The Intel Core i9-9990XE Review: All 14 Cores at 5.0 GHz
by Dr. Ian Cutress on October 28, 2019 10:00 AM ESTCPU Performance: Web and Legacy Tests
While more the focus of low-end and small form factor systems, web-based benchmarks are notoriously difficult to standardize. Modern web browsers are frequently updated, with no recourse to disable those updates, and as such there is difficulty in keeping a common platform. The fast paced nature of browser development means that version numbers (and performance) can change from week to week. Despite this, web tests are often a good measure of user experience: a lot of what most office work is today revolves around web applications, particularly email and office apps, but also interfaces and development environments. Our web tests include some of the industry standard tests, as well as a few popular but older tests.
We have also included our legacy benchmarks in this section, representing a stack of older code for popular benchmarks.
All of our benchmark results can also be found in our benchmark engine, Bench.
WebXPRT 3: Modern Real-World Web Tasks, including AI
The company behind the XPRT test suites, Principled Technologies, has recently released the latest web-test, and rather than attach a year to the name have just called it ‘3’. This latest test (as we started the suite) has built upon and developed the ethos of previous tests: user interaction, office compute, graph generation, list sorting, HTML5, image manipulation, and even goes as far as some AI testing.
For our benchmark, we run the standard test which goes through the benchmark list seven times and provides a final result. We run this standard test four times, and take an average.
Users can access the WebXPRT test at http://principledtechnologies.com/benchmarkxprt/webxprt/
WebXPRT 2015: HTML5 and Javascript Web UX Testing
The older version of WebXPRT is the 2015 edition, which focuses on a slightly different set of web technologies and frameworks that are in use today. This is still a relevant test, especially for users interacting with not-the-latest web applications in the market, of which there are a lot. Web framework development is often very quick but with high turnover, meaning that frameworks are quickly developed, built-upon, used, and then developers move on to the next, and adjusting an application to a new framework is a difficult arduous task, especially with rapid development cycles. This leaves a lot of applications as ‘fixed-in-time’, and relevant to user experience for many years.
Similar to WebXPRT3, the main benchmark is a sectional run repeated seven times, with a final score. We repeat the whole thing four times, and average those final scores.
Speedometer 2: JavaScript Frameworks
Our newest web test is Speedometer 2, which is a accrued test over a series of javascript frameworks to do three simple things: built a list, enable each item in the list, and remove the list. All the frameworks implement the same visual cues, but obviously apply them from different coding angles.
Our test goes through the list of frameworks, and produces a final score indicative of ‘rpm’, one of the benchmarks internal metrics. We report this final score.
Google Octane 2.0: Core Web Compute
A popular web test for several years, but now no longer being updated, is Octane, developed by Google. Version 2.0 of the test performs the best part of two-dozen compute related tasks, such as regular expressions, cryptography, ray tracing, emulation, and Navier-Stokes physics calculations.
The test gives each sub-test a score and produces a geometric mean of the set as a final result. We run the full benchmark four times, and average the final results.
Mozilla Kraken 1.1: Core Web Compute
Even older than Octane is Kraken, this time developed by Mozilla. This is an older test that does similar computational mechanics, such as audio processing or image filtering. Kraken seems to produce a highly variable result depending on the browser version, as it is a test that is keenly optimized for.
The main benchmark runs through each of the sub-tests ten times and produces an average time to completion for each loop, given in milliseconds. We run the full benchmark four times and take an average of the time taken.
3DPM v1: Naïve Code Variant of 3DPM v2.1
The first legacy test in the suite is the first version of our 3DPM benchmark. This is the ultimate naïve version of the code, as if it was written by scientist with no knowledge of how computer hardware, compilers, or optimization works (which in fact, it was at the start). This represents a large body of scientific simulation out in the wild, where getting the answer is more important than it being fast (getting a result in 4 days is acceptable if it’s correct, rather than sending someone away for a year to learn to code and getting the result in 5 minutes).
In this version, the only real optimization was in the compiler flags (-O2, -fp:fast), compiling it in release mode, and enabling OpenMP in the main compute loops. The loops were not configured for function size, and one of the key slowdowns is false sharing in the cache. It also has long dependency chains based on the random number generation, which leads to relatively poor performance on specific compute microarchitectures.
3DPM v1 can be downloaded with our 3DPM v2 code here: 3DPMv2.1.rar (13.0 MB)
x264 HD 3.0: Older Transcode Test
This transcoding test is super old, and was used by Anand back in the day of Pentium 4 and Athlon II processors. Here a standardized 720p video is transcoded with a two-pass conversion, with the benchmark showing the frames-per-second of each pass. This benchmark is single-threaded, and between some micro-architectures we seem to actually hit an instructions-per-clock wall.
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euler007 - Monday, October 28, 2019 - link
And exotic sports car aren't real products because they don't make millions of them.nandnandnand - Monday, October 28, 2019 - link
Do they auction them off?If you want high single thread performance from Intel, grab a quad-core.
rrinker - Monday, October 28, 2019 - link
IN a way - they absolutely do. You get 'invited' to by one of those limited production supercars, you don't just walk into a dealer and say here's my 2.5 million. You earn the invitation based on how many other cars by that manufacturer you already own. Want a 1 of 250 Ferrari supercar? If you don;t own any other Ferraris, good luck, even if you have plenty of money to pay for it.29a - Monday, October 28, 2019 - link
Everything is for sale it doesn't matter how many Ferraris you have it matters how many $100 bills you have.vladx - Monday, October 28, 2019 - link
There are cars you simply can't buy no matter how much money you have, unless you're part of an exclusive club.29a - Tuesday, October 29, 2019 - link
No there aren't, everything is for sale, you just don't have enough money.shadowx360 - Monday, October 28, 2019 - link
No, speaking as someone that has walked into a Ferrari dealer with someone trying to buy a Ferrari, the other poster is absolutely right. You cannot walk into a Ferrari dealer and pick up a limited model no matter how many dollar bills you have. Even for something like a 488GTB, you will be waiting years unless you buy every option on the car and lease a crappy model like a California to move up in the queue. You can buy used ones in cash but with Ferrari, they rather protect their brand than cater to new money.29a - Tuesday, October 29, 2019 - link
You didn't have enough money.abufrejoval - Tuesday, October 29, 2019 - link
With *enough* money, you can buy Ferrari and make them sell it, too.It's tautological.
Good thing, though: By they time someone controls that amount of money, they'd see the futility.
arashi - Tuesday, October 29, 2019 - link
With enough money you can just buy Ferrari. Everything that has a price tag can be had, just depends on the depth of the wallet.