On some systems, Windows 3.1 and 3.11 in Standard mode crashes when it is configured to use APM, i.e. POWER.DRV is loaded. The crash only happens in Standard mode, not the typical default 386 Enhanced mode.
Windows 3.1 APM Crash
Since POWER.DRV is involved (“MS-DOS System with APM” vs. “MS-DOS System” in Windows setup), it’s obvious that power management/APM is somehow significant, but how, and why is only Standard mode affected? The explanation is a bit complicated. Continue reading →
Over the weekend I tried to revive a PS/2 Model 80 whose CMOS battery died (after 25 years!). Finding a replacement battery fortunately isn’t difficult (6V lithium “photo” battery), but recreating the configuration information of course requires a reference floppy and the .ADF files for any non-IBM adapters installed in the system.
The early PS/2 implementation of Plug and Play leaves something to be desired. Keeping a reference diskette with a system for many years turns out to be difficult in practice. Newer PS/2 systems with a reference partition do not suffer from this problem but still need floppies if the hard disk dies.
Finding a Model 80 reference floppy image or the ADFs is not difficult, but the system just kept refusing to boot from my floppy. The diskette was readable in other systems and I tried several of them, both original IBM floppies and self-made copies. None of them worked. The drive was spinning, did a few seeks, and then the system showed an error. Continue reading →
The Pentium OverDrive is notable for supporting three physically different sockets (that’s not counting the Pentium II OverDrive). The Pentium OverDrive product was sold in variants suitable for Socket 2/3 (486 systems), Socket 4 (early Pentium systems), and Socket 5/7 (second generation Pentium systems).
Pentium OverDrive for 486 Systems
Perhaps the best known member of the OverDrive family is the original Pentium OverDrive, also known as P24T. It could upgrade most newer 486 systems with Socket 2 or Socket 3.
The front of a Pentium OverDrive box.
Two models were available, PODP5V63 and PODP5V83. The nomenclature indicates 5V Pentium OverDrive Processor running at 63 (really 62.5) or 83 (really 83.3) MHz. The processors utilize an unusual (for 486 boards) 2.5× frequency multiplier and are designed for 25 and 33 MHz bus, respectively. Continue reading →
Better late than never, although in this instance, it’s really really late—about thirty years late. In the world of computing, that is eternity.
The talk is about the new CR4.UMIP control bit documented in the latest (revision 58) Intel SDM, and the corresponding CPUID feature bit. When set, the CR4.UMIP (User Mode Instruction Prevention) bit prevents the SGDT, SIDT, SLDT, SMSW, and STR instructions from being executed outside of the highest-privileged code (ring 0).
The question is of course why it was ever possible to execute these instructions from unprivileged code. Setting the critical registers (GDTR, IDTR, LDTR, MSW, TR) was never possible from user code, but they could be freely read. The excuse Intel had back in 1982 (when these instructions became part of the 80286) was that they didn’t know what they were doing. That was much less of an excuse with the 386 and by the early 1990, it was well known to be a problem. Continue reading →
Updating older (but still supported) Windows versions can be a tedious tasks. Not only for humans but also for computers. Searching for updates for half an hour every time with the CPU going at full tilt must be a not insignificant contribution to global warming.
As everyone knows by know, Microsoft recently released what amounts to Service Pack 2 for Windows 7. From personal experience I can say that it works very well, whatever it is called. The point of the patch is that it resets the baseline for Windows Update. Instead of searching for 5 years’ worth of updates since Windows 7 SP1, there are just a few. Microsoft also changed the release cycle to monthly updates, which further reduces the number of variables.
Of course the patch isn’t automatically delivered through Windows Update and the download process is designed to remind everyone why ActiveX was such a dumb idea. But it does do its job once applied and brings down the time to check for updates to something quite reasonable. Continue reading →
Somethings things just don’t make much sense. Like this, for example:
What’s unusual about an ISA sound card with a wavetable daughterboard? Nothing. But experts will recognize that the host card is a Terratec Maestro 32/96, which already has a built in-synth.
There oddest things about this setup is that the host card’s synth is essentially a superset of the one on the daughterboard. For that reason, the daughterboard’s presence has very questionable utility. Continue reading →
While digging into the implementation of Sound Blaster compatibility on PCI cards, I found an unexpected gem. Ensoniq’s U.S. Patent 5,790,837 includes partial source code for the Sound Blaster emulation driver used with the Ensoniq Soundscape VIVO boards, SSINIT.COM.
Ensoniq Soundscape VIVO
The VIVO boards were Ensoniq’s last ISA-based product (introduced in 1995) and shared a common trait with the PCI-based ES1370 and later devices: There was no hardware Sound Blaster compatibility. Instead, Sound Blaster digital audio as well as AdLib FM synthesis were emulated.
Now the VIVO was a bit of a mixed bag. While the Sound Blaster compatibility wasn’t bad, it required EMM386 and a TSR and was therefore fundamentally incompatible with certain games. The AdLib emulation was not so much emulation as approximation, as it tried to replace a FM synth with wavetable synthesis, with mixed results. On the upside, the wavetable synth (1MB ROM) was not at all bad, and the cards were cheap (and therefore used in many OEM systems). Continue reading →
As previously mentioned, the Wave Blaster II (aka WB2) documentation makes no mention of possible bidirectional MIDI communication. But while trying the Wave Blaster II control panel with various host cards out of desperation, an interesting thing happened: When attempting to go to the preset screen, I was informed that I couldn’t because “MIDI In is currently busy”.
Now that’s interesting because the MIDI implementation chart for WB2 makes absolutely no mention that the device might send anything. Then again the chart does not list system exclusive messages (SysEx) at all.
A quick look at WP2CPL.EXE with a disassembler confirmed that the control panel preset dialog only opens if the device responds to a SysEx. What does the SysEx do? Continue reading →
I have continued to dig into the mysteries of Wave Blaster (WB) connectors, daughterboards, and DB-50XG MIDI. To recap, the objective is to find how to convince a Yamaha DB-50XG to send MIDI data, if at all possible.
A closer look at a DB-50XG confirmed that both MIDI IN and OUT are definitely connected. Pins 4 and 8 of the WB connector are connected to pins 15 and 16 (I think!) of the Hitachi H8/3002 MPU. Those are the Rx and Tx pins, so that makes good sense. The signals are routed all around the daughterboard.
So technically a DB-50XG is definitely capable of outputting MIDI data. Whether it can actually do it is a different question. Without detailed documentation or a firmware dump I’m just guessing.
Even if it does work, the next question is whether bi-directional MIDI communication is possible on a typical PC sound card with a WB connector. But there’s more about that too. Continue reading →
A T4x ThinkPad with a supervisor password is a ticking time bomb. The password is not needed during boot and is only required to change certain BIOS settings, something which isn’t typically needed. But if CMOS settings are lost, the BIOS setup must be entered and the SVP will be required.
That’s exactly what happened to me. I had an old T42p (2.0 GHz Pentium M) with unknown SVP, happily working. Then somehow the CMOS got scrambled. I have no idea why, because the backup battery still seems fine. At any rate, the SVP was required and I didn’t know it. Bricked.
To recover the password, it can be read from an EEPROM but then has to be decoded. That may or may not work. Or a $100+ USB gadget can be procured—worthless for a single use because a replacement T42p system board would cost less. Or the EEPROM could be desoldered and replaced with a “good” password-less one (which I don’t have). Neither option seemed appealing so the T42p was sitting around gathering dust for a while.
Then a kind reader posted this link. Clearing the password with no special tools and no soldering? What could possibly go wrong… Continue reading →