Performance Metrics - I

The Intel NUC6CAYH was evaluated using our standard test suite for low power desktops / industrial PCs. Not all benchmarks were processed on all the machines due to updates in our testing procedures. Therefore, the list of PCs in each graph might not be the same. In the first section, we will be looking at SYSmark 2014 SE, as well as some of the Futuremark benchmarks.

BAPCo SYSmark 2014 SE

BAPCo's SYSmark 2014 SE is an application-based benchmark that uses real-world applications to replay usage patterns of business users in the areas of office productivity, media creation and data/financial analysis. In addition, it also addresses the responsiveness aspect which deals with user experience as related to application and file launches, multi-tasking etc. Scores are meant to be compared against a reference desktop (the SYSmark 2014 SE calibration system in the graphs below). While the SYSmark 2014 benchmark used a Haswell-based desktop configuration, the SYSmark 2014 SE makes the move to a Lenovo ThinkCenter M800 (Intel Core i3-6100, 4GB RAM and a 256GB SATA SSD). The calibration system scores 1000 in each of the scenarios. A score of, say, 2000, would imply that the system under test is twice as fast as the reference system.

The graphs below shows that the two extra cores and slightly higher speeds in the Celeron J3455 give the NUC6CAYH a distinct boost over the Celeron N3350 in the ECS LIVA-ZN33.

SYSmark 2014 SE - Office Productivity

SYSmark 2014 SE - Media Creation

SYSmark 2014 SE - Data / Financial Analysis

SYSmark 2014 SE - Responsiveness

SYSmark 2014 SE - Overall Score

SYSmark 2014 SE also adds energy measurement to the mix. A high score in the SYSmark benchmarks might be nice to have, but, potential customers also need to determine the balance between power consumption and the efficiency of the system. For example, in the average office scenario, it might not be worth purchasing a noisy and power-hungry PC just because it ends up with a 2000 score in the SYSmark 2014 SE benchmarks. In order to provide a balanced perspective, SYSmark 2014 SE also allows vendors and decision makers to track the energy consumption during each workload. In the graphs below, we find the total energy consumed by the PC under test for a single iteration of each SYSmark 2014 SE workload and how it compares against the calibration systems.

SYSmark 2014 SE - Energy Consumption - Office Productivity

SYSmark 2014 SE - Energy Consumption - Media Creation

SYSmark 2014 SE - Energy Consumption - Data / Financial Analysis

SYSmark 2014 SE - Energy Consumption - Responsiveness

SYSmark 2014 SE - Energy Consumption - Overall Score

The energy numbers are no big surprise, with the calibration system utilizing a proper desktop CPU compared to the nettop variant used in the NUC6CAYH.

Futuremark PCMark 10

UL's PCMark 10 evaluates computing systems for various usage scenarios (generic / essential tasks such as web browsing and starting up applications, productivity tasks such as editing spreadsheets and documents, gaming, and digital content creation). We benchmarked select PCs with the PCMark 10 Extended profile and recorded the scores for various scenarios. These scores are heavily influenced by the CPU and GPU in the system, though the RAM and storage device also play a part. The power plan was set to Balanced for all the PCs while processing the PCMark 10 benchmark. We do not have PCMark 10 scores of any other Atom-class PC to compare against yet.

Futuremark PCMark 10 - Essentials

Futuremark PCMark 10 - Productivity

Futuremark PCMark 10 - Gaming

Futuremark PCMark 10 - Digital Content Creation

Futuremark PCMark 10 - Extended

Futuremark PCMark 8

We continue to present PCMark 8 benchmark results (as those have more comparison points) while our PCMark 10 scores database for systems grows in size. 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. As expected, the Celeron J3455 ends up on top in almost all the benchmarks.

Futuremark PCMark 8 - Home OpenCL

Futuremark PCMark 8 - Creative OpenCL

Futuremark PCMark 8 - Work OpenCL

Miscellaneous Futuremark Benchmarks

Futuremark PCMark 7 - PCMark Suite Score

Futuremark 3DMark 11 - Extreme Score

Futuremark 3DMark 11 - Entry 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. The results confirm what we found in the previous section.

3D Rendering - CINEBENCH R15 - Single Thread

3D Rendering - CINEBENCH R15 - Multiple Threads

3D Rendering - CINEBENCH R15 - OpenGL

Introduction and Product Impressions Performance Metrics - II
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  • DSGT_Crockett - Thursday, January 18, 2018 - link

    Interesting to me that one of the ~"usable" PCI-E lanes is 'taken up' by a Realtek NIC on an Intel ~AIO board ass'y. Realtek must really be giving those SOBs away for Intel not to have gone with their own branded NICs; but I realise as I type this that I may be playing the fool a couple ways, not least of which is a dire disconnection from mini/micro/whatever-computer equipment, and by no means do I mean to bang on your expert staff's doors with this ~obvious observation. Hell, it may have even been covered in the parts of the article I skimmed (:< I'm drunk, okay?) but I felt compelled to hit up the first page of the article with this because I'm used to Intel pushing their own network stuff _really_ hard. What gives?
  • mode_13h - Saturday, January 20, 2018 - link

    Yeah, it does seem weird, but does Intel even still make single-port Gig-E chips? It seems like their dedicated Ethernet silicon is probably focused on higher speeds & port-counts, while the low-end is probably integrated into their South Bridge chips (which this doesn't have, since it's an integrated SoC - mainly targeted at devices that lack Ethernet).

    Anyway, don't drunkpost. Go drink some coffee, tea, or go sleep it off.
  • sf101 - Monday, January 22, 2018 - link

    wow this has a VGA out.
    That's surprising
    Intel has really flip flopped on a standard Video output on these thats for sure.
    sometimes HDMI sometimes only MINI - sometimes Displayport or only mini .. very surprised they added a VGA tbh.
    Most wont understand this but upgrading a unit for older POS systems is a pain sometimes but adding a VGA adapter makes that far easier.
  • mode_13h - Friday, February 2, 2018 - link

    For a lot of industrial and infrastructure applications, VGA is still in use. Not that this is exactly an industrial PC...

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