AMD G-T56N vs AMD E-300

What is the difference between AMD G-T56N and AMD E-300. Find out which CPU has better performance.

AMD G-T56N
AMD G-T56N
AMD E-300
AMD E-300

Performance (Benchmarks)

138Geekbench 5 Single-Core Score103
259Geekbench 5 Multi-Core Score187
465PassMark CPU Mark Rating
531PassMark Single Thread Rating

Processor Specs

AMD G-T56NProcessorAMD E-300
1600 MHzFrequency1300 MHz
2Cores2
2Threads2
18 WTDP18 W
Radeon HD 6310GPURadeon HD 6310
eOntarioCodenameZacate
BGA413PackageBGA413

Geekbench 5 Benchmark

140Single-Core Score112
249Multi-Core Score181
Geekbench 5.1.0 Tryout for Windows x86 (64-bit)BenchmarkGeekbench 5.4.1 Tryout for Linux x86 (64-bit)

System Information

Microsoft Windows 10 Pro (64-bit)Operating SystemDebian GNU/Linux 10 (buster)
WYSE Z CLASSModelLENOVO 3051RU8
Inventec Z CLASSMotherboardLENOVO 3051RU8
BalancedPower Plan

CPU Specifications

AMD G-T56NNameAMD E-300
1 Processor, 2 CoresTopology1 Processor, 2 Cores
AuthenticAMD Family 20 Model 2 Stepping 0IdentifierAuthenticAMD Family 20 Model 2 Stepping 0
1.67 GHzBase Frequency1.30 GHz
1.67 GHzMaximum Frequency
Socket FT1 BGAPackage
ZacateCodename
32.0 KB x 2L1 Instruction Cache32.0 KB x 2
32.0 KB x 2L1 Data Cache32.0 KB x 2
512 KB x 2L2 Cache512 KB x 2

Memory Information

8.00 GBSize7.38 GB
676 MHzFrequency
DDR3 SDRAMType

Geekbench 5 result (single)

140Single-Core Score112
24Crypto Score20
158Integer Score122
121Floating Point Score 107
24
41.3 MB/sec		AES-XTS20
35.2 MB/sec
204
1.03 MB/sec		Text Compression (LZMA)174
899.5 KB/sec
190
8.99 Mpixels/sec		Image Compression152
7.19 Mpixels/sec
190
537.1 KTE/sec		Navigation (using Dijkstra's algorithm)170
479.8 KTE/sec
162
190.4 KElements/sec		HTML599
115.8 KElements/sec
153
47.9 Krows/sec		SQLite101
31.8 Krows/sec
166
9.00 Mpixels/sec		PDF Rendering134
7.28 Mpixels/sec
156
49.6 KB/sec		Text Rendering106
33.6 KB/sec
146
1.14 Klines/sec		Clang109
849.2 lines/sec
88
1.02 images/sec		Camera84
0.97 images/sec
82
102.7 Kpairs/sec		N-Body Physics81
101.7 Kpairs/sec
168
1040.7 FPS		Rigid Body Physics140
865.6 FPS
64
3.50 Mpixels/sec		Gaussian Blur59
3.22 Mpixels/sec
144
1.11 images/sec		Face Detection129
0.99 images/sec
145
3.57 Mpixels/sec		Horizon Detection125
3.08 Mpixels/sec
175
8.59 Mpixels/sec		Image Inpainting151
7.40 Mpixels/sec
305
4.16 Mpixels/sec		HDR244
3.32 Mpixels/sec
130
104.4 Kpixels/sec		Ray Tracing132
105.8 Kpixels/sec
99
889.5 pixels/sec		Structure from Motion86
772.7 pixels/sec
141
4.50 Words/sec		Speech Recognition122
3.90 Words/sec
47
1.83 images/sec		Machine Learning39
1.52 images/sec

Geekbench 5 result (multi)

249Multi-Core Score181
43Crypto Score38
276Integer Score185
226Floating Point Score 197
43
74.2 MB/sec		AES-XTS38
65.8 MB/sec
368
1.86 MB/sec		Text Compression (LZMA)205
1.04 MB/sec
343
16.2 Mpixels/sec		Image Compression143
6.75 Mpixels/sec
305
861.3 KTE/sec		Navigation (using Dijkstra's algorithm)220
619.3 KTE/sec
277
325.0 KElements/sec		HTML5180
210.8 KElements/sec
285
89.2 Krows/sec		SQLite174
54.6 Krows/sec
290
15.7 Mpixels/sec		PDF Rendering239
13.0 Mpixels/sec
252
80.4 KB/sec		Text Rendering189
60.3 KB/sec
265
2.07 Klines/sec		Clang191
1.49 Klines/sec
159
1.84 images/sec		Camera147
1.70 images/sec
157
196.6 Kpairs/sec		N-Body Physics140
175.0 Kpairs/sec
303
1876.8 FPS		Rigid Body Physics260
1611.9 FPS
170
9.33 Mpixels/sec		Gaussian Blur140
7.68 Mpixels/sec
256
1.97 images/sec		Face Detection230
1.77 images/sec
253
6.24 Mpixels/sec		Horizon Detection223
5.49 Mpixels/sec
309
15.2 Mpixels/sec		Image Inpainting268
13.1 Mpixels/sec
538
7.34 Mpixels/sec		HDR443
6.03 Mpixels/sec
264
211.9 Kpixels/sec		Ray Tracing258
207.1 Kpixels/sec
175
1.57 Kpixels/sec		Structure from Motion157
1.40 Kpixels/sec
243
7.76 Words/sec		Speech Recognition208
6.65 Words/sec
80
3.08 images/sec		Machine Learning67
2.60 images/sec