I'm having a performance issue that I don't understand. The system I'm working on has two threads that look something like this:
- Thread 1: Data Processing -> Data Selection -> Data Formatting -> FIFO
- Thread 2: FIFO -> Socket
Where 'Selection' thins down the data and the FIFO at the end of thread 1 is the FIFO at the beginning of thread 2 (the FIFOs are actually TBB Concurrent Queues). For performance reasons, I've altered the threads to look like this:
- Thread 1: Data Processing -> Data Selection -> FIFO
- Thread 2: FIFO -> Data Formatting -> Socket
Initially, this optimization proved to be successful. Thread 1 is capable of much higher throughput. I didn't look too hard at Thread 2's performance because I expected the CPU usage would be higher and (due to data thinning) it wasn't a major concern. However, one of my colleagues asked for a performance comparison of version A and version B. To test the setup I had thread 2's socket (a boost asio tcp socket) write to an instance of iperf on the same box (127.0.0.1) with the goal of showing the maximum throughput.
To compare the two set ups I first tried forcing the system to write data out of the socket at 500 Mbps. As part of the performance testing I monitored top. What I saw surprised me. Version A did not show up on 'top -H' nor did iperf (this was actually as suspected). However, version B (my 'enhanced version') was showing up on 'top -H' with ~10% cpu utilization and (oddly) iperf was showing up with 8%.
Obviously, that implied to me that I was doing something wrong. I can't seem to prove that I am though! Things I've confirmed:
- Both versions are giving the socket 32k chunks of data
- Both versions are using the same boost library (1.45)
- Both have the same optimization setting (-O3)
- Both receive the exact same data, write out the same data, and write it at the same rate.
- Both use the same blocking write call.
- I'm testing from the same box with the exact same setup (Red Hat)
- The 'formatting' part of thread 2 is not the issue (I removed it and reproduced the problem)
- Small packets across the network is not the issue (I'm using TCP_CORK and I've confirmed via wireshark that the TCP Segments are all ~16k).
- Putting a 1 ms sleep right after the socket write makes the CPU usage on both the socket thread and iperf(?!) go back to 0%.
- Poor man's profiler reveals very little (the socket thread is almost always sleeping).
- Callgrind reveals very little (the socket write barely even registers)
- Switching iperf for netcat (writing to /dev/null) doesn't change anything (actually netcat's cpu usage was ~20%).
The only thing I can think of is that I've introduced a tighter loop around the socket write. However, at 500 Mbps I wouldn't expect that the cpu usage on both my process and iperf would be increased?
I'm at a loss to why this is happening. My coworkers and I are basically out of ideas. Any thoughts or suggestions? I'll happily try anything at this point.