When a battery leaks, does the motherboard make a sound?
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- Опубликовано: 28 фев 2023
- #fullsizeAT #bigboy
These motherboards were left for dead in a random box of junk. Could they possibly still work? We have 4 cool motherboards today that need testing:
12mhz 80286 AT motherboard
25Mhz 386DX motherboard with cache
33Mhz 386DX motherboard with cache
33Mhz 486DX motherboard with 100Mhz overdrive CPU
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Patron Edmond pointed out the Intel cache controller can only talk to 32k of SRAM. I took a look at the datsheet and I totally agree. It says one bank of 8k x 8 chips or two banks of 4k x 4 chips. Either way that's a total of 32k. It could be that the 8k x 8 chips in there are only half being used -- which means half is wasted!
Also, the 15th MB isn’t being cached because of the “ISA Memory Hole”, which is used for memory mapped ISA devices. Later caching boards sometimes have the option to enable caching this megabyte, when the user knows there are no memory mapped ISA cards.
Ah right -- so that's be design. I do recall seeing that option before on some motherboards, and always wondered about it.
Wonder if that PAL chip is supposed to do some sort of bank switching to support the full 64KB of cache.
the Tag RAM also has to be compatible with the amount of cache installed.
The phrase "That's not very cache memory of you" came up in my brain during this episode. Not gonna question it lol
i just had a deja vu of hearing that before while reading your comment
Lmfao
I'll now go to the attic. See if there's any cache in it.
According to Wikipedia the 80287 and 80287XL both work with the 80386 and were the only options available when the 386 first came out; the 80387 didn't come until two years after the 386 was released.
That's right -- I've seen 386 boards like that, but I think the 386SX (which is really a glorified 286 with a 386 stuffed inside) uses some kind of different FPU package. (Rarely bought since the performance of a SX was so substandard anyway.) Somewhere around the lab I have one of these FPUs (Which I purchased off ebay years ago.) I really should make a video about that!
@@adriansdigitalbasement2 Its the XT trick again: 16bit bus with 32bit cpu (xt was 16bit cpu with 8bit bus). Its like a faster 286 or a slower 386. But being actual 386 helped in things that required the protected memory like windows 3.1 or early linux, etc.
I have a Compaq SLT 386s/20 portable which is a 386SX. It has a 387SX FPU, the packaging is similar to that used by the 286 CPUs.
We had a 286 with a Phoenix BIOS, and I think it used a CTRL-ALT-ESC combination to access the built-in setup program. That combination would work at any time, even after the system was booted.
It's midnight in the UK and I'm watching Adrian's Digital Basement. I cannot fault my life choices. I had so many chances to collect these old boards, but I always passed them on to people without a computer. Love your channel Adrian.
Those Micronics 386 DX mobos were awesome late 80's goodness! I put an AMD DX 40 and loaded it up with like 16 Megs by the mid 90s. Used it as a Windows 3.11 machine. Totally useful.
oh god she's barely warm time for a heat sink to cool her down before she bursts into fire!!🤣
This sounds funny but those board are beautiful works of art.
Having started with a VIC--20 myself, you are the Bob Ross of Computers inasmuch as artistry, and yet the Human Wikipedia of ideas.
Entered the PC world around 92 (after the Amiga) with the Pentium, so it's fun to see all these older boards that I never got to experience. Everything looks extra chunky! :)
Yeah, this is the era when I was learning and getting into pc's as a young kid. Hand me down 286's, 386's, and my favorite processor of them all, the 486.
Learning and playing with all the old stuff helped me pass my A+ certification with flying colors when I got to high school years later.
why off topic, Amega was already dead in 1995, why you cry i need old garbage, what you run on it ???
That cyrix chip may not actually be bad, the 486dlc was not intended as a direct drop in replacement for just any 386. It was designed for ,often later, cyrix aware or enabled motherboards. Though sometimes you may luck out and it works anyway, but often with cache and other stability issues. For a direct replacement for the 386, they had 486DRu and 486DRx series chips.
I'd like to add that these Cyrix/TI DLC CPUs are *very* hot and power-hungry. I had a board which refused to start with them until I recapped it with solid-states (original caps were regular electrolytics).
@@Arti9m though similarly labelled, the ti processors were even different iirc. I think it wasn't until the true 486s ang later where the cyrix, to, and IBM were pretty much the same, just different fabs and labelling. Could be mistaken.
Were there any other direct replacement 386 chips that offered performance increases?
@@rgi9509 I'm not sure honestly. I'd expect there would be.
Very special boards you have there 🤩. For Speedsys make sure to use ver. 4.78. On some chipsets speedsys really like to freeze at the memory detection. You can start with „speedsys dspdr“. This is disabling the memory type detection and u can use the program then just normally. Thanks for your videos. Cheers, Peter
The best way to deal with SIPP memory these days that I found is this: get some SIMM sockets. The pins from those fit perfectly into SIPP slots, and you can install regular SIMM modules in them afterwards. This way you don't have to modify either the motherboard or the memory modules. Or if you're so inclined you can desolder the SIPP headers and solder instead SIMM sockets.
Hi Adrian, great video, brings back some memories. Those SIPP pins you are looking for are available from several manufacturers - do a search for "leadframe pins". They are still used quite often in electronics where configurable modules get plugged/soldered into the main board. Power supply modules, hybrid circuits, and double-sided modules on single-sided boards are very common applications. Anyhow, I love the channel and the content. Cheers!
p.s.: Leadframe pins are also used on small modules like the ESP-32 and Pi Pico, instead of Molex headers, to prevent them from spreading (obliterating!) the contacts in a standard socket.
Do you have a link? Ebay came up blank. Maybe something at Mouser or Digikey?
I've always just known those as 0.1" pin headers.
@@AureliusR They are a little different, with round pins instead of square, and slightly smaller in diameter. Breadboards *used* to be made for components and small jumper wires, so the old pin-headers would damage the sockets after a while. I think that modern breadboards are made to accommodate pin headers, so it is not such a problem. However, **chip sockets** are made for very thin pins, so pin-headers *will* damage them - or at least spread the contacts out enough so that a DIP-chip won't fit tightly any more. That's why the leadframe pins work better: they are close to the thickness of a standard DIP chip component and they don't spread out the pins. Apologies for the verbose comment, that's how I roll. Cheers!
Don't worry about the length, I usually watch your videos at 1.5x, sometimes 2.0x but I never skip one :) This is a promising video, looking forward to watch it later!
Edit: I watched it and it was fun. At 41:40, that motherboard looks pretty, I feel like biting into, looks like chocolate :) You have much more luck with motherboards than I have, I was looking for a neat 486 motherboard and had to buy 2 broken ones before I got my hand on a cool working one. I thought I was onto something with one of the boards but I had no luck, switched some components, tested the BIOS in a different motherboard (it was okay) and nothing helped to fix that one, I think maybe the chipset was fried or something.
5 sec, and i pressed stop, more than enough, he does not understand it !
DOS 6.22 also has the handy F8 option during startup to selectively choose which lines to run in the autoexec and config sys. This way you can choose whether to run EMM386 and/or HIMEM and so on without having to edit the startup files in some situations.
Also MS DOS 6.22 supports custom boot menus for this case
@@root42 True, that's also a handy option for commonly used configurations, especially if you frequently use 2 or more start up scenarios. The advantage of the F8 option, though, is to be able to toggle numerous permutations of existing options without further modifications to the configuration. It's mostly for those one-off scenarios and/or rarely used scenarios, and prevents expanding the config file too much.
In a nutshell, it all comes down to whether you use alternate startup options frequently enough.
Really enjoyed this video, just feels like sitting next to you watching you slowly go through your process, and picking up tips for my own projects along the way
As others have said, the length of the video is fine. It's total fun!
Also, one of the things I've had immensely good results from when cleaning boards is hot water, dish soap, and baking soda.
The baking soda helps clean mechanically, and the hot soapy water cleans chemically.
Combine the two and it's how I get some of my immensely disgusting boards looking a million times better. I had a dell 386 machine complete with leaky battery pack that was left in a rotting shed outdoors for 20 years, and it come back to life with nothing but cleaning. It was in such bad shape that the base was almost rusted entirely through.
Fun fact, soap also cleans mechanically :) but at a much smaller scale, dismantling grease and oil
I love these PC motherboard inspection/repairs you do. Really interesting
POST = Power-On Self-Test. It's not only what it really means, but it's also self-explanatory.
This video sure was a treat! 👍🏼🥳
We used those Micronics boards in our frash test systems, they were fast 386s. They would be loaded with the RAM card, a DSP5600 card, WD graphics, Inmos Transputer board, 3c509 later on and our proprietary Comms card. These ate power supplies
Some versions of the Dallas chips can take an external battery
I really enjoy these test videos. Keep em coming!! ;)
trash it ? why you need these ????
@@lucasRem-ku6eb sadly, there's a lot of people with your trash it attitude. The vintage computing community is large and growing. Old computers and components are no longer in production so every time old systems get trashed is a lost learning opportunity for vintage computer enthusiasts.
Awesome bunch of vintage motherboards. It always amazed me how they could make those multi-layer boards with such hair-like traces and tiny vias, and get everything to line up when the layers were put together. Wizzadry at its finest 👍
Great vid man
My little computer shop used to sell DTK computers back in the mid 90s. They were my "regular" line. Touch computers with Asus MB were my premium, then I had my own line of custom computers that used Asus and Gigabyte MBs. Those were simpler times...
Those are all awesome. I really enjoyed this production. I would love to buy that 486 off of you.
Seeing all those motherboards always brings back memories of my early PC days 😊
I mentioned your channel in the comments on JayzTweCents, His last video he showed a C64 and I said your channel is great for trouble shooting etc.. cheers.
Love these videos
will definitely be remembering the AT standoff/BIC pen trick, hate trying to get those off with tweezers
Hi Adrian. If you ever get your hands on an EISA (32 Bit) motherboard, that would be very exciting!! I had one back in the day. They seem to be very rare nowadays!
They were always pretty rare, never got far outside the server & similar market.
If you have the actual EISA boards to play with. It can take normal ISA IIRC but that would be boring. Oh what should i do with my 386 class single Vesa Local Bus slot motherboard... And you thought EISA was rare 🙂
The IBM 5162 is a 286 which runs with zero wait states... however, IBM crippled the BIOS so that it couldn't be run at a higher clock so that it doesn't make the 5170 look bad.
If there is a bad cache tag chip, then that could make some parts of memory uncacheable.
The '90s-ish big, hunky boards are complete nostalgia for me, they're what got me into computers at such a young age, this was a fun watch!
loved it, thanks
The coprocessor socket of the 386 board is very likely a Weitek-enabled socket. The 387 from Intel and compatible (Cyrix, ULSI...) have two pin rows/squares, the Weitek has a third row/square so a little wider socket. To support Weitek, you need the wider socket (3 rows instead of 2) and BIOS-Support (BIOS will show "Weitek Coprocessor" Option somewhere in advanced settings).
The 287 on the 286 Board seems to be a little bit off to me. The 287 is actually clocked at Crystal/3 while the CPU is at Crystal/2 (meaning the 287 runs at 2/3 of the MHz of the CPU). Never heard of half.
Nice, I use to work and repaired these motherboards. Most of the time it had buffer problems.
That first full size 386 motherboard looks amazing!
I do remember using the Harris 20 Mhz 286 and having to find ISA cards that could work with the bus sped up. Then the computer store I worked in found some (really small) 286 motherboards that had jumpers to set the clock divider for the ISA bus. Well into the 486 era there was still a small market for 286 systems.
It is pretty normal for 286 PCs not to have a builtin setup. You had to use an external dos app. Often setup.exe
Sometimes you need to have the particular setup.exe for some boards due to extra features.
Was about to say this.
"Gsetup.exe" is used on old HP-Vectras
Early ones had dip-switches :)
was just going to say the same, have had a couple like that over the years.
@@herrbonk3635 Those would be XTs, the IBM AT and clones had none - Generally.
Back in the day, I never had a MATHCO. They were beyond my meager means. But it's amazing how common they appear to be these days.
And incidentally almost nothing used it, so they were of very low need while costing as much as another cpu. Unless you had some specific niche that required it, like autocad. Only when it became included inside the cpu, were developers starting to make use of them.
I have and so have others I know overclocked 386/25 to 33 with a heatsink/fan with no problem back in the day.
love the prosaic 'battery is dead' message, that was pretty ahead of its time 😅
awesome video, can't wait to see what is going on with the cache -- really, half is wasted ? gee
Third board is commonly found in Gateway 2000 systems before they started the PS/2 keyboard and mouse port shenanigans.
That DTK 386 motherboard would be a great candidate to stick in that huge DTK 386 AT chassis you did the rust conversion on years ago!
Isn't it amazing how robust and durable mainboards can be when they're not made by Commodore? :P
Yes, the "MOS-techology" firm had problems with boron contamination in their process. This would often break down the IC after just a few years running hot. Commodore really bought the worst semiconductor manufacturer there was :)
@@herrbonk3635 but they made cheap chips! ;) that’s all Commodore cared about!
@@kaitlyn__L Haha, perhaps. But were they really cheaper to produce than ICs from, say, Mostek or Syntertek, or japanese, or korean manufacturers? I belive the key was that Commodore (a calculator company before PET and VIC) wanted a lot of custom designs. That was cheaper when you own the firm, of course.
@@herrbonk3635 I wasn’t around for it, but I’d read that MOS had much higher yields at the time due to their proprietary post-lithography bodge technique. Which contributed also to the frailty! As they turned failed chips into marginally-working chips.
But the aspect you point out, that was also true!
@@kaitlyn__L Sounds like a pretty expensive (labour intense) way to improve yields though!
Hi Adrian, great video, I also have a DTK 2500, I could never get XTIDE to run, it just hangs. I originally got it to harvest the DRAM as these are also used on many Amiga 2000 RAM cards, and was way cheaper than buying the DRAM chip on their own, but decided I liked the board. There is a video on my channel where I installed the board into a full tower case (Retro 386 SX 25 PC Build) I later released it is a 386DX, but no one noticed 🙂
If my memory serves me right those Micronics boards were considered very high quality boards in their day so I am not surprised it still works. Even still, battery corrosion kills most boards whether they are good quality or not.
I have a bunch of 386s. Normally, sx would not have cache and dx would have. From my memory of those days it was just more expensive, and i remember at some point the shop i worked at would ask customers if they want it with half cache or full cache. That 287 math co was expensive and the only time i remember a client bought one was to run Autocad with a 286. Ah that DTK brought memories, i still have the computer desktop case (with the original DTK packaging box!) where that would go in. I kept the DTK case over the decades after various motherboard upgrades. That 486 with 16mb is luxurious, win95/win98 capable. Indeed post codes are different, there was documentation about them, i bet online you can still find it.
The board with the serial and parallel ports was aimed at the upper end of the market where a scsi card would be installed that would have the floppy interface.... I remember these boards....
They may be hopelessly under-powered but some of those early boards showed a lot of creativity where it comes to adding functions on a relatively low tech board.
Low tech?? It's more or less exactly the same technology! From the 8088 PC/XT (or even Z80 CP/M machines) to the Pentium. Only more and more integrated.
Remember the days of sending POSTcards to each other. The problem was remembering the correct POSTcode.
25 upped to 33 isn't much of an overclock. It's also possible it's a 33 labled as a 25. Intel did that from time to time to meet demand on lower skus.
My first PC (after my IIe) was a 25 MHz 386 with cache. It outperformed a lot of 33 MHz systems.
9:44 That's an MR-BIOS! If it's not yet backed up/archived, please back it up.
I don't know about the Motherboard but I Cry . getting one working in a PC makes me Happy :) QC
SIPP: Single Inline Pin Package. Also, can we just marvel at how nice the first two boards look with their respective parts color schemes? I thought the bright red resistor packs looked nice on the first Micronics board until I saw the second one with its 100% color coordinated capacitors.
Indeed. Have to wonder if that was intentional? It was a sure thing that both of those big boards were really really expensive.
Back in the early 90s me and my dad tried to upgrade the 386 to 4 megs, but we missalinged the modules by one pin which fried the board 😥
@@adriansdigitalbasement2 it _had_ to be intentional. They're too coordinated to have just been colored like that by chance. I agree those would have been very high end boards, so making them look nice and coordinated was probably the start of the "gamerificiation" of modern motherboards. Glad they all still worked, too!
@@belzebub16 wow, that's awful. I'm surprised it fried the board, honestly. I'd expect the module to die, at least, but the board is quite extreme.
286's had setup on floppies early on. I think I recall the IBM PC/AT needing setup floppies, and I definitely remember the PS/1 and PS/2 systems using setup disks. Without them, you were just stuck with the error. Some 386's did that for a bit too, but 'not saddling the customer with setup disks' cut the cost to support users too since they lost them all the time.
On the third board, the 286-10 that you caused me to add this second comment for, the reason it might not have included the floppy/IDE connector is that back then, there was a lot of MFM/RLL stuff out there, 'special controllers' galore for odd freaky "the size of your computer" external hard disks/tape drives, SCSI, even ESDI! Ah, ESDI...that awkward step between 'they used modems to transfer data from disk to PC' and "Actual digital signals" with IDE. And I exaggerate slightly about the 'modems for data transfer' but the drives used to be stupid and BRUTALLY slow. Before SCSI was worth anything, ESDI was a good higher-performance Back then it was amazing, of course! Not loading from floppies was way faster...and floppies were way faster (and better!) than punch-cards, which were themselves better than binary-toggle per-instruction boot-up processes! Set switches, flip toggle. Set switches, enter the third byte. Repeat forever...
For "the cache being missing", many of them had jumpers to set 16/32/64k, and some did run 4 chip cache modes, though I don't recall 'what density they actually were', I just know that I recall 4/4 cache/empty setups being valid, so maybe there's a missing/incorrect jumpers as you noted. I recall bad cache being either 'the end of all the cache' or 'the system didn't boot', not that it worked only half-way. Not caching 13 or 15 is ODD, though. "Not caching over 15" might make sense in a '16Mb and up' thing bug..? Strange that they don't have a cache size jumper setting, however...well, I dunno. The video isn't done yet and you're silly-tired, so we'll see what happens before the end! :)
Thankfully, I started with the IBM PC, so I only know the punch-cards and 'toggle-panels' from historic videos and retro people using it later on. I did the full evolution from 'single-density floppies' to 'Woohoo!' to 'ZIP disks' to "USB thumb drives"...it's been fun to see the difference across the eras, that's for sure.
First PC I built was a clone XT board with a new crystal to match my NEC V20 CPU, in a 5150 case and with a green screen, all bits bought from auctions. First HDD was ST-225. Then 286, 386SX, many 486s, after which it became my work rather than a hobby. Fun times.
Around 1999 we were running Unix machines with 16 MB of RAM and 20 users on them. It's amazing to see that much RAM on a little PC board.
Unix and terminals were totally backwards already in the mid 80s though :)
@@herrbonk3635 Unix was on the way out? So you didn't go to a university in the mid-80s? Or work at a large corporation with a huge database? Or work at a bank? Or work at a store with a large inventory spread out over several states or countries?
@@scottlarson1548 I didn't say it was "on the way out". But it seemed sooo old fashion to me, that I always wondered *_why_* it wasn't :) So totally backwards in user interaction (1950s style), but still presented as "the future".
I didn't criticise that a large firm had a central data base, of course, but you didn't need Unix for that. Lots of other systems had networking.
(In the early 80s, my idea of what a _personal_ computer should be was very much along the lines of today's mobiles. I was inspired by instrumentation and advanced calculators from HP, Tektronix, and all the japanese. Early GUI I've seen too, from Xerox Alto to similar attempts on home computers.)
@@herrbonk3635 So you were completely out of touch with the computer industry. People didn't need expensive GUIs to sell carpet or car parts or track their inventory or payroll. Businesses could buy a DEC terminal for a fraction of the price of a PC and it didn't need maintenance and your employees didn't play games on it all day. What you're describing wasn't even an option.
@@scottlarson1548 Yes, at least that part of the industry. I worked as an embedded systems programmer and electronics engineer in my youth (before and during university). So pretty far from that administrative world.
I love me some good build-in utilities.
when my battery gently leaks :)
Now I wish I would have keep all my old computers. My most odd was the Intel PR440FX board with dual Pentium Pro's running Windows NT. That was a rock solid machine at the time. Had SCSI HDDs and DAT tape drive backup, and 256MB of DRAM at the time and dual 200MHz Pentium Pro's. I then did an upgrade and got the Pentium II Overdrive 333MHz CPUs. Ah those were the days back then!
The 386SX can actually use the 80287 FPU, not usual, but would work.
1hr+ video, im saving this one for yard work :-).
The kind of socket that the SIPPs go in is still easily available new (basically, a single row precision socket). If they are factory new and not soldered/clipped, THEIR pins fit themselves quite well. Basically, precision sockets are like LEGO bricks (they also make fantastic stackable connectors for lab modules, if you manage to solder wires to the side of the pins without melting the plastic too much!). So you can basically take that piece of socket (or pieces of precision DIP sockets even), and just solder-bridge or wire the socket ends of them to the pads on a SIMM. Presto, it can haz pins! One thing to be careful about: Best tin, solder-wick and retin anything that is gold plated (socket or pad) before soldering to it, too much gold getting dissolved into the solder can make some types of solder extra brittle!
Someone send this man a static duster for his screens! Lol. I'm like 30 videos in, and every monitor is covered in dust.
Speedsys worked right at the end there just as you turned it off to recopy over :)
Those Cyrix 486DLC 40 chips are pretty rare. make a good shelf piece.
The 286 looks like one i had in the days. It required a setup program loaded from disk.
The extra pins are for a different type of FPU, specifically the WEITEK FPU which connects to the CPU differently from a standard 387 or compatible. In fact there are boards that have instead 2 FPU sockets.
Due to how they interface differently with the CPU it should be possible to actually have both a Weitek FPU AND and 80387 FPU on the system at the same time and even use them simultaneously though I never got nobody to confirm this (although electrically this is possible) and worse is that if you want to test simultaneous use of the two FPUs you'll need to make the software yourself as AFAIK there is no software that will use both simultaneously. Either or yes, and, not really which is a pitty. For example, CYRIX went to crap because intel CPUs could basically do integer and floating point math simultaneously (similar to a dual core) which the CYRIX ones could not (AMD also could do that by the way) and QUAKE actually took advantage of this feature which meant math wise QUAKE would run twice as fast on Intel/AMD VS running on Cyrix. Now, imagine we could have it use all the math processing devices hehe :) So Integer math on the main CPU, then 2x floating point on both FPUs.
Oh yeah, i have a faint memory of that, never saw one in reality. Weitek...
Well, they certainly were surprising to see them all working for the most part, even the bent one, I thought for sure that Bender there would have needed some form of repairs or something to get it to wrk, but, nope, it's a runner, unlike modern PCBs that fail if you so much as breathe near them... :P
Modern PCBs fail because of BGA chips and crap lead free solder. The slightest knock will crack the tiny solder balls.
That last motherboard booted into DOS super fast.
On that 286 board it's possible that the company installed a 386sx upgrade module in the PLCC socket, hence the sticker.
With the last board that was having the cache issues, I wonder if it is an issue with the memory it's trying to cache? It's possible one of those SIMM's has a marginal chip on it that passes the memory check upon boot but fails when you actually try to use it. You could try testing the ram or moving the SIMM's around and see if the issue moves in the cache check.
Has anyone ever actually called that phone number to report “piracy”? How many calls were pranks? 😂
Just a hunch, but if I remember right with some of those old 286-ish machines you had to press ctrl alt insert during boot to get into the bios.
27:52 "Build-in" sounds like something that comes out of the box but is not yet implemented as in "to build in" vs "was built in" lol :D
It was extremely common for 386 mainboards to have external cache back in those days. If a board didn't (or if the cache chips were bad), believe me, you knew it.. because it ran like an 8086 if it booted up at all.
28:40 Cathode Ray Dude should look into that, could be the first implementation of something like InstantON :D
As for MB #3. IIRC there were some MB's that were socketed for BOTH the 386DX and the 486. This would have been when the 486 first came out and was still quite $$$$. I think there were also some 486 "over drive" chips with 386 pin outs to upgrade a 386 to a 486. So that smaller socket could have been for a 387 FPP.
That last MB can't be a 386sx, those chips were not socketed, they came in a package that had to be soldered to the MB. There were some 386SX "over drive" chips that were really PC boards that plugged into a 286 socket that had a 386SX soldered to them. Did someone sell a 286 mb that came with such a chip? Since there were also 486 overdrive chips in 386sx clothing, on could have upgraded a 286 to a 486 sorta-kinda. The 386sx would work with the 287 chip, as the 386DX would work with the 287, but it PREFERRED the 387. The motherboard could have had sockets for BOTH types of co processors, but please only install ONE thank you!!!
Win-386 could have referred to the OS that was installed. Yes, Windows-386 (version before Windows 3.1) would work on the 286 processor (poorly!).
You can make some RubeGoldberg SIPP pins by using either Swiss Pins or Swiss Sockets (Augat), Adafruit stocks them. The pins will solder right to the SIMMs, the sockets will require a small bit of wire pushed into them first.
(www.adafruit.com/product/3647?gclid=Cj0KCQiA9YugBhCZARIsAACXxeL_-ReeKoTLODQAvLm7eBnpIMqeTy1V4qE06aBexsyRd98cZueOHJQaAvZMEALw_wcB)
IIRC, the smaller pinout for the FPP was the same as the PGA version of the 287, and the larger pinout was for the 387. OR that's the pinout for a 387sx made to go with the 386sx.
I have a generic 286 that has some very strange faults after battery damage, I managed to get it booting and it works ok from an XT-IDE card, but it will not work with DMA and I managed to find that if I try to read from a floppy disc it's ok as long as it's less than 512btyes, but anything else and the pc just hangs. It also stopped working after the new battery backup had a full charge and as soon as I removed the battery it worked ok. Soundblaster dma audio also has problems and the system is unstable when in use. I just couldn't work it out.
Back in the old times, when OS2 (the IBM OS that was co-developed with Microsoft), there was 15/16 MB Memory hole option in the BIOS settings. Maybe, that motherboard has that enabled by default, so it is not caching in the region. Sounds plausible.
A lot of earlier 386 boards did make use of 80287 coprocessors. The 80386 came out two(?) years or so before the 80387 was ever made, so people who did CAD and stuff needed SOMETHING. Something like the 80287XL's which were '387sx chips in a 287 socket' also existed, I think? I don't remember when those came out, but the 287XL's were a lot faster than the original 287's. Any copro beat none for the right workloads, of course. Like POV-Ray! Oh, the memories... CAD too, I'm sure. Lower-cost motherboards "later in the early-years of the 386 era" cheerily used 287's since they were sorta-almost-common around then, but I think most everything used a 287 until the 387's finally came out, if I'm remembering things properly!
And for the retro-lulz, I still remember my joy at affording a 486DLC to upgrade my 386 with. It was so much faster with just that bit of cache in the CPU! And then I bought a 486/25 like a month later, but hey.
I'd look for datasheets for the cache controller (jumper settings) and verify them against the jumper pins. Experienced a few mobos where the manual have been completely wrong (if you even were to find them for this particular board) :)
Indeed the datasheet for the controller indicates it only supports 32k - so the 64k on there is being partially wasted. Someone clearly had money to burn :-)
@@adriansdigitalbasement2 Well my idea sucked lol. Happy you found some info at least :)
G2 and Video 7 merged to form Headland Technologies.
I've got a pentum 90 which has 256k of l2. I can switch it on and off no problem, speedsys shows it correctly and other programs I test show a difference in speed by turning it on and off but cachchk doesn't find it but everything else does?
try to use the ctrl-alt-esc or ctrl-alt-ins to enter the bios setup on that motherboard.
In the 90's, Cyrix "tried" to emulate the Intel's, but weren't up to spec. Later versions seemed to be ok. Same with AMD.
Yet another great video!! I do have a question and that is, how long do you have to wait for Deoxit to dry before you can power up the computer. I've been wondering about that for some time. Also I was wondering if they sell Deoxit that's not in a spray bottle. I'm asking as I have a few vintage computers that could use some Deoxit but not wanting the spraying mess.
Element 14 had a whole video about Deoxit and all of its variants both in terms of composition and application.
Adrian usually collects spray deoxit into a small container when the plastic spray bit breaks though 😂
I wonder if those uncached regions are officially reserved for graphics cards or other cards with a large mapped RAM buffer. The BIOS configurator might let you set where cache holes are, but by default those come unchached so it will boot if you have a display, etc. card mapped to that space and the CMOS has been wiped. The only seeing 32k thing sounds like a chip (PAL?) revision thing that maybe they released a later bugfix part for.
That Cyrix486dlc is one odd creature. Ran across several over the years. However, I remember that they had been extremely picky with the clock speed set to exactly what it was paired with before they would post. With that being a 40Mhz, try it in a board set to 40 before you can it if you hadn't already? Or melt down the pins and make a nice gold C64 badge or something!
Unlike Intel, those did not use much gold (if any at all). And if i recall correctly, the 40mhz would run fine at 33mhz, just not the other way around. I had the 40mhz part for some years, did all my Simcity 2000 plays with it and many other games, in the super odd 386 motherboard that sported a single vesa local bus which i found a "svga" to use it with, ran windows 3.1 with 16/24bit colors. That was before moving to a proper motherboard for 486DX and TWO VLB slots... Before the Pentium era and PCI slots.
I think Zilog is to thank for the inport and outport opcodes. I might be wrong, but i don't think so.
Don't worry. Speedsys is buggy as hell in my experience. It doesn't work on a lot of boards/CPUs that are otherwise totally stable. If DooM runs it's totally fine but without a local bus video card you won't get the full 35FPS..
Yeah the DX4-100 has 16k of cache which was a pretty nice upgrade compared to 'normal' 486's 8k. Especially on machines without any L2 cache like the Presario you meant to mention (but called it a Deskpro) that made quite a noticeable difference I've got an AMD 5x86-133 Evergreen CPU upgrade in my Presario and it's a big step up compared to the stock SX-33!
A lot of 386DX boards had cache on them.. My Deskpro 386 which is a 1988 machine has a 385 and 32k of cache on board for instance. Even some 386SX machines have cache on board. I sold an NCR 386SX-20 3315 desktop today which had 16k of cache which is indeed quite rare for an SX class machine 👍
The coprocessor PGA socket on that 386 board has that extra row of pins because it was meant for a Weitek Abacus coprocessor as wel as a 387 class FPU unit ;-) Peter from CPU Galaxy made quite a nice video about this very interesting piece of hardware, the Weitek Abacus 3167 👌
IIRC, the math co-processor was used instead of the processor if it was installed.
With Speedsys i had the same issue. It was on a Dell 486/66MHz PC. Everything was working fine. So i think there are some problems with Speedsys
For some phoenix bios Ctrl+Alt+S is the right key for the bios configuration utility.
40:56 It just occurred to me... I think that's an XT form factor motherboard, possibly intended as an upgrade part.
We went directly from a tandy 1000 to a Pentium 75... Which we later upgraded to a P100 so I never owned any of the 2-486 type stuff so this is interesting to me.
I have heard that people have managed to revive dead Dallas chips by carefully grinding the potting at specified locations and soldering leads from an external coin battery holder to the chip.