Intel Core i5-470UM vs AMD Turion X2 Mobile RM-75

What is the difference between Intel Core i5-470UM and AMD Turion X2 Mobile RM-75. Find out which CPU has better performance.

Performance (Benchmarks)

174	Geekbench 5 Single-Core Score	165
382	Geekbench 5 Multi-Core Score	338
755	PassMark CPU Mark Rating
539	PassMark Single Thread Rating

Intel Core i5-470UM	Processor	AMD Turion X2 Mobile RM-75
1330 MHz	Frequency	2200 MHz
1860 MHz	Maximum Frequency
2	Cores	2
4	Threads	2
18 W	TDP	35 W
Intel HD Graphics for Previous Generation Intel Processors	GPU
Arrandale	Codename	Griffin
BGA1288	Package	Socket S1 (638)

200	Single-Core Score	174
566	Multi-Core Score	263
Geekbench 5.3.1 Tryout for Windows x86 (64-bit)	Benchmark	Geekbench 5.2.0 Tryout for Windows x86 (64-bit)

Microsoft Windows 10 Home (64-bit)	Operating System	Microsoft Windows 10 Home (64-bit)
LENOVO 0876	Model	Hewlett-Packard HP Pavilion dv6 Notebook PC
LENOVO Base Board Product Name	Motherboard	Quanta 3060
	Power Plan	Power saver

Intel Core i5-470UM	Name	AMD Turion X2 Mobile RM-75
1 Processor, 2 Cores, 4 Threads	Topology	1 Processor, 2 Cores
GenuineIntel Family 6 Model 37 Stepping 5	Identifier	AuthenticAMD Family 17 Model 3 Stepping 1
1.33 GHz	Base Frequency	2.22 GHz
1.86 GHz	Maximum Frequency	2.22 GHz
Socket 989 rPGA	Package	Socket S1 (638)
Arrandale	Codename	Griffin
32.0 KB x 2	L1 Instruction Cache	64.0 KB x 2
32.0 KB x 2	L1 Data Cache	64.0 KB x 2
256 KB x 2	L2 Cache	512 KB x 2
3.00 MB x 1	L3 Cache

200	Single-Core Score	174
23	Crypto Score	37
204	Integer Score	200
222	Floating Point Score	142
23 39.8 MB/sec	AES-XTS	37 63.9 MB/sec
232 1.17 MB/sec	Text Compression (LZMA)	287 1.45 MB/sec
245 11.6 Mpixels/sec	Image Compression	282 13.3 Mpixels/sec
225 633.2 KTE/sec	Navigation (using Dijkstra's algorithm)	216 608.2 KTE/sec
197 230.9 KElements/sec	HTML5	138 161.8 KElements/sec
182 56.9 Krows/sec	SQLite	167 52.4 Krows/sec
216 11.7 Mpixels/sec	PDF Rendering	224 12.2 Mpixels/sec
180 57.4 KB/sec	Text Rendering	201 63.9 KB/sec
181 1.41 Klines/sec	Clang	207 1.61 Klines/sec
190 2.20 images/sec	Camera	138 1.60 images/sec
138 172.7 Kpairs/sec	N-Body Physics	102 127.9 Kpairs/sec
270 1673.2 FPS	Rigid Body Physics	223 1382.8 FPS
206 11.3 Mpixels/sec	Gaussian Blur	67 3.66 Mpixels/sec
260 2.00 images/sec	Face Detection	163 1.25 images/sec
273 6.73 Mpixels/sec	Horizon Detection	166 4.09 Mpixels/sec
343 16.8 Mpixels/sec	Image Inpainting	228 11.2 Mpixels/sec
394 5.37 Mpixels/sec	HDR	343 4.67 Mpixels/sec
284 228.0 Kpixels/sec	Ray Tracing	175 140.4 Kpixels/sec
180 1.61 Kpixels/sec	Structure from Motion	89 795.7 pixels/sec
171 5.48 Words/sec	Speech Recognition	159 5.09 Words/sec
100 3.86 images/sec	Machine Learning	59 2.27 images/sec

566	Multi-Core Score	263
64	Crypto Score	48
598	Integer Score	299
581	Floating Point Score	222
64 111.8 MB/sec	AES-XTS	48 83.9 MB/sec
806 4.08 MB/sec	Text Compression (LZMA)	484 2.45 MB/sec
726 34.3 Mpixels/sec	Image Compression	345 16.3 Mpixels/sec
490 1.38 MTE/sec	Navigation (using Dijkstra's algorithm)	342 965.2 KTE/sec
574 673.7 KElements/sec	HTML5	214 251.6 KElements/sec
591 185.1 Krows/sec	SQLite	338 106.0 Krows/sec
636 34.5 Mpixels/sec	PDF Rendering	294 16.0 Mpixels/sec
491 156.4 KB/sec	Text Rendering	330 105.2 KB/sec
633 4.93 Klines/sec	Clang	298 2.32 Klines/sec
510 5.91 images/sec	Camera	158 1.83 images/sec
515 644.2 Kpairs/sec	N-Body Physics	205 256.7 Kpairs/sec
754 4671.0 FPS	Rigid Body Physics	269 1668.7 FPS
457 25.1 Mpixels/sec	Gaussian Blur	98 5.37 Mpixels/sec
656 5.05 images/sec	Face Detection	294 2.27 images/sec
699 17.2 Mpixels/sec	Horizon Detection	245 6.03 Mpixels/sec
811 39.8 Mpixels/sec	Image Inpainting	335 16.4 Mpixels/sec
1110 15.1 Mpixels/sec	HDR	454 6.19 Mpixels/sec
740 594.0 Kpixels/sec	Ray Tracing	326 261.4 Kpixels/sec
454 4.07 Kpixels/sec	Structure from Motion	132 1.18 Kpixels/sec
485 15.5 Words/sec	Speech Recognition	257 8.23 Words/sec
213 8.24 images/sec	Machine Learning	98 3.77 images/sec