Intel Core 2 Duo T5250 vs Intel Celeron N2810

What is the difference between Intel Core 2 Duo T5250 and Intel Celeron N2810. Find out which CPU has better performance.

Intel Core 2 Duo T5250
Intel Core 2 Duo T5250
Intel Celeron N2810
Intel Celeron N2810

Performance (Benchmarks)

183Geekbench 5 Single-Core Score146
312Geekbench 5 Multi-Core Score259
PassMark CPU Mark Rating465
PassMark Single Thread Rating545

Processor Specs

Intel Core 2 Duo T5250ProcessorIntel Celeron N2810
1500 MHzFrequency2000 MHz
2Cores2
2Threads2
35 WTDP7 W
GPUIntel HD Graphics for Intel Atom Processor Z3700 Series
MeromCodenameBay Trail
PPGA478PackageFCBGA1170

Geekbench 5 Benchmark

192Single-Core Score143
210Multi-Core Score252
Geekbench 5.3.1 Tryout for Linux x86 (64-bit)BenchmarkGeekbench 5.2.5 Tryout for Windows x86 (64-bit)

System Information

Linux 5.9.14_1 x86_64Operating SystemMicrosoft Windows 10 Pro (64-bit)
Acer Aspire 5315ModelHewlett-Packard HP 15 Notebook PC
Acer AcadiaMotherboardHewlett-Packard 2190
Power PlanHigh performance

CPU Specifications

Intel Core 2 Duo T5250NameIntel Celeron N2810
1 Processor, 2 CoresTopology1 Processor, 2 Cores
GenuineIntel Family 6 Model 15 Stepping 13IdentifierGenuineIntel Family 6 Model 55 Stepping 3
1.50 GHzBase Frequency2.00 GHz
Maximum Frequency2.00 GHz
PackageSocket 1170 BGA
CodenameBay Trail-M
32.0 KB x 2L1 Instruction Cache32.0 KB x 2
32.0 KB x 2L1 Data Cache24.0 KB x 2
2.00 MB x 1L2 Cache1.00 MB x 1

Memory Information

1.93 GBSize4.00 GB
Frequency533 MHz
TypeDDR3 SDRAM
Channels2

Geekbench 5 result (single)

192Single-Core Score143
27Crypto Score22
214Integer Score152
173Floating Point Score 143
27
47.2 MB/sec		AES-XTS22
37.7 MB/sec
266
1.35 MB/sec		Text Compression (LZMA)188
971.2 KB/sec
242
11.5 Mpixels/sec		Image Compression213
10.1 Mpixels/sec
212
598.9 KTE/sec		Navigation (using Dijkstra's algorithm)131
369.3 KTE/sec
211
248.2 KElements/sec		HTML5127
149.4 KElements/sec
250
78.5 Krows/sec		SQLite124
38.8 Krows/sec
216
11.7 Mpixels/sec		PDF Rendering186
10.1 Mpixels/sec
174
55.4 KB/sec		Text Rendering167
53.2 KB/sec
209
1.63 Klines/sec		Clang141
1.10 Klines/sec
169
1.96 images/sec		Camera119
1.38 images/sec
107
134.4 Kpairs/sec		N-Body Physics79
99.2 Kpairs/sec
226
1401.7 FPS		Rigid Body Physics176
1087.6 FPS
90
4.96 Mpixels/sec		Gaussian Blur90
4.92 Mpixels/sec
228
1.75 images/sec		Face Detection138
1.06 images/sec
249
6.14 Mpixels/sec		Horizon Detection186
4.59 Mpixels/sec
233
11.4 Mpixels/sec		Image Inpainting246
12.1 Mpixels/sec
415
5.65 Mpixels/sec		HDR314
4.28 Mpixels/sec
231
185.8 Kpixels/sec		Ray Tracing150
120.6 Kpixels/sec
127
1.14 Kpixels/sec		Structure from Motion117
1.05 Kpixels/sec
174
5.56 Words/sec		Speech Recognition158
5.05 Words/sec
70
2.70 images/sec		Machine Learning76
2.94 images/sec

Geekbench 5 result (multi)

210Multi-Core Score252
29Crypto Score40
227Integer Score278
204Floating Point Score 230
29
50.5 MB/sec		AES-XTS40
69.3 MB/sec
283
1.43 MB/sec		Text Compression (LZMA)356
1.80 MB/sec
245
11.6 Mpixels/sec		Image Compression366
17.3 Mpixels/sec
223
629.4 KTE/sec		Navigation (using Dijkstra's algorithm)279
786.3 KTE/sec
232
272.5 KElements/sec		HTML5264
309.7 KElements/sec
248
77.8 Krows/sec		SQLite280
87.6 Krows/sec
226
12.2 Mpixels/sec		PDF Rendering311
16.9 Mpixels/sec
187
59.7 KB/sec		Text Rendering253
80.6 KB/sec
234
1.83 Klines/sec		Clang217
1.69 Klines/sec
182
2.11 images/sec		Camera216
2.50 images/sec
126
158.2 Kpairs/sec		N-Body Physics154
192.1 Kpairs/sec
238
1473.7 FPS		Rigid Body Physics248
1534.7 FPS
182
10.0 Mpixels/sec		Gaussian Blur154
8.44 Mpixels/sec
241
1.86 images/sec		Face Detection206
1.59 images/sec
260
6.41 Mpixels/sec		Horizon Detection301
7.41 Mpixels/sec
293
14.4 Mpixels/sec		Image Inpainting375
18.4 Mpixels/sec
439
5.99 Mpixels/sec		HDR515
7.02 Mpixels/sec
276
221.3 Kpixels/sec		Ray Tracing255
204.5 Kpixels/sec
140
1.26 Kpixels/sec		Structure from Motion193
1.73 Kpixels/sec
197
6.28 Words/sec		Speech Recognition247
7.90 Words/sec
77
2.96 images/sec		Machine Learning113
4.35 images/sec