MSI P55M-GD45

Our efficiency run consists of several applications that we run through a batch script in the following order:

• 3ds Max
• DivX
• Xvid
• Lame
• MainConcept
• PDF Creation
• Photoshop
• AVG Anti Virus
• WinRAR
• WinZip

Some of these applications don’t take advantage of multiple processing cores; others do heavily. The batch file creates time stamps at the beginning of the run and once it has finished. This way, we track the total time required for the test run to complete.

In the meantime, we also track power consumption in one-second intervals during the test run. This lets us shed light on power consumption for each application and create power consumption profiles for each system. The result is a runtime performance score and power consumption readings, which we then use to analyze efficiency. Idle power is taken out of the equation, as the differences are rather small.

Our runtime results shows that the performance differences between all four boards are insignificant. A 14-second difference within a total runtime of more than 27 minutes is certainly too small to declare a winner. However, relating runtime with consumed power results in an interesting efficiency score.

We also provide average power consumption readings for all boards during the efficiency run.

Electricity is typically billed in a certain cost per kWh (kilowatt-hour). Hence, total watt-hours consumed are great for calculating the costs of given workloads and to compare the effective power consumption of boards. The difference between the most efficient and the most power-hungry board is around 5% given our workload.

Our efficiency score relates performance (through runtime) to watt-hours and results in a clear ranking. MSI is first, as you could have already guessed by the power consumption results. Foxconn ranks a respectable second, despite the lack of any power-saving technologies whatsoever. Apparently, the key to being efficient is removing all extra components. ASRock and Gigabyte share the two last spots, although we need to underline that the differences between the four products are not significant.

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As you can see in our performance index, none of the candidates are capable of gaining ground on the performance side. You can tweak memory timings or increase clock speeds, but the delivered performance results under identical conditions are pretty similar. This is a trend you'll likely see continue as more functionality is integrated into the processor itself, taking impetus away from the motherboard folks when it comes to establishing a compelling performance story.

We did some overclocking tests, as well. Since none of these boards were designed to be true overclockers, we limited our testing to seeing whether our Core i5-750 processor could be operated at 4.0 GHz with limited voltage modifications (+0.15 V max). This is probably the most reasonable maximum overclock.

All boards that support overclocking (ASRock, Gigabyte, and MSI) support our target clock speed properly and stably. It's a mystery to us why Foxconn thoroughly wiped out all overclocking support with its offering. Obviously, the LGA 1156-based platform, on a whole, has lots of headroom to allow for safe overclocking. Gigabyte and MSI provide best overclocking, and they both support ATI CrossFire and Nvidia’s SLI multi-card rendering technologies, though the use of one 16-lane PCIe 2.0 slot and one four-lane slot running at PCIe 1.1 transfer rates results in an ugly performance penalty in games. ASRock doesn’t support the two features, and Foxconn can’t due to limited PCIe slot availability.

Our efficiency comparison is won, narrowly, by MSI, which does the best job implementing dynamically switching voltage regulators. We enabled all possible power saving mechanisms from each vendor, but we refused to install software tools, as we believe these features have to work out of the box, and few enthusiasts are willing to install additional software to enable these extras. Foxconn takes the second spot, as its board has the fewest number of extra features and components, which in the end delivers a power advantage. ASRock and Gigabyte take the last spots, though they still facilitate decent results.

Finally, we also have to talk about features. ASRock provides two USB-powered eSATA slots, which you may want for eSATA thumb drives. All vendors except Foxconn have at least one eSATA port, along with UltraATA/133. Only ASRock and Gigabyte offer digital audio outputs. Foxconn and Gigabyte feature two classic PCI slots. A clear feature winner is hard to determine, but the Foxconn board only makes sense if you need go for an entry-level budget. Gigabyte is the most versatile, and MSI the most efficient. We found ASRock to be somewhere in the middle.