Performance Metrics - I

The GIGABYTE GB-BXi7H-5500 was evaluated using our standard test suite for low power desktops / industrial PCs. We revamped our benchmark suite early last year after the publication of the Intel D54250WYK NUC review. We reran some of the new benchmarks on the older PCs also, but some of them couldn't be run on loaner samples. Therefore, the list of PCs in each graph might not be the same.

Futuremark PCMark 8

PCMark 8 provides various usage scenarios (home, creative and work) and offers ways to benchmark both baseline (CPU-only) as well as OpenCL accelerated (CPU + GPU) performance. We benchmarked select PCs for the OpenCL accelerated performance in all three usage scenarios. These scores are heavily influenced by the CPU in the system. The i7-5500U is obviously not as powerful as the i7-4770R in the BRIX Pro. As mentioned before, the main tussle is between the BXi7-4500 and BXi7H-5500, and here, the Broadwell-based unit takes a handy lead in all the Futuremark benchmarks. Note that both units were benchmarked with 16 GB of DDR3L memory running at 1866 MHz. This makes it more of a comparison of the CPUs themselves, rather than the rest of the system components.

Futuremark PCMark 8 - Home OpenCL

Futuremark PCMark 8 - Creative OpenCL

Futuremark PCMark 8 - Work OpenCL

Miscellaneous Futuremark Benchmarks

Futuremark PCMark 7 - PCMark Suite Score

In the graphics department, we again see the i7-5500U perform better than the i7-4500U. The difference is very marked in the low end and mainstream tests, while the extreme high quality benchmarks still don't seem to be the Intel IGPs' cup of tea.

Futuremark 3DMark 11 - Extreme Score

Futuremark 3DMark 2013 - Ice Storm Score

Futuremark 3DMark 2013 - Cloud Gate Score

3D Rendering - CINEBENCH R15

We have moved on from R11.5 to R15 for 3D rendering evaluation. CINEBENCH R15 provides three benchmark modes - OpenGL, single threaded and multi-threaded. Evaluation of select PCs in all three modes provided us the following results. There is a slight improvement in the performance of the i7-5500U compared to the i7-4500 - mainly due to the higher clocks that can be sustained by the former while remaining under the required power envelop.

3D Rendering - CINEBENCH R15 - Single Thread

3D Rendering - CINEBENCH R15 - Multiple Threads

The OpenGL performance shows improvement, thanks to the updated GPU architecture, higher base clocks for the GPU and, possibly, driver updates.

3D Rendering - CINEBENCH R15 - OpenGL

Introduction and Setup Impressions Performance Metrics - II
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  • voicequal - Saturday, February 07, 2015 - link

    The frequency and temperature characteristics are the most interesting and uniquely Anandtech parts of these reviews. Please keep up the good work.

    I'm puzzled as to how a CPU with a base clock specification of 2.4 GHz can drop to 1.6 GHz during the CPU+GPU loading test? Doesn't that make the base clock effectively 1.6 GHz at the given TDP of 15W?

    It's disconcerting that the GPU can steal power from the CPU, and yet this doesn't show up anywhere on the spec sheet but is continually exposed by these reviews.
    Reply
  • xchaotic - Monday, February 16, 2015 - link

    Actually for the most obvious scenarios I can think of - gaming and other GPU accelerated tasks, I think it's better to give GPU priority, but I think there should be a software option to control how this works, along with other power saving features like idle timers...
    I can think of scenarios where both the CPU and GPU are loaded and the CPU should be given priority...
    Reply
  • BtotheT - Monday, March 30, 2015 - link

    I'm thinking the next big leap for Brix will be the Skylake H series processors(Q4'15-Q2'16). The Broadwell model here was a dual core, with non edram graphics(HD5500 series no less, Broadwell's low end) , you can't expect it to keep up with a quad core with edram the 4770R had. Reply

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