The answer is basically "no".
A single mechanical disk drive is going to take 10ms or so to perform a seek, because it has to move the disk head. 16000 seeks times 10 milliseconds per seek equals 160 seconds. It makes absolutely no difference how you write your code; e.g. mmap() is going to make no difference.
Welcome to the physical world, software person :-). You must improve the locality of your operations.
First, sort the locations you are accessing. Nearby locations in the file are likely to be nearby on disk, and seeking between nearby locations is faster than seeking randomly.
Next, your disk can probably read sequential data at around 100 megabytes/second; that is, it can read 1 megabyte sequentially in around the same time it takes to perform a seek. So if two of your values are less than 1 megabyte apart, you are better off reading all of the data between them than performing the seek between them. (But benchmark this to find the optimal trade-off on your hardware.)
Finally, a RAID can help with throughput (but not seek time). It can also provide multiple disk heads that can seek concurrently if you want to multi-thread your read code.
But in general, accessing random data is about the worst thing you can ask your computer to do, whether in memory or on disk. And the relative difference between sequential access and random access increases every year because physics is local. (Well, the physics we depend on here, anyway.)
@JeremyP's suggestion to use SSDs is a good one. If they are an option, they have an effective seek time of 0.1ms or so. Meaning you could expect your code to run 50-100 times faster on such hardware. (I did not think of this because I usually work with files in the 1 TB range where SSDs would be too expensive.)
As @FrankH mentions in a comment, some of my suggestions assume that the file is contiguous on disk, which of course is not guaranteed. You can help to improve this by using a good file system (e.g. XFS) and by giving "hints" at file creation time (e.g. use posix_fallocate to inform the kernel you intend to populate a large file).