This is assuming base 10 and as an example, your memory is using 8 bit words:
Memory map the entire range of numbers using 3 bit increments. The First 3 bits would correspond to the number 0. The second set of 3 bit would map to number 1. Three hundred thousandth set of 3-bit would map to the number 300k. Repeat this until you have mapped out all the 8 digit numbers. This would total 375k bytes in total if memory range was continuous.
The 1st bit out of the 3 would mark the presence of the number. The next 2 bits would indicate the amount of duplicates that could be represented in bytes(1..3) if none, the duplicates field would be 00. There will be a second list that uses a counter that increments each time a 3 bit field is marked as having a duplicate. If it marked with 1 it will have a single bit range to count the amount of duplicates it has. 8 bits can represent a range 255.
As I'm losing track of thoughts. The second list will keep track of how many duplicates for each number. if the 255th number has a duplicate and is the first number to have a duplicate it's index in the list will be 0. If 23,543 is the second number to have a duplicate it's index will be 1. Wash,rise and repeat.
Worst case scenario is you have 500k numbers with duplicates. This can be represented by a single byte(since 1 fits in easy). So 375kB(ideally) + 500kB bytes is close to .875MB. Depending on your processor this should leave enough room left over for pointers,indexing and all of the other fun stuff.
If you have a single number that has 1M duplicates. all you need is 3 bytes, since your limited to 1M numbers, that's all you have to worry about. So on your second list it will be just be 3 byes with the total amount.
Now for the fun part. The second list will need to be sorted for each new number that comes in. In the 3 bit field the last 2 are the number of bytes that contains the number of duplicates. Since the second list is expected to be in order it will need to be sorted. Since the amount of bytes can vary. Think insertion sort!
This would keep the amount of pointers and things you need to increment to a minimum so you should have a little bit of flexibility with the maybe 250k bytes left.
GoodLuck! This sounds so much more elegant in my mind...