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Suppose the requirement for the TCP server that it is connected to a single client and it writes and reads serialized complete objects. The frequency of reading and writing is high. Given the requirement what are the advantages porting code from java IO to java NIO ?

Current code is something like this.. A dedicated thread for reading object from the socket and a dedicated thread for writing object to the socket. There is a single object input/output stream to which the objects is being written/read.

// Reading from socket 
private SomeObject readObject() throws IOException, ClassNotFoundException {
    Object object = oiStream.readObject();
    if (object != null && object instanceof SomeObject) {
        SomeObject someObject = (SomeObject) object;
        return someObject;
    return null;

    // Writing to socket 
    public void writeToSocket(SomeObject someObject) throws IOException {
    if (isSocketOpen()) {

What would be NIO equivalent and its advantages given the fact that only one client will connect the server. Please do not discuss Channels/Selectors/Buffers instead compare the two library for a given requirement.

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up vote 3 down vote accepted

Object Serialization is so much more expensive than the difference between IO and NIO that you are unlikely to notice the difference. esp as Serialization is designed to work with IO.

If you want to improve speed I suggest you try optimising the serialization.

If serialization were not an issue you can transfer data faster with blocking NIO than blocking IO.

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Appreciate your response and the few links which you mentioned. Serialization is fine i am using externalizable. I looked at the last link and there is a difference even with 1 thread per socket (905 IO Vs 991 NIO MB/s) for 1 client though I wonder what is the root of that difference. – 2sb Jan 22 '12 at 20:06
You need to benchmark your Serialization because you still won't be anywhere near 900 MB/s with Externalizable either. Using a direct ByteBuffer reduces the amount of copying of data around the system. – Peter Lawrey Jan 22 '12 at 20:08
BTW: Unless you are using a 10 Gig E link you will be limited to ~100 MB/s for a 1 Gb network. – Peter Lawrey Jan 22 '12 at 20:12
I saw byteBuffer examples and it appeared by looking at some examples that it create lots of objects. Example: In IO there is just one objectoutputstream for a client but with NIO it appears(correct me if i am wrong) you need to create ObjectOutputStream for every object you send. Given the fact that high frequency of data, is it not a problem. – 2sb Jan 22 '12 at 20:13
Have you tried their onload facility for kernel bypass? – Peter Lawrey Jan 22 '12 at 20:17

What matters is not the number of clients, but the number of concurrent connections. When you say "single client", does that mean that there won't be more than one connection at a time? If so, then I don't see any advantage in using NIO, since the server should be able to handle everything in one thread.

share|improve this answer
blocking NIO can be faster than blocking IO. This happens when you use direct ByteBuffers to reduce number of copies between native space and Java heap. – Peter Lawrey Jan 22 '12 at 19:27
@Mike Appreciate your response. Yes you are right, there is just one connection at a given time from just one client. I am evaluating is it necessary to port to NIO with one client and one connection but high frequency of data. – 2sb Jan 22 '12 at 20:08

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