Reply 120 of 237, by Mau1wurf1977
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- l33t++
🤣 that's a funny picture!
🤣 that's a funny picture!
Here's speedsys. Also, I ran Quake 1.06 demo for DOS. Full screen I get 58.8 FPS. Two notches below full screen I get 65.4 FPS. I'm using a Voodoo3 2000 video card.
I've hit the 333MHz barrier! 😀 I had to switch to the maximum allowed voltage on the mobo, and also "single voltage", for both VCore and VIO. This value was 3.5V. The system isn't very stable. Also, I had to adjust the BIOS memory settings, to make them much less aggressive.
Edit: I forgot to mention this: the mobo's FSB can be set to 95. This information can be seen here. So, we have 233 Mhz CPU with a 3.5 multi x 95 FSB = 333 MHz. (Just in case you were wondering.)
I have only one SS7 Board left in my ever declinig collection. I've once purchased 4x P1 mmx 233MHz, for minimum bid. IIRC, they would run at 300 MHz if you increased the voltage.
Regarding the K6-2: Try triggering the turbo pascal speed bug with one of them. Even at 550 MHz, my K6-2 won't trigger it. A P2 kicks it of at 266MHz. Thats efficiency!
Retro PC warning: The things you own end up owning you.
wrote:I've hit the 333MHz barrier!
Impressive! I have heard of the paint can method but never seen it in action. 🤣
I don't have a SS7 mobo worth messing with, but I have a P200mmx in my Abit 430TX regular Socket 7 able to hit 291mhz. I'm stuck with max settings of 3.5x83, but still impressive for a 1997 board.
wrote:wrote:I've hit the 333MHz barrier!
Impressive! I have heard of the paint can method but never seen it in action. 🤣
There is also the aerosol method: Use a CPU cooler and seal the sides with some hot glue, then mount. Take a large can of compressed air and turn it upside down. Spray the (liquid if upside down) air onto the cooler. Once it has boiled of, reapply and boot. Keep reapplying while the can lasts... Avoid superconductivity at all costs or use expendable power supply. And don't try this in hawaiien shirts.
Retro PC warning: The things you own end up owning you.
Regarding the CPU temperature, the readings were quite remarkable. At the moment, the high grade thermal paste has almost welded the heatsink to the CPU. I think that the heavy weights put on top of the heatsink has caused this to happen. Under normal processor activity load, and with no OC'ing, the BIOS tells me the temp is just 19C. With the CPU under intense strain (333MHz silly OC'ing), the BIOS told me that the temp was just 34C.
Edit: Perhaps those readings were inaccurate, because the room felt hotter and hotter! 🤣
wrote:I don't have a SS7 mobo worth messing with, but I have a P200mmx in my Abit 430TX regular Socket 7 able to hit 291mhz. I'm stuck with max settings of 3.5x83, but still impressive for a 1997 board.
Very impressive. 😀
I'm about to test a regular socket 7 mobo. It's an MSI 5158 model (MS5158). The PCB says version 1, and like your Abit board, the bus speed goes up to 83. I like the connectors layout at the back. Also, it has room for either 2 72-pin DIMMS, or 3 sticks of SD-RAM.
You should buy yourself the big 22 gram syringe of Arctic Silver Ceramique because 1) it's excellent stuff 2) it's cheap 3) cleans up easy. It will last you forever. I know this firsthand 🤣.
Really any thermal paste is good enough for this old stuff though. The heat just isn't there like with modern hardware. But you don't want anything that dries up or separates and hardens. I've had crap like that from Radio Shack way back.
Wow, 22 grams! I'm looking at the syringe I use: a mere 3.5g. It says: Artic Silver 5. I think it's good stuff, man. 😉
Just use clean needles, will you...
Retro PC warning: The things you own end up owning you.
wrote:Wow, 22 grams! I'm looking at the syringe I use: a mere 3.5g. It says: Artic Silver 5. I think it's good stuff, man. 😉
Yes AS5 is good stuff and I still have some around here. But it's only (very) slightly more thermally conductive in practice than Ceramique while being several times more money per volume. I'm not much of a believer in the "high end" pastes anymore and just want some stuff that's not garbage like the white stuff in the little packets sometimes is.
I admit I don't even bother with cooling paste on these old items anymore 🤣
I just mount the cooler and that't it 🤣
wrote:I admit I don't even bother with cooling paste on these old items anymore 🤣
I just mount the cooler and that't it 🤣
For testing in the open - sure, why waste paste?
When I test a Slot1 Mobo, I stick in an old P3-400 "handcooled" and watch if it posts.
Retro PC warning: The things you own end up owning you.
Yeah really most of this old hardware runs so cool anyway. I usually just go with whatever's already on the heatsink if I swap stuff around. The heatspreaders that the old hardware has also makes it less important to have really good heatsink contact.
Now if we're talking a bare die Athlon, then I get the paste out for sure. You don't want to run one of those without good thermal contact or bad things will happen.
You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are:
1. Bus clock up to 100Mhz with a 3x multiplier.
2. Bus clock at 66Mhz with a 4.5x multiplier.
You can get a 4.5x multiplier by either buying a specially modified chip, or bridging two pins on the surface of the chip (B0 and B1 iirc) to force the multiplier. I have tried to get my chip to run at 100Mhz*4.5=450Mhz but have been unsuccessful (no POST). I currently run it at 66Mhz*4.5=300Mhz in a box with a Voodoo 2/S3 AGP combo.
Please note that I only read the first few posts, so if my information is redundant I apologize.
wrote:You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are: […]
You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are:
1. Bus clock up to 100Mhz with a 3x multiplier.
2. Bus clock at 66Mhz with a 4.5x multiplier.You can get a 4.5x multiplier by either buying a specially modified chip, or bridging two pins on the surface of the chip (B0 and B1 iirc) to force the multiplier. I have tried to get my chip to run at 100Mhz*4.5=450Mhz but have been unsuccessful (no POST). I currently run it at 66Mhz*4.5=300Mhz in a box with a Voodoo 2/S3 AGP combo
think you could take a pic of your cpu and how you modded it? I haven't been able to find any info about unlocking or forcing the mmx multiplier
wrote:You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are: […]
You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are:
1. Bus clock up to 100Mhz with a 3x multiplier.
2. Bus clock at 66Mhz with a 4.5x multiplier.You can get a 4.5x multiplier by either buying a specially modified chip, or bridging two pins on the surface of the chip (B0 and B1 iirc) to force the multiplier. I have tried to get my chip to run at 100Mhz*4.5=450Mhz but have been unsuccessful (no POST). I currently run it at 66Mhz*4.5=300Mhz in a box with a Voodoo 2/S3 AGP combo.
Please note that I only read the first few posts, so if my information is redundant I apologize.
I tried to hard wire a higher multiplier (4x) with my Abit 430TX and aP200mmx, and it did absolutely nothing. Even tried it on multiple brand socket 7 boards. 🙁
wrote:wrote:You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are: […]
You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are:
1. Bus clock up to 100Mhz with a 3x multiplier.
2. Bus clock at 66Mhz with a 4.5x multiplier.You can get a 4.5x multiplier by either buying a specially modified chip, or bridging two pins on the surface of the chip (B0 and B1 iirc) to force the multiplier. I have tried to get my chip to run at 100Mhz*4.5=450Mhz but have been unsuccessful (no POST). I currently run it at 66Mhz*4.5=300Mhz in a box with a Voodoo 2/S3 AGP combo
think you could take a pic of your cpu and how you modded it? I haven't been able to find any info about unlocking or forcing the mmx multiplier
Me too. The best I can find is:
If you go to this webpage: http://mysite.verizon.net/pchardwarelinks/cpuspeed.htm, and then search for: Intel Pentium w/ MMX (P55C: 5-4-3)
Then look at the comments which say: Two multiplier pins (BF0, BF1).
Then go here: http://mysite.verizon.net/pchardwarelinks/586pin.htm
Unfortunately, I can't locate pins BF0 or BF1.
Edit: BF0 and BF1 are probably mobo jumpers. Perhaps I need to locate pins B0 and B1 on the CPU. I wonder where they are? They don't seem to be labelled in the pin out diagram, from the link mentioned above.
wrote:Me too. The best I can find is: […]
wrote:wrote:You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are: […]
You have two options to get a Pentium MMX to 300Mhz - I've done it myself, actually.. anyway here they are:
1. Bus clock up to 100Mhz with a 3x multiplier.
2. Bus clock at 66Mhz with a 4.5x multiplier.You can get a 4.5x multiplier by either buying a specially modified chip, or bridging two pins on the surface of the chip (B0 and B1 iirc) to force the multiplier. I have tried to get my chip to run at 100Mhz*4.5=450Mhz but have been unsuccessful (no POST). I currently run it at 66Mhz*4.5=300Mhz in a box with a Voodoo 2/S3 AGP combo
think you could take a pic of your cpu and how you modded it? I haven't been able to find any info about unlocking or forcing the mmx multiplier
Me too. The best I can find is:
If you go to this webpage: http://mysite.verizon.net/pchardwarelinks/cpuspeed.htm, and then search for: Intel Pentium w/ MMX (P55C: 5-4-3)
Then look at the comments which say: Two multiplier pins (BF0, BF1).
Then go here: http://mysite.verizon.net/pchardwarelinks/586pin.htm
Unfortunately, I can't locate pins BF0 or BF1.Edit: BF0 and BF1 are probably mobo jumpers. Perhaps I need to locate pins B0 and B1 on the CPU. I wonder where they are? They don't seem to be labelled in the pin out diagram, from the link mentioned above.
Found it!
Go to this page http://mysite.verizon.net/pchardwarelinks/586pin2.htm and do a search for this: CLKMUL2
The P1 MMX is the 4th row counting from the right. It sais NC, Not Connected 🙁
Theres still a chance the official spec sheet from Intel is wrong though.
Still I'm not sure how shorting B0 and B1 ups the multi to 4.5x. I'll do some more looking around.