Intel Core 2 Duo T6400 vs Intel Celeron 877

What is the difference between Intel Core 2 Duo T6400 and Intel Celeron 877. Find out which CPU has better performance.

Intel Core 2 Duo T6400
Intel Core 2 Duo T6400
Intel Celeron 877
Intel Celeron 877

Performance (Benchmarks)

257Geekbench 5 Single-Core Score244
458Geekbench 5 Multi-Core Score431
PassMark CPU Mark Rating643
PassMark Single Thread Rating633

Processor Specs

Intel Core 2 Duo T6400ProcessorIntel Celeron 877
2000 MHzFrequency1400 MHz
2Cores2
2Threads2
35 WTDP17 W
GPUIntel HD Graphics for 2nd Generation Intel Processors
PenrynCodenameSandy Bridge
PGA478PackageSocket 988B rPGA

Geekbench 5 Benchmark

258Single-Core Score239
448Multi-Core Score243
Geekbench 5.4.1 Tryout for Windows x86 (64-bit)BenchmarkGeekbench 5.2.3 Tryout for Linux x86 (64-bit)

System Information

Microsoft Windows 10 Pro (64-bit)Operating SystemUbuntu 20.04 LTS 5.4.0-42-generic x86_64
Dell Inc. Inspiron 1545ModelAcer Aspire V5-431
Dell Inc. 0G848FMotherboardAcer Aspire V5-431
High performancePower Plan

CPU Specifications

Intel Core 2 Duo T6400NameIntel Celeron 877
1 Processor, 2 CoresTopology1 Processor, 2 Cores
GenuineIntel Family 6 Model 23 Stepping 10IdentifierGenuineIntel Family 6 Model 42 Stepping 7
1.99 GHzBase Frequency1.40 GHz
1994 MHzMaximum Frequency
Socket P (478)Package
PenrynCodename
32.0 KB x 2L1 Instruction Cache32.0 KB x 1
32.0 KB x 2L1 Data Cache32.0 KB x 1
2.00 MB x 1L2 Cache256 KB x 1
L3 Cache2.00 MB x 1

Memory Information

4.00 GBSize5.61 GB
398 MHzFrequency
DDR2 SDRAMType
2Channels

Geekbench 5 result (single)

258Single-Core Score239
38Crypto Score23
288Integer Score261
229Floating Point Score 228
38
66.3 MB/sec		AES-XTS23
40.9 MB/sec
340
1.72 MB/sec		Text Compression (LZMA)221
1.12 MB/sec
333
15.7 Mpixels/sec		Image Compression277
13.1 Mpixels/sec
243
685.9 KTE/sec		Navigation (using Dijkstra's algorithm)301
847.5 KTE/sec
258
302.7 KElements/sec		HTML5261
306.2 KElements/sec
320
100.4 Krows/sec		SQLite270
84.7 Krows/sec
309
16.8 Mpixels/sec		PDF Rendering275
14.9 Mpixels/sec
263
83.7 KB/sec		Text Rendering254
80.9 KB/sec
302
2.36 Klines/sec		Clang251
1.96 Klines/sec
248
2.87 images/sec		Camera243
2.82 images/sec
182
227.7 Kpairs/sec		N-Body Physics192
240.4 Kpairs/sec
319
1973.9 FPS		Rigid Body Physics293
1813.1 FPS
108
5.95 Mpixels/sec		Gaussian Blur192
10.6 Mpixels/sec
322
2.48 images/sec		Face Detection225
1.73 images/sec
346
8.53 Mpixels/sec		Horizon Detection243
5.98 Mpixels/sec
338
16.6 Mpixels/sec		Image Inpainting354
17.4 Mpixels/sec
332
4.52 Mpixels/sec		HDR440
6.00 Mpixels/sec
350
281.0 Kpixels/sec		Ray Tracing287
230.8 Kpixels/sec
133
1.20 Kpixels/sec		Structure from Motion147
1.31 Kpixels/sec
209
6.69 Words/sec		Speech Recognition206
6.58 Words/sec
120
4.65 images/sec		Machine Learning109
4.22 images/sec

Geekbench 5 result (multi)

448Multi-Core Score243
49Crypto Score31
488Integer Score262
428Floating Point Score 236
49
85.9 MB/sec		AES-XTS31
53.8 MB/sec
533
2.70 MB/sec		Text Compression (LZMA)214
1.08 MB/sec
669
31.6 Mpixels/sec		Image Compression251
11.9 Mpixels/sec
359
1.01 MTE/sec		Navigation (using Dijkstra's algorithm)337
949.3 KTE/sec
544
639.3 KElements/sec		HTML5233
273.8 KElements/sec
606
189.9 Krows/sec		SQLite228
71.4 Krows/sec
551
29.9 Mpixels/sec		PDF Rendering306
16.6 Mpixels/sec
337
107.4 KB/sec		Text Rendering328
104.5 KB/sec
523
4.08 Klines/sec		Clang256
2.00 Klines/sec
381
4.42 images/sec		Camera238
2.76 images/sec
325
406.7 Kpairs/sec		N-Body Physics214
267.5 Kpairs/sec
575
3565.3 FPS		Rigid Body Physics269
1668.7 FPS
476
26.2 Mpixels/sec		Gaussian Blur204
11.2 Mpixels/sec
620
4.77 images/sec		Face Detection252
1.94 images/sec
628
15.5 Mpixels/sec		Horizon Detection359
8.84 Mpixels/sec
649
31.8 Mpixels/sec		Image Inpainting426
20.9 Mpixels/sec
645
8.78 Mpixels/sec		HDR561
7.64 Mpixels/sec
509
408.4 Kpixels/sec		Ray Tracing338
271.0 Kpixels/sec
307
2.75 Kpixels/sec		Structure from Motion107
961.4 pixels/sec
288
9.22 Words/sec		Speech Recognition147
4.70 Words/sec
136
5.27 images/sec		Machine Learning94
3.64 images/sec