Most Commonly Asked Questions



Question:

Why is it that Micronics does not support other BIOS such as AMI
or Award instead of Phoenix?

Response:

Micronics, through compatibility testing, has found the Phoenix
BIOS to be the most compatible BIOS with its system board
products.  Licensing of the Phoenix source codes will provide
and enhance features, performance, expanded capability,
simplicity, and greater ease of use to accommodate future
software and hardware products with all Micronics products.

Question:

Are Micronics system boards compatible with AMI or Award BIOS?

Response:

Most likely not.  All compatible BIOS is customized to
accommodate the system architecture.  Without BIOS customization
the system will encounter limitations.  The Phoenix BIOS is
customized to accommodate all Micronics system board products to
enhance and provide maximum performance.

Question:

Are Micronics system boards Novell certified?

Response:

Novell does not certify system board products, rather Novell
certifies complete systems which includes hard drives,
controllers, video boards, and Lan adapters.  Micronics through
compatibility testing, will assure that all Micronics system
board product are fully compatible with Novell as a server or
workstation configuration.  To show that Micronics system boards
are capable of passing Novell certification, Micronics has
submitted and received Novell certification for it's 80486-33MHz
EISA ASIC board.

Question:

Are all Micronics system boards capable of accommodating the DX2
or P23T (overdrive) microprocessors?

Response:

No, but boards designed and produced by Micronics specifically
for these processors will.  Compatibility issues may be
encountered when using these processors with earlier designed
system boards not design for the current and new processor
technology and specifications.  The boards that will accommodate
these processors are the Gemini 486 line of system boards for
the DX2 and the Micronics 486SX Upgradable board for the P23T
(overdrive) processor.







Question:

Are 60ns SIMMs required for the Micronics 80486-50MHz ISA and
EISA system boards?



Response:

No, 70ns SIMMs are sufficient.  Use memory modules manufactured
by Toshiba, Siemens, Mitsubishi or Samsung.

Question:

Why does the system count only 16 megabytes when more than 16
megabytes of memory are installed (32, 40,.., etc.)?

Response:

The system only recognizes 16 megabytes because the BIOS
relocation is enabled in the CMOS setup utility program.  When
the BIOS is relocated the area 16MB-384KB is allocated for ROM
use.  Therefore, the area 16MB-384KB is used and the system will
consider this area to be discontiguous and will not recognize
memory beyond 16MB-384KB.  Disable BIOS relocation to recognize
more than 16MB of memory.

Question:

When will a Local Bus video adapter be available for use with
the Micronics EISA Local Bus boards?

Response:

A board based on a new higher performance video chip will be
designed and a board will be available by the end of August 1992.

Question:

Do Micronics boards use Flash ROM technology?

Response:

Not at the present time but may in the near future.

Question:

Why is it that the turbo LED does not turn off nor is there a
speed difference when the switch position is pressed or
depressed?

Response:

Turbo LED and speed of the CPU can be changed by first setting
the CPU SPEED to SLOW through the BIOS setup and then saved and
reboot by pressing the ESC key.  Every time after this the turbo
switch is activated and the speed and turbo LED will change
corresponding to the position of the turbo switch.

Question:

Is IBM OS/2 2.0 compatible with all Micronics system boards?

Response:

Yes, IBM OS/2 2.0 has been tested and verified on all Micronics
system board products.





Question:

Is Microsoft Windows 3.1 compatible with Micronics system boards?

Response:

Yes, Microsoft Windows 3.1 has been tested and verified on all
Micronics system board product.

Question:

What is Local Bus and how does it work.

Response:

Local Bus architecture offers a data path that is 32 bits wide
just as an EISA or Micro Channel bus.  Due to the Local Bus'
direct access link to the CPU, data is transferred at the CPU
clock speed.

Question:

Is the bus speed selectable to higher than 8MHz.

Response:

No, because of reliability and compatibility problems that can
be encountered with most peripherals.  All Micronics system
board products follow the ISA standard for the bus speed which
is 8MHz.

Question:

How to run CMOS setup utility on all 386DX and 486DX/DX2
ISA/EISA boards?

Response:

Use the following ALT+CTRL+ESC key sequence for ISA system
boards, and ALT+CTRL+S keys sequence for EISA system boards to
run the CMOS setup utility software.  Press the "ESC" key to
save the configuration or the "F10" key to cancel changes made
to the CMOS information.

Question:

Do Micronics system boards provide Bus Mastering support?

Response:

Yes, all current Micronics Gemini 386/486 ISA/EISA boards
support Bus Mastering.

Question:

Will any Micronics system board fit in an IBM PC/XT chassis?

Response:

No.  Only chassis that follow the Baby AT measurements are able
to accommodate any Micronics system boards.

Question:

Will the new 1MX4 (3 chip solution) SIMM solution work on
Micronics boards?

Response:

Yes, they are compatible.  Contact Technical Support Engineering
for a list of compatible SIMM manufacturers.



Question:

Is it necessary to upgrade the system BIOS to be compatible with
Microsoft Windows 3.1?

Response:

No, upgrade is not necessary for any of the current Micronics
system boards.  Contact Technical Support for the correct BIOS
version to run Windows 3.1.

Question:

How to correct the situation when getting the error message
"Invalid EISA Configuration Storage" during boot on an EISA
system board?

Response:

Run the EISA configuration utility.  Configure all EISA
peripherals including the system board then save the information
and reboot the system.  See configuration manual for detail
instructions.

Question:

Are other Local Bus boards compatible with the current Micronics
EISA-2 Local Bus boards?

Response:

No, other Local Bus boards are proprietary just as with the
present Micronics Local Bus system boards.  When the VESA
standard is accepted and released, then peripherals and system
boards that follow this standard will be compatible.

Question:

I am having problems running Windows 3.1 or OS/2 2.0.  Microsoft
and IBM technical support has suggested that the BIOS date of
1988 is too old so the BIOS should be updated with a later date
than 1988.  Is this true, if so what can be done to resolve this?

Response:

Microsoft Windows 3.1 and IBM OS/2 2.0 have been tested and is
fully compatible with all Micronics system boards.  The BIOS
date is the copy right date and not the date that the BIOS was
written.  Check system configuration or contact Micronics
Technical Support Engineering for assistance.

Question:

Are the present Micronics system boards able to support the
INTEL 586 processor when it is released?

Response:

No!  The 586 processor will be larger in size and has more pin
connections then allowed by the current 486 sockets.

Question:

Why doesn't the EISA-2 33/50MHz boards have an option to change
and select IRQ assignments other than IRQ7?





Response:

Micronics follows the accepted industry standard for IRQ
assignments for the first parallel port (LPT1).  The accepted
IRQ assignment for LPT1 is IRQ7.  Any additional parallel ports
will have to be set to IRQ5.

Question:

Why was the 16450 UART implemented instead of the 16550?

Response:

The 16450 is the accepted standard and is still the IBM AT
standard whereas the 16550 is not.  16550 UART may encounter
compatibility issues.  Most or all communication software is
evaluated with the 16450 UART.

Question:

Why is it not necessary to use a heat sink on the DX2 processor
when it is dissipating a lot of heat?

Response:

All components including the CPU has been thoroughly tested and
is within the operating temperature range specified by INTEL. 
Therefore, a heat sink is not necessary.

Question:

What is the problem when the CMOS information is invalid after
installation of IBM OS/2 1.3.

Response:

This is caused by OS/2 1.3 software corrupting the CMOS data
during installation.  To correct this and other non-documented
OS/2 1.3 problem, obtain from your IBM dealer the corrective
services patch or by down loading the file OS2LDRCS.EXE from the
Micronics bulletin board at (510) 651-6837.  To correct just the
CMOS data error, reconfigure the CMOS information after
installation of OS/2 1.3 then save the information and reboot
the system.

Question:

Having problem booting from a large capacity hard drive or data
is corrupted when writing to hard disk.

Response:

It is very possible that the power supply is not adequate to
support the system configuration that includes a large capacity
hard drive.  If the system is fully populated with memory and
all the I/O slots filled with peripheral boards, a power supply
of 300 watts or larger is necessary.  Power inadequacy will
cause incorrect rotation of the hard drive and the system will
have a problem booting or information written to the hard drive
will be corrupted.

Question:

80486 system boards have a problem recognizing some Maxtor and
Conner SCSI and IDE drives.



Response:

These drives may encounter a booting problem or the system will
not recognize the hard drive when the BIOS relocation feature is
enabled.  This is because the BIOS calls to the hard drive is
too fast when the BIOS instructions are relocated to fast RAM. 
To resolve this limitation, disable BIOS relocation in the CMOS
setup.

Question:

Having intermittent problem with installing or using IBM OS/2
2.0.  During installation the screen is blank and the floppy
drive light stays on and the system appears to be frozen.  Also,
the screen blanks out (black out) when accessing a graphics page
or when using full DOS window but the drive is active when a DOS
command is issued.

Response:

The problem may lie in the video adapter being used.  IBM
supports the 8514/a video standard so installing OS/2 2.0 on
systems that conforms to VGA or SVGA standards may encounter
limitations.  The video problem is more evident when using
certain VGA chip sets such as with the Tseng Lab 4000 chip set. 
This chip set is using a hidden and undocumented bit in the
video data area that IBM is not aware of, according to IBM OS/2
2.0 support.  Situations such as this can be resolved by one of
the following: 



Use an 8514/a register compatible video adapter.

Contact IBM OS/2 2.0 support to obtain the corrective services
patch diskettes.

Dial up to Micronics BBS and download the VSVGA.ZIP patch
created by IBM.



Micronics Computers Inc.

232 E. Warren Ave. Fremont, CA. 94539



Most Commonly Asked Questions

August 21, 1992

Revision 1.01