Suggestions for stretching your overclocking chances:
1-Make a volt mod, the 68060 can tolerate an absolute maximum 4.5 volts as supply
2-Put heatsinks and coolers working at high speed, not only on the processor, but also to the accompanying glue chipset of your CyberStorm. The more extra chips you cool the more likely the CyberStorm will tolerate overclocking.
3-Get a stable PSU, a PC one with at least 2 times the watts than the power consumed by your entire system, to ensure voltage stability at all times.
4-Overclock bit by bit. This means, dont go for 100mhz at one shot. Try 80, 85, 90, 95 and then 100mhz
5-When overclocking a 68060 the first component that will fail will be the built in FPU. So get a proper fpu test/benchmark and use it while you clock up your CyberStorm to ensure you are getting a stable system.
6-Dont forget to have your setup in a proper ventilated case, otherwise cooling will be useless.
7-If you got the money and the will, you can also try some water cooling setup
8-If you have plenty of money, use phase change cooling for the best results. If not you may also hack a beer mini-fridge for your CyberStorm. When using this type of cooling, remember to protect the cpu/chips by putting a heater near the cpu/chip to avoid condensation.
A lot of good suggestions. Most of these I already addressed:
1: decided against that, as this is in a colocated server and stability is more important than speed.
2: have little heat sinks on the chips under the SIMMs, too, since they do get ridiculously hot, and I have a fan moving air across (front of Amiga to back) the entire board.
3: even though I have the stock power supply, I've replaced some of the older components in it because of testing it at full load, put in a variable speed fan, removed a couple of metal fins on the back, and reduced the total power of the system significantly. It used to have a CyberStorm PPC, two 10,000 RPM UltraSCSI drives, and one 7,200 RPM IDE drive. Now it has just one 2 TB 5,900 RPM low power drive.
4: I either have to source some more oscillators between 80 and 100 MHz or I need to build a variable speed clock generator.
5: Good idea. I have been running some FPU-intensive programs to test it.
6: I spent a good bit of time improving ventilation and making sure there are no hot spots inside.
7: Too complicated and not enough space. Also, what would I cool? The CPU at 80 MHz and 100% load is still so cool with the ventilation that you can barely tell it's warmer than when it's off.
8: Same thing. Might be useful for the CyberStorm PPC since the 604e gets damned hot and it's got an original mask m68060.
Thanks! I'll let you know how it goes.
