USB Speed

For this benchmark, we run CrystalDiskMark to determine the ideal sequential read and write speeds for the USB port using our 64GB Patriot SuperSpeed USB 3.0 drive. Then we transfer a set size of files from the SSD to the USB drive, and monitor the time taken to transfer. The files transferred are a 1.52 GB set of 2867 files across 320 folders – 95% of these files are small typical website files, and the rest (90% of the size) are the videos used in the Sorenson Squeeze test.

 

USB 2.0 Read/Write

 

USB 3.0 Read/Write

 

Copy to USB

The Gigabyte board overall has the better USB performance, especially in USB 3.0 read speeds. This is accurately translated by the difference in copy time difference between the ASUS and Gigabyte boards in both USB 2.0 and USB 3.0.

3D Movement Algorithm Test

The first benchmark ran is actually one I have written. My full time job involves computational chemistry, so this first benchmark uses various algorithms for three-dimensional simulation and movement of independent particles. The algorithms both employ uniform random number generation or normal distribution random number generation, and vary in various amounts of trigonometric operations, conditional statements, generation and rejection, fused operations, etc. The benchmark runs through six algorithms for a specified number of particles and steps, and calculates the speed of each algorithm, then sums them all for a final score. This is an example of a real world situation that a computational scientist may find themselves in, rather than a pure synthetic benchmark. The benchmark is also parallel between particles simulated, and we test the single thread performance as well as the multi-threaded performance.

 

3D Movement Algorithm - Single Threaded (Stock)

3D Movement Algorithm - Single Threaded (Overclocks)

3D Movement Algorithm - Multi-Threaded (Stock)

3D Movement Algorithm - Multi-Threaded (Overclocks)

There's barely anything between the boards. The Core i7-920 pulls ahead at stock as it has 8 threads to tackle the workload, whereas the i5-2500K used in the P67 motherboards only has four.

WinRAR x64 3.93

With 64-bit WinRAR, we compress the set of files used in the USB speed tests. WinRAR x64 3.93 attempts to use multithreading when possible.

 

WinRAR x64 3.93

FastStone Image Viewer 4.2

FastStone Image Viewer is a free piece of software I have been using for quite a few years now. It allows quick viewing of flat images, as well as resizing, changing color depth, adding simple text or simple filters. It also has a bulk image conversion tool, which we use here. The software currently operates only in single-thread mode, which should change in later versions of the software. For this test, we convert a series of 170 files, of various resolutions, dimensions and types (of a total size of 163MB), all to the .gif format of 640x480 dimensions.

 

FastStone Image Viewer 4.2

Sorenson Squeeze 6.0

Sorenson Squeeze is a professional video encoder, complete with a vast array of options. For this test, we convert 32 HD videos, each a minute long and approximately 42 MB in size, to WMV 512KBps format. Squeeze can encode multiple videos at once, one for each thread.

 

Sorenson Squeeze 6.0

Conclusions

There is not much in it, but the ASUS board performs better in most benchmarks with one exception - the USB speed (especially the USB 3.0 read) is a step behind the Gigabyte.

Test Setup, Power Consumption, CPU Temperatures 3D Benchmarks
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  • jigglywiggly - Thursday, January 20, 2011 - link

    gr8 article and I liked the ending comparison to the asrock board, I'ma get that. Just has so many features.
  • vol7ron - Thursday, January 20, 2011 - link

    Can't see getting P67. Waiting on Z67. Hopefully it will be all I ever dreamed of
  • Kaboose - Thursday, January 20, 2011 - link

    Z68 they didn't stay with 67 on the "Z" chipset apparently.
  • DanNeely - Friday, January 21, 2011 - link

    Possibly since LGA 2011 will also use DMI to connect to the chipset Z68 boards will be sold for both sockets; and presumably some of the more mundane chipsets would be used for server/workstation builds.
  • Etern205 - Friday, January 21, 2011 - link

    LGA 2011 will use the X68 which is different than Z68.
    SB chipsets
    Highend: LGA 2011/X68
    Mainstream LGA 1155/Z68<--Allows for OCing.
  • vol7ron - Saturday, January 22, 2011 - link

    Yep. It was either a typo or a finger fart :)

    Still, I'm hoping the processor batches will have improved by then. What I'm hoping for is the CPUs to mature a little bit, to possibly get a little higher BCLK overclock (not looking for much, just closer to the 5Mhz).
  • DanNeely - Sunday, January 23, 2011 - link

    Don't hold your breath. The BCLK limit is most likely due to something on your PCI/PCIEe buses (neither of which are designed for any overclock at all) bombing out; not your CPU.
  • medi01 - Friday, January 21, 2011 - link

    Suddenly, paying 150-200$ for a motherboard is OK.
    After all, it makes Intel CPUs "cheaper".
  • MrSpadge - Sunday, January 23, 2011 - link

    It's been like that for a long time. But personally I never saw the value in expensive motherboards.

    MrS
  • medi01 - Monday, January 24, 2011 - link

    I don't recall it "being like that" for AMD motherboards.

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