(4.1) Installation

I am having trouble installing OS/2 Warp. What should I do?

First consult the printed manual and other materials accompanying OS/2 Warp. Make sure your PC meets the system requirements in (2.1) Hardware Requirements. And if the following instructions do not help, fall back on IBM's free technical support (phone 800-992-4777 in the United States). You can also use the (4.10) Problem Report Form. For help with printing, see (2.3) Printer Support.

Configuring PC Devices

The most common problems in installing and configuring OS/2 Warp occur because two or more devices in your PC are sharing interrupts (IRQs), port I/O addresses, memory address space, or DMA (Direct Memory Access) channels. Any system with AT bus slots (even systems with only EISA or PCMCIA slots) can exhibit configuration problems to at least some degree if the various devices are not configured properly. (Microchannel systems are designed to be Plug and Play and are the only systems which avoid these problems. OS/2 Warp supports Plug and Play for PCMCIA, which prevents potential configuration problems unless you add a docking station with AT bus and/or VESA Localbus slots.) Such configuration problems are actually not related to OS/2 Warp in particular; they are due to the way PC hardware is designed and can affect all software (see below).

More precisely, if your PC is using any AT bus or VESA Localbus adapters, you must be extremely careful to configure these cards properly so that no system resources (including IRQs) are used by more than one device. Unfortunately so-called Plug and Play (for AT bus) will not be the answer to configuration problems, since any AT bus adapter which does not support the Plug and Play specification (very few do today) can (and often will) come into conflict with other devices, and even a Plug and Play PC probably will not be able to determine what resources that "old" card is using. In short, be careful.

How to configure the devices in your PC will depend on both the device and the PC. With Microchannel PCs (designed to be Plug and Play ever since their introduction), configuration is done entirely in software, automatically, using a Reference Diskette. With AT bus cards, DIP (Dual Inline Package) switches and jumpers are the norm. However, devices which are built into PCs with AT bus and/or VESA Localbus slots are sometimes configured using software, either on diskette or built into the PC's ROM BIOS setup program.

If you do have a PC with AT bus and/or VESA Localbus slots, you should write down the names of all the devices in your system and the IRQs, I/O addresses, memory space, and DMA channels that they use. Create a chart with this information, and keep it with your PC. Every time you add or remove a device (or change a device's configuration), you should record these changes on your PC's chart. Use the information below as a guide to get you started, bearing in mind that PCs do vary, and you will need to confirm each piece of information. In OS/2 Warp you can use the RMVIEW command to explore your PC's use of resources (as seen by OS/2 Warp). At any OS/2 Warp command line, type RMVIEW /? for an explanation of the command's options.

As stated above, there are four kinds of resources which any device in your PC can use:

• Interrupts (IRQs). When an event occurs which your PC needs to respond to (such as clicking a mouse button), a signal (called an interrupt) is sent to your PC's processor by the interrupt controller. The interrupt controllers (there are two) are responsible for monitoring sixteen IRQ lines, numbered 0 to 15. The first controller responds to IRQs 0 to 7. The second controller handles 8 to 15. Only the first controller is actually allowed to "talk" to your computer's processor. If the second controller receives an interrupt (for example, as a result of a network card signalling incoming information), it signals this event to the first controller by triggering IRQ number 2 and passing the true IRQ number (8 to 15) to the first controller.

  This design is called a "cascade," and it is important to understand because many adapters which you can install inside your PC claim to use IRQ 2. In fact, they are actually using IRQ 9. When the AT bus was created (as an upgrade from the 8-bit slots found in the original IBM PC and PC/XT), this cascade design was adopted so that IRQs 8 to 15 could be added without a radical redesign. Since IRQ 2 was needed so that the first controller could "listen" to the second, the original IRQ 2 was rewired to IRQ 9. Therefore, 8-bit cards are able to use IRQs 0 to 7 (except 2) and 9. Any 16-bit AT bus cards are able to use IRQs 0 to 15 (except 2), for a total of 15 possible interrupts. Still, the documentation accompanying many adapters suggests that IRQ 2 can be used when, in fact, IRQ 2 was rewired (as part of the card slot) to trigger IRQ 9 long ago.

  No devices in your PC should ever share IRQs (unless you have a Microchannel PC, where sharing of these fifteen available IRQs is allowed.) Most PCs use the following default IRQ assignments:

  IRQ

  Common Use

  0

  Timer (Real Time Clock)

  1

  Keyboard

  2

  Cascade

  3

  COM2 (Communications Port 2)

  4

  COM1 (Communications Port 1)

  5

  LPT2 (Printer Port 2)

  6

  Diskette Controller

  7

  LPT1 (Printer Port 1)

  8

  Math Coprocessor

  9

  Available

  10

  Available

  11

  Available

  12

  PS/2 Style Mouse

  13

  Available

  14

  Hard Disk Controller

  15

  Available

  "Available" simply means that typically (not always) these IRQs are not prereserved for particular devices and, if not already taken, may be used by other adapters.

• Port I/O Addresses. Most devices in your PC require a range of memory addresses (usually 8 bytes) located low in the range of possible addresses. These are called port I/O addreses, and, for shorthand, they are typically recorded using just one number three digits in length. For example, COM2 (communications port 2) normally uses the port I/O addresses 02F8 through 02FF (hexadecimal), but often the documentation for a device which can use a COM2 assignment simply refers to the address range required as 2F8 (sometimes called a base address, or base I/O address).

  Port I/O addresses are locations in memory where your PC's processor can place information (to be received by a device) or read information (to be retrieved from a device). So, for example, one of the available eight port I/O addresses used by COM2 is used for receiving information from, for example, a modem. A second location is used to pass information on to the modem, to be sent out. Each device which requires port I/O addresses may not use all eight available, but, nonetheless, port I/O addresses are reserved in blocks of eight. No other device in your PC can share another device's port I/O addresses.

  Fortunately, conflicts involving port I/O addresses are rare. To avoid conflicts, make sure that you record any port I/O address blocks used by any of the add-in cards inside your PC. Devices which are built into your PC (such as your PC's keyboard controller) use standard port I/O addresses which are well understood by manufacturers of add-in cards, and so add-in cards cannot be set to use these blocks. Still, one adapter can conflict with another if your PC's chart is not recorded carefully. COM ports use the following port I/O addresses by default:

  Device

  Port I/O Address Block

  COM1

  3F8 to 3FF

  COM2

  2F8 to 2FF

  COM3

  3E8 to 3EF

  COM4

  2E8 to 2EF

  Some 8514/A compatible video cards (notably those made by ATI) may use port I/O addresses which are ordinarily reserved for COM3 or COM4. Reconfigure COM3 and/or COM4 (if present) to avoid conflicts. Common add-in devices which use port I/O addresses include network, SCSI, and sound cards.

• Memory Address Space. In the PC design, a range of memory addresses (typically from hexadecimal A000:00 to DFFF:FF) was set aside for the use of add-in adapters (including video). Adapters can use banks of memory (of varying sizes) in this range to allow your PC's processor to run programs from ROM (Read Only Memory) located on the adapter and to communicate with the adapter (for example, by placing information into video memory for display on your PC's screen). Video cards, SCSI adapters, video capture cards, network cards, and even sound cards are common users of memory address space in this region.
• DMA Channels. DMA (Direct Memory Access) channels are used by devices which need to access your PC's main memory (RAM) directly, without requiring attention from your PC's processor. Using DMA can help increase the responsiveness of your system, freeing your PC's processor to do other things. Like IRQs, DMA channels are numbered 0 to 15, but all sixteen are available (none are cascaded). DMA channel 2 is normally reserved for the diskette controller. Most others are available for use by some SCSI adapters, network cards, sound cards, video capture cards, tape backup controllers, some CD-ROM adapters, and other devices. As with any other PC resource, DMA channels cannot be shared. Conflicts can cause your system to stop working.

If you think configuring PCs with AT bus and/or Localbus slots is harder than it should be, and requires more expertise than should be necessary, you are probably right. However, there are solutions (both current and proposed) to these hardware configuration nightmares. One has been on the market since 1987, namely Microchannel. The PCI bus is also configured through software, automatically, providing Plug and Play. And OS/2 Warp supports Plug and Play for PCMCIA. Some manufacturers and vendors are working on Plug and Play for the AT bus. However, these technologies for the older AT bus (and for VESA Localbus) don't address the core problem, namely systems which have the capability to accept adapters which are not designed for any Plug and Play scheme. Nearly all the AT bus and VESA Localbus adapters on the market today, not to mention all such adapters purchased over the years, do not support Plug and Play. Drop such a card into even the best Plug and Play PC, and suddenly you are back trying to figure out which devices are using which resources in order to resolve conflicts.

IBM recommends that, as a consumer, regardless of the software you choose to run, you purchase a PC with a full understanding of these issues. If you choose a PC with Microchannel, PCI, and/or PCMCIA slots exclusively, you will be buying a system which is much easier to configure, saving you time and money. (If these designs mean the PC is more expensive, it may be worth the higher initial expense to save time and money over the life of the system.) If you purchase a system with EISA, AT bus, and/or Localbus slots, in order to make such a system easy to configure with Plug and Play you should demand from the manufacturer both Plug and Play BIOS (in the system itself) and all Plug and Play adapters. The moment an adapter which is not Plug and Play ready is added to such a system is the moment when your configuration work might begin.

Other Installation Issues

• Be sure your CMOS setup parameters are set correctly, especially those relating to floppy drives. RAM should be given sufficient wait states and precharge cycles. Test with cache memory and/or shadow RAM disabled if necessary. The AT bus should run at 8 MHz. For best performance, make sure all your RAM is set to be cacheable.
• Older Adaptec SCSI adapters may require a free BIOS upgrade to recognize hard disks larger than 1 GB. Adaptec can be reached at 800-442-7274 or 408-945-8600. Some Quantum LPS105AT IDE hard disks require a free ROM update (to Version 2.6) from the manufacturer to work with OS/2.
• If your AMI keyboard BIOS is below Revision F you may need an update. Contact Washburn & Assoc. (phone 716-248-3627) for an inexpensive replacement.
• Check to make sure keyboard DIP switches are set correctly. For example, if the keyboard is attached to a system with an AT bus it should typically be switched to "AT" mode.
• "Autoswitching" on non-IBM EGA adapters should be disabled (usually with a DIP switch or jumper setting). In rare cases it may be necessary to switch third party VGA/SuperVGA adapters into 8-bit mode and/or disable "autosense." See (2.2) SuperVGA Support.
• OS/2 Warp is particularly sensitive to bad RAM or cache memory (often reflected in TRAP 0002 error messages). Use a thorough RAM testing utility, and try not to mix 9-chip and 3-chip SIMM/SIPP memory modules. When upgrading, avoid adding RAM which is not rated (in nanoseconds) at least as fast (i.e. with an equal or lower number) as the RAM already in the system.
• Allow several minutes for OS/2 Warp to build your desktop (and display icons) at the end of installation -- take the Tutorial offered to you in the meantime. Be sure to take a look at the documents found in the Information folder, too.
• Try disconnecting any tape backup device if "Cannot find COUNTRY.SYS" messages are encountered when booting OS/2 Warp. This error message may also indicate that OS/2 Warp cannot find its boot drive, usually because of an improperly loaded or omitted hard disk .ADD device driver.
• An Always IN-2000 SCSI adapter with BIOS 3.06A or 3.20 requires an updated version from the manufacturer. A companion 8-pin serial PROM chip may also need to be updated. Contact Always at 818-597-9595. Also ask about non-IBMINT13.I13 driver support.
• The TI TM4000 notebook may require a BIOS update to run OS/2 Warp; phone 817-771-5856 for help. Also ask about an OS/2 Warp driver for the QuickPort trackball. Before installing OS/2 Warp on this machine, be sure to set Advanced OS Power off and HDD Motor Timeout Always On in the second page of the machine's setup screen.
• For the technically advanced user, the following list of TRAP error codes may help you in addressing OS/2 Warp problems. Report any such TRAPs to IBM using the (4.10) Problem Report Form.

  Code

  Description

  0000

  Divide by zero error

  0001

  Debug exception

  0002

  Non Maskable Interrupt (usually memory parity error)

  0003

  Breakpoint (one byte INT 3 instruction)

  0004

  Overflow

  0005

  Bounds check (BOUND instruction)

  0006

  Invalid opcode

  0007

  Coprocessor not available

  0008

  Double fault

  0009

  (Reserved)

  000A

  Invalid TSS

  000B

  Segment not present

  000C

  Stack exception

  000D

  General protection

  000E

  Page fault

  000F

  (Reserved)

  0010

  Coprocessor error

  0011-001F

  (Reserved)

  0020-00FF

  Available for external interrupts via INTR pin

Related information:

(2.1)  Hardware Requirements
(2.2)  SuperVGA Support
(2.3)  Printer Support
(2.4)  COM3 and COM4 Support
(3.2)  Shareware and Freeware Sources
(4.2)  Installing from Drive B
(4.6)  Corrective Service Diskettes
(4.7)  Online Services
(4.10) Problem Report Form

Previous Section, Next Section, Table of Contents.

Converted by IPF2HTML v0.4 on Wed May 10 13:14:33 EDT 1995