I'm evaluating the performance of an experimental system setup on an 8-core machine with 16GB RAM. I have two main-memory Java RDBMSs (hsqldb) running, and against each of these I run a TPCC client (derived from jTPCC/BenchmarkSQL).
I have scripts to launch things, so e.g. the hsqldb instances are started with:
./hsqld.bash 0 & ./hsqld.bash 1 &
If I start the clients at nearly the same time:
./hsql-tpcc.bash 0 & ./hsql-tpcc.bash 1 &
then each of those clients has a spiked initial rate at around 500-1000 tpmC (this is basically transactions per minute), then quickly (in less than a second) settles to a rate of around 200-250 tpmC. OTOH, if I wait for a second or two before starting the second client:
./hsql-tpcc.bash 0 & sleep 1 ./hsql-tpcc.bash 1 &
then each of the clients runs at 2500+ tpmC. Waiting for more than a second doesn't make any more difference.
This is strange because client 0 just talks to server 0 and client 1 just talks to server 1. It's unclear why there's such a dramatic performance interference.
I thought this may be due to CPU scheduler affinity of the clients, but they take only about 1-3% of a single core when running slowly (20-25% when running quickly). Another suspicion was in the clients' NUMA bindings (memory contention on same memory node), but the machine has apparently just 1 memory node (there's only /sys/devices/system/node/node0), and furthermore each client takes just 0.8% of memory.
It also doesn't seem due to CPU bindings for the hsqldb instances, since both fast and slow behaviors can be seen just by restarting the clients (and waiting/not waiting for a second), leaving the same hsqldb instances running across both (i.e. hsqldb doesn't have to be restarted). hsqldb takes 4-8% CPU when slow, 80% CPU when fast, and 4.3% mem.
Any other ideas why this could be happening? There's no disk IO involved, and I'm not close to exhausting the system's memory. Thanks in advance. Other relevant info follows:
$ uname -a Linux hammer.csail.mit.edu 126.96.36.199-170.2.94.fc10.x86_64 #1 SMP Thu Oct 1 14:41:38 EDT 2009 x86_64 x86_64 x86_64 GNU/Linux