Some follow-up notes: As pointed out be several patrons, the connector on that video card is the DMS-59 en.wikipedia.org/wiki/DMS-59 and luckily the adapter (splitters) are readily available. Also, on the SmartDisk ][ I've been talking to Bradley about the non functional Disk ][ (physical drive) support and it's a known issue with now. He mentioned it's worse than I may have noticed -- reading from the physical disk can actually cause the disk to get corrupted! Luckily when I tested it I had my floppy write protected, which physically keeps it from being written to. So for now, if you make one, it's best to use a separate Disk ][ card for normal floppy drive operations.
I've updated the README now, it looks like the corruption issue is easily avoided. There might be another reason some devices don't work in floppy mode, but I'm sure we can get those resolved.
That NVIDIA card was very common with dell back in the early 2000’s. I don’t know how common as most systems I built used onboard graphics. But nevertheless it was common for the idea that it was accelerated and could support multiple displays. That card was far more common in the small form factor cases as in it was usually the only option to upgrade to. So the more rare thing would be the fact the card was using a full sized slot.
The Slot 1 and Slot A designs were used as a stop gap solution as both Intel & AMD realized that the L2 cache needed to be closer to the CPU or in the CPU die itself in order to keep the CPU fed with data to maximize performance. Having the L2 on the mainboard meant that it could not be clocked high enough to keep the CPU fed with data as CPU speeds increased. Intel had tried to integrate the L2 into the same package as the CPU with the Pentium Pro, but the yields were very low with the Pentium Pro as the entire processor package had to be discarded if there were any issues with the CPU itself or the L2 cache. Each part had a separate die but could not be tested until they were both placed in the physical CPU package. Once that was done if either part had an issue the entire CPU package had to be discarded. Placing the L2 onto the same card as the CPU (but not on the mainboard itself) allowed for the CPU die & L2 to be tested individually which greatly increased yields. Having the L2 cache physically located right next to the CPU die allowed it to be run at a much faster speed than if it was on the mainboard. However, once both Intel & AMD had figured out how to integrate the L2 into the processor die itself (Intel - Mendocino & Coppermine cores, AMD Thunderbird & Duron cores) they both went back to having a CPU in a socket again as the slot configuration was no longer needed. AMD had also integrated the L2 into the socket 7 based K6-II+ and K6-III CPUs but the chips that had that were released around the same time as the Athlon/Duron CPUs that had integrated L2 as there was some overlap in the late K6 chips and the earlier Athlon CPUs. Intel's Slot 1 used the AGTL+ FSB protocol. AMD's Slot A used the EV6 FSB protocol which was licensed from DEC and also used by the Alpha 21264 processors. Physically the slots are the same but reversed and use different FSB protocols.
AMD decided to save few cents by using same physical dimensions like Intel. So there was no need to pay for new design of plastic socket and PC case air flow
Nice one! Thanks for featuring my emulator in your video Adrian... It sold out on eBay, but will try to re-stock it in the coming week. A few comments, although the emulator uses 128k SRAM, it can only do up to 64k EPROMs - so 2716 to 27512 (initially the design was using 2x 32 SRAMs chips, but those days it is cheaper and faster to solder, to use 1x 128k SRAM chip but only use 64k of it). The SPI EEPROM onboard is to "save" the image so it can be recalled using the red button or recalled automatically when the emulator is powered up (with the -auto option).
It's a great device I think! It's actually given me a little inspiration for a project I've been thinking about, I shall do some more thunking and possibly get in touch! Either way, thank you - it's awesome!
@@Rorschach1024, yup. Dell used DMS-59 on a lot of their OEM video cards in their business desktops, even after they switched to PCIe. Such PCs came with Y cables that provided for dual monitors: dual VGA, dual DVI or one of each. DMS-59 carried two distinct video channels no matter what monitor interfaces were used, so cards like these provided dual monitor functionality before dual integrated video became common on motherboards. I haven't seen DMS-59 on any computers other than Dell, though.
Yup, endless 'workstation' class desktop machines had these for dual-screen. We used to hate it when clients would send in the cable only to find we didn't send it back!!!
I like your assessment of retro. It’s totally fair to say that it’s in the eye of the beholder and then share your personal taste. I happen to agree with it.
DMS-59 cables are what you need. They were really common with Dell systems and tons of companies who bought/leased those systems have boxes of those adapters laying about. I bet if you put an ask out you would get an avalanche of those adapter cables.
Right, I can vouch for having boxes of those dual monitor adaptors at work back then. He was so close. Was right there on the Wiki page under "See also".
The big advantage of AGP is that the AGP slot was connected to the northbridge, whereas PCI slots were connected to the southbridge. That reduced the latency between the CPU and the graphics card.
This is not universally true. Some earlier chipsets (for example, the i440BX) handles AGP and PCI at the same time. However, all devices on PCI share the same bus (thus bandwidth) while AGP allows one device only and it doesn't share bandwidth with PCI.
Depending on the chipsets, actually. Later ones moved PCI away from the Northbridge chipset, with slower peripheral moved to the Southbridge chipsets (nowadays, they're effectively combined into one in recent CPUs, with an optional Southbridge chipset connected to PCIe bus), to better prioritize the messages.
@Dr_Mario2007 Yeah, I remember the history of how they split the north and south bridge and eventually the south bridge was moved into the CPU. There was some commotion over that move because they didn't want to add heat to the CPU and everyone knew that the north bridge got hot at the time. I think in the end it was all "hot" air though because the miniaturisation on the CPU die was such a smaller process node it was more efficient and cooler in the end.
@@lexluthermiester Well on some modern CPU, the high speed lanes can work as TB / USB3 / SATA / PCIe and they also have video output, so one could argue part of the south bridge (which typically handles IO like drives and USB among other) got moved to the CPU too ...
@AdriansDigitalBasement][ 17:25 I did! The slot design had a number of advantages over Pin Grid designs, the primary being: No bent pins, ever! Another benefit was better cooling possibilities. There were a number of other benefits that became less relevant a few years later and completely irrelevant a few years later. At it's time, the slot designs(Slot1, Slot2 for the original Xeons & SlotA) were great ideas! EDIT: I mean think about it, we had and still have expansion card interfaces, RAM, ISA, PCI, AGP, PCIe and so on. Why not do the same with a CPU? It made logical sense, at that time.
The big thing was that slot 1 and slot A allowed you to run the cache at a higher bus speed than the motherboard bus. Initially the L2 cache speed was 50% of the CPU speed and later 100%. Motherboard bus speed during the initial Pentium 3 era was 100 or 133 Mhz versus the CPU speed of 450 Mhz or higher. The later socket 370 Pentium IIIs had L2 cache embedded in the chip die, running at the full core speed. Slot 1 was pretty much a stop gap to squeeze out extra performance and that cache made a huge difference.
The Slot-1 form factor was actually quite reasonable. It saved space on die by having the bulky L2 cache on a dedicated board that wasn't user modifiable, and at the time lithography was still huge. It improved yield by separating cache and CPU, it improved profitability by binning CPU and L2 separately and then matching them. And of course Intel wanted their new cool CPU to look cool. It simplified potential upgrades. The Pentium chips need more cooling and by angling the CPU out at 90 degrees (with hefty brackets) cooling was made easier. And the edge connector was a great answer to all those bent pins on 486's, if anyone ever bother to upgrade their Slot-1 systems. There are a bunch of good and not so good reasons.
I came to say much the same thing. I agree completely. It was also a very good thing from the standpoints of signal integrity and ease of motherboard layout.
13:00 Yup, on the Amiga, normally when you move a window it just shows an outline. However, there were public domain & shareware utilities like MCP, MultiCX, PowerWindows, and Opaque that allowed you to see a window's contents as the windows were being moved on the Workbench screen, with varying degrees of slowness depending on your hardware specs. This was one thing I loved about the Amiga PD/Shareware scene, since you could usually find a utility to do many different things that weren't built into the OS, but were features of the other popular OS's at the time.
That Nvidea AGP card uses a DMS-59 (Dual Monitor Solution w/ 59 pins) port for connecting digital and analog displays to. The DMS-59 port provides two DVI or VGA outputs in a single connector. You'll need adaptor dongles to use it with a standard DVI, DVI to HDMI, or VGA cable. There are Y-style breakout cable adaptors for DMS-59 ports that allow dual monitors to be connected to such cards. Note: If you look at 15:12 in the video, you will notice a link to Wikipedia's article on the DMS-59 connector.
what is nice now for slot 1 is that if you have a board like the 440bx, you can really easily swap between pentium 2s and pentium 3s all the way from 233MHz p2 to 1Ghz p3 (and 1.4GHz p3s with right board, a bit of hackery and a slotket adapter)
Not sure if anyone else has mentioned it yet, so I'll go ahead. Slot A is flipped 180 degrees from Slot 1. So you were right, they're not electrically compatible, and it *can* be confusing, but since the key on the slot only allows the heatsink to go on in one direction, generally speaking it gives you a good idea if it's a Slot 1 or Slot A motherboard.
Just to yes and this, the reason Intel and AMD went with Slot 1/A was that integrating L2 cache on die (or on package) wasn't economical yet, so both companies put it on a daughter board with high speed interconnects to the CPU. Once foundry technology sufficiently improved, on die L2 cache become economical and the P3 Coppermine / Athlon Thunderbird were the result.
One thing you have to understand is that AMD at the time was so small compared to Intel. I mean they're small today compared to Intel but back then they were even smaller. Up until this point they had been socket compatible with Intel. The slot generation really signaled the end to single socket, multiple vendor chips. All AMD could do was to tell the motherboard manufacturers "look man you got all the same parts, you just got to arrange them slightly different and you can use our chips." Luckily the athlons were so good that people wanted them because otherwise AMD would have failed to get any motherboard manufacturer to support them or in the future any of their custom sockets. It wasn't until they were socket adapters that you saw Cyrix or other competitors chips in these machines.
AMD made cheaper Intel clones until K5, that's when they started to do their own thing and improved over Intel. The run K6 - Athlon 64 was legendary for AMD.
I just got home from work and got a zillion TH-cam notifications. As a looked down the list I realized Adrian's channels are part of a very small subgroup where I don't even read what it says, I just click. 👍
About the 486 MB. First, visual inspection for damaged traces. Second, that PLL chip should be outputting "doubled" frequency, i.e. 66Mhz (at oscilloscope) for your DX33, not 33Mhz / 25MHz. Third, you should definitely check for correct supply voltages in the cpu socket (without the cpu in it).
Even though the PCs of the nineties were fairly similar, one can really get into the variety of graphics cards of this era. Especially the dawn of 3D. Very retro.
Adrian, I had a dead 486 motherboard with similar issue. I checked the CLK pin on CPU socket and there was no clock. The clock was coming from a 74 series buffer which was connected to chipset. I took the buffer chip out and tested it on TL866 and it was fine. Next step I checked the chipset, it was receiving the clock from crystal but not outputting to the buffer chip. Replacing the chipset fixed my issue. I think checking CPU Socket pins will give you a better idea what the culprit could be.
I have recently been thinking about what makes a computer "retro" for me and I have realized it is not purely chronological. My dream computer has a one-piece integrated design, brings the user to a text console immediately upon power-on, and is incompatible with every other model of computer software. That is the world of my childhood. Paradise.
About the card with the non-standard DVI port, babk around 2008-2011 or so the Dell and HP workstations we purchased came with video cards with those adapters. They would split out into 2 standard DVI ports and you could drive 2 monitors, and included the analog signals.
The early Athlon's were also on a card for the same reason as Pentium 2 the cache was external to die. It was possible to resolder the dividers resistors to change the divider to make overclocking easier. I resoldered my A600 cache divider from 1/2 to 1/3 so CPU could be overclocked to 850Mhz. I still have the CPU in my Win98 games PC still has the divider at 1/3 running stock 600Mhz clock speed. The advantage was the cache could have its own interface to the CPU independant of the front side bus clock. The reason they used the same slot an packaging so motherboard and cooling manufactures could use the same mechanical connection to save retooling.
Speaking of getting mixed up by L1, L2, and L3 cache... You might try out one of the rare systems with an L4 cache. The easy one would be a Broadwell based Core-i7 5775C, or i5 5675C. They give quite a bump up for anybody still running an old Haswell Socket 1150 board... At least in apps that can take advantage of the extra cache. It's also possible to run an intel Optane accelerator as cache on these... Technically designating it as an L5.
On the Promise card, the Non-RAID and RAID cards were almost identical. Just two wiring changes and then reflashing the BIOS. I have a few hacked cards around. Worked on both ATA66 and ATA133 versions of the card. I think I also have the original RAID card too.
It's interesting to watch your journey with the M601 board. I have the same board (perhaps a different version number), and I went through the same process of discovery with the different websites to determine the clock settings for the PLL52C05. It's a shame you weren't able to discover why it's not posting.
That Slot 1 Pentium II was made in the factory I used to work in back in Ireland in the late 90's. I moved to another part of the company just before they began making those CPUs there, but I did get to visit the floor a few times.
I was building pcs in the slot era! If I recall Intel’s on die cache yields were awful so they came up with Slot 1 to carry the cache. Leaving it up to the board manufacturers would end up with no cache in budget machines and the P2 needed the cache to have decent performance. AMD were just playing follow intel. The slots the same connector but rotated 180° on the board because they’re not electrically compatible, don’t want people frying their CPU because you copied intel!
Amd did not have a choice much like Intel, cache memory at the time wasn't able to reach the speeds cpus were operating at. so the best solution they had until tech caught up was the processor on a card. They could have gone with L2 on the motherboard again but that would have been even slower due to the distance from the cpu. memories a bit hazy but I believe amd had the performance lead during this era over the pentium 3.
@@whelmy if I remember that was the era pentium3 went super-scalar and had a long pipeline, AMD scaled up vertically by having less latency, which wasn't good because they also had less L1-cache on die, so they ended up also going to the insane slot thing
Rumor has it that AMD used the same connector as Intel for the K7 (rotated 180 degrees) to save mainboard manufactures from issues with different manufacturing processes. Intel did not license Slot 1 so AMD created Slot A... but yeah, it was a stop-gap/bodge. 😅
There were some slot 1 gems. Like the Celeron 300A with on die cache that would almost always overclock to 450MHz. They sold for $180 and were just as fast as the $500 Pentium II 450
Anything is retro that is able to make you tell a passionate story about something benign, that makes your eyes sparkle, that makes you pause and dream about something, that was unobtainable for you at the time, or is from a time long gone by before you started.
Slot 1 and Slot A used the same connector, just rotated the other way and the vertical posts were keyed differently. The busses operated very differently. Intel's bus was basically the same from Socket 8 (Pentium Pro) to Slot 1 to Socket 370, and there were adapters for both sockets to Slot 1, with the only real differences being frequency and voltage. AMD did move the Athlon L2 cache off-die for the same reasons as Intel, but licensed Alpha EV6 bus protocol from DEC. That got the Athlon over the 1GHz line before Intel.
The slot 1 CPU design was a necessary evil for reasons of cache. They went back to a single chip design after they made a jump forward with later pentium chips.
The reason for the slot1 (and AMD's slotA) was the cache. By placing that on a daughtercard with the CPU it allowed faster access to the cache bypassing the system bus. Of course that became obsolete once they figured out how to place the L2 cache onto the CPU die, but they continued to make Slot1/SlotA CPUs in that form factor for a while for backwards compatibility reasons. And that's also the reason why Apple used CPU daughtercards in the PPC era, many of those also had external cache on the daughterboard.
For the defective motherboard i experienced several times already that pins of the chipset can get lose somehow over the time or if the board was bend once too strong. Checking with high magnification if you have a lose pin. I was able to fix most of my declared dead boards after I got this hint.
Possibly already said, but 9:09 DMS59 connector. Usually required a breakout connector for two DVI connectors, two VGA connectors or a combo. Usually used on low profile cards
The EPROM sized SRAMs are also used in the Timex Sinclair. I am actually planning to do a RAM upgrade on a couple Timex Sinclair 1000 systems that I purchased at an estate sale last summer. I also need to fix the keyboard flex cable. I've only opened one, but assume they are both damaged.
Slot1 and SlotA both used the same SC242 edge as their physical interface. They were not electrically compatible. They were at least designed to have clearance (for the heatsink, etc.) on opposite sides relative to the key, so MOST motherboards had a physical obstruction to keep you from sticking incompatible parts together. Slot processors were mostly about making room for on-package but off-die caches to improve yields (smaller processor die + SRAMs instead of one large die with both). In recent years we're seeing an explosion various fancier multi-chip modules, chiplets, stacked dies, etc. which are kind of the same idea. Ed: I see that you recalled later in the video.
I am a few months away from becoming 24, and I generally respect and share your opinion on what we choose to call retro-computers. I honestly hold no nostalgic thoughts for the fairly standartized beige boxes of the 90s, nor for the bland black boxes of 2005 to 2013-ish. But those late 70s and 80s machines, that are experimental and sometimes one-off computers with mediocre capabilities (compared to today, ofcourse), which came with adorable form factor cases are totally different, and thus, of interest to me. And I find it especially interesting that you can diagnose and talk about circuitry in detail,- which I, as someone who doesnt get how these things work exactly, find it very useful to know about. (Though I havent found any real-life appliance of this wisdom yet.)
That is a DMS59 connector. It's commonly available once you know the right search terms, ha. You are correct in the fact that it is used to send dual DVI connections out from a single port.
I would have to check, back at home... I think I've got a card like the "weird DVI" one, with two adapter cables, one 2xVGA and one 2xDVI... you might have more use for it than myself, hehe
As I recall, the Pentium Pro had yield issues with the L2 cache. The "Slot 1" Pentium 2 & Katmai Pentium 3 was Intel's solution to have 512K L2 on a separate manufacturing process running at half CPU speed versus the much slower motherboard bus speed cache used by older CPUs. Later Coppermine (and Toiletin) Pentium 3 had 256K on-die L2 running at full CPU speed. After Intel solved the problem of acceptable yields of on-die L2, they went to Socket 370. Your Celeron 300A had 128K on-die L2. The original non-A Celeron 300 had no L2 cache at all. There were of course other speeds for both core types of Celeron. As for AMD's reason to follow with a slot formfactor, I suspect cache yields was their reason as well, because Slot A eventually got replaced with Socket A. Also, there was a way to tap the Slot A PCB with a device called a "Golden Finger" for overclocking.
Slot1s PIIs were fun. I still have a few in storage. I had a P2 350 slot1 on an Asus P2B motherboard with a voltage mod using electrical tape clocked at 403mhz with a Voodoo 3 gpu playing Unreal and Counter-stirke betas. I remember later on having a P3 socket 370 installed in a slocket adapter that allowed some voltages and overclocking. Overclocking was fun in those days. I still have a slocket, in my collection as well. I wonder if jumper settings are still documented on those?
@@Wikcentral I'm afraid so. Recently at work, I had one of the new guys ask, what came first, CD or USB? To school him, I'll randomly bring in things. He was absolutely floored when I brought in a laserdisc. The latest was a stack of 8" floppies.
I'm not a subscriber for a long time. So, this is the first time, I see Rammy. HELLO RAMMY! NICE TO MEET YOU! Pentium 3... at this time, I had a AMD K62.
That Nvidia connector is a dual monitor cable and was used often in Dell Optiplex (P4) machines from the mid-00s. I think I might still have one rolling around.
The phrase 'gan canny marra' Lawrence used in his letter is local dialect used in the North East in the UK. Like Newcastle / Sunderland or South Shields area. Funny to hear that spoken on your channel here!. I'm a Sunderland lad, and it basically means 'go well sir' a kind of 'take care'.. where 'marra' is a man.
I think the slot 1 approach stopped everyone from wrecking the pins on their CPU. It's been a while, but I suspect those were before the pinless Intel processors. Before that, even with zero insertion force sockets, many people would always damage their CPU pins. I never had problems with the pins, but I was careful :P
The AMD Slot A was also flipped compared to the intel. The heatsink would usually face the opposite direction if you tried to put it in a slot 1 motherboard and not fit as it would interfere with the IO ports.
Slot 1 was developed to solve a production problem. To putthe cache in the same package as the CPU required them to be bonded together before they could be tested, so any flaws in either resulted in having to discard the whole assembly, which made yields low and production costs high. Slot 1 allowed the CPU and external cache to be placed on q small daughterboard, allowing them to be tested before installation, making yields higher and production costs lower. And yes, Slot A and Slot 1 used the same connector with a different pinout, but they also were oriented differently on the motherboard, being backwards to each other.
Hard Hat Mack was one of my favorites on my Apple //e (my first computer). I also loved Gemstone Warrior, and Conan the Barbarian. Plus Loderunner and Choplifter, of course. Oh and Ultima II (never played any past II).
That graphics interface is a DMS-59 which as you guessed, provides two signals from one port with a Y-cable. You can output either two DVI signals or two VGA signals, or one of each with the appropriate Y-adapter cable. This standard is NOT proprietary and was only deprecated in 2020. The cables should be readily available with very little premium pricing, if any.
During the 90's I built about 2 PCs per year starting with a 386sx 16mhz. Then I slowed down in 2000s. I still like playing around with early to mid 2000s tech. I call them the XP class PCs. If it has a floppy controller and IDE controller then I consider them retro.
That 486 motherboard looks very similar to my second motherboard that I had long time ago. It used to have the same problem. Sometimes, bending a little bit the board can fix it for a while. Probably is not a bad chip. It's more probably a broken circuit trace near BIOS, near processor or near power.
That Athlon may have looked a lot like a P2/P3, but it used a vastly different bus. IIRC they basically used a DEC Alpha style bus & double-pumped it to boot. And it was an absolute floating point monster in its day. I don't think AMD _wanted_ to create a slotted CPU like Intel. It's just that, like Intel, AMD needed their CPU performance to scale with clock speed as they raced to a GHz, which required something significantly faster than motherboard cache. All at a time when it was still a little too pricey to put a meaningful amount of the stuff on-die. Even PowerPC chips in Macs were on daughter cards along with the L2 at around that time.
Intel used the slot design in the days before they were able to package memory and cpu chips on a single substrate. They also were able to include a heat sink onto the package. The 8251 was used in embedded processors. This was Intel's serial chip that would do both synchronous and asynchronous protocols. It had a few bugs that had to be programed around, but it did work. It was limited in it's max communication speed. Motorola had the 6850, MOS had the 6550. However the NSC 8250 family became the standard for the PC. AMD introduced a similar part for their second source of the Zilog Z8000 family.
I remembered that Pentium II and III processors - I used to get junk computer when I was younger, so I had to remove the heatsink clips the hard way (had to break the lock-in pins off so they come undone), to swap over to better heatsink, especially when gaming. It has been so long time since I have seen those cartridge CPUs... And AGP stands for Accelerated Graphics Port, BTW. It's essentially a modified PCI bus designed for higher clock frequency so that way CPU can shuttle plenty of bandwidth to the GPU via Northbridge chipset, up to AGP x16 (3.x) which is an equivalent to PCIe 1.0 x8 bus in terms of bandwidth, at 2 GB/s.
Also, the termination card with same pin format as the Intel cartridge CPU was meant for dual processor motherboard (ie. Intel 820 chipset based Pentium III Xeon server motherboard) so it properly terminate an unused cartridge slot just so motherboard doesn't flip out. It's possible to get away without it, depending on how the board is designed in the first place. As for cartridge Athlon CPU, it was infamous for being incredibly easy to overclock with the "Goldfinger" CPU speed selector switch.
if I recall correct. I once did brake of the flat part of a spare dvi cabel. to use in a simular gfx. and I could use it normal with a single screen :)
Slot A isn't a copy of Slot 1 per-se, the pinout is completely different, they flipped the socket around to take advantage of economies of scale (meant motherboard manufacturers only needed to buy one type of connector)
I had an Athlon 750 slot cpu always found that time felt like I was plugging in a Nintendo cartridge for my CPU, mostly though any single core CPU without hyper threading I associate with retro, since it seems for 20+ years we have had multi core/thread CPU's and really only windows xp/2000 could take advantage of that
Just a random thought about the motherboard but Adrian mentioned that it came with an internal battery but you could also use an external battery if desired. I got to thinking what if the problem encountered with the motherboard is due to there being no battery? Perhaps some type of battery is needed to get it to post.
I love that EPROM emulator! It would be cool if there were a version that supported multiple EPROMS in a board like in the case of arcade boards with an array of 27C64s
Retro SOFTWARE on things like a tricked-out Slot 1 machine would be great. Like, make a period-correct Windows NT 4 computer and run Exchange on it :) See to what extent you could get IIS to talk to the modern internet!
He puts a mousepad under it and sometimes when he lifts the board up, it sticks to the bottom of the motherboard and it looks like he’s sitting it on bare metal.
@Adrian, the connectior on the gforce fx5200 AGP card is called DMS59 and you have analog and digital breakout cables.. you had it mentioned in your wikipedia articles and just didnt catch it :D DMS59 - "a single DVI sized connector providing two single link DVI or VGA channels" Anyways, i have few of such cards, and yes, you need a breakout cable, but it has 2xVGA or 2xDVI ports on other side..
I ran a 733 MHZ slot A AMD for quite a few years, replaced my old P1 233mmx with it, loved it , was fast at the time and gave me 0 problems over the 5 years I had it, back then I didnt have the money at the time for an uber high end system, but for dollars to performance , the AMD was king. gamed on it , did some 3d creation with it, visual chat , etc , one of my favourite old machines I had , right up there with the old 486 I ran before my pentium
![Adrian's Digital Basement ][](http://yt3.ggpht.com/ytc/AIdro_k7CrQRe71qN6c0Ua7A1P_I8KkxjqLa70u0zYeCvdvnKw=s48-c-k-c0x00ffffff-no-rj)
Some follow-up notes: As pointed out be several patrons, the connector on that video card is the DMS-59 en.wikipedia.org/wiki/DMS-59 and luckily the adapter (splitters) are readily available.
Also, on the SmartDisk ][ I've been talking to Bradley about the non functional Disk ][ (physical drive) support and it's a known issue with now. He mentioned it's worse than I may have noticed -- reading from the physical disk can actually cause the disk to get corrupted! Luckily when I tested it I had my floppy write protected, which physically keeps it from being written to. So for now, if you make one, it's best to use a separate Disk ][ card for normal floppy drive operations.
Was going to say "The link is right there on the page you have open, just had to click it!!!" good to know you can still get them though!
I've updated the README now, it looks like the corruption issue is easily avoided. There might be another reason some devices don't work in floppy mode, but I'm sure we can get those resolved.
That NVIDIA card was very common with dell back in the early 2000’s. I don’t know how common as most systems I built used onboard graphics. But nevertheless it was common for the idea that it was accelerated and could support multiple displays. That card was far more common in the small form factor cases as in it was usually the only option to upgrade to. So the more rare thing would be the fact the card was using a full sized slot.
@@mlmmt I was yelling at my screen "Click it, dummy!" all the time after he brought the Wiki page up..
@@AmazedStoner I remember our old Dell desktops at working having that port, I don't remember what kind of card they used though
The Slot 1 and Slot A designs were used as a stop gap solution as both Intel & AMD realized that the L2 cache needed to be closer to the CPU or in the CPU die itself in order to keep the CPU fed with data to maximize performance. Having the L2 on the mainboard meant that it could not be clocked high enough to keep the CPU fed with data as CPU speeds increased.
Intel had tried to integrate the L2 into the same package as the CPU with the Pentium Pro, but the yields were very low with the Pentium Pro as the entire processor package had to be discarded if there were any issues with the CPU itself or the L2 cache. Each part had a separate die but could not be tested until they were both placed in the physical CPU package. Once that was done if either part had an issue the entire CPU package had to be discarded.
Placing the L2 onto the same card as the CPU (but not on the mainboard itself) allowed for the CPU die & L2 to be tested individually which greatly increased yields. Having the L2 cache physically located right next to the CPU die allowed it to be run at a much faster speed than if it was on the mainboard.
However, once both Intel & AMD had figured out how to integrate the L2 into the processor die itself (Intel - Mendocino & Coppermine cores, AMD Thunderbird & Duron cores) they both went back to having a CPU in a socket again as the slot configuration was no longer needed. AMD had also integrated the L2 into the socket 7 based K6-II+ and K6-III CPUs but the chips that had that were released around the same time as the Athlon/Duron CPUs that had integrated L2 as there was some overlap in the late K6 chips and the earlier Athlon CPUs.
Intel's Slot 1 used the AGTL+ FSB protocol. AMD's Slot A used the EV6 FSB protocol which was licensed from DEC and also used by the Alpha 21264 processors. Physically the slots are the same but reversed and use different FSB protocols.
AMD decided to save few cents by using same physical dimensions like Intel. So there was no need to pay for new design of plastic socket and PC case air flow
Slot A was how AMD introduced the DEC Alpha's memory interface - I forget what it was called. None of the front-side-bus rubbish.
Nice one! Thanks for featuring my emulator in your video Adrian... It sold out on eBay, but will try to re-stock it in the coming week. A few comments, although the emulator uses 128k SRAM, it can only do up to 64k EPROMs - so 2716 to 27512 (initially the design was using 2x 32 SRAMs chips, but those days it is cheaper and faster to solder, to use 1x 128k SRAM chip but only use 64k of it). The SPI EEPROM onboard is to "save" the image so it can be recalled using the red button or recalled automatically when the emulator is powered up (with the -auto option).
It's such a great tool, thanks for making it Kris!
It's a great device I think! It's actually given me a little inspiration for a project I've been thinking about, I shall do some more thunking and possibly get in touch! Either way, thank you - it's awesome!
I see a wedding ring!!!!!!!
Oh, I thought he had been married for quite a while? I felt like he referred to "my wife" in a much earlier video?
That card uses a DMS-59 connector.. you scrolled past it several times on that Wikipedia page 😂
That is a Dell video AGP card.
@@Rorschach1024, yup. Dell used DMS-59 on a lot of their OEM video cards in their business desktops, even after they switched to PCIe. Such PCs came with Y cables that provided for dual monitors: dual VGA, dual DVI or one of each. DMS-59 carried two distinct video channels no matter what monitor interfaces were used, so cards like these provided dual monitor functionality before dual integrated video became common on motherboards. I haven't seen DMS-59 on any computers other than Dell, though.
@@mar4klyup, i have a huge dell collection. they have some of the dumbest impractical designs
@@mar4klI had a slim HP desktop with a quadro card that used this connector, not sure exactly when but it was a core 2 quad machine.
Yup, endless 'workstation' class desktop machines had these for dual-screen. We used to hate it when clients would send in the cable only to find we didn't send it back!!!
I like your assessment of retro. It’s totally fair to say that it’s in the eye of the beholder and then share your personal taste. I happen to agree with it.
serendipitously, I actually used Kris's EPROM Emulator while developing the SmartDisk][!
Oh how funny that these two were in the same video!
DMS-59 cables are what you need. They were really common with Dell systems and tons of companies who bought/leased those systems have boxes of those adapters laying about. I bet if you put an ask out you would get an avalanche of those adapter cables.
Right, I can vouch for having boxes of those dual monitor adaptors at work back then. He was so close. Was right there on the Wiki page under "See also".
I suspect Adrian will get an avalanche of them without asking.
The big advantage of AGP is that the AGP slot was connected to the northbridge, whereas PCI slots were connected to the southbridge. That reduced the latency between the CPU and the graphics card.
This is not universally true. Some earlier chipsets (for example, the i440BX) handles AGP and PCI at the same time. However, all devices on PCI share the same bus (thus bandwidth) while AGP allows one device only and it doesn't share bandwidth with PCI.
Depending on the chipsets, actually. Later ones moved PCI away from the Northbridge chipset, with slower peripheral moved to the Southbridge chipsets (nowadays, they're effectively combined into one in recent CPUs, with an optional Southbridge chipset connected to PCIe bus), to better prioritize the messages.
@Dr_Mario2007 Yeah, I remember the history of how they split the north and south bridge and eventually the south bridge was moved into the CPU. There was some commotion over that move because they didn't want to add heat to the CPU and everyone knew that the north bridge got hot at the time. I think in the end it was all "hot" air though because the miniaturisation on the CPU die was such a smaller process node it was more efficient and cooler in the end.
@@jandjrandr
You mean the northbridge was moved to the CPU. The southbridge has never been on the CPU die.
@@lexluthermiester Well on some modern CPU, the high speed lanes can work as TB / USB3 / SATA / PCIe and they also have video output, so one could argue part of the south bridge (which typically handles IO like drives and USB among other) got moved to the CPU too ...
@AdriansDigitalBasement][
17:25 I did! The slot design had a number of advantages over Pin Grid designs, the primary being: No bent pins, ever! Another benefit was better cooling possibilities. There were a number of other benefits that became less relevant a few years later and completely irrelevant a few years later. At it's time, the slot designs(Slot1, Slot2 for the original Xeons & SlotA) were great ideas! EDIT: I mean think about it, we had and still have expansion card interfaces, RAM, ISA, PCI, AGP, PCIe and so on. Why not do the same with a CPU? It made logical sense, at that time.
The big thing was that slot 1 and slot A allowed you to run the cache at a higher bus speed than the motherboard bus. Initially the L2 cache speed was 50% of the CPU speed and later 100%. Motherboard bus speed during the initial Pentium 3 era was 100 or 133 Mhz versus the CPU speed of 450 Mhz or higher.
The later socket 370 Pentium IIIs had L2 cache embedded in the chip die, running at the full core speed. Slot 1 was pretty much a stop gap to squeeze out extra performance and that cache made a huge difference.
"Enhance...enhance...enhance" Nice shoutout to Eric O at SMA! 😊
I thought it was a Super Troopers reference. 😂
It’s has its roots Blade Runner reference
The Slot-1 form factor was actually quite reasonable. It saved space on die by having the bulky L2 cache on a dedicated board that wasn't user modifiable, and at the time lithography was still huge. It improved yield by separating cache and CPU, it improved profitability by binning CPU and L2 separately and then matching them. And of course Intel wanted their new cool CPU to look cool. It simplified potential upgrades. The Pentium chips need more cooling and by angling the CPU out at 90 degrees (with hefty brackets) cooling was made easier. And the edge connector was a great answer to all those bent pins on 486's, if anyone ever bother to upgrade their Slot-1 systems.
There are a bunch of good and not so good reasons.
I came to say much the same thing. I agree completely. It was also a very good thing from the standpoints of signal integrity and ease of motherboard layout.
13:00 Yup, on the Amiga, normally when you move a window it just shows an outline. However, there were public domain & shareware utilities like MCP, MultiCX, PowerWindows, and Opaque that allowed you to see a window's contents as the windows were being moved on the Workbench screen, with varying degrees of slowness depending on your hardware specs. This was one thing I loved about the Amiga PD/Shareware scene, since you could usually find a utility to do many different things that weren't built into the OS, but were features of the other popular OS's at the time.
That Nvidea AGP card uses a DMS-59 (Dual Monitor Solution w/ 59 pins) port for connecting digital and analog displays to. The DMS-59 port provides two DVI or VGA outputs in a single connector. You'll need adaptor dongles to use it with a standard DVI, DVI to HDMI, or VGA cable. There are Y-style breakout cable adaptors for DMS-59 ports that allow dual monitors to be connected to such cards. Note: If you look at 15:12 in the video, you will notice a link to Wikipedia's article on the DMS-59 connector.
@Adrian, I can probably find a y connector of this type for you. We commonly had these at work on older dell desktops
RAMMY!! We've missed you!
So glad to see Rammy again. 🐏
Always a pleasure to see a SMMC video. Thanks Adrian!
what is nice now for slot 1 is that if you have a board like the 440bx, you can really easily swap between pentium 2s and pentium 3s all the way from 233MHz p2 to 1Ghz p3 (and 1.4GHz p3s with right board, a bit of hackery and a slotket adapter)
Not sure if anyone else has mentioned it yet, so I'll go ahead. Slot A is flipped 180 degrees from Slot 1. So you were right, they're not electrically compatible, and it *can* be confusing, but since the key on the slot only allows the heatsink to go on in one direction, generally speaking it gives you a good idea if it's a Slot 1 or Slot A motherboard.
Just to yes and this, the reason Intel and AMD went with Slot 1/A was that integrating L2 cache on die (or on package) wasn't economical yet, so both companies put it on a daughter board with high speed interconnects to the CPU. Once foundry technology sufficiently improved, on die L2 cache become economical and the P3 Coppermine / Athlon Thunderbird were the result.
One thing you have to understand is that AMD at the time was so small compared to Intel. I mean they're small today compared to Intel but back then they were even smaller. Up until this point they had been socket compatible with Intel. The slot generation really signaled the end to single socket, multiple vendor chips. All AMD could do was to tell the motherboard manufacturers "look man you got all the same parts, you just got to arrange them slightly different and you can use our chips." Luckily the athlons were so good that people wanted them because otherwise AMD would have failed to get any motherboard manufacturer to support them or in the future any of their custom sockets.
It wasn't until they were socket adapters that you saw Cyrix or other competitors chips in these machines.
AMD made cheaper Intel clones until K5, that's when they started to do their own thing and improved over Intel. The run K6 - Athlon 64 was legendary for AMD.
I just got home from work and got a zillion TH-cam notifications.
As a looked down the list I realized Adrian's channels are part of a very small subgroup where I don't even read what it says, I just click. 👍
I gotta say Adrian you do an incredible job on these videos. Easy to follow, lots of excitement, and great content. Love it 👍
About the 486 MB. First, visual inspection for damaged traces. Second, that PLL chip should be outputting "doubled" frequency, i.e. 66Mhz (at oscilloscope) for your DX33, not 33Mhz / 25MHz. Third, you should definitely check for correct supply voltages in the cpu socket (without the cpu in it).
Even though the PCs of the nineties were fairly similar, one can really get into the variety of graphics cards of this era. Especially the dawn of 3D. Very retro.
Adrian, I had a dead 486 motherboard with similar issue. I checked the CLK pin on CPU socket and there was no clock. The clock was coming from a 74 series buffer which was connected to chipset. I took the buffer chip out and tested it on TL866 and it was fine. Next step I checked the chipset, it was receiving the clock from crystal but not outputting to the buffer chip. Replacing the chipset fixed my issue. I think checking CPU Socket pins will give you a better idea what the culprit could be.
Rammy's back!
And you're gonna be in trouble!
Hey nah! Hey nah!
My Rammy's back!
Rammy was missed. ^-^
I have recently been thinking about what makes a computer "retro" for me and I have realized it is not purely chronological. My dream computer has a one-piece integrated design, brings the user to a text console immediately upon power-on, and is incompatible with every other model of computer software. That is the world of my childhood. Paradise.
A command-line is your paradise? What a sad childhood.😢😢😮😢😢😮
About the card with the non-standard DVI port, babk around 2008-2011 or so the Dell and HP workstations we purchased came with video cards with those adapters. They would split out into 2 standard DVI ports and you could drive 2 monitors, and included the analog signals.
You make a good point about what counts as retro depending on who is looking back and what the hardware can do.
The early Athlon's were also on a card for the same reason as Pentium 2 the cache was external to die.
It was possible to resolder the dividers resistors to change the divider to make overclocking easier. I resoldered my A600 cache divider from 1/2 to 1/3 so CPU could be overclocked to 850Mhz.
I still have the CPU in my Win98 games PC still has the divider at 1/3 running stock 600Mhz clock speed.
The advantage was the cache could have its own interface to the CPU independant of the front side bus clock.
The reason they used the same slot an packaging so motherboard and cooling manufactures could use the same mechanical connection to save retooling.
Speaking of getting mixed up by L1, L2, and L3 cache... You might try out one of the rare systems with an L4 cache.
The easy one would be a Broadwell based Core-i7 5775C, or i5 5675C.
They give quite a bump up for anybody still running an old Haswell Socket 1150 board... At least in apps that can take advantage of the extra cache.
It's also possible to run an intel Optane accelerator as cache on these... Technically designating it as an L5.
I loved my old Slot-A, AMD k 600. I ran that system for many years as my email server.
Some of these boards really need a battery. I would try that. I know my asus p5 board will not post without the battery in. Just a thought.
On the Promise card, the Non-RAID and RAID cards were almost identical. Just two wiring changes and then reflashing the BIOS. I have a few hacked cards around. Worked on both ATA66 and ATA133 versions of the card. I think I also have the original RAID card too.
I like that t-shirt 😄 in your video ("Sometimes good caps just go bad") lol.
It's interesting to watch your journey with the M601 board. I have the same board (perhaps a different version number), and I went through the same process of discovery with the different websites to determine the clock settings for the PLL52C05. It's a shame you weren't able to discover why it's not posting.
"Super mini mail call" is really a running gag now 😂 An epic mail call would probably be an 18 hour video then 😁
That ROM emulator was really neat.
Congrats Adrian!
That Slot 1 Pentium II was made in the factory I used to work in back in Ireland in the late 90's. I moved to another part of the company just before they began making those CPUs there, but I did get to visit the floor a few times.
First I've seen a wedding band? Congratulations! Also, there were never any dual slot-a machines.
I was building pcs in the slot era! If I recall Intel’s on die cache yields were awful so they came up with Slot 1 to carry the cache. Leaving it up to the board manufacturers would end up with no cache in budget machines and the P2 needed the cache to have decent performance.
AMD were just playing follow intel. The slots the same connector but rotated 180° on the board because they’re not electrically compatible, don’t want people frying their CPU because you copied intel!
Ah so that was why Slot 1 was created. So it's a giant bodge by Intel.... *SIGH*
You beat me to it, Patreon member!
Amd did not have a choice much like Intel, cache memory at the time wasn't able to reach the speeds cpus were operating at. so the best solution they had until tech caught up was the processor on a card. They could have gone with L2 on the motherboard again but that would have been even slower due to the distance from the cpu. memories a bit hazy but I believe amd had the performance lead during this era over the pentium 3.
@@whelmy if I remember that was the era pentium3 went super-scalar and had a long pipeline, AMD scaled up vertically by having less latency, which wasn't good because they also had less L1-cache on die, so they ended up also going to the insane slot thing
Rumor has it that AMD used the same connector as Intel for the K7 (rotated 180 degrees) to save mainboard manufactures from issues with different manufacturing processes.
Intel did not license Slot 1 so AMD created Slot A... but yeah, it was a stop-gap/bodge. 😅
There were some slot 1 gems. Like the Celeron 300A with on die cache that would almost always overclock to 450MHz. They sold for $180 and were just as fast as the $500 Pentium II 450
Anything is retro that is able to make you tell a passionate story about something benign, that makes your eyes sparkle, that makes you pause and dream about something, that was unobtainable for you at the time, or is from a time long gone by before you started.
Slot 1 and Slot A used the same connector, just rotated the other way and the vertical posts were keyed differently. The busses operated very differently. Intel's bus was basically the same from Socket 8 (Pentium Pro) to Slot 1 to Socket 370, and there were adapters for both sockets to Slot 1, with the only real differences being frequency and voltage. AMD did move the Athlon L2 cache off-die for the same reasons as Intel, but licensed Alpha EV6 bus protocol from DEC. That got the Athlon over the 1GHz line before Intel.
Waw, implementing IWD in descrete is cool! And the design of jumpers and configuration is so cool
That cable look like what we used on digital signage - it has two screen included in one connector. :)
The slot 1 CPU design was a necessary evil for reasons of cache. They went back to a single chip design after they made a jump forward with later pentium chips.
You know, you are a nerd, when you describe things you like with the words "it's a pain to use".
Greetings from Germany,
Marcus
The reason for the slot1 (and AMD's slotA) was the cache. By placing that on a daughtercard with the CPU it allowed faster access to the cache bypassing the system bus. Of course that became obsolete once they figured out how to place the L2 cache onto the CPU die, but they continued to make Slot1/SlotA CPUs in that form factor for a while for backwards compatibility reasons. And that's also the reason why Apple used CPU daughtercards in the PPC era, many of those also had external cache on the daughterboard.
For the defective motherboard i experienced several times already that pins of the chipset can get lose somehow over the time or if the board was bend once too strong. Checking with high magnification if you have a lose pin. I was able to fix most of my declared dead boards after I got this hint.
Possibly already said, but 9:09 DMS59 connector. Usually required a breakout connector for two DVI connectors, two VGA connectors or a combo. Usually used on low profile cards
The EPROM sized SRAMs are also used in the Timex Sinclair. I am actually planning to do a RAM upgrade on a couple Timex Sinclair 1000 systems that I purchased at an estate sale last summer. I also need to fix the keyboard flex cable. I've only opened one, but assume they are both damaged.
that video out port on that AGP card is called a DMS-59 connector Adrian
Love the slackware story. I was doing the same thing back in the day. Remember installing from a bazillion diskettes? 😊. Those were the days
Some nice goodies in this mail call.
Keep warm in Portland
about the jumpers, usually you just try all combinations to break the lock
Slot1 and SlotA both used the same SC242 edge as their physical interface. They were not electrically compatible.
They were at least designed to have clearance (for the heatsink, etc.) on opposite sides relative to the key, so MOST motherboards had a physical obstruction to keep you from sticking incompatible parts together.
Slot processors were mostly about making room for on-package but off-die caches to improve yields (smaller processor die + SRAMs instead of one large die with both).
In recent years we're seeing an explosion various fancier multi-chip modules, chiplets, stacked dies, etc. which are kind of the same idea.
Ed: I see that you recalled later in the video.
I am a few months away from becoming 24, and I generally respect and share your opinion on what we choose to call retro-computers. I honestly hold no nostalgic thoughts for the fairly standartized beige boxes of the 90s, nor for the bland black boxes of 2005 to 2013-ish. But those late 70s and 80s machines, that are experimental and sometimes one-off computers with mediocre capabilities (compared to today, ofcourse), which came with adorable form factor cases are totally different, and thus, of interest to me.
And I find it especially interesting that you can diagnose and talk about circuitry in detail,- which I, as someone who doesnt get how these things work exactly, find it very useful to know about. (Though I havent found any real-life appliance of this wisdom yet.)
AMD Slot A is in fact the same but inverted, rendering it impossible to accidentally insert a wrong CPU
That is a DMS59 connector. It's commonly available once you know the right search terms, ha. You are correct in the fact that it is used to send dual DVI connections out from a single port.
I would have to check, back at home... I think I've got a card like the "weird DVI" one, with two adapter cables, one 2xVGA and one 2xDVI... you might have more use for it than myself, hehe
As I recall, the Pentium Pro had yield issues with the L2 cache. The "Slot 1" Pentium 2 & Katmai Pentium 3 was Intel's solution to have 512K L2 on a separate manufacturing process running at half CPU speed versus the much slower motherboard bus speed cache used by older CPUs. Later Coppermine (and Toiletin) Pentium 3 had 256K on-die L2 running at full CPU speed. After Intel solved the problem of acceptable yields of on-die L2, they went to Socket 370.
Your Celeron 300A had 128K on-die L2. The original non-A Celeron 300 had no L2 cache at all. There were of course other speeds for both core types of Celeron.
As for AMD's reason to follow with a slot formfactor, I suspect cache yields was their reason as well, because Slot A eventually got replaced with Socket A. Also, there was a way to tap the Slot A PCB with a device called a "Golden Finger" for overclocking.
Then with Socket A we could just bridge L1 with a graphite pencil and enable multiplier based OCing.
Slot1s PIIs were fun. I still have a few in storage. I had a P2 350 slot1 on an Asus P2B motherboard with a voltage mod using electrical tape clocked at 403mhz with a Voodoo 3 gpu playing Unreal and Counter-stirke betas. I remember later on having a P3 socket 370 installed in a slocket adapter that allowed some voltages and overclocking. Overclocking was fun in those days. I still have a slocket, in my collection as well. I wonder if jumper settings are still documented on those?
Slocket. MAN, I haven't heard that in DECADES.
decades? oh damn are we this old?
@@button-puncher
@@Wikcentral I'm afraid so. Recently at work, I had one of the new guys ask, what came first, CD or USB? To school him, I'll randomly bring in things. He was absolutely floored when I brought in a laserdisc. The latest was a stack of 8" floppies.
that is awesome hahaha@@button-puncher
totally agree with you on the retro :)
just depends what floats your boat in the end!
I'm not a subscriber for a long time. So, this is the first time, I see Rammy.
HELLO RAMMY! NICE TO MEET YOU!
Pentium 3... at this time, I had a AMD K62.
That Nvidia connector is a dual monitor cable and was used often in Dell Optiplex (P4) machines from the mid-00s. I think I might still have one rolling around.
The phrase 'gan canny marra' Lawrence used in his letter is local dialect used in the North East in the UK. Like Newcastle / Sunderland or South Shields area. Funny to hear that spoken on your channel here!. I'm a Sunderland lad, and it basically means 'go well sir' a kind of 'take care'.. where 'marra' is a man.
Is that a wedding ring?
Enquiring minds wish to know! It's a nice colour too 🙂
I think the slot 1 approach stopped everyone from wrecking the pins on their CPU. It's been a while, but I suspect those were before the pinless Intel processors. Before that, even with zero insertion force sockets, many people would always damage their CPU pins. I never had problems with the pins, but I was careful :P
The AMD Slot A was also flipped compared to the intel. The heatsink would usually face the opposite direction if you tried to put it in a slot 1 motherboard and not fit as it would interfere with the IO ports.
Slot 1 was developed to solve a production problem. To putthe cache in the same package as the CPU required them to be bonded together before they could be tested, so any flaws in either resulted in having to discard the whole assembly, which made yields low and production costs high. Slot 1 allowed the CPU and external cache to be placed on q small daughterboard, allowing them to be tested before installation, making yields higher and production costs lower.
And yes, Slot A and Slot 1 used the same connector with a different pinout, but they also were oriented differently on the motherboard, being backwards to each other.
Hard Hat Mack was one of my favorites on my Apple //e (my first computer). I also loved Gemstone Warrior, and Conan the Barbarian. Plus Loderunner and Choplifter, of course. Oh and Ultima II (never played any past II).
That graphics interface is a DMS-59 which as you guessed, provides two signals from one port with a Y-cable. You can output either two DVI signals or two VGA signals, or one of each with the appropriate Y-adapter cable. This standard is NOT proprietary and was only deprecated in 2020. The cables should be readily available with very little premium pricing, if any.
I remember having these graphics connector on Sun workstations.with dual screen. it is DMS-59 connector for dual screen VGA and DVI
Someone is sporting a ring, are congratulations in order? I feel "retro" ends with the Pentuim 1.
During the 90's I built about 2 PCs per year starting with a 386sx 16mhz. Then I slowed down in 2000s. I still like playing around with early to mid 2000s tech. I call them the XP class PCs. If it has a floppy controller and IDE controller then I consider them retro.
Slot A and Slot 1 use the same connector but 180 degrees out from eachother.
My newest "retro" computer is a K6-2+ 400 running Win98. I agree. Anything running XP or newer is effectively a modern PC.
That 486 motherboard looks very similar to my second motherboard that I had long time ago.
It used to have the same problem.
Sometimes, bending a little bit the board can fix it for a while.
Probably is not a bad chip. It's more probably a broken circuit trace near BIOS, near processor or near power.
Rammy is really paying attention to youre presentation
That Athlon may have looked a lot like a P2/P3, but it used a vastly different bus. IIRC they basically used a DEC Alpha style bus & double-pumped it to boot. And it was an absolute floating point monster in its day.
I don't think AMD _wanted_ to create a slotted CPU like Intel. It's just that, like Intel, AMD needed their CPU performance to scale with clock speed as they raced to a GHz, which required something significantly faster than motherboard cache. All at a time when it was still a little too pricey to put a meaningful amount of the stuff on-die. Even PowerPC chips in Macs were on daughter cards along with the L2 at around that time.
Intel used the slot design in the days before they were able to package memory and cpu chips on a single substrate. They also were able to include a heat sink onto the package.
The 8251 was used in embedded processors. This was Intel's serial chip that would do both synchronous and asynchronous protocols. It had a few bugs that had to be programed around, but it did work. It was limited in it's max communication speed. Motorola had the 6850, MOS had the 6550. However the NSC 8250 family became the standard for the PC. AMD introduced a similar part for their second source of the Zilog Z8000 family.
I remembered that Pentium II and III processors - I used to get junk computer when I was younger, so I had to remove the heatsink clips the hard way (had to break the lock-in pins off so they come undone), to swap over to better heatsink, especially when gaming. It has been so long time since I have seen those cartridge CPUs...
And AGP stands for Accelerated Graphics Port, BTW. It's essentially a modified PCI bus designed for higher clock frequency so that way CPU can shuttle plenty of bandwidth to the GPU via Northbridge chipset, up to AGP x16 (3.x) which is an equivalent to PCIe 1.0 x8 bus in terms of bandwidth, at 2 GB/s.
Also, the termination card with same pin format as the Intel cartridge CPU was meant for dual processor motherboard (ie. Intel 820 chipset based Pentium III Xeon server motherboard) so it properly terminate an unused cartridge slot just so motherboard doesn't flip out. It's possible to get away without it, depending on how the board is designed in the first place.
As for cartridge Athlon CPU, it was infamous for being incredibly easy to overclock with the "Goldfinger" CPU speed selector switch.
if I recall correct. I once did brake of the flat part of a spare dvi cabel. to use in a simular gfx. and I could use it normal with a single screen :)
Slot A isn't a copy of Slot 1 per-se, the pinout is completely different, they flipped the socket around to take advantage of economies of scale (meant motherboard manufacturers only needed to buy one type of connector)
I had an Athlon 750 slot cpu always found that time felt like I was plugging in a Nintendo cartridge for my CPU, mostly though any single core CPU without hyper threading I associate with retro, since it seems for 20+ years we have had multi core/thread CPU's and really only windows xp/2000 could take advantage of that
“Gan canny marra!” Ha ha! Now I know that fella must be from my neck of the woods.
Just a random thought about the motherboard but Adrian mentioned that it came with an internal battery but you could also use an external battery if desired. I got to thinking what if the problem encountered with the motherboard is due to there being no battery? Perhaps some type of battery is needed to get it to post.
I loved my super cheap Celeron 300A slot 1 that could easily be overclocked to 450mhz.
I had a quadro nvs card with that funny dual monitor dvi on it. It needs a splitter dongle but it should be a reasonably standard thing.
I love that EPROM emulator! It would be cool if there were a version that supported multiple EPROMS in a board like in the case of arcade boards with an array of 27C64s
Hello Adrian. I remember a few motherboards not booting at all without a keyboard connected. It's a shot in the dark, but it might work.
Kris owes you commission for the EPROM emulator I just bought on eBay! ;-)
Retro SOFTWARE on things like a tricked-out Slot 1 machine would be great. Like, make a period-correct Windows NT 4 computer and run Exchange on it :) See to what extent you could get IIS to talk to the modern internet!
Good old PCShits boards, always disappoint. The bane of every PC repair guy in the late 90's early 2000's.
26:14 is there anything insulating the bottom of the board from the metal case of the psu?! It really looks like direct contact...
He puts a mousepad under it and sometimes when he lifts the board up, it sticks to the bottom of the motherboard and it looks like he’s sitting it on bare metal.
there is a design for serial port expansion for the ZX81 based in those intel 8251s UARTs - I built one last year
37:00 you can check the clock pin on the CPU socket to make sure it gets there
Also check that the data lines on the ISA bus are doing things
@Adrian, the connectior on the gforce fx5200 AGP card is called DMS59 and you have analog and digital breakout cables.. you had it mentioned in your wikipedia articles and just didnt catch it :D DMS59 - "a single DVI sized connector providing two single link DVI or VGA channels"
Anyways, i have few of such cards, and yes, you need a breakout cable, but it has 2xVGA or 2xDVI ports on other side..
I ran a 733 MHZ slot A AMD for quite a few years, replaced my old P1 233mmx with it, loved it , was fast at the time and gave me 0 problems over the 5 years I had it, back then I didnt have the money at the time for an uber high end system, but for dollars to performance , the AMD was king. gamed on it , did some 3d creation with it, visual chat , etc , one of my favourite old machines I had , right up there with the old 486 I ran before my pentium