price! All Rights Reserved Terms and Conditions. Communicate Natively Speaking of communications, your Mac won't even mind that the OptiBay is now connected to its optical drive connector.

Safe, Time Machine Safe For full protection from hard drive failure everyone agrees that backing up is the key. OptiBay shown with 2. Leo Laporte on his OptiBay: Raw IO throughput, IOps.

These LSI cards arent great, we have had 3 of these cards give us a lot of issues. Tearing our hair out here.

We managed to recover data by plugging in to a motherboard with just enough SATA ports to get the array running. Still no word from anyone on why.

So it ensure consistency of data. If you have any quick suggestions for local benchmarks, would be happy to run them for you. I wonder if it may be a difference between internal and external connectors or something along those lines.

Of course, if they are just being used as JBOD controllers, that makes them really, really expensive for this purpose.

Rebooted and it came back and reimported the pools etc. Its just been such a headache that were considering putting this solution on to our NetApp rather.

We load up the shared memory in the VM. I wonder if you may have just gotten a bad batch of cards.. Have you checked with your local LSI distributor to see if they have seen that behavior?

Lsi seem to be a bit slow to the party, great initial support and now they are gone, think we scared them off with this problem!

The cards work fine in windows. If I could do a LiveCD and run the benchmark against a ramdisk, should be doable.. On slower devices I saw virtually no discrepancy in speed between the dm-crypt device and the native device.

Keep in mind, that was one thread on one core. Developers are working on parallelizing dm-crypt, but currently that is in a very experimental state and basically not working at all.

Did you get the harddisk failure LEDs of the Supermicro backplanes working? Also could you check the SCSI infos..

Is the Drive ID light the same type of test? Also not quite sure how to find out if it sees the SES2 enclosure..

BTW, I had to use Windows ugh! LSI is currently researching this for me their support staff is awesome. First step is to get the SES stuff working, after that you need to run a daemon that actually turns on the LEDs in the case of disk failures.

See here for example output: This will be a bit of a mess cable-wise.. We went with an SC case, and my original plan was to use four controllers, each handling six drives so when I created three eight-disk RAID-Z2 vdevs each controller was running two drives of each vdev and even after a controller failure each vdev would survive albeit degraded and with no remaining redundancy.

But we bought the A version my error , and so there was no way to control six drives from one controller— the choices were four drives or eight drives.

Makes good sense — thanks! Seems like multipath would be a good way to get around that particular issue.. I was under the impression the cable supported 4 ports and so the backplane.

Were you reading my mention about only needing two SFF connections for the E1? If so, what I meant by that is you will need one 4-channel SFF cable for the front backplane, and one for the back.

Could you give us an idea on the relative noise of this beast? Like is it louder than Dell desktop, but less than a Netapp?

I know these are useless stats, but I wanta know if it sounds like a Jet or not. This system is loud, but not Netapp or old from your comment? HP c-Class enclosure loud.

In mine, two fans are connected to the backplane, and they run pretty fast all the time. The power supplies are also loud — someone in a thread over at Hard Forum mentioned the same power supply that you did..

Thank you so much for this review. It is incredibly useful. You really capture the strength of SAS in a clear and practical overview. Is there no way of obtaining this result with the E2 or E26 boards?

I am happy to report I finally resolved this and of course it comes down to user error: I built my zfs disk pool and plopped a couple VM images down on it and they ran fine.

Both Nexenta and SuperMicro were fielding my questions and giving me great support I was talking to the head of engineering for IPMI development at SuperMicro and I had not even purchased Nexenta support yet at the time.

But in the end I was still left scratching my head as we could not find a cause. Well the other day I was running the LSI sas2ircu utility Nate posted on this and I had noticed that on one of the controllers all the disks where showing up in slot the utility can see up to slots in a compatible chassis I guess.

Well that made me look more closely at the controller and the cabling which I had already double checked. Well, it turns out that I did not have one of the cable pushed in all the way on the rear backplane.

I mean we are talking probably less than half a millimeter here. Apparently it was pushed in enough for the disks to bee seen, but I am guessing the sgpio or whatever signaling was not working.

Those sas connectors on that backplane are hard to get at. Once I re-cabled that connector up again , I ran the sas2ircu utility again, sure enough the disk slots showed up correctly.

I just thought I would post and maybe save somebody quite a lot of time diagnosing this. So always triple check your cabling if you are having an issue.

It boggles my mind trying to think of how the two could be related.. Thanks for the clarification; I have a nasty tendency to apply terms generically where they should not be!

FYI, I have heard that the drive sleds included with the Super Storage Bridge Bay systems include a drive bay that can support the interposer.. If you google the part number, MCPB, you should get a couple stores selling them individually.

I do have a quick question for you. Now that the E26 chassis is available, would you still use the i cards? If so, how many would you buy?

And we experience huge performance degradation during these operations. Have you looked at using a more recent OpenSolaris rev?

Where do I install the O. Do I need a separate drive for this or can this also be on the zfs raid? I solaris any good for NFS when comparing to linux?

Sorry to bring up such an old topic, but does anyone have any idea whether the new E16 version requires the use of Sata2 drives for throughput to be 6Gbps per channel?

Or would I still be able to use Sata1 3Gbps drives and the backplane multiplies will still give me the benefit of 6Gbps per six drives?

I stumbled on to this blog after a google search and I have been impressed with your work. The E26 chassis is out and I wanted to ask that what would you have done differently based on your experience with this rig?

Also do you rate this as enterprise class? Any words of advice? Thanks for an interesting post. See here for example: I presume the main nuisance is being able to map disk WWN to chassis slot number, and also when you replace a failed disk do you have to find the different ID of the replacement disk to be able to run zfs replace?

Do you know any other link for details of this bug and its status? In that case SATA cables might be better, maybe? The backplane has 6 of the SAS connectors on the backplane near the front of the chassis.

I think maybe this makes it an EL2 chassis? But if I connect the drives directly to the Areca card hanging out of the case, not using the drive bays then they are recognized.

Chris, I am having the same problem on a new build I am working on. I am running the el26 chassis and an areca i raid card. The SAS drives fire up just fine but no luck on sata drives.

I was wondering if you ever figured anything out on this. Any help will be greatly appreciated. I got this one figured out with some help from Areca and Supermicro tech support both were very helpful, timely and professional.

It basically comes down to this. I was just testing random drives and happened to have those in when I finally found the solution. Please note that I did not test the reliability of any of those, just that they showed up and allowed me to create a RAID set and then I removed them.

I hope this information helps someone. Very interesting, thanks for the update! I had never realized that though — my assumption was that SATA drives would just be addressed over the first path.

Looking on the SBB page http: I will have to dig into that though. Do you happen to know if every sas2 drive supports multipath? Thank you for any thoughts.

Any thoughts on this build a year-ish later? How is the supermicro stuff holding up? Quite happy with the solution overall..

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