Rendering and Scientific

CineBench 11.5


This rendering benchmark based on the Cinema 4D engine is a terrific indicator for multi-threaded processing.

The Intel Core i7-4790K - Devil's Canyon Review and Overclocking - Processors 9
 
 
The single threaded Cinebench results demonstrate the power of a 4.4 GHz clock speed on the Haswell architecture, as it easily out performs the 4770K, Ivy Bridge-E, and the Core i7-4960X. This is also the first time we see the scaling rate (12.5%) nearly match that of the clock speed advantage. The multi-threaded result lead drops down to 8.8%, but the performance gain remains impressive.


POV-Ray 3.7

POV-Ray has long been the poster child for multi-threaded processing and rendering.

The Intel Core i7-4790K - Devil's Canyon Review and Overclocking - Processors 10
 

POV-Ray actually scales well under the other tests we have seen thus far with the Core i7-4790K leading the Core i7-4770K by a mere 4%!

 

Euler 3D Fluid Dynamics


This fluid dynamics simulation is very CPU and memory intensive.  From the benchmark source website:

The benchmark testcase is the AGARD 445.6 aeroelastic test wing. The wing uses a NACA 65A004 airfoil section and has a panel aspect ratio of 1.65, a taper ratio of 0.66, and a 45 degree quarter-chord sweep angle. This AGARD wing was tested at the NASA Langley Research Center in the 16-foot Transonic Dynamics Tunnel and is a standard aeroelastic test case used for validation of unsteady, compressible CFD codes. Figure 1 shows the CFD predicted Mach contours for a freestream Mach number of 0.960.

The benchmark CFD grid contains 1.23 million tetrahedral elements and 223 thousand nodes. The benchmark executable advances the Mach 0.50 AGARD flow solution. Our benchmark score is reported as a CFD cycle frequency in Hertz.

 

The Intel Core i7-4790K - Devil's Canyon Review and Overclocking - Processors 11

 

Euler is another test is scaling nearly perfectly from the 4770K to the 4790K. The single threaded result is 13.4% faster on the Devil's Canyon processor and 15% faster under dual-thread operation! 
« PreviousNext »