> But from the discussion referred I gather DROM outputs its diagnostics to > this port too and you might be able to learn what exactly about NVRAM it > complains. Also you might be able to correct configuration, e.g. by poking at > NVRAM or elsewhere appropriately; notice that the manual also suggests > you might be able to bypass the DROM sequence and go to SRM/ARC > directly, which might help recovery too. >
Having checked the manual I think you may be referring to the following text: " When the SROM code has completed its tasks, it normally loads the DROM code and turns control over to it. The SROM checks to see if the DROM contains the proper header and that the checksum is correct. If either check fails, the SROM code reads a location in the TOY NVRAM. The location indicates which console firmware (the SRM or the ARC) should be loaded. When the console firmware is loaded, the header check and the checksum are checked. If either is in error, the SROM code jumps to its mini-console routine. With the appropriate adapter, you can attach a terminal to the CPU's serial port and use the mini-console. Typically, this port is used in the manufacturing environment." To get this sequence to work needs two things though. First I have to create a DROM error. The DROM seems to be fine. Perhaps I could remove the DROM chip as it is socketed to provoke the error. However, then it says it checks the TOY NVRAM for which firmware to load. The battery was flat, so the TOY NVRAM won't have this info. Hopefully it will default to one of them. Still, if I had the mini-console adapter, that would probably really help. Regards Rob