I hope you can get a conclusion with the below information taken from the book
at page no.42
java.io.* classes use the decorator design pattern. The decorator
design pattern attaches responsibilities to objects at runtime.
Decorators are more flexible than inheritance because the
inheritance attaches responsibility to classes at compile time. The java.io.* classes use the decorator pattern to construct different
combinations of behaviour at runtime based on some basic classes.
Java has no long been suited for developing programs that perform a
lot of I/O operations. Furthermore, commonly needed tasks such as file
locking, non-blocking and asynchronous I/O operations and ability to
map file to memory were not available. Non-blocking I/O operations
were achieved through work around such as multithreading or using JNI.
The New I/O API (aka NIO) in J2SE 1/4 has changed this
A server's availability to handle several client requests effectively depends on how it uses I/O streams. When a server has to
handle hundreds of clients simultaneously, it must be able to use I/O
services concurrenty, one way to cater for this scenario in Java is to
use threads but having almost one-to-one ratio of threads (100 clients
will have 100 threads) is prone to anormous thread overhead and can
result in performance and scalability problems due to consumtion of
memory stacks (i.e. each thread has its stack, Refer Q34,
Q42 in Java section) and CPU context switching(i.e. switching between threads as opposed to doing real computation.). To overcome
this problem, a new set of non-blocking I/O classes have been
introduced to the Java platform in java.nio package. The non-blocking
I/O mechanism is built around Selectors and channels. Channels,
Buffers and Selectors are the core of the NIO.
and read more.
Here are some reference links which provide Java IO vs Java NIO :
Java IO Faster Than NIO – Old is New Again!, Java IO vs Java NIO and IO vs. NIO – Interruptions, Timeouts and Buffers.