Hard Drive Fail to Boot Diagnosis

Are all installed IDE drives properly identified by the BIOS and displayed on the start-up screen? Any modern PC should be able to identify the drive by model number, brand, capacity, and usually the transfer mode. Some brand name PCs may not display a start-up BIOS registration screen, so you'll have to enter CMOS Setup to view the information. If the key stroke required to enter CMOS Setup isn't displayed on the screen as the PC begins to boot, you'll need to look it up in the documentation or on the Internet. Common keys used to access CMOS Setup at boot are, DEL, F1 and F2.

Any time two IDE drives share a single cable, the computer needs a way to tell them apart. This can be accomplished by using jumpers on the drives to set one to "Master drive" and the other to "Slave drive" or through selection by the cable. The Master/Slave setting is fixed by a single jumper, usually on the back end of the drive between the power socket and the IDE connector. The labeling for the jumpers is usually in shorthand, "M" for Master and "S" for Slave. Some older drives include a jumper for "Single" when the drive is the only drive installed on the ribbon. Since all modern computers support both a primary and a secondary IDE interface, it's not necessary with a two drive system to hang them both on the same cable. The boot hard drive should always be the Master on the primary IDE interface. If the CD, DVD, or any other IDE drive is to share the same cable, it should be set to Slave.
Most new IDE drives support Cable Select (CS) which means the pin 28 connection in the cable will determine which drive is Master and which is Slave. The 80 wire ribbon cables that should come with all new motherboards and drives support cables select and have color coded connectors: Motherboard IDE Connector - Blue, Slave IDE connector (middle connector on cable) - Grey, Master - Black. Cable select is supported by custom 40 wire ribbon cable and older drives; these are usually found in brand-name systems. The jumpers on both drives should be set to cable select if you aren't setting one as Master and the other as Slave.
If the drives still don't load up properly, make sure the power cable is seated in the drive's power socket, which can take a bit of force. The ribbon cable connectors must also be seated all the way into the IDE port on both the drives and the motherboard, or adapter card if you're are using a RAID adapter. The most common reason for a cabling failure of this sort is that the connection was partially dislodged when you were working in the case on something else. Try a new ribbon cable. While cable failures are rare, it can happen, and it's a favorite trick of investigative reporters writing articles about computer repair rip-offs to intentionally introduce a bad IDE cable into a PC just to see how many parts a shop will sell them.

Does the hard drive spin up? I blog it lately this in the power supply diagnostics, but I'll repeat it here. When the PC powers up, you should hear the hard drive motor spinning up the drive and the gentle clunking sound of the read/wrote head seeking. If I can't tell whether or not the drive is spinning up, even with my fingers on the drive's top cover. A spun up drive resists a slow twisting movement just like a gyroscope. Don't flip it quickly or play with it or you may damage the drive, not to mention touching the circuitry against a conductor can cause a short. Just power down, put the drive back in and continue with the diagnostics. If it's a SCSI drive, you're on the wrong diagnostics page, but maybe some new IDE hard drive will adopt the SCSI practice of a jumper to delay spin up. SCSI drives offer this option since you can install up to 15 on a single controller, and spinning them all up at once would cause the hardiest power supply to droop. Try swapping the power lead or running the drive on another power supply. Try the hard drive in another PC before you conclude that it's dead. USB enclosures are the easiest way to test hard drives, and I just put up a page for recovering laptop hard drive data with a USB enclosure.
Are the ribbon cable connectors and the IDE ports on the drives and the motherboard keyed such that the cable can only go one way? Check the pin 1 location on all of the connectors and ports. On IDE drives, pin 1 is traditionally located next to the power cord, but it's not a 100% rule for all time. Motherboards can be pretty strange about cable ports. The pin 1 location on the motherboard is normally marked with an arrow, a dot, a white square, anything to show one end of the interface as different from the other. If the motherboard won't register any drive you attach, even on new cables, and if those drives are spinning up, it indicates that either the IDE controller is bad or all the drives you've tried are bad. You can try running on the secondary IDE controller if you've only been working with the primary, but the next stop is installing an add-in IDE adapter or replacing the motherboard.
The troubleshooting procedures for IDE drives that aren't recognized by the BIOS are identical, whether they are hard drives, CDs, DVDs, tapes or any other IDE device. If the BIOS registers the installed IDE drives correctly and the drive you're having problems with is a CD or DVD, proceed to the CD or DVD Failure diagnostics.Does the BIOS report the transfer mode correctly, ie, UDMA/100, ATA/66? UDMA must be enabled in CMOS, or set on "Auto," for high speed transfers. All new IDE hard drives require the 80 wire ribbon cable, at least for high speed operation. You can check CMOS Setup to see if there's a manual override to select the higher speed transfers, though the automatic settings should pick it up. Also try isolating the hard drive as the sole device on the primary controller. If you're adding a new hard drive to an older system, it's possible that motherboard / BIOS simply doesn't support the faster transfer, even with the new cable. I'd be leery of flashing the BIOS to try to get the speed up, even if the motherboard manufacturer supplies it. Check the settings in CMOS and make sure the drive transfer rate isn't being turned down to some ancient PIO mode. CMOS may allow you to set both the PIO mode and the UDMA mode for each individual drive. The default setting should be "Auto" for all of these. Check all of the operating system related drive settings. Make sure you have enough RAM installed for the applications you are running. If the system bogs every time you open a new window or scroll down a page and you hear the hard drive seeking itself silly, you're probably swapping out to virtual memory on the hard drive too often. RAM is cheap, 256 MB isn't a bad investment in your sanity.
Can you install an operating system, or access the drive with any generation of FDISK to create or view partitions? Check again that the ribbon cable is fully and evenly seated and there aren't any "read only" jumpers set on the drive (normally only found on SCSI's). Try a new ribbon cable. If this doesn't do it, it sounds like either the drive's MBR is messed up, or there's a problem with the way the software is communicating with the BIOS, which really shouldn't happen. If you don't mind losing whatever info is on the drive, you can try FDISK/MBR and see if it helps