AMD Phenom II X2 N660 vs Intel Pentium 2127U

What is the difference between AMD Phenom II X2 N660 and Intel Pentium 2127U. Find out which CPU has better performance.

Performance (Benchmarks)

366	Geekbench 5 Single-Core Score	357
668	Geekbench 5 Multi-Core Score	666
	PassMark CPU Mark Rating	1117
	PassMark Single Thread Rating	1022

AMD Phenom II X2 N660	Processor	Intel Pentium 2127U
3000 MHz	Frequency	1900 MHz
2	Cores	2
2	Threads	2
35 W	TDP	17 W
	GPU	Intel HD Graphics for 3rd Generation Intel Processors
	Codename	Ivy Bridge
Socket S1 (638)	Package	FCBGA1023

367	Single-Core Score	357
692	Multi-Core Score	604
Geekbench 5.4.1 Tryout for Windows x86 (64-bit)	Benchmark	Geekbench 5.1.0 Tryout for Windows x86 (64-bit)

Microsoft Windows 10 Home (64-bit)	Operating System	Microsoft Windows 10 Home Single Language (64-bit)
Hewlett-Packard HP Pavilion g6 Notebook PC	Model	Dell Inc. Inspiron 3521
Hewlett-Packard 1661	Motherboard	Dell Inc. 0FXP6Y
HP Empfehlung	Power Plan	Balanced

AMD Phenom II X2 N660	Name	Intel Pentium 2127U
1 Processor, 2 Cores	Topology	1 Processor, 2 Cores
AuthenticAMD Family 16 Model 6 Stepping 3	Identifier	GenuineIntel Family 6 Model 58 Stepping 9
3.00 GHz	Base Frequency	1.90 GHz
2995 MHz	Maximum Frequency	1.90 GHz
Socket S1 (638)	Package	Socket 1023 FCBGA
	Codename	Ivy Bridge
64.0 KB x 2	L1 Instruction Cache	32.0 KB x 1
64.0 KB x 2	L1 Data Cache	32.0 KB x 1
1.00 MB x 2	L2 Cache	256 KB x 1
	L3 Cache	2.00 MB x 1

367	Single-Core Score	357
57	Crypto Score	44
417	Integer Score	372
310	Floating Point Score	378
57 99.8 MB/sec	AES-XTS	44 76.0 MB/sec
491 2.48 MB/sec	Text Compression (LZMA)	412 2.08 MB/sec
516 24.4 Mpixels/sec	Image Compression	444 21.0 Mpixels/sec
358 1.01 MTE/sec	Navigation (using Dijkstra's algorithm)	394 1.11 MTE/sec
447 525.4 KElements/sec	HTML5	345 404.9 KElements/sec
429 134.4 Krows/sec	SQLite	348 108.9 Krows/sec
408 22.1 Mpixels/sec	PDF Rendering	385 20.9 Mpixels/sec
353 112.5 KB/sec	Text Rendering	390 124.1 KB/sec
456 3.55 Klines/sec	Clang	356 2.78 Klines/sec
333 3.86 images/sec	Camera	298 3.45 images/sec
236 294.8 Kpairs/sec	N-Body Physics	302 378.4 Kpairs/sec
450 2790.9 FPS	Rigid Body Physics	382 2368.7 FPS
162 8.90 Mpixels/sec	Gaussian Blur	289 15.9 Mpixels/sec
280 2.15 images/sec	Face Detection	387 2.98 images/sec
302 7.43 Mpixels/sec	Horizon Detection	412 10.2 Mpixels/sec
592 29.0 Mpixels/sec	Image Inpainting	675 33.1 Mpixels/sec
656 8.94 Mpixels/sec	HDR	726 9.90 Mpixels/sec
406 326.2 Kpixels/sec	Ray Tracing	449 360.3 Kpixels/sec
228 2.04 Kpixels/sec	Structure from Motion	280 2.51 Kpixels/sec
292 9.34 Words/sec	Speech Recognition	351 11.2 Words/sec
164 6.32 images/sec	Machine Learning	195 7.52 images/sec

692	Multi-Core Score	604
112	Crypto Score	75
776	Integer Score	617
605	Floating Point Score	663
112 195.5 MB/sec	AES-XTS	75 130.2 MB/sec
970 4.91 MB/sec	Text Compression (LZMA)	732 3.70 MB/sec
1036 49.0 Mpixels/sec	Image Compression	811 38.4 Mpixels/sec
546 1.54 MTE/sec	Navigation (using Dijkstra's algorithm)	603 1.70 MTE/sec
859 1.01 MElements/sec	HTML5	569 668.3 KElements/sec
834 261.4 Krows/sec	SQLite	469 147.0 Krows/sec
780 42.3 Mpixels/sec	PDF Rendering	620 33.6 Mpixels/sec
597 190.3 KB/sec	Text Rendering	675 215.0 KB/sec
903 7.03 Klines/sec	Clang	493 3.84 Klines/sec
614 7.11 images/sec	Camera	656 7.60 images/sec
444 554.9 Kpairs/sec	N-Body Physics	539 674.7 Kpairs/sec
882 5465.2 FPS	Rigid Body Physics	784 4855.8 FPS
456 25.1 Mpixels/sec	Gaussian Blur	685 37.6 Mpixels/sec
543 4.18 images/sec	Face Detection	698 5.37 images/sec
563 13.9 Mpixels/sec	Horizon Detection	767 18.9 Mpixels/sec
1117 54.8 Mpixels/sec	Image Inpainting	1111 54.5 Mpixels/sec
1257 17.1 Mpixels/sec	HDR	1373 18.7 Mpixels/sec
832 668.5 Kpixels/sec	Ray Tracing	913 733.4 Kpixels/sec
434 3.89 Kpixels/sec	Structure from Motion	494 4.42 Kpixels/sec
515 16.5 Words/sec	Speech Recognition	453 14.5 Words/sec
277 10.7 images/sec	Machine Learning	227 8.76 images/sec