UnixBench has been around for a long time now, and is a good general-purpose bench to test on Linux based systems.
This is a system benchmark, and it shows the performance of single-threaded and multi-threaded tasks.
This shows the system indexes after a complete UnixBench run. Here we get an idea of how much performance gain we get using multi-threaded applications. However, many applications use single-threaded, so this number is really the base, and a higher clock speed will increase both indexes.
Now we are seeing that the E5-2620 v3s in the TD350 come very close to other systems we have tested. The TD350 also performs very well in this test.
SPEC CPU2006v1.2 measures compute intensive performance across the system using realistic benchmarks to rate real performance.
In our testing with SPEC CPU2006 we use the following basic commands to run these tests:
" Runspec --tune=base --config=tweaktown.cfg ," then " int ," or " fp "
To do multi-threaded, we add in " --rate=72 "
When SPEC CPU first came out, these tests could take up to a week to run, but as computers become faster, our tests now take up to four days for a full run, and even less on some systems.
The user can do many things to effect the results of CPU2006 runs, including compiler optimizations, add-ons like Smartheap, and different commands used to start the tests.
Here you can see the SPEC scores after full runs for Integer (int) and Floating Point (fp) tests.
Single-core runs show how fast (speed) a CPU can perform a given task. In the multi-core runs, we set SPEC CPU2006v1.2 to use all threads to measure the throughput of the system.
The additional cores/threads of this system have a huge impact on performance in these tests and really show the amount of horsepower that a single socket motherboard has.
Single-threaded results are still very important, but when you need many single-threaded apps to run; moving to a CPU with more cores is the way to go.
By looking at the results of single-threaded integer runs, we can get an idea of the speed at which the Intel Xeon E5-2620 v3s can crunch through the different integer tests. Not all CPUs are equal here, and ones that have a higher speed will perform these tests faster. In this case, this is the stock speed of the Intel Xeon E5-2620 v3s. Naturally, using an overclocked system or CPUs with a higher stock speed will generate higher results.
Now we run the test using all 24 threads of the Dual Intel Xeon E5-2620 v3s, to measure the throughput of the system. In this test, more cores/threads will have a greater effect on the outcome.
We can see a big difference here using the dual socket setup; there is a three to four times performance boost in many cases.
Now we run the floating-point tests in single (speed) mode. The lower clock speeds of the Intel Xeon E5-2620 v3s hold this bench back as well.
Here, we see the results of the multi-threaded floating-point run that uses all 24 threads of the dual Intel Xeon E5-2620 v3s. Like the multi-threaded integer test, more cores/threads will have a greater impact on the test.
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