SiSoftware Sandra是一款可运行在32bit和64bit Windows操作系统上的分析软件,它可以对于系统进行方便、快捷的基准测试,还可以用于查看系统的软件、硬件等信息。SiSoftware Sandra所有的基准测试都针对SMP和SMT进行了优化,最高可支持32/64路平台。我们利用了其中多个性能测试模块对于被测系统的性能进行了快速的测试。
有一点需要说明的是,Sandra的处理器架构性能测试是根据处理器所能支持的所有指令集中选择进行的,不同的处理器支持的指令集不同,测试使用到的指令集也就不同。例如,Nehalem在这个测试当中就可以使用SSE4.2,而Penryn就只能使用SSE4.1,而Opteron可能就只能使用SSE3了。一般而言,由于可以使用SSE4,Intel的处理器理论性能会比较好。
| SiSoftware Sandra Pro Business 2009 | ||||
|---|---|---|---|---|
测试对象 | Dawning I840r-H服务器 四路Intel Dunnington Xeon X7460 2.66GHz | Intel Nehalem-EP 双路Intel Gainestown Xeon X5570 2.93GHz | Dawning A650 双路AMD Shanghai Operton 2378 2.40GHz | DELL PE2900 III 双路Intel Harptown Xeon E5430 2.66GHz |
Processor Arithmetic Benchmark 处理器架构测试 | ||||
Dhrystone ALU | 292201MIPS | 142977MIPS | 63082MIPS | 91006MIPS |
Dhrystone ALU vs SPEED | 109.85MIPS/MHz | 48.75MIPS/MHz | 26.28MIPS/MHz | 34.21MIPS/MHz |
Whetstone iSSE3 | 208685MFLOPS | 124035MFLOPS | 62993MFLOPS | 78385MFLOPS |
Dhrystone iSSE3 vs SPEED | 78.45MFLOPS/MHz | 42.29MFLOPS/MHz | 26.25MFLOPS/MHz | 29.47MFLOPS/MHz |
Processor Multi-Media Benchmark 处理器多媒体测试 | ||||
Multi-Media Int x16 iSSE4.1 | 753.51MPixel/s | 296.85MPixel/s | ||
Multi-Media Int x8 aSSE2 | 187.70MPixel/s | |||
Multi-Media Int x8 iSSE4.1 | 199.33MPixel/s | |||
Multi-Media Int x16 iSSE4.1 vs SPEED | 283.27kPixel/s/MHz | 101.21kPixel/s/MHz | ||
Multi-Media Int x8 aSSE2 vs SPEED | 78.21kPixel/s/MHz | |||
Multi-Media Int x8 iSSE4.1 vs SPEED | 74.94kPixel/s/MHz | |||
Multi-Media Float x8 iSSE2 | 501.36MPixel/s | 228.24MPixel/s | ||
Multi-Media Float x4 iSSE2 | 81.53MPixel/s | 108.69MPixel/s | ||
Multi-Media Float x8 iSSE2 vs SPEED | 188.48kPixel/s/MHz | 77.82kPixels/s/MHz | ||
Multi-Media Float x4 iSSE2 vs SPEED | 33.97kPixels/s/MHz | 40.86kPixels/s/MHz | ||
Multi-Media Double x4 iSSE2 | 260.18MPixel/s | 125.88MPixel/s | ||
Multi-Media Double x2 iSSE2 | 44.51MPixel/s | 55.75MPixel/s | ||
Multi-Media Double x4 iSSE2 vs SPEED | 97.81kPixel/s/MHz | 42.92kPixels/s/MHz | ||
Multi-Media Double x2 iSSE2 vs SPEED | 18.55kPixels/s/MHz | 20.96kPixels/s/MHz | ||
Multi-Core Efficiency Benchmark | ||||
Inter-Core Bandwidth | 12.88GB/s | 75.61GB/s | 6.54GB/s | 20.54GB/s |
Inter-Core Bandwidth vs SPEED | 4.96MB/s/MHz | 26.40MB/s/MHz | 2.79MB/s/MHz | 7.91MB/s/MHz |
Inter-Core Latency (越小越好) | 110ns | 16ns | 128ns | 90ns |
Inter-Core Latency vs SPEED (越小越好) | 0.04ns/MHz | 0.01ns/MHz | 0.05ns/MHz | 0.03ns/MHz |
.NET Arithmetic Benchmark .NET架构测试 | ||||
Dhrystone .NET | 75397MIPS | 32904MIPS | 12736MIPS | 10562MIPS |
Dhrystone .NET vs SPEED | 28.34MIPS/MHz | 11.22MIPS/MHz | 5.31MIPS/MHz | 3.97MIPS/MHz |
Whetstone .NET | 136088MFLOPS | 78286MFLOPS | 38737MFLOPS | 45399MFLOPS |
Whetstone .NET vs SPEED | 51.16MFLOPS/MHz | 26.69MFLOPS/MHz | 15.62MFLOPS/MHz | 17.07MFLOPS/MHz |
.NET Multi-Media Benchmark .NET多媒体测试 | ||||
Multi-Media Int x1 .NET | 119.30MPixel/s | 62.28MPixel/s | 24.48MPixel/s | 31.28MPixel/s |
Multi-Media Int x1 .NET vs SPEED | 44.85kPixels/s/MHz | 21.23kPixels/s/MHz | 10.20kPixels/s/MHz | 11.76kPixels/s/MHz |
Multi-Media Float x1 .NET | 31.74MPixel/s | 26.19MPixel/s | 5.29MPixel/s | 8.68MPixel/s |
Multi-Media Float x1 .NET vs SPEED | 11.93kPixels/s/MHz | 8.93kPixels/s/MHz | 2.20kPixels/s/MHz | 3.26kPixels/s/MHz |
Multi-Media Double x1 .NET | 58.72MPixel/s | 51.45MPixel/s | 21.31MPixel/s | 24.75MPixel/s |
Multi-Media Double x1 .NET vs SPEED | 22.07kPixels/s/MHz | 17.54kPixels/s/MHz | 8.88kPixels/s/MHz | 9.30kPixels/s/MHz |
SiSoftware Sandra对比,用蓝色标出了性能特出的项目
处理器架构性能测试分为整数和浮点两个部分,由于具有较多的处理核心(四路六核,总共24个物理内核),因此在频率更低的情况下,各种理论测试成绩都要超过Nehalem-EP处理器(双路四核带超线程,8个物理内核,16个虚拟处理器),得分幅度超出100%左右。Dunnington只有多核心效率方面带宽不如Nehalem-EP,FSB总线确实不如QPI总线架构。
