A lot of work has gone into optimizing database design, especially in the realm of the most optimal ways to read and write data from disks (both spindle and SSD).
The knowledge that has come out of the work suggests that reading and writing on block boundaries, matching the block sizes of the filesystem you are running on, is the most optimal approach.
Say I am operating in a relatively low-memory environment and want to use a small 32MB memory-mapped file to read and write the contents of a huge 500GB file.
If I were using Java's NIO mechanisms, specifically the MappedByteBuffer (Java's memory-mapped file mechanism), would I need to take care to execute READ and WRITE operations on block boundaries (e.g. 4KB) into memory before pairing out the data I needed, or can I just issue R/W ops at any location I want and allow the operating system, VM paging logic, filesystem and storage firmware handle the optimization of the operations and culling of additional block data I didn't need as-needed?
The reason for the question is in database design, I see this obsessive focus on block-optimization to the point that there doesn't seem to exist a world where you would ever just read and write data without the concept of a block.
What confuses me is that the filesystem is the one enforcing the block units of operation, why would my higher level app need to worry about this then? If I want the 17,631 bytes at offset 71, can't I just grab them and read them in, or is it really faster for me to figure out that the read operation starts at block 0 and falls across the boundaries of blocks 0, 1 and 2... read all of those 3 blocks in to an internal byte, then cull out the 17,631 bytes I wanted in the first place?
If the literature on DB design wasn't so religious about this block idea, the question would have never come up in my mind, but because it is, I am wondering if I am missing a critical detail here WRT filesystems and optimal block device I/O.
Thank you for reading.