CPU Performance: System Tests

Our System Test section focuses significantly on real-world testing, user experience, with a slight nod to throughput. In this section we cover application loading time, image processing, simple scientific physics, emulation, neural simulation, optimized compute, and 3D model development, with a combination of readily available and custom software. For some of these tests, the bigger suites such as PCMark do cover them (we publish those values in our office section), although multiple perspectives is always beneficial. In all our tests we will explain in-depth what is being tested, and how we are testing.

All of our benchmark results can also be found in our benchmark engine, Bench.

Application Load: GIMP 2.10.4

One of the most important aspects about user experience and workflow is how fast does a system respond. A good test of this is to see how long it takes for an application to load. Most applications these days, when on an SSD, load fairly instantly, however some office tools require asset pre-loading before being available. Most operating systems employ caching as well, so when certain software is loaded repeatedly (web browser, office tools), then can be initialized much quicker.

In our last suite, we tested how long it took to load a large PDF in Adobe Acrobat. Unfortunately this test was a nightmare to program for, and didn’t transfer over to Win10 RS3 easily. In the meantime we discovered an application that can automate this test, and we put it up against GIMP, a popular free open-source online photo editing tool, and the major alternative to Adobe Photoshop. We set it to load a large 50MB design template, and perform the load 10 times with 10 seconds in-between each. Due to caching, the first 3-5 results are often slower than the rest, and time to cache can be inconsistent, we take the average of the last five results to show CPU processing on cached loading.

AppTimer: GIMP 2.10.4

The 9900KS hits the top of all the consumer processors in our app loading test.

FCAT: Image Processing

The FCAT software was developed to help detect microstuttering, dropped frames, and run frames in graphics benchmarks when two accelerators were paired together to render a scene. Due to game engines and graphics drivers, not all GPU combinations performed ideally, which led to this software fixing colors to each rendered frame and dynamic raw recording of the data using a video capture device.

The FCAT software takes that recorded video, which in our case is 90 seconds of a 1440p run of Rise of the Tomb Raider, and processes that color data into frame time data so the system can plot an ‘observed’ frame rate, and correlate that to the power consumption of the accelerators. This test, by virtue of how quickly it was put together, is single threaded. We run the process and report the time to completion.

FCAT Processing ROTR 1440p GTX980Ti Data

For some reason our default 9900KS run didn't seem to perform properly, but the 9900KS at Intel guidelines did, within the margin of error of the 9900K which also does turbo at 5.0 GHz.

3D Particle Movement v2.1: Brownian Motion

Our 3DPM test is a custom built benchmark designed to simulate six different particle movement algorithms of points in a 3D space. The algorithms were developed as part of my PhD., and while ultimately perform best on a GPU, provide a good idea on how instruction streams are interpreted by different microarchitectures.

A key part of the algorithms is the random number generation – we use relatively fast generation which ends up implementing dependency chains in the code. The upgrade over the naïve first version of this code solved for false sharing in the caches, a major bottleneck. We are also looking at AVX2 and AVX512 versions of this benchmark for future reviews.

For this test, we run a stock particle set over the six algorithms for 20 seconds apiece, with 10 second pauses, and report the total rate of particle movement, in millions of operations (movements) per second. We have a non-AVX version and an AVX version, with the latter implementing AVX512 and AVX2 where possible.

3DPM v2.1 can be downloaded from our server: 3DPMv2.1.rar (13.0 MB)

3D Particle Movement v2.1

Without AVX acceleration, the Core i9-9900KS hardware manages to push ahead of the 9900K due to the extra frequency, and even above the 10-core 7900X. Because these are non-AVX instructions, they aren't pushing the CPU as hard as it can be, so we're not really draining the turbo bucket in our 159W PL2 test.

3D Particle Movement v2.1 (with AVX)

On the other hand, our AVX2 accelerated test is also showing both PL2 settings performing about equal. This test does involve a 10-second delay between each of its six subtests, which allows some turbo budget to be regained. Couple that with the 30 second delay between individual runs, it would appear that there's enough turbo budget for the whole run.

Dolphin 5.0: Console Emulation

One of the popular requested tests in our suite is to do with console emulation. Being able to pick up a game from an older system and run it as expected depends on the overhead of the emulator: it takes a significantly more powerful x86 system to be able to accurately emulate an older non-x86 console, especially if code for that console was made to abuse certain physical bugs in the hardware.

For our test, we use the popular Dolphin emulation software, and run a compute project through it to determine how close to a standard console system our processors can emulate. In this test, a Nintendo Wii would take around 1050 seconds.

The latest version of Dolphin can be downloaded from https://dolphin-emu.org/

Dolphin 5.0 Render Test

Dolphin loves single threaded performance, so we see the 9900 series at the top here.

DigiCortex 1.20: Sea Slug Brain Simulation

This benchmark was originally designed for simulation and visualization of neuron and synapse activity, as is commonly found in the brain. The software comes with a variety of benchmark modes, and we take the small benchmark which runs a 32k neuron / 1.8B synapse simulation, equivalent to a Sea Slug.

Example of a 2.1B neuron simulation

We report the results as the ability to simulate the data as a fraction of real-time, so anything above a ‘one’ is suitable for real-time work. Out of the two modes, a ‘non-firing’ mode which is DRAM heavy and a ‘firing’ mode which has CPU work, we choose the latter. Despite this, the benchmark is still affected by DRAM speed a fair amount.

DigiCortex can be downloaded from http://www.digicortex.net/

DigiCortex 1.20 (32k Neuron, 1.8B Synapse)

Interestingly enough the big splot in this benchmark series is here with DigiCortex. I'm not sure what's going on here; not only with the result being low (due to DDR4-2666 compared to AMD's higher support) but also lower than the 9900K.

y-Cruncher v0.7.6: Microarchitecture Optimized Compute

I’ve known about y-Cruncher for a while, as a tool to help compute various mathematical constants, but it wasn’t until I began talking with its developer, Alex Yee, a researcher from NWU and now software optimization developer, that I realized that he has optimized the software like crazy to get the best performance. Naturally, any simulation that can take 20+ days can benefit from a 1% performance increase! Alex started y-cruncher as a high-school project, but it is now at a state where Alex is keeping it up to date to take advantage of the latest instruction sets before they are even made available in hardware.

For our test we run y-cruncher v0.7.6 through all the different optimized variants of the binary, single threaded and multi-threaded, including the AVX-512 optimized binaries. The test is to calculate 250m digits of Pi, and we use the single threaded and multi-threaded versions of this test.

Users can download y-cruncher from Alex’s website: http://www.numberworld.org/y-cruncher/

y-Cruncher 0.7.6 Single Thread, 250m Digits

y-Cruncher can use AVX512 for the HEDT chips, as they are faster than the 9900KS, but all the 9900 series are performing similarly at 5.0 GHz single threaded here.

Agisoft Photoscan 1.3.3: 2D Image to 3D Model Conversion

One of the ISVs that we have worked with for a number of years is Agisoft, who develop software called PhotoScan that transforms a number of 2D images into a 3D model. This is an important tool in model development and archiving, and relies on a number of single threaded and multi-threaded algorithms to go from one side of the computation to the other.

In our test, we take v1.3.3 of the software with a good sized data set of 84 x 18 megapixel photos and push it through a reasonably fast variant of the algorithms, but is still more stringent than our 2017 test. We report the total time to complete the process.

Agisoft’s Photoscan website can be found here: http://www.agisoft.com/

Agisoft Photoscan 1.3.3, Complex Test

Agisoft is a more variable workload, so there will be bits here and there where both processors can fully go to 5.0 GHz turbo and recover budget. The 12-core AMD chip is ahead, and both 9900KS settings are almost equal. They are both ahead of the normal 9900K by just over 10%.

Going for Power: How to Manage 5.0 GHz Turbo CPU Performance: Rendering Tests
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  • Dudler - Thursday, October 31, 2019 - link

    P4 cough cough..
  • Hifihedgehog - Friday, November 1, 2019 - link

    *cough, cough* Emergency Edition *cough, cough*

    Man, whatever is going around is really catchy.
  • Spunjji - Friday, November 1, 2019 - link

    It's vaguely amusing how they go for the same stock approaches every time. When a product becomes noncompetitive, either release a "special" bin that blows through acceptable power/stability limits, or ram a server CPU down the stack into "consumer" territory. The EE has a special place in my heart because they panicked so hard they did both of those things.
  • Samus - Friday, November 1, 2019 - link

    And much like the P4 EE, the power consumption is through the roof. Ahh the days of Presshot warming my dorm seeding a Napster queue.

    You really have to appreciate (again) what AMD is able to pull off here at 65w. It's literally on the heals of a CPU burning 3x more power.
  • Notmyusualid - Monday, November 4, 2019 - link

    https://www.phoronix.com/scan.php?page=article&...
  • Death666Angel - Saturday, November 2, 2019 - link

    All true, but AMD does the same thing, as does Nvidia when it comes to GPUs. Remember the GTX 480? Or the FX-9590. :) If you mess up, that is mostly your only option to have something. Some people don't care much about efficiency and just want the fastest at a certain thing. They probably did the ROI numbers and it came out positive for them.
  • Ratman6161 - Monday, November 4, 2019 - link

    But...there are still quite a few tests where there is an orange bar at the top :). One thing I'm a bit curious about on the AMD side though is that there are several cases where the 3700X beats the 3900X. 3900X is both more cores and higher clocked so shouldn't it win everywhere?

    Also for those of us where price is an obejct, that 3700X looks pretty darn good against most everything else. :)
  • amnesia0287 - Friday, November 8, 2019 - link

    It’s possible it’s related to the quality of the cores. With the Ryzen chips not all cores have the same limits. So in theory you could have a chip with less total cores but more higher spec’d ones.
  • MDD1963 - Thursday, November 7, 2019 - link

    Little need for any 'panic' as, gaming-wise at least, all AMD has managed is to tie the 8700K.....; everything 9700K and higher in the product stack remains virtually unopposed.
  • WaltC - Monday, November 11, 2019 - link

    I'm still trying to figure out how a higher clocked Intel CPU which processes data slower than a lower-clocked AMD cpu is a "clear advantage" for Intel....;) Perhaps Dr. Cutress might enlighten me...?....;)

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