New input/output (NIO) library, introduced with JDK 1.4, provides high-speed, block-oriented I/O in standard Java code.
Few points on NIO,
- IO is stream oriented, where NIO is buffer oriented.
- Offer non-blocking I/O operations
- Avoid an extra copy of data passed between Java and native memory
- Allows to read and write blocks of
data direct from disk, rather than byte by byte
The NIO API introduces a new primitive I/O abstraction called channel. A channel represents an open connection to an entity such as a hardware device, a file, a network socket.
When you are using APIs FileChannel.transferTo() or FileChannel.transferFrom() JVM uses the OS's access to DMA (Direct Memory Access) which is potential advantage.
Ron Hitches on Java NIO
Direct buffers are intended for interaction with channels and native
I/O routines. They make a best effort to store the byte elements in a
memory area that a channel can use for direct, or raw, access by using
native code to tell the operating system to drain or fill the memory
Direct byte buffers are usually the best choice for I/O operations. By
design, they support the most efficient I/O mechanism available to the
JVM. Nondirect byte buffers can be passed to channels, but doing so
may incur a performance penalty. It's usually not possible for a
nondirect buffer to be the target of a native I/O operation.
Direct buffers are optimal for I/O, but they may be more expensive to
create than nondirect byte buffers. The memory used by direct buffers
is allocated by calling through to native, operating system-specific
code, bypassing the standard JVM heap. Setting up and tearing down
direct buffers could be significantly more expensive than
heap-resident buffers, depending on the host operating system and JVM
implementation. The memory-storage areas of direct buffers are not
subject to garbage collection because they are outside the standard
Chapter 2 on below tutorial will give you more insight ( especially 2.4, 2.4.2 etc)