Intel Pentium E6600 vs AMD Phenom II X2 N640

What is the difference between Intel Pentium E6600 and AMD Phenom II X2 N640. Find out which CPU has better performance.

Intel Pentium E6600
Intel Pentium E6600
AMD Phenom II X2 N640
AMD Phenom II X2 N640

Performance (Benchmarks)

371Geekbench 5 Single-Core Score342
630Geekbench 5 Multi-Core Score623
1044PassMark CPU Mark Rating
1132PassMark Single Thread Rating

Processor Specs

Intel Pentium E6600ProcessorAMD Phenom II X2 N640
3060 MHzFrequency2900 MHz
2Cores2
2Threads2
65 WTDP35 W
WolfdaleCodename
LGA775PackageSocket S1 (638)

Geekbench 5 Benchmark

375Single-Core Score355
455Multi-Core Score700
Geekbench 5.3.1 Tryout for Windows x86 (64-bit)BenchmarkGeekbench 5.0.0 Tryout for Linux x86 (64-bit)

System Information

Windows 6.2 000000DC9CBDE6EC (64-bit)Operating SystemManjaro Linux 5.2.11-1-MANJARO x86_64
UnknownModelHewlett-Packard Presario CQ56 Notebook PC
MotherboardHewlett-Packard 1604
High performancePower Plan

CPU Specifications

Intel Pentium E6600NameAMD Phenom II X2 N640
1 Processor, 2 CoresTopology1 Processor, 2 Cores
GenuineIntel Family 6 Model 23 Stepping 10IdentifierAuthenticAMD Family 16 Model 6 Stepping 3
3.07 GHzBase Frequency2.90 GHz
3.06 GHzMaximum Frequency
Socket 775 LGAPackage
WolfdaleCodename
32.0 KB x 2L1 Instruction Cache64.0 KB x 2
32.0 KB x 2L1 Data Cache64.0 KB x 2
2.00 MB x 1L2 Cache1.00 MB x 2

Memory Information

5.00 GBSize3.60 GB
532 MHzFrequency
DDR3 SDRAMType
2Channels

Geekbench 5 result (single)

375Single-Core Score355
59Crypto Score58
414Integer Score390
342Floating Point Score 329
59
102.2 MB/sec		AES-XTS58
100.4 MB/sec
505
2.56 MB/sec		Text Compression (LZMA)409
2.07 MB/sec
527
24.9 Mpixels/sec		Image Compression473
22.4 Mpixels/sec
332
935.5 KTE/sec		Navigation (using Dijkstra's algorithm)440
1.24 MTE/sec
411
482.7 KElements/sec		HTML5223
262.3 KElements/sec
475
148.7 Krows/sec		SQLite480
150.5 Krows/sec
438
23.8 Mpixels/sec		PDF Rendering428
23.2 Mpixels/sec
368
117.3 KB/sec		Text Rendering304
96.8 KB/sec
364
2.83 Klines/sec		Clang510
3.97 Klines/sec
354
4.10 images/sec		Camera348
4.04 images/sec
216
270.1 Kpairs/sec		N-Body Physics257
322.0 Kpairs/sec
480
2971.5 FPS		Rigid Body Physics504
3119.8 FPS
140
7.70 Mpixels/sec		Gaussian Blur193
10.6 Mpixels/sec
448
3.45 images/sec		Face Detection311
2.40 images/sec
460
11.3 Mpixels/sec		Horizon Detection310
7.65 Mpixels/sec
441
21.6 Mpixels/sec		Image Inpainting349
17.1 Mpixels/sec
737
10.0 Mpixels/sec		HDR763
10.4 Mpixels/sec
518
415.6 Kpixels/sec		Ray Tracing478
384.0 Kpixels/sec
283
2.53 Kpixels/sec		Structure from Motion298
2.67 Kpixels/sec
315
10.1 Words/sec		Speech Recognition310
9.90 Words/sec
169
6.53 images/sec		Machine Learning172
6.66 images/sec

Geekbench 5 result (multi)

455Multi-Core Score700
76Crypto Score115
495Integer Score754
431Floating Point Score 682
76
131.8 MB/sec		AES-XTS115
200.0 MB/sec
897
4.53 MB/sec		Text Compression (LZMA)1006
5.09 MB/sec
865
40.9 Mpixels/sec		Image Compression929
44.0 Mpixels/sec
352
992.1 KTE/sec		Navigation (using Dijkstra's algorithm)773
2.18 MTE/sec
758
890.4 KElements/sec		HTML5420
493.1 KElements/sec
480
150.5 Krows/sec		SQLite910
285.0 Krows/sec
454
24.7 Mpixels/sec		PDF Rendering821
44.5 Mpixels/sec
324
103.3 KB/sec		Text Rendering537
171.1 KB/sec
407
3.17 Klines/sec		Clang978
7.62 Klines/sec
302
3.50 images/sec		Camera662
7.68 images/sec
284
355.5 Kpairs/sec		N-Body Physics503
629.2 Kpairs/sec
703
4356.6 FPS		Rigid Body Physics996
6168.7 FPS
672
36.9 Mpixels/sec		Gaussian Blur824
45.3 Mpixels/sec
747
5.75 images/sec		Face Detection596
4.59 images/sec
619
15.3 Mpixels/sec		Horizon Detection600
14.8 Mpixels/sec
452
22.2 Mpixels/sec		Image Inpainting673
33.0 Mpixels/sec
803
10.9 Mpixels/sec		HDR1484
20.2 Mpixels/sec
647
520.0 Kpixels/sec		Ray Tracing966
775.6 Kpixels/sec
365
3.27 Kpixels/sec		Structure from Motion583
5.23 Kpixels/sec
158
5.04 Words/sec		Speech Recognition572
18.3 Words/sec
114
4.40 images/sec		Machine Learning311
12.0 images/sec