Did the latest releases make Blender any faster? It's time for an update - participate in the Blender Render Benchmark and find out!
Agile wrote:
Maybe it is now the best moment to consider Blender rendertimes again, and think about speedup techniques. I spend a lot of time thinking how to achieve faster renders since waiting and drinking coffee is not what the tigers like the most. And it is the news the most directly related to Blender which I can recently find... Do the newer builds of Blender - 2.49 are faster than earlier?
Link
26 Comments
Great list...however, shouldnt a more complex rendering scene be used as a benchmark now?
Uh... I can't make any conclusion from the list. We want to see if there is speed improvements right? Not how fast our system is rendering right? Then there should be comparison. This would be inconclusive if you don't even know how fast from the previous build this new build is. There is no comparison in speed between builds that could be done.
ralmon is right. This benchmark mixes all kinds of things. Different blender versions, builds, processors, RAM, OS, and puts them all in 1 list.
The way I see it, it collects all kinds of information which is good. It just needs some better reporting tools to get the juicy stuff out.
@Agile: any chance of a better presentation of the results, or a written report of the progress of Blender performance later on?
This benchmark is not fair for the newest versions. You have new options to optimize the scene render times, like the approximate ambient occlusion that can get similar scene quality with much less resources.
IMHO, to be fair, the benchmark should not use always the same blend file, but the same reference image (ie, the cornell box), and measure both the render time and the similarity with the reference image. Human effort should be made to create a blend file that exploits the new render options on each blender version to enhace render time, image quality, or both.
I would add a column: equipement price in $ =)
then it would have been possible to see what is the best machine for the lowest price
there is no point in running a 'render test' on such a simplistic scene. What I have found to be slow in blender has been the raytracing side of things and raytracing tends to slow down logthrimically the more complex a scene gets. the scene doesn't even have a thousand faces.
@ fweibel.com
AMD Athlon(tm)64 X2 Dual
Core Processor 5200+
2.70 GHz, 4,00GB of RAM
cost when I bought it 500$ (just bought the top) at komplett.se
I think that this is a list to see who has the fastest machine, it shouldn't be used to compare blender versions.
To see which blender version is the fastest, simply render the same scene in different blender versions, but on the same pc. It's pointless to compare 2.5 render times on cutting-edge pcs against old versions being run on old machines.
By the way, 2.5 renders that test scene in pretty much the same time as 2.49a on my pc.
The new Blender is just slightly faster than the old Blender. I checked my time on test.blend (4 cores=8 threads with hyperthreading), and my time to render the 'stock scene' was 0.37 seconds faster with the new blender, than with the old. My case fans increase RPM when the CPU core temperature goes up. Rendering this, the fans never changed RPM (simple scene, no temperature change).
Bob
@Bart:
I have a little influence how the data are presented, since the maintainer of BlenderBenchmark is someone else.
But I always tried to isolate the key factors that are important for optimal Blender performance.
As one is simply hardware upgrade, the other rely on proper usage of available resources.
Not everyone have access to a powerful renderfarm, and most users are unaware how rendertimes explode
when we try to switch on options like AO or Raytracing.
In blender there are some critical setting that disabled do not influence the final result THAT much, and still gives
an appealing images.
We may also use optimized blender builds from graphicall.org and render from command line.
An of course choice of operating system - lightweight Linux seems reasonable.
Hmmm, been trying to find a reliable way to proper benchmark the farm here. Interested in Maxon's cinebench system but if there was a way to send this to all the nodes and get a reliable benchmark with each different build on the main servers it'd definately give an exponential figure as to how well the build improvements in render time scale up onto a larger farm.
Love graphicall, specially Kai's script collection edition, wow, that's saved soo much work.
Cheers
TxRx
Funny that on the image on THIS page there is an Opteron with 15.96s which was obviously removed from the main site for some reason...
ray tracing with today computers performance suck!,but in the future super computers with kick it rayass if it has one?
Wait until they implement Open CL and with the power of multicore CPU+ multithread GPU I predict a big leap in rendering speed (like real time raytracing #gasp#).
But as usual, in the mean time, Blender developpers will have added physcially accurate volumetric fog, realtime fluid simulation, unbiased raytracing atomic level detail particle dynamic and many fun stuffs that will eat this speed up and send us back to an average of 10 min/frames for rendering :D
Its a good idea in theory, but as I see it, there are way too many factors to take into consideration when comparing between two different people with different skill sets and levels of experience in optimization. I have often wondered whether newer versions are faster, and I believe that it is possible to test such curiosities (as I now do whenever a new version comes out), but only in very localized situations. There is no reasonable way to parse all of the data collected to introduce a well compiled, logical, and broad-ranging result.
I don't get it. The 32 bit OS'es use 2 CPU's while the 64 bit ones use only one CPU? Doesn't makes sense to me.
I don't think this is very intelligent. 32-bit vista with 8GB of RAM??!!!? That doesn't make any sense at all. Also, this proves that having more cores doesn't quite help you in current versions.
@Dread Knight, There appear to be plenty of 64 bit OS's on the list that have two CPU's, at least when I look at it. Also, it's the threads of execution that really matter. As you can have a single socket (on CPU) but it could be a dual, quad, 6, or 8 core (or hyperthreading) allowing for more concurrent threads of execution. For instance, I have an Intel Atom 330 which has one physical CPU but it is dual core and hyperthreading giving me 4 concurrent threads of execution. This is regardless of running a 32bit or 64bit OS.
@Thomas, true enough, last I knew 32bit Vista could not address 8GB of memory, but the machine could physically have 8GB of memory in it. So while the physical specs could be correct the OS would just disregard the additional memory ( probably something on the order of 5GB wasted there). However, I have noticed that having more cores does help, at least where the test.blend is concerned. On my Atom 330, running with one thread of execution took around 9 minutes while using 4 threads brought the time down to around 3 minutes, I'd say that's a pretty substantial increase.
+1 to getting some better reporting on the stats, if nothing else a way to sort based on the columns or search for specific blender versions.
Woops, I guess you can sort on the columns, was just really slow for me so I didn't think it worked but I guess it does! That certainly helps a bit.
This is one point why I am using Blender very seldom!
For your Workstation you have to test many many versions to get the fastest.
And unfortunately then you miss some features!!!
There has to be ONE Blender that detects the hardware and renders depending on the used system at optimum!!!
I took all the data, and put it in a pivot table in Excel. Here I have selected windows XP pro. 1 cpu.
WinXP Pro
1x
AMD Athlonâ„¢ Thunderbird 1000MHz
00:08:56.41
2.42a
AMD Athlonâ„¢ Thunderbird 1200MHz
00:06:07.42
2.43
00:07:51.28
2.40
00:08:09.18
2.43
AMD Athlonâ„¢ Thunderbird 1400MHz
00:09:02.83
2.43
AMD Athlonâ„¢ X2 4050e 2100MHz
00:02:20.07
2.47
AMD Athlonâ„¢ X2 4850e 2500MHz
00:03:33.04
2.49
AMD Athlonâ„¢ X2 7750 2700MHz
00:01:40.00
2.48
AMD Athlonâ„¢64 2800+ 1800MHz
00:03:29.18
2.43 SSE2
00:04:46.77
2.43
AMD Athlonâ„¢64 3000+ 1800MHz
00:02:46.50
2.49 SSE2
00:03:01.43
2.43 SSE2
00:03:11.08
2.43 SSE2
00:03:36.57
2.45
00:03:36.58
2.43 SSE2
00:03:49.97
2.45
00:03:52.97
2.47
00:03:54.97
2.45
00:04:03.23
2.43
00:04:18.70
2.42
00:04:20.69
2.43
00:04:23.79
2.43
00:04:25.66
2.44
00:04:29.30
2.44
00:04:32.63
2.48
00:04:37.08
2.44
00:04:37.09
2.43
00:04:43.45
2.43
00:05:16.25
2.41
AMD Athlonâ„¢64 3200+ 2000MHz
00:02:44.67
2.41
00:02:57.01
2.43 SSE2
00:03:05.82
2.43 SSE2
00:03:06.15
2.43 SSE2
00:03:06.75
2.43 SSE2
00:03:06.99
2.43 SSE2
00:03:07.46
2.43 SSE2
00:03:07.64
2.43 SSE2
00:03:09.03
2.44 SSE2
00:03:31.77
2.43 SSE2
00:03:37.06
2.43
00:03:37.07
2.48 SSE4a
00:03:39.41
2.43
00:03:51.25
2.45
00:03:54.88
2.43
00:04:00.67
2.43
00:04:01.52
2.44
00:04:04.43
2.43
00:04:06.38
2.43
00:04:12.09
2.42a
00:04:18.27
2.42a
00:04:19.42
2.42
00:04:22.98
2.43
00:04:30.76
2.42
00:04:34.48
2.43
00:04:39.88
2.48
00:06:30.72
2.48
00:06:46.89
2.43
AMD Athlonâ„¢64 3400+ 2400MHz
00:02:37.91
2.43 SSE2
00:02:48.22
2.43 SSE2
00:03:17.66
2.45
00:03:37.49
2.43
AMD Athlonâ„¢64 3500+ 2200MHz
00:02:28.76
2.46
00:02:55.10
2.43 SSE2
00:03:41.53
2.43
00:03:41.88
2.43
00:03:50.00
2.37a
00:03:54.42
2.42
AMD Athlonâ„¢64 3700+ 2400MHz
00:03:10.93
2.45
AMD Athlonâ„¢64 3800+ 2400MHz
00:01:41.15
2.45
00:03:00.15
2.43
00:03:24.38
2.43
00:03:33.24
2.43
00:03:39.60
2.49
00:03:52.95
2.48
00:04:23.43
2.48
00:04:28.08
2.48
AMD Athlonâ„¢64 4000+ 2400MHz
00:02:37.03
2.48
AMD Athlonâ„¢64 FX-53 2400MHz
00:03:25.47
2.43
AMD Athlonâ„¢64 X2 3600+ 1900MHz
00:01:00.16
2.44 SSE3
00:01:33.00
2.44 SSE3
00:02:00.06
2.44
00:02:11.72
2.43
00:02:15.96
2.44
00:04:03.02
2.44
00:41:34.14
2.46
AMD Athlonâ„¢64 X2 3800+ 2000MHz
00:01:05.67
2.44 SSE2
00:01:28.08
2.43 SSE3 selfcompiled
00:01:28.29
2.42.4 SSE3
00:01:31.37
2.42a
00:01:34.06
2.45 SSE2
00:01:40.53
2.45 SSE2
00:01:43.80
2.45 SSE2
00:01:50.71
2.45
00:01:52.74
2.45
00:01:57.72
2.42a
00:02:06.47
2.43
00:02:07.84
2.37a
00:02:12.70
2.42
00:02:12.82
2.42
00:02:16.83
2.42
00:02:29.46
2.43 RC1
00:03:21.40
2.42
00:04:14.02
2.37a
AMD Athlonâ„¢64 X2 4000+ 2100MHz
00:01:29.14
2.44 SSE3
00:01:44.03
2.45
00:01:59.95
2.44
00:02:00.71
2.44
00:03:28.15
2.45
00:04:12.18
2.48
AMD Athlonâ„¢64 X2 4200+ 2200MHz
00:01:19.29
2.45
00:01:20.82
2.43 SSE2
00:01:24.08
2.43 SSE2
00:01:24.56
2.45 SSE2
00:01:24.84
2.45 SSE2
00:01:25.82
2.43 SSE2
00:01:27.79
2.43 SSE2
00:01:29.17
2.43 SSE2
00:01:44.70
2.43
00:01:50.59
2.43
00:02:00.10
2.37a
00:02:03.46
2.46
00:02:10.45
2.48
00:03:16.52
2.43
00:03:37.51
2.44
00:03:57.91
2.46
00:03:59.61
2.42a
00:04:09.62
2.43
00:06:24.38
2.42a
AMD Athlonâ„¢64 X2 4400+ 2200MHz
00:01:34.82
2.45.16 SSE2 (2.46 RC1)
00:01:34.89
2.45
00:01:48.53
2.45
00:01:54.13
2.43
00:01:56.90
2.43
00:02:02.07
2.40
00:02:09.41
2.45
00:03:05.25
2.45
AMD Athlonâ„¢64 X2 4600+ 2400MHz
00:01:28.77
2.45
00:01:50.30
2.44
00:03:18.90
2.43
00:03:41.96
2.44
00:03:42.93
2.49
AMD Athlonâ„¢64 X2 4800+ 2400MHz
00:01:10.61
2.41
00:01:47.67
2.43
00:03:11.68
2.44
AMD Athlonâ„¢64 X2 4800+ 2500MHz
00:01:46.71
2.48
00:03:29.00
2.47
AMD Athlonâ„¢64 X2 5000+ 2600MHz
00:01:24.03
2.45
00:02:41.93
2.45
AMD Athlonâ„¢64 X2 5200+ 2600MHz
00:01:15.22
2.43 SSE2
00:01:15.61
2.45
00:01:33.35
2.48a
00:02:22.41
2.43
AMD Athlonâ„¢64 X2 5200+ 2700MHz
00:01:17.03
2.45
00:01:51.13
2.48
AMD Athlonâ„¢64 X2 5600+ 2800MHz
00:02:38.43
2.45
00:40:03.05
2.46
AMD Athlonâ„¢64 X2 5600+ 2900MHz
00:03:11.97
2.46
AMD Athlonâ„¢64 X2 6000+ 3000MHz
00:01:10.94
2.45
00:01:13.84
2.45
00:01:14.32
2.45
00:01:38.58
2.46
00:02:19.42
2.45
00:02:40.00
2.43
00:02:52.69
2.49
00:06:14.09
2.45
AMD Athlonâ„¢64 X2 BE-2350 2100MHz
00:04:13.82
2.48
AMD Athlonâ„¢MP 1500+ 1333MHz
00:06:40.45
2.45
AMD Athlonâ„¢MP 1800+ 1533MHz
00:05:50.00
2.43
AMD Athlonâ„¢MP 2200+ 1800MHz
00:05:29.16
2.43
AMD Athlonâ„¢MP 2400+ 2000MHz
00:05:08.91
2.42a
AMD Athlonâ„¢XP 1600+ 1400MHz
00:06:36.51
2.43
00:07:09.25
2.45
AMD Athlonâ„¢XP 1700+ 1466MHz
00:04:36.48
2.37a
00:05:17.37
2.45.4 SVN A.XP optimized SSE,MMX
00:05:42.03
2.45
00:06:18.06
2.37a
00:06:24.00
2.45
00:07:22.45
2.44
AMD Athlonâ„¢XP 1800+ 1533MHz
00:05:46.54
2.37a
00:06:58.39
2.43
AMD Athlonâ„¢XP 1900+ 1600MHz
00:05:51.54
2.43
AMD Athlonâ„¢XP 2000+ 1666MHz
00:05:28.35
2.42
00:05:31.49
2.42a
00:06:06.36
2.42a
00:06:39.75
2.46
AMD Athlonâ„¢XP 2100+ 1733MHz
00:05:06.00
2.37a
AMD Athlonâ„¢XP 2200+ 1800MHz
00:04:50.31
2.45
00:05:10.80
2.43
00:05:13.43
2.43
00:05:19.80
2.37a
00:05:26.89
2.43
00:05:46.64
2.48
AMD Athlonâ„¢XP 2400+ 2000MHz
00:04:32.54
2.43
00:04:37.69
2.40 RC1
00:04:45.95
2.45
00:04:55.47
2.43
00:05:05.47
2.42a
00:05:15.18
2.44
00:05:35.79
2.43
00:07:06.78
2.37a
AMD Athlonâ„¢XP 2500+ 1833MHz
00:03:14.34
2.45 svn
00:03:33.49
2.45 SSE
00:03:35.00
2.38 intel
00:05:07.59
2.43
00:05:11.88
2.45
00:05:16.68
2.43
00:05:19.81
2.43
00:05:21.00
2.37a intel
00:05:32.77
2.46
00:05:37.18
2.43
00:06:31.40
2.46
00:09:27.31
2.47
AMD Athlonâ„¢XP 2600+ 1916MHz
00:03:46.38
2.43
00:04:08.34
2.40
00:04:28.65
2.43
00:04:36.20
2.45
00:04:58.92
2.45
00:05:00.00
2.45
00:05:00.20
2.45
00:05:02.26
2.45
00:05:04.44
2.43
00:06:13.54
2.48
00:06:20.08
2.42
AMD Athlonâ„¢XP 2600+ 2083MHz
00:04:06.00
2.42a
AMD Athlonâ„¢XP 2700+ 2166MHz
00:04:08.55
2.37a
00:04:18.05
2.43
00:04:34.33
2.40
AMD Athlonâ„¢XP 2800+ 2083MHz
00:04:11.49
2.37a Intel/AMD Optimised
00:04:58.22
2.49
AMD Athlonâ„¢XP 3000+ 1800MHz
00:04:04.45
2.37a
AMD Athlonâ„¢XP 3000+ 2166MHz
00:04:15.57
2.45
00:04:23.42
2.44 SSE2
00:04:31.64
2.43
00:04:49.02
2.46
00:05:14.62
2.48
AMD Athlonâ„¢XP 3200+ 2000MHz
00:02:50.00
2.42a Self-compile (GCC, SCONS)
AMD Athlonâ„¢XP 3200+ 2200MHz
00:03:54.78
2.45
00:04:01.00
2.43
00:04:09.84
2.43
AMD Duronâ„¢ 1100MHz
00:08:53.12
2.43
AMD Duronâ„¢ 1200MHz
00:09:16.86
2.40 alpha 2
00:09:21.75
2.43
00:11:36.53
2.45
AMD Duronâ„¢ 1300MHz
00:07:03.31
2.45
00:07:46.35
2.46 SVN 15412 SSE
00:09:10.75
2.46
AMD Duronâ„¢ 1400MHz
00:08:56.62
2.45
00:09:30.32
2.43
AMD Duronâ„¢ 1600MHz
00:02:25.22
2.45
00:04:28.06
2.37a
00:05:13.00
2.37a intel
00:06:26.65
2.40
AMD Duronâ„¢ 1800MHz
00:04:25.43
2.43
00:07:11.29
2.48a
AMD Duronâ„¢ 850MHz
00:20:20.50
2.49
AMD Opteronâ„¢ 1222 (DualCore) 3000MHz
00:02:54.59
2.46
AMD Opteronâ„¢ 1352 (QuadCore) 2100MHz
00:00:43.97
2.43 SSE2
AMD Opteronâ„¢ 165 (DualCore) 1800MHz
00:01:14.96
2.41 Lox build 14.03
00:01:37.08
2.43
AMD Opteronâ„¢ 170 (DualCore) 2000MHz
00:01:51.49
2.42a
00:01:55.46
2.42a
AMD Opteronâ„¢ 185 (DualCore) 2600MHz
00:01:08.61
2.43 SSE3
AMD Phenomâ„¢ II X3 720 2800MHz
00:00:38.49
2.48 SSE2
AMD Phenomâ„¢ II X4 940 3000MHz
00:00:41.30
2.49
00:00:47.39
2.49
AMD Phenomâ„¢ II X4 945 3000MHz
00:02:44.76
2.49
AMD Phenomâ„¢ X4 9500 2200MHz
00:00:48.96
2.45
00:00:57.00
2.48
00:30:00.00
2.49
AMD Phenomâ„¢ X4 9550 2200MHz
00:01:16.97
2.48
AMD Phenomâ„¢ X4 9600 2300MHz
00:00:59.28
2.49 SSE4a
AMD Phenomâ„¢ X4 9850 2500MHz
00:03:24.51
2.49
AMD Phenomâ„¢ X4 9950 2600MHz
00:00:49.22
2.48
AMD Sempronâ„¢ 2200+ 1500MHz
00:06:07.67
2.43
AMD Sempronâ„¢ 2300+ 1583MHz
00:05:36.24
2.37a
00:06:23.51
2.44
00:06:32.79
2.43
00:09:34.05
2.41
AMD Sempronâ„¢ 2400+ 1666MHz
00:05:26.69
2.37a
00:05:51.39
2.43
AMD Sempronâ„¢ 2600+ 1833MHz
00:04:09.70
2.37a
00:04:55.13
2.43
00:05:05.07
2.43
00:06:20.21
2.40
AMD Sempronâ„¢ 2800+ 2000MHz
00:03:29.58
2.41
00:03:36.26
2.41
00:05:05.63
2.46
00:05:06.78
2.43
00:06:00.76
2.45
AMD Sempronâ„¢ 3000+ 2000MHz
00:03:53.38
2.45
00:05:44.01
2.48
AMD Sempronâ„¢ 3100+ 1800MHz
00:03:55.93
2.45
AMD Sempronâ„¢ 3300+ 2000MHz
00:04:34.43
2.46
AMD Sempronâ„¢ 3400+ 1800MHz
00:02:18.64
2.43 SSE3
00:02:53.55
2.44
AMD Sempronâ„¢ Mobile 3500+ 1800MHz
00:04:08.92
2.42
AMD Sempronâ„¢64 2800+ 1600MHz
00:04:22.93
2.45
AMD Sempronâ„¢64 3000+ 1600MHz
00:04:48.48
2.43
AMD Sempronâ„¢64 3600+ 2000MHz
00:03:40.68
2.46 SSE2
00:04:57.07
2.46
AMD Sempronâ„¢64 LE-1100 1900MHz
00:07:20.55
2.49
AMD Turionâ„¢64 MT-30 1600MHz
00:04:38.24
2.45
00:05:20.19
2.37a
00:05:38.43
2.48
AMD Turionâ„¢64 MT-34 1800MHz
00:04:27.22
2.42a
AMD Turionâ„¢64 X2 TL-50 1600MHz
00:02:43.88
2.45
AMD Turionâ„¢64 X2 TL-52 1600MHz
00:01:58.88
2.43 SSE2
00:02:30.85
2.43
00:05:03.19
2.43
00:05:27.91
2.48
AMD Turionâ„¢64 X2 TL-56 1800MHz
00:02:22.36
2.43
00:05:12.57
2.43
AMD Turionâ„¢64 X2 TL-60 2000MHz
00:02:10.38
2.45
Apple MacBook Core 2 Duo 2160MHz
00:01:35.82
2.44
Intel® Atom™ 230 1600MHz
00:11:09.20
2.47 SSSE3
00:18:09.20
2.47
Intel® Atom™ N270 1600MHz
00:15:24.67
2.47
Intel® Celeron® 1100MHz
00:08:53.79
2.43
Intel® Celeron® 1300MHz
00:06:52.18
2.42a
Intel® Celeron® 1700MHz
00:05:18.32
2.48 SSE2
2.48a SSE2
00:05:40.38
2.48 SSE2
00:07:11.65
2.45
00:08:44.69
2.45
00:09:00.19
2.47
Intel® Celeron® 1800MHz
00:04:48.24
2.47
Intel® Celeron® 2100MHz
00:08:20.94
2.48
Intel® Celeron® 2400MHz
00:05:22.39
2.4 Alpha1
00:05:56.94
2.45
Intel® Celeron® 2533MHz
00:10:55.24
2.43
Intel® Celeron® 2666MHz
00:04:36.95
2.45
00:06:02.81
2.45
00:09:47.33
2.47
Intel® Celeron® 2800MHz
00:06:05.22
2.43
Intel® Celeron® 2933MHz
00:06:02.16
2.43
Intel® Celeron® 700MHz
00:12:04.76
2.36
Intel® Celeron® D 2130MHz
00:07:56.08
2.48
Intel® Celeron® D 2400MHz
00:05:51.18
2.45 SSE3
Intel® Celeron® D 2660MHz
00:06:39.83
2.43
00:06:50.58
2.43
Intel® Celeron® D 3060MHz
00:03:42.84
2.43 SSE2
00:06:12.10
2.43
Intel® Celeron® Mobile 1400MHz
00:06:22.74
2.48
00:06:50.17
2.46
Intel® Celeron® Mobile 1500MHz
00:04:35.00
2.45
Intel® Celeron® Mobile 1600MHz
00:05:25.98
2.47
Intel® Celeron® Mobile 900MHz
00:09:23.11
2.45
Intel® Core™2Duo E4300 1800MHz
00:00:47.81
2.43 SSE3
00:01:00.51
2.43 SSE3
00:01:17.50
2.45
00:01:29.84
2.45
00:01:31.35
2.45
00:02:06.00
2.46
00:02:08.46
2.46
00:03:34.16
2.44
00:04:23.18
2.46
Intel® Core™2Duo E4400 2000MHz
00:01:36.87
2.44
00:01:39.06
2.44
00:02:08.13
2.49
00:02:54.74
2.45
00:03:14.92
2.44
00:04:22.08
2.44
Intel® Core™2Duo E4500 2200MHz
00:01:30.10
2.44
00:01:38.79
2.49
00:01:47.41
2.48
00:01:48.80
2.49
00:01:49.08
2.46
00:01:49.72
2.46
00:01:52.34
2.48
00:01:52.52
2.49
00:01:54.63
2.48
00:01:56.98
2.49
00:03:28.88
2.49
00:05:08.00
2.48
Intel® Core™2Duo E4600 2400MHz
00:01:23.08
2.48 SSE2
00:01:42.42
2.46 RC1
00:03:08.03
2.49
00:03:11.90
2.46
Intel® Core™2Duo E6300 1860MHz
00:01:16.05
2.48
00:01:21.20
2.43 SSE2
00:02:01.11
2.44 svn lathe+tiles
00:02:01.93
2.48
00:02:07.44
2.44 svn lathe+tiles
00:02:08.62
2.48
00:02:37.79
2.43 SSE2
00:03:10.29
2.45
00:03:33.92
2.44 svn lathe+tiles
Intel® Core™2Duo E6320 1860MHz
00:02:16.87
2.46
00:03:07.00
2.45
Intel® Core™2Duo E6400 2130MHz
00:00:49.25
2.45
00:00:51.59
2.45
00:00:55.61
2.44 SSE3
00:00:59.97
2.43
00:01:02.77
2.42a
00:01:13.47
2.43 SSE2
00:01:15.00
2.44 SSE2
00:01:15.50
2.43 SSE2
00:01:18.97
2.43
00:01:26.24
2.46 SSE2
00:01:27.00
2.45
00:01:29.41
2.45
00:01:33.25
2.45
00:01:43.05
2.44
00:01:51.62
2.46
00:01:52.95
2.49
00:01:53.36
2.49
00:01:53.48
2.49
00:01:55.30
2.44 SSE3
00:01:57.38
2.49
00:02:06.30
2.45
00:02:10.89
2.44 SSE3
00:02:28.25
2.43
00:03:04.80
2.43
00:03:06.86
2.44
00:03:31.30
2.49
Intel® Core™2Duo E6420 2130MHz
00:01:02.94
2.44
00:01:26.53
2.45
00:01:39.65
2.44
00:01:51.52
2.49
00:02:44.23
2.45
00:03:04.81
2.44
Intel® Core™2Duo E6540 2330MHz
00:04:58.39
2.44
Intel® Core™2Duo E6550 2330MHz
00:01:02.24
2.44 SSE3
00:01:42.88
2.48
00:01:43.91
2.46
00:01:55.11
2.46
00:03:13.40
2.47
00:03:14.00
2.48
00:03:18.40
2.48
Intel® Core™2Duo E6600 2400MHz
00:00:43.94
2.43 SSE2
00:01:00.80
2.45 SSE2
00:01:02.12
2.43 SSE2
00:01:02.59
2.45 SSE2
00:01:04.77
2.43 SSE2
00:01:05.35
2.44 SSE3
00:01:19.34
2.45
00:01:20.62
2.43
00:01:20.87
2.43
00:01:24.79
2.43
00:01:25.40
2.43
00:01:25.85
2.43
00:01:25.90
2.43
00:01:28.00
2.44
00:01:29.56
2.42a
00:01:40.14
2.49
00:02:39.17
2.43
00:02:40.41
2.43
00:03:08.46
2.49
00:03:12.19
2.49
00:06:42.23
2.44
Intel® Core™2Duo E6700 2670MHz
00:00:56.45
2.43
00:00:56.46
2.45
00:01:07.81
2.45
00:01:17.07
2.43
00:01:17.68
2.43
Intel® Core™2Duo E6750 2660MHz
00:00:43.14
2.44 SSE3
00:00:47.19
2.45 SSE2
00:00:58.59
2.45 SSE2
00:01:06.51
2.45
00:01:09.16
2.44
00:01:13.43
2.44
00:01:27.73
2.45
00:01:34.96
2.48
00:01:38.29
2.49
00:02:11.23
2.45
00:02:24.65
2.44
00:02:51.24
2.48
00:02:52.12
2.49
Intel® Core™2Duo E6850 3000MHz
00:01:08.32
2.44
00:01:17.41
2.49
00:02:00.01
2.45
Intel® Core™2Duo E7200 2530MHz
00:01:05.77
2.48a
00:02:09.89
2.48a
Intel® Core™2Duo E7300 2660MHz
00:02:41.29
2.48
Intel® Core™2Duo E8200 2660MHz
00:01:23.08
2.48
Intel® Core™2Duo E8400 3000MHz
00:00:58.87
2.48 SSE3
00:01:11.69
2.48
00:01:13.76
2.46
00:01:14.07
2.48
00:01:51.43
2.45
00:02:21.00
2.49
Intel® Core™2Duo E8500 3160MHz
00:00:56.89
2.48
00:01:11.82
2.49
Intel® Core™2Duo L7200 1330MHz
00:02:07.22
2.44
Intel® Core™2Duo T5200 1600MHz
00:02:29.00
2.46
00:04:32.13
2.44
Intel® Core™2Duo T5500 1660MHz
00:01:51.17
2.43
00:01:58.53
2.43
00:02:13.48
2.46
00:02:26.32
2.46
00:02:59.29
2.42a
00:04:05.05
2.42a
Intel® Core™2Duo T5600 1830MHz
00:01:20.25
2.43 SSE3
00:01:20.80
2.43 SSE2
00:01:46.16
2.44
00:01:46.30
2.43
00:01:47.10
2.43
00:01:54.94
2.43
00:01:56.36
2.44 SSE2
00:04:04.88
2.46
00:04:19.03
2.48
00:04:21.08
2.49
Intel® Core™2Duo T5750 2000MHz
00:02:51.17
2.48 SSE3
00:03:01.97
2.48
Intel® Core™2Duo T7100 1800MHz
00:02:25.57
2.48
Intel® Core™2Duo T7200 2000MHz
00:01:13.60
2.43 SSE2
00:01:27.02
2.46 SSE2
00:01:37.13
2.43
00:01:50.08
2.42
00:01:59.54
2.48
00:02:02.86
2.46
00:03:12.61
2.43
00:03:46.26
2.46
00:03:52.41
2.49
Intel® Core™2Duo T7300 2000MHz
00:01:31.07
2.46 SSE2
00:03:31.85
2.48
Intel® Core™2Duo T7500 2200MHz
00:01:25.80
2.45
00:01:51.27
2.48
00:02:34.49
2.45
00:02:54.29
2.45
Intel® Core™2Duo T7700 2400MHz
00:01:16.31
2.45
00:01:23.79
2.45
Intel® Core™2Duo T7800 2600MHz
00:01:30.16
2.46
Intel® Core™2Duo T8300 2400MHz
00:01:30.70
2.46 RC3
00:01:31.36
2.46 RC3
00:01:32.56
2.46 RC3
00:01:32.80
2.46 RC3
00:01:34.37
2.48
00:02:52.04
2.48
Intel® Core™2Extreme QX6700 2660MHz
00:00:40.03
2.43
00:00:53.93
2.43 SSE3
Intel® Core™2Extreme QX9650 3000MHz
00:00:28.46
2.48
00:00:29.11
2.48 SSE3
Intel® Core™2Extreme X7800 2600MHz
00:00:30.43
2.45 SSE3
Intel® Core™2Quad Q6600 2400MHz
00:00:22.50
2.45 SSE2
00:00:23.28
2.49
00:00:24.07
2.44 SSE2
00:00:28.60
2.45
00:00:28.80
2.43 SSE3
00:00:28.81
2.44 SSE2
00:00:29.83
2.45 SSE3
00:00:30.21
2.45
00:00:30.95
2.45
00:00:31.45
2.44 SSE3
00:00:31.50
2.45 SSE3
00:00:31.55
2.45 SSE3
00:00:32.18
2.45
00:00:33.14
2.45
00:00:33.30
2.44 SSE3
00:00:35.55
2.44
00:00:36.16
2.48
00:00:37.69
2.45 SSE3
00:00:38.03
2.45
00:00:38.22
2.45
00:00:38.41
2.45
00:00:38.94
2.45
00:00:39.50
2.45
00:00:39.85
2.46
00:00:42.17
2.48
00:00:44.09
2.48
00:00:44.50
2.44
00:00:50.34
2.48
00:00:51.32
2.49
00:00:52.48
2.48
00:00:52.71
2.49
00:00:52.93
2.48
00:00:53.18
2.46
00:00:53.40
2.48
00:00:58.78
2.46
00:01:45.44
2.47
00:02:27.02
2.45
00:02:29.93
2.47
00:03:06.92
2.47
00:03:31.94
2.46
Intel® Core™2Quad Q6700 2660MHz
00:00:19.21
2.44 SSE3
00:00:20.52
2.44 SSE3
00:00:23.90
2.44 SSE3
00:00:33.92
2.48
00:00:34.49
2.45
00:02:05.02
2.48
00:02:49.81
2.48
Intel® Core™2Quad Q9300 2500MHz
00:00:36.60
2.45
Intel® Core™2Quad Q9400 2660MHz
00:00:46.24
2.48
00:02:40.17
2.48
Intel® Core™2Quad Q9450 2660MHz
00:00:45.42
2.46
00:43:18.00
2.46
Intel® Core™2Quad Q9550 2830MHz
00:00:28.13
2.48 SSE2
00:00:39.26
2.48
00:00:43.00
2.49
00:02:13.20
2.48
Intel® Core™2Quad Q9650 3000MHz
00:00:30.55
2.48 SSE3
00:00:36.46
2.49
Intel® Core™Duo L2500 1830MHz
00:04:13.60
2.45
Intel® Core™Duo T2300 1660MHz
00:02:18.22
2.43 SSE2
00:02:25.29
2.41
00:04:12.63
2.45
00:04:29.40
2.43
00:04:50.02
2.37a
Intel® Core™Duo T2350 1860MHz
00:04:13.04
2.46
Intel® Core™Duo T2400 1830MHz
00:02:19.18
2.42
00:03:23.30
2.43
00:03:42.44
2.42a
00:04:10.23
2.43
00:04:44.85
2.47
Intel® Core™Duo T2450 2000MHz
00:02:20.35
2.46
Intel® Core™Duo T2500 2000MHz
00:01:22.33
2.44 SSE3
00:01:27.65
2.43 SSE2
00:01:36.00
2.45 SSE2
00:01:58.33
2.43
00:01:59.68
2.43
00:02:01.51
2.49
00:02:04.31
2.37a
00:02:07.27
2.42
00:03:45.14
2.43
Intel® Core™Duo T2600 2160MHz
00:01:23.89
2.43
00:01:59.76
2.49
00:03:06.97
2.43
Intel® Core™Duo U2400 1060MHz
00:01:25.15
2.44
Intel® Core™i7 I7-920 2660MHz
00:00:25.09
2.48
Intel® Pentium® 3 1000MHz
00:05:04.52
2.43
00:09:43.48
2.40 intel
Intel® Pentium® 3 550MHz
00:18:08.09
2.43
Intel® Pentium® 3 600MHz
00:04:19.47
2.49
Intel® Pentium® 3 733MHz
00:14:16.14
2.43
Intel® Pentium® 3 850MHz
00:11:13.71
2.43
00:12:36.90
2.37a
Intel® Pentium® 3 933MHz
00:09:34.81
2.45
Intel® Pentium® 4 1500MHz
00:08:19.09
2.45
00:13:46.75
2.37a
Intel® Pentium® 4 1600MHz
00:11:40.44
2.47
Intel® Pentium® 4 1700MHz
00:05:46.71
2.44 SSE2
00:07:30.91
2.44
00:08:54.23
2.45
00:09:13.10
2.43
Intel® Pentium® 4 1800MHz
00:04:18.53
2.43 SSE2
00:06:44.68
2.45
00:08:58.15
2.48
00:09:46.00
2.43
Intel® Pentium® 4 2000MHz
00:03:33.11
2.43
00:04:09.72
2.45
00:07:47.45
2.37a
Intel® Pentium® 4 2400MHz
00:03:59.31
2.40
00:04:23.78
2.44
00:04:29.76
2.45
00:04:30.99
2.37a
00:04:38.69
2.45
00:04:47.67
2.45
00:05:21.74
2.43
00:05:31.73
2.43
00:05:35.23
2.45
00:05:39.18
2.49
00:05:39.86
2.48
00:06:47.91
2.43
00:06:54.90
2.45
00:06:59.77
2.43
00:07:00.14
2.49
Intel® Pentium® 4 2500MHz
00:06:29.73
2.43
Intel® Pentium® 4 2600MHz
00:02:50.03
2.43 SSE2
00:03:13.00
2.44 SSE2
00:03:14.69
2.48 SSE2
00:04:44.65
2.48
00:05:01.63
2.43
00:05:18.84
2.37a
00:05:30.06
2.46 RC1
00:05:40.81
2.46
00:05:45.17
2.40 Alpha - Windows
00:07:05.54
2.40 Alpha 1 Windows
Intel® Pentium® 4 2666MHz
00:03:21.67
2.45 SSE2
00:03:31.00
2.37a intel
00:04:05.81
2.43 SSE2
00:04:15.61
2.45
00:04:40.57
2.43
00:04:41.60
2.44
00:05:50.26
2.45 SSE2
00:06:03.73
2.43
00:07:30.04
2.43
Intel® Pentium® 4 2800MHz
00:00:42.62
2.49
00:02:11.93
2.43
00:02:45.29
2.43 SSE2
00:02:59.29
mchs3d SS2 (6-Jun-2006)
00:03:00.68
2.45 SSE2
00:03:08.10
2.42
00:03:17.16
2.43 SSE2
00:03:32.03
2.43 SSE2
00:03:48.91
2.45
00:03:50.96
2.45 SSE2
00:03:59.30
2.43
00:03:59.36
2.45 SSE2
00:04:01.55
2.43
00:04:02.59
2.43
00:04:06.52
2.44
00:04:18.63
2.43
00:04:27.65
2.43
00:04:38.95
2.43
00:04:50.20
2.44
00:04:50.56
2.48
00:04:52.62
2.49
00:04:52.68
2.45 SSE2
00:04:54.95
2.49
00:04:55.90
2.49
00:05:05.95
2.46
00:05:08.20
2.45
00:05:17.60
2.45
00:05:17.64
2.43
00:05:29.36
2.41
00:05:47.60
2.48
00:05:47.65
2.43
00:05:51.05
2.45
00:05:59.17
2.42a
00:06:02.07
2.43
00:06:06.79
2.37a
00:06:25.49
2.49
00:06:56.75
2.42a
00:10:05.23
2.37a
Intel® Pentium® 4 3000MHz
00:02:26.45
2.43 SSE2
00:03:31.07
2.44 SSE3
00:03:38.67
2.44 SSE3
00:03:58.65
2.43
00:03:59.49
2.43
00:04:00.00
2.45
00:04:03.90
2.43
00:04:05.78
2.43
00:04:23.94
2.43
00:04:25.87
2.40
00:04:40.45
2.44
00:04:56.20
2.45
00:04:56.97
2.43
00:05:13.24
2.45
00:05:14.75
2.45
00:05:15.64
2.43
00:05:17.05
2.43
00:05:17.89
2.43
00:05:18.97
2.43
00:05:21.26
2.43
00:05:22.83
2.44
00:05:35.03
2.37a
00:05:42.60
2.47
00:05:51.22
2.42a
00:05:52.16
2.49
00:05:53.35
2.43 CVS
00:05:56.16
2.46
00:06:11.36
2.48
00:06:36.88
2.46
00:06:39.13
2.49
Intel® Pentium® 4 3066MHz
00:03:01.19
2.45 SSE2
00:03:55.96
2.48
00:04:26.57
2.45
00:04:27.34
2.48
00:05:25.63
2.43
00:05:50.21
2.43
Intel® Pentium® 4 3200MHz
00:02:37.08
2.44 SSE3
00:02:58.21
2.45
00:03:17.55
2.46 SSSE3
00:03:44.97
2.43
00:03:47.91
2.44
00:03:49.84
2.43
00:04:16.26
2.43
00:04:26.98
2.45
00:04:29.47
2.45
00:04:57.70
2.44
00:05:11.37
2.42a
00:05:12.12
2.37a
00:05:31.57
2.24a
00:05:35.35
2.49
Intel® Pentium® 4 3400MHz
00:01:53.96
2.44 SSE2
00:01:57.48
2.43 SSE2
00:02:47.19
2.43
00:03:00.35
2.43
00:03:35.12
2.44
00:03:39.65
2.43
00:03:57.89
2.43
00:04:03.16
2.48
00:04:40.18
2.44
00:04:47.16
2.44
00:04:53.55
2.43
00:04:54.37
2.43
Intel® Pentium® 4 3600MHz
00:03:45.11
2.45
Intel® Pentium® 4 3800MHz
00:03:12.87
2.43
00:04:30.20
2.42
Intel® Pentium® 4 Mobile 1100MHz
00:05:30.63
2.43
Intel® Pentium® 4 Mobile 1400MHz
00:04:15.59
2.43
00:05:05.94
2.48 SSE2
00:05:07.63
2.48a SSE2
00:05:23.39
2.43
00:05:52.20
2.40
00:06:26.43
2.48
Intel® Pentium® 4 Mobile 1500MHz
00:05:55.27
2.43
Intel® Pentium® 4 Mobile 1600MHz
00:04:38.29
2.45
00:04:47.60
2.43
00:04:55.69
2.43
00:04:58.55
2.40
00:05:23.80
2.48a
00:05:24.15
2.46
00:05:31.91
2.45
00:06:28.93
2.41
00:08:49.03
2.43
Intel® Pentium® 4 Mobile 1700MHz
00:04:35.29
2.44
00:04:37.02
2.44
00:04:44.66
2.37a
00:04:53.95
2.42a
00:05:25.95
2.48
00:05:33.07
2.37a
00:06:11.63
2.43
00:07:47.48
2.43
Intel® Pentium® 4 Mobile 1800MHz
00:04:56.25
2.46
00:05:03.52
2.47
Intel® Pentium® 4 Mobile 1866MHz
00:04:10.86
2.43
00:04:16.20
2.44
00:05:57.25
2.45
Intel® Pentium® 4 Mobile 1900MHz
00:04:47.51
2.47
Intel® Pentium® 4 Mobile 2000MHz
00:02:30.37
2.43 SSE2
00:04:32.78
2.42a
00:06:16.31
2.43
00:06:33.35
2.43
00:11:01.98
2.47
Intel® Pentium® 4 Mobile 2200MHz
00:02:50.14
2.43 SSE2
Intel® Pentium® 4 Mobile 2400MHz
00:08:04.10
2.49
Intel® Pentium® 4 Mobile 2660MHz
00:06:22.27
2.43
Intel® Pentium® 4 Mobile 3060MHz
00:03:34.17
2.45
00:05:50.21
2.43
Intel® Pentium® D 2666MHz
00:01:44.80
2.43
00:01:46.29
2.43 optimized
00:02:15.72
2.41
00:02:18.69
2.43
00:03:07.22
2.43
00:05:16.95
2.48
00:05:57.41
2.43
Intel® Pentium® D 2800MHz
00:01:53.76
2.43 SSE2
00:02:00.27
2.44 SSE2
00:02:50.38
2.43
00:02:59.11
2.43
00:03:06.45
2.43
00:03:09.03
2.42a
00:03:12.88
2.46
00:03:13.21
2.42a
00:03:49.89
2.43 SSE2
Intel® Pentium® D 3000MHz
00:02:05.19
2.41
00:02:49.40
2.37a
00:02:57.13
2.47
00:02:57.44
2.49
00:02:57.68
2.49
00:03:07.39
2.46
00:04:31.44
2.45
00:04:34.16
2.45
00:05:16.25
2.43
00:06:06.40
2.46
Intel® Pentium® D 3200MHz
00:01:41.12
2.44 SSE3
00:01:48.17
2.43 SSE2
00:02:24.88
2.37a
00:02:29.68
2.44
Intel® Pentium® D 3400MHz
00:01:32.80
2.44 SSE3
00:02:11.98
2.45
00:02:39.00
2.37a intel commandline
00:02:47.02
2.44
00:02:58.03
2.46 SSSE3
Intel® Pentium® D 3600MHz
00:01:33.91
2.44 SSE2
00:01:39.34
2.44 SSE2
00:02:42.00
2.37a intel
00:02:58.88
2.46
00:04:26.00
2.37a
00:04:29.00
2.38csv
Intel® Pentium® E2140 1600MHz
00:00:53.99
2.43 SSE3
00:09:43.21
2.46
Intel® Pentium® E2160 1800MHz
00:01:23.90
2.46
00:01:39.98
2.45 SSE2
00:04:12.48
2.48
Intel® Pentium® E2180 2000MHz
00:01:31.63
2.46
00:01:36.18
2.45
00:02:01.10
2.46
00:03:46.39
2.46
Intel® Pentium® E2200 2200MHz
00:01:47.87
2.46
Intel® Pentium® E2220 2400MHz
00:01:22.55
2.46 SSE3
00:02:01.32
2.46 SSE2
Intel® Pentium® E5200 2500MHz
00:00:45.01
2.43 SSE2
00:00:50.16
2.48 SSE3
00:01:06.61
2.48
00:01:26.74
2.48 SSE3
00:01:54.82
2.48
Intel® Xeon® 3000MHz
00:02:06.20
2.42a
00:02:09.16
2.43
00:02:58.16
2.42a
00:05:45.72
2.43
Intel® Xeon® 3060MHz
00:02:36.88
2.41 Stable
00:06:30.47
2.48
Intel® Xeon® 5060 3200MHz
00:05:43.63
2.49
Intel® Xeon® 5130 2000MHz
00:01:44.32
2.43
Intel® Xeon® 5150 2660MHz
00:01:20.51
2.42a
Intel® Xeon® 5160 3000MHz
00:01:08.96
2.44
Johan
SM4, what are you talking about?
:S
I don't understand that chart at all. Chips are splattered all over the place. Stronger ones, weaker ones, running windows, running linux, more ram, less ram, yada yada.
We need a chart/plot of some sort.