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Text File | 1990-10-29 | 6KB | 127 lines

SEAGATE TECHNOLOGY, INC. Technical Support Bulletin Board (408)438-8771 [300-9600 HST, MNP 3/5, N-8-1] About Choosing a Drive Type in an AT The drive types for SCSI, RLL, and ESDI interface drives are generally easy to determine, especially the SCSI drives. SCSI Almost all SCSI drives use DRIVE TYPE 0 or NONE, as the host adapter bios and the drive communicate together to establish the drive geometry. The low-level formatting routines are accessed on the host adapter through DEBUG. After the low-level format, follow the instructions for your DOS version for partitioning and system format. Note: SCSI drives from the Seagate Wren and Swift families are already low-level formatted at the factory. RLL / ESDI RLL and ESDI drives are usually not represented at all in the internal drive tables and consequently the controllers for these drives have onboard a ROM BIOS which either contains its own internal list of choices for the interface or else provides the ability to dynamically configure (define) the controller to the specific geometry of the drive. In the case of the ESDI interface, the controller gets parameters directly from the drive with a mode sense equivalent command. Unlike the SCSI, the CMOS drive type should start at 0 or NONE at the start of the installation (low level format through DEBUG - consult your controller manual for instructions), but it may be reset to DRIVE TYPE 1 by the controller card. Many of the older AT's only provided 14 (MFM only) or so drive types to choose from in the CMOS. The middle-aged AT's usually have up to 46 (still usually only MFM) types. Some newer AT's have drive types which begin to include direct support for the popular RLL and ESDI drives. If you have this newer kind of CMOS then by all means pick the one that matches the drive and DISABLE the controller Bios. (Note: This may also disable the controller's caching feature). Likewise, most new machines have a "User Definable" or "Custom" drive type that can be created and saved in the CMOS, thus providing a standard drive type. "User Definable" drive types will usually not work with most non-MS/PC-DOS applications. A special note on ESDI and other drives that have more than 1024 cylinders. Since DOS cannot access cylinders above this 1024 limit, a translation scheme may be elected in the controller's bios. As the number of Logical Block Address (LBAs) is defined as CYLINDERS*HEADS*SECTORS PER TRACK, translations that equal the same number of LBAs with the cylinder count below the 1024 limit will be devised. The controller bios will need to be ENABLED in order to utilize translations schemes. (e.g. Many popular controllers increase the number of sectors and/or heads and decrease the # of cylinders to achieve an equivalent number of LBAs. See your controller manual for details.) After low-level formatting, follow the instructions for your DOS version for partitioning and system format. AT / IDE This idea of translation schemes bring us to the AT or IDE (Imbedded Drive Electronics) interface. These drives are intelligent in that they can use the geometry that represents their true physical parameters or else they can "mimic" other drive geometries (or translations) that equal or are very close to, but NOT exceeding, the same number of logical blocks. Note: Translate LBAs <= Native LBAs. Many AT/IDE drives have physical cylinder counts that are greater than 1024. Therefore, for DOS users, it is necessary to utilize the translate feature by using a geometry that keeps the cylinder count below 1024. In order of preference, choose the first that fits your system: 1. Does the CMOS have a drive type that matches your drive? no? 2. Does the CMOS have a drive type that has the same number of formatted megabytes? no? 3. Does the CMOS have a "custom" or "user definable" drive type option you can use? If so, use a translation geometry to keep the cylinder count below the DOS 1024 limit. no? 4. Do you have the Disk Manager program to provide a software driven solution? The Disk Manager will run automatically to perform the partitioning and system format. no? 5. Pick the drive type that comes closest to, but not exceeding, the formatted capacity of your drive. The final formatted capacity of the drive will be equal to the drive type chosen. *** Warning! ALL AT drives from Seagate are already low-level formatted at the factory. MFM (ST412 interface) Finally, the MFM drives and their associated drive types are next. If the internal drive type table lists the exact geometry, great. If not, then check to see if a "Custom" or "User Definable" CMOS option is available. Also, some AT 16-bit MFM controllers provide an onboard BIOS which will allow the unique geometry of the drive to be dynamically configured (our Seagate ST21M/22M MFM controllers have this VALUABLE feature). Otherwise, a drive type match that is close but not exceeding either the cylinder or head values is the only choice left. An exact match in the head count is definitely preferred when getting a "close" match. When there is no direct match in the internal drive type tables, a partitioning program may be needed to provide a software driven translation solution in order to achieve full capacity. Keep in mind that the drive will only format out to the capacity of the chosen drive type when not using partitioning software. In the event that the ST412 Interface drive has more than 1024 cylinders, a partitioning program will be needed in order to achieve full capacity. *** End-of-File DRIVETYP.TXT ***