This question is heavily dependent on your operating system and disk subsystem.
Obviously, the seek itself will take essentially zero time, since it just updates an offset. Actually reading will pull some data off of disk...
...but how much data depends on many things. Your disk has a cache which may have its own block size and may do some sort of read-ahead. Your RAID controller (if any) will have its own cache, possibly with its own block size and read-ahead.
Your kernel has a page cache -- all of free RAM, essentially -- and it will also probably do some sort of read-ahead. On Linux this is configurable, and the kernel will adapt it based on how sequential your access patterns appear to be, whether you have called posix_fadvise, etc.
All of these caches mean if you access some data, then access nearby data later, there is a chance the second access will not actually touch the disk at all.
If you have the option of coding so that you access the file sequentially, that is certainly going to be faster than random reads, especially small random reads. Seeking on a single mechanical disk takes something like 10ms, so you can do the math here. (Although seeking on a solid state drive is around 100 times faster.)
Large reads are generally better than small reads... Although processing data a few kilobytes at a time can be faster than larger blocks if it allows the processing to stay in cache.
In short, you will need to provide a lot more details about your system and your application to get a proper answer, and even then the most likely answer is "benchmark it".
readis usually irrelevant, especially if you can then operate on that copy while in cache. The page table and TLB thrashing thatmmaprequires often ends up dominating. (I do have a hunch that this might be different on recent kernels with "transparent hugepages", but I never went back to try it...) The bottom line is there is no substitute for benchmarking.