The Bulldozer Review: AMD FX-8150 Tested
by Anand Lal Shimpi on October 12, 2011 1:27 AM ESTThe Test
To keep the review length manageable we're presenting a subset of our results here. For all benchmark results and even more comparisons be sure to use our performance comparison tool: Bench.
| Motherboard: |
ASUS P8Z68-V Pro (Intel Z68) ASUS Crosshair V Formula (AMD 990FX) |
| Hard Disk: |
Intel X25-M SSD (80GB) Crucial RealSSD C300 |
| Memory: | 2 x 4GB G.Skill Ripjaws X DDR3-1600 9-9-9-20 |
| Video Card: | ATI Radeon HD 5870 (Windows 7) |
| Video Drivers: | AMD Catalyst 11.10 Beta (Windows 7) |
| Desktop Resolution: | 1920 x 1200 |
| OS: | Windows 7 x64 |
Windows 7 Application Performance
3dsmax 9
Today's desktop processors are more than fast enough to do professional level 3D rendering at home. To look at performance under 3dsmax we ran the SPECapc 3dsmax 8 benchmark (only the CPU rendering tests) under 3dsmax 9 SP1. The results reported are the rendering composite scores.
As our first heavily threaded, predominantly FP workload we see the FX-8150 come out swinging. A tangible upgrade from the Phenom II X6, the 8150 is hot on the heelds of the Core i5 2400, however it is unable to compete with the 2500K and 2600K.
Cinebench R10 & 11.5
Created by the Cinema 4D folks we have Cinebench, a popular 3D rendering benchmark that gives us both single and multi-threaded 3D rendering results.
As I alluded to earlier, single threaded performance is going to be a bit of a disappointment with Bulldozer and here you get the first dose of reality. Even considering its clock speed and Turbo Core advantage, the FX-8150 is slower than the Phenom II X6 1100T. Intel's Core i5 2500K delivers nearly 50% better single threaded performance here than the FX-8150.
Crank up the threads and the FX-8150 shines, finally tying the 2500K at a comparable price point.
Even with more modern workloads, the FX-8150 isn't able to compete in single threaded speed. Here the 2500K is 44% faster.
Modern multithreaded workloads however do quite well on Bulldozer. The gains over the old Phenom II X6 1100T are unfortunately not as large as we would expect them to be.
7-Zip Benchmark
Heavily threaded workloads obviously do well on the FX series parts, here in our 7-zip test the FX-8150 is actually faster than Intel's fastest Sandy Bridge.
PAR2 Benchmark
Par2 is an application used for reconstructing downloaded archives. It can generate parity data from a given archive and later use it to recover the archive
Chuchusoft took the source code of par2cmdline 0.4 and parallelized it using Intel’s Threading Building Blocks 2.1. The result is a version of par2cmdline that can spawn multiple threads to repair par2 archives. For this test we took a 708MB archive, corrupted nearly 60MB of it, and used the multithreaded par2cmdline to recover it. The scores reported are the repair and recover time in seconds.
Once again, throw more threads at the processor and the FX-8150 can outperform the Core i5 2500K.
TrueCrypt Benchmark
TrueCrypt is a very popular encryption package that offers full AES-NI support. The application also features a built-in encryption benchmark that we can use to measure CPU performance with:
Bulldozer adds AES-NI acceleration, a feature that wasn't present in the Phenom II X6. As a result the FX-8150 is among the fastest at real time AES encryption/decryption, second only to the 2600K. Intel's artificial segmentation using Hyper Threading comes back to haunt it here as the 2500K is significantly slower than the 8-threaded beast.
x264 HD 3.03 Benchmark
Graysky's x264 HD test uses x264 to encode a 4Mbps 720p MPEG-2 source. The focus here is on quality rather than speed, thus the benchmark uses a 2-pass encode and reports the average frame rate in each pass.
As I mentioned earlier, the first pass of our x264 HD benchmark is a lightly threaded task. As such, the FX-8150 doesn't do very well here. Even the old Phenom II is able to inch ahead of AMD's latest. And Sandy Bridge obviously does very well.
The second pass is more thread heavy, allowing the FX-8150 to flex its muscle and effectively tie the 2600K for first place.
AMD also sent along a couple of x264 binaries that were compiled with AVX and AMD XOP instruction flags. We ran both binaries through our x264 test, let's first look at what enabling AVX does to performance:
Everyone gets faster here, but Intel continues to hold onto a significant performance lead in lightly threaded workloads.
The standings don't change too much in the second pass, the frame rates are simply higher across the board. The FX-8150 is an x86 transcoding beast though, roughly equalling Intel's Core i7 2600K. Although not depicted here, the performance using the AMD XOP codepath was virtually identical to the AVX results.
Adobe Photoshop CS4
To measure performance under Photoshop CS4 we turn to the Retouch Artists’ Speed Test. The test does basic photo editing; there are a couple of color space conversions, many layer creations, color curve adjustment, image and canvas size adjustment, unsharp mask, and finally a gaussian blur performed on the entire image.
The whole process is timed and thanks to the use of Intel's X25-M SSD as our test bed hard drive, performance is far more predictable than back when we used to test on mechanical disks.
Time is reported in seconds and the lower numbers mean better performance. The test is multithreaded and can hit all four cores in a quad-core machine.
Photoshop performance improves tangibly over the Phenom II X6, unfortunately it's not enough to hang with the enthusiast Sandy Bridge parts.
Compile Chromium Test
You guys asked for it and finally I have something I feel is a good software build test. Using Visual Studio 2008 I'm compiling Chromium. It's a pretty huge project that takes over forty minutes to compile from the command line on a dual-core CPU. But the results are repeatable and the compile process will easily stress more than 8 threads on a CPU so it works for me.
Our compiler test has traditionally favored heavily threaded architectures, but here we found the Phenom II X6 1100T to offer a tangible performance advantage over Bulldozer. While AMD is certainly competitive here, this is an example of one of those situations where AMD's architectural tradeoffs simply don't pay off—not without additional clock speed that is.
Excel Monte Carlo
Our final application test is another win for AMD over the Core i5 2500K. The victory is entirely a result of Intel's Hyper Threading restrictions though, the eight-thread 2600K is able to easily outperform Bulldozer. Either way, AMD delivers better performance here for less money.
Facebook
Twitter
RSS
430 Comments
View All Comments
Saxie81 - Wednesday, October 12, 2011 - link
Ouch.... Not looking good. :SThanks for the reply, again great review!!
velis - Wednesday, October 12, 2011 - link
Ignoring the power consumption it seems to me that @4.6GHz it should start being quite competitive.So can we expect base clocks to rise once significant volume of these chips starts getting out and GloFo refines the process?
I also must admit I didn't expect 2 bn transistors. All the time AMD was bragging about how much they saved and then we get this behemoth. No wonder they have process issues. Such big chips always do.
cfaalm - Wednesday, October 12, 2011 - link
Well it is an 8-core, not a 4 core. 2x 995M (Sandybridge 4C) almost 2B, though I am sure the multply isn't exactly correct. A lot of it depens on the L3/L2 RAM amounts. The savings seem to be minimal.I am still confused about why they so deliberately chose to go with a relatively low single thread performance. My main application is multithreaded, but since it's such a mixed bag overall I am pretty unsure if this will be my next CPU, unless I get to see convincing Cubase 6 benchies. For an FX moniker it needs to perform better than this anyway.
I'll throw in a lyric from The Fixx
"It doesn't mean much now, it's built for the future."
TekDemon - Wednesday, October 12, 2011 - link
Wow, no wonder they say you need water cooling or better to go 5Ghz+.enterco - Wednesday, October 12, 2011 - link
AMD should send a developer team to CryTek to help them release a patch able to use more cores :)medi01 - Wednesday, October 12, 2011 - link
Uhm, what about other numbers?IlllI - Wednesday, October 12, 2011 - link
this might be the final nail in the coffin. We might have to wait longer for it to be competitive? People have literally been waiting for -years- for amd to catch up.probably by the time piledriver(or whatever it'll be called) comes out, ib will be out (and even further behind intel)
btw I think tomshardware tested it with windows 8 and it was still a turd.
I seriously hope you can get some answers/reasons why amd released such a woeful product. Maybe this was why dirk was fired? All I know is after 7+ years of amd, my next processor will be intel
Ushio01 - Wednesday, October 12, 2011 - link
Desktop CPU's are Halo parts and as such are irrelevant. It's the Server and OEM Laptop CPU's were AMD needs to perform and AMD's server share just keeps dropping.lyeoh - Wednesday, October 12, 2011 - link
Thing is I wouldn't want to use them in my servers: http://us.generation-nt.com/answer/patch-x86-amd-c...FWIW when the Athlon64s first came out, we bought a bunch of them, they were not bad, but there were clock issues - the TSCs weren't synchronized. So had to set idle=poll (and thus using more watts).
You can blame the OS developers, but most people buy new hardware to run existing operating systems and programs on, not future unreleased ones.
It sure is looking bad for them. I won't be buying AMD CPUs but I hope the fanboys keep them alive ;).
OCedHrt - Wednesday, October 12, 2011 - link
"Other than the 8150, only the quad-core FX processors are able to exceed the 3.3GHz clock speed of the Phenom II X6 1100T."The 6 core FX is also clocked higher?