AMD Carrizo Part 2: A Generational Deep Dive into the Athlon X4 845 at $70
by Ian Cutress on July 14, 2016 9:00 AM ESTLegacy Benchmarks at 3 GHz
Some of our legacy benchmarks have followed AnandTech for over a decade, showing how performance changes when the code bases stay the same in that period. Some of this software is still in common use today.
All of our benchmark results can also be found in our benchmark engine, Bench.
3D Particle Movement v1
3DPM is a self-penned benchmark, taking basic 3D movement algorithms used in Brownian Motion simulations and testing them for speed. High floating point performance, MHz and IPC wins in the single thread version, whereas the multithread version has to handle the threads and loves more cores. This is the original version, written in the style of a typical non-computer science student coding up an algorithm for their theoretical problem, and comes without any non-obvious optimizations not already performed by the compiler, such as false sharing.
We ran 3DPM v2 earlier in the review, and it showed significant gains for Carrizo when running software that is not competing for data in shared cache lines. This older version of that benchmark still has those 'base CS' flaws that a non-CompSci science student might make, and while Carrizo has a small gain in single threaded mode, moving to multithreaded puts some strain on the caches, resulting in lower performance.
Cinebench 11.5 and 10
Cinebench is a widely known benchmarking tool for measuring performance relative to MAXON's animation software Cinema 4D. Cinebench has been optimized over a decade and focuses on purely CPU horsepower, meaning if there is a discrepancy in pure throughput characteristics, Cinebench is likely to show that discrepancy. Arguably other software doesn't make use of all the tools available, so the real world relevance might purely be academic, but given our large database of data for Cinebench it seems difficult to ignore a small five minute test. We run the modern version 15 in this test, as well as the older 11.5 and 10 due to our back data.
On the older versions of CineBench, like the newer ones, Carrizo has some notable microarchitectural advantages over Kaveri and previous versions of the Bulldozer microarchitecture.
POV-Ray 3.7
POV-Ray is a common ray-tracing tool used to generate realistic looking scenes. We've used POV-Ray in its various guises over the years as a good benchmark for performance, as well as a tool on the march to ray-tracing limited immersive environments. We use the built-in multithreaded benchmark.
For our base ray tracing benchmark in Windows, again Carrizo pulls out a lead. This time it's around 13% over Kaveri or 32% over Trinity/Richland.
TrueCrypt 7.1
Before its discontinuation, TrueCrypt was a popular tool for WindowsXP to offer software encryption to a file system. The version we use for our tests, 7.1, is still widely used however the developers have stopped supporting it since the introduction of encrypted disk support in Windows 8/7/Vista from 5/2014, and as such any new security issues are unfixed. The benchmark itself is a good representation of microarchitectural advantages for base encryption methods.
The AES performance for Carrizo is notably above Trinity/Richland, and pulls a 12% gain over Kaveri as well.
x264 HD 3.0
Similarly, the x264 HD 3.0 package we use here is also kept for historic regressional data. The latest version is 5.0.1, and encodes a 1080p video clip into a high quality x264 file. Version 3.0 only performs the same test on a 720p file, and in most circumstances the software performance hits its limit on high end processors, but still works well for mainstream and low-end. Also, this version only takes a few minutes, whereas the latest can take over 90 minutes to run.
Using slightly older conversion tools shows that Carrizo and Kaveri, when the frames are small, are essentially neck and neck for performance (but still 20% over Trinity/Richland).
7-zip
7-Zip is a freeware compression/decompression tool that is widely deployed across the world. We run the included benchmark tool using a 50MB library and take the average of a set of fixed-time results.
The 2MB of L2 cache for Carrizo hurts here. It makes we wonder how much more performance a 4MB cache would provide.
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aryonoco - Friday, July 15, 2016 - link
Oh great, another AMD Bulldozer CPU, on 28nm, in 2016.I can't even begin to pretend to be enthusiastic about this.
The only people who will buy this are internet cafe/game centres in developing countries; none of whom care about AT says. I wonder why Ian thought he should spend so much time thoroughly reviewing a part that not one of AT's readers will ever buy.
Cryio - Friday, July 15, 2016 - link
To be fair this is an architecture from 2015 brought to desktops half-hearted and it wasn't released for any good reason IMO.Given the improvements Kaveri and Carizzo pose over the previous generations most of the time, if AMD would have released FX CPUs based on Stream Roller and Excavator, we would've got some interesting CPUs.
kondor999 - Friday, July 15, 2016 - link
Oh look, another shitty, hot, antiquated AMD CPU that only (gosh, I can't actually think of anyone) would buy.I really wish they'd get their act together. Not necessarily because I'd buy their products, but just to force Intel into giving us more than a 3% (or so) IPC iterative improvement.
TheinsanegamerN - Friday, July 15, 2016 - link
So, if you only want AMD to be competitive so that intel is more competitive, how do you expect them to do that when nobody buys their stuff? R and D needs money.silverblue - Friday, July 15, 2016 - link
Though temperature readings appear to be a bit hard to come by, the 845 appears to idle at 26 degrees and full load on AIDA64 at 40 degrees which puts it below anything else AMD has, making it comparable to the Pentium G3220 (though the former does have a better cooling solution).Source: http://www.eteknix.com/amd-athlon-x4-845-carrizo-p...
It's up to you whether you want to believe that or not.
Meteor2 - Saturday, July 16, 2016 - link
I don't think there's more than 3℅ IPC increase annually available. Apple, ARM, Qualcomm and Intel all seem to be converging at any given power.zodiacfml - Friday, July 15, 2016 - link
Waste of time. Yes, it competes with the Pentium, but the Intel chip has integrated graphics which could be useful whether the user has a graphics card or not. Paying more for less.Talking about Zen, it will just compete with Haswell generation chips. Intel knew this which is why their tick-tock strategy has slowed down.
cocochanel - Friday, July 15, 2016 - link
Intel didn't slow down because of AMD. It's because of x86. It's harder and harder even for mighty Intel engineers to squeeze more performance from an antiquated ISA. The fact that Zen took so long to get here it's a clear indication of the same.TheinsanegamerN - Monday, July 18, 2016 - link
There is no clear indicationAMD has far fewer resources then intel does, so it makes sense it would take them much longer to make a new CPU arch then intel.
Intel isnt making any advancements because they have no competition. There may be more performance sitting in their arch they are not using, since there really is no reason to.
Lolimaster - Saturday, July 16, 2016 - link
Carrizo totally gimped by l2 cache.The problem is that Bristol Ridge comes with the same pathetic 2MB for their 4 cores APU.