Intel Celeron N2810 vs AMD E-450

What is the difference between Intel Celeron N2810 and AMD E-450. Find out which CPU has better performance.

Intel Celeron N2810
Intel Celeron N2810
AMD E-450
AMD E-450

Performance (Benchmarks)

146Geekbench 5 Single-Core Score132
259Geekbench 5 Multi-Core Score239
465PassMark CPU Mark Rating
545PassMark Single Thread Rating

Processor Specs

Intel Celeron N2810ProcessorAMD E-450
2000 MHzFrequency1650 MHz
2Cores2
2Threads2
7 WTDP18 W
Intel HD Graphics for Intel Atom Processor Z3700 SeriesGPURadeon HD 6320
Bay TrailCodenameZacate
FCBGA1170PackageBGA413

Geekbench 5 Benchmark

143Single-Core Score130
252Multi-Core Score273
Geekbench 5.2.5 Tryout for Windows x86 (64-bit)BenchmarkGeekbench 5.4.1 Tryout for Windows x86 (64-bit)

System Information

Microsoft Windows 10 Pro (64-bit)Operating SystemMicrosoft Windows 10 Home (64-bit)
Hewlett-Packard HP 15 Notebook PCModelHewlett-Packard HP Pavilion dm1 Notebook PC
Hewlett-Packard 2190MotherboardHewlett-Packard 3387
High performancePower PlanHigh performance

CPU Specifications

Intel Celeron N2810NameAMD E-450
1 Processor, 2 CoresTopology1 Processor, 2 Cores
GenuineIntel Family 6 Model 55 Stepping 3IdentifierAuthenticAMD Family 20 Model 2 Stepping 0
2.00 GHzBase Frequency1.67 GHz
2.00 GHzMaximum Frequency1673 MHz
Socket 1170 BGAPackageSocket FT1 BGA
Bay Trail-MCodenameZacate
32.0 KB x 2L1 Instruction Cache32.0 KB x 2
24.0 KB x 2L1 Data Cache32.0 KB x 2
1.00 MB x 1L2 Cache512 KB x 2

Memory Information

4.00 GBSize4.00 GB
533 MHzFrequency676 MHz
DDR3 SDRAMTypeDDR3 SDRAM
2Channels

Geekbench 5 result (single)

143Single-Core Score130
22Crypto Score24
152Integer Score140
143Floating Point Score 125
22
37.7 MB/sec		AES-XTS24
42.0 MB/sec
188
971.2 KB/sec		Text Compression (LZMA)211
1.07 MB/sec
213
10.1 Mpixels/sec		Image Compression174
8.23 Mpixels/sec
131
369.3 KTE/sec		Navigation (using Dijkstra's algorithm)132
373.0 KTE/sec
127
149.4 KElements/sec		HTML5124
145.8 KElements/sec
124
38.8 Krows/sec		SQLite113
35.5 Krows/sec
186
10.1 Mpixels/sec		PDF Rendering149
8.09 Mpixels/sec
167
53.2 KB/sec		Text Rendering149
47.5 KB/sec
141
1.10 Klines/sec		Clang146
1.14 Klines/sec
119
1.38 images/sec		Camera91
1.06 images/sec
79
99.2 Kpairs/sec		N-Body Physics87
109.1 Kpairs/sec
176
1087.6 FPS		Rigid Body Physics168
1038.4 FPS
90
4.92 Mpixels/sec		Gaussian Blur73
4.03 Mpixels/sec
138
1.06 images/sec		Face Detection151
1.16 images/sec
186
4.59 Mpixels/sec		Horizon Detection152
3.74 Mpixels/sec
246
12.1 Mpixels/sec		Image Inpainting187
9.19 Mpixels/sec
314
4.28 Mpixels/sec		HDR314
4.28 Mpixels/sec
150
120.6 Kpixels/sec		Ray Tracing103
82.8 Kpixels/sec
117
1.05 Kpixels/sec		Structure from Motion104
929.8 pixels/sec
158
5.05 Words/sec		Speech Recognition154
4.92 Words/sec
76
2.94 images/sec		Machine Learning49
1.91 images/sec

Geekbench 5 result (multi)

252Multi-Core Score273
40Crypto Score47
278Integer Score299
230Floating Point Score 253
40
69.3 MB/sec		AES-XTS47
82.1 MB/sec
356
1.80 MB/sec		Text Compression (LZMA)420
2.13 MB/sec
366
17.3 Mpixels/sec		Image Compression380
18.0 Mpixels/sec
279
786.3 KTE/sec		Navigation (using Dijkstra's algorithm)305
859.9 KTE/sec
264
309.7 KElements/sec		HTML5234
274.7 KElements/sec
280
87.6 Krows/sec		SQLite327
102.5 Krows/sec
311
16.9 Mpixels/sec		PDF Rendering322
17.5 Mpixels/sec
253
80.6 KB/sec		Text Rendering296
94.3 KB/sec
217
1.69 Klines/sec		Clang301
2.34 Klines/sec
216
2.50 images/sec		Camera178
2.06 images/sec
154
192.1 Kpairs/sec		N-Body Physics181
226.7 Kpairs/sec
248
1534.7 FPS		Rigid Body Physics335
2072.8 FPS
154
8.44 Mpixels/sec		Gaussian Blur187
10.3 Mpixels/sec
206
1.59 images/sec		Face Detection294
2.26 images/sec
301
7.41 Mpixels/sec		Horizon Detection282
6.96 Mpixels/sec
375
18.4 Mpixels/sec		Image Inpainting355
17.4 Mpixels/sec
515
7.02 Mpixels/sec		HDR598
8.15 Mpixels/sec
255
204.5 Kpixels/sec		Ray Tracing289
231.8 Kpixels/sec
193
1.73 Kpixels/sec		Structure from Motion195
1.75 Kpixels/sec
247
7.90 Words/sec		Speech Recognition273
8.73 Words/sec
113
4.35 images/sec		Machine Learning90
3.46 images/sec