Imagine running Windows 7 in 256Mb of RAM (MS suggest 1GB minimum). That's effectively what you're asking the user to do by wanting to reseve 90% of available RAM.
The real question is: Why do you need so much RAM? What is the 'performance critical' criteria exactly?
Usually, this kind of question implies there's something horribly wrong with your design.
Using top of the range RAM (DDR3) would give you a theoretical transfer speed of 12GB/s which equates to reading one 32 bit value every clock cycle with some bandwidth to spare. I'm fairly sure that it is not possible to do anything useful with the data coming into the CPU at that speed - instruction processing stalls would interrupt this flow. The extra, unsued bandwidth can be used to page data to/from a hard disk. Using RAID this transfer rate can be quite high (about 1/16th of the RAM bandwidth). So it would be feasible to transfer data to/from the disk and process it without having any degradation of performance - 16 cycles between reads is all it would take (OK, my maths might be a bit wrong here).
But if you throw Windows into the mix, it all goes to pot. Your memory can go away at any moment, your application can be paused arbitrarily and so on. Locking memory to RAM would have adverse affects on the whole system, thus defeating the purpose of locing the memory.
If you explain what you're trying to acheive and the performance critria, there are many people here that will help develop a suitable solution, because if you have to ask about system limits, you really are doing something wrong.