y
y


y: 

	Processor: 4 x Intel Xeon E312xx (Sandy Bridge) @ 2.40GHz (4 Cores), Motherboard: Red Hat KVM, Chipset: Intel 440FX- 82441FX PMC, Memory: 1 x 8192 MB RAM, Disk: 46GB, Graphics: Red Hat QXL paravirtual graphic card, Audio: QEMU ID 22, Network: Red Hat Virtio device

	OS: CentOS Linux 7, Kernel: 3.10.0-327.el7.x86_64 (x86_64), Compiler: GCC 4.8.5 20150623, File-System: ext4, Screen Resolution: 1024x768, System Layer: KVM


C-Ray 1.1
Total Time
Seconds < Lower Is Better
y . 29.61 |===================================================================
y . 29.90 |====================================================================
y . 29.55 |===================================================================
y . 30.04 |====================================================================


PyBench 2008-08-14
Total For Average Test Times
Milliseconds < Lower Is Better
y . 2250 |=====================================================================


AIO-Stress 0.21
Test: Random Write
MB/s > Higher Is Better
y . 1814.39 |==================================================================
y . 1790.63 |=================================================================


NGINX Benchmark 1.0.11
Static Web Page Serving
Requests Per Second > Higher Is Better
y . 22689.14 |==============================================================
y . 23865.38 |=================================================================


Java SciMark 2.0
Computational Test: Composite
Mflops > Higher Is Better
y . 1929.56 |==================================================================


Java SciMark 2.0
Computational Test: Monte Carlo
Mflops > Higher Is Better
y . 729.01 |===================================================================


Java SciMark 2.0
Computational Test: Fast Fourier Transform
Mflops > Higher Is Better
y . 1080.33 |==================================================================


Java SciMark 2.0
Computational Test: Sparse Matrix Multiply
Mflops > Higher Is Better
y . 1754.94 |==================================================================


Java SciMark 2.0
Computational Test: Dense LU Matrix Factorization
Mflops > Higher Is Better
y . 4724.60 |==================================================================


Java SciMark 2.0
Computational Test: Jacobi Successive Over-Relaxation
Mflops > Higher Is Better
y . 1358.93 |==================================================================