Use your OS
Did you try comparing checksums like
md5sum as calculated by your operating system?
Most modern OSs will have utilities for calculating checksums of files, and done by the kernel are usually very fast.
Some file systems (brtfs, ZFS, ...) have checksums of the data stored within each block. Having such file system, calculating the checksum of the whole very large file should be not hard.
I would like to know of such tools...
- Use as many threads as CPUs available on the platform
ExecutorService e = Executors.newFixedThreadPool(Runtime.getRuntime().availableProcessors());
Within each thread open both files as READ ONLY and map a non-overlapping segments of the files to
FileChannel fc1 = new RandomAccessFile(new File("/path/to/file1"), "ro").getChannel();
MappedByteBuffer mem1 = fc1.map(FileChannel.MapMode.READ_ONLY, offset, BUFFER_SIZE);
FileChannel fc2 = new RandomAccessFile(new File("/path/to/file2"), "ro").getChannel();
MappedByteBuffer mem2 = fc2.map(FileChannel.MapMode.READ_ONLY, offset, BUFFER_SIZE);
Now instead of jumping to random byte within the files, make the jumps to sequential offsets of the files, comparing BUFFER_SIZE bytes chunks at the time per each thread in number_of_available_cores threads simultaneously.
Adjusting the BUFFER_SIZE to the block size on the disk, and the page size in Virtual Memory should yield much desired speedup. The biggest slowdown of the whole comparison will come from Virtual Memory's PAGE FAULTS, SWAPPING, and worst of all THRASHING.
See here for more information about monitoring VirtMem performance of your code on Linux. On Windows VMMap could be of help. See also this TechNet article on the various counters available in Windows and This article explaining VirtMem workings on Windows
Above also means that sequential processing instead of random jumps produces better results, as it leads to less PAGE_FAULTS and minimizes VirtMem page THRASHING
Holding the bit vector in memory of the chunks already verified, you can calculate precise certainty of the equality. Then when the decision to compare the whole file is made, all you have to do is visit the not-yet-visited chunks of the files.