Notebookcheck

Core 2 Duo notebook processor (CPU)

The Intel Core 2 Duo (also known as Core2 Duo) notebook processor is a 64 bit dual core processor. This means two processor cores work inside a Core 2 Duo in parallel.

The Core 2 Duo, which was introduced on July 27 2006, is the direct successor of the Core Duo. Each core is based on the Pentium M micro architecture. Compared with the old Netburst architecture of the Pentium 4, the cores in the Core 2 Duo have shorter pipelines. As a result, the maximum clock rate is lower but the performance per clock is significantly higher. Thus a Pentium 4M with the same clock rate is up to 40% slower.

Both, the notebook Core 2 Duo and the desktop Core 2 Duo are based on the same processor. However, the notebook version runs with a lower voltage (0.95 to 1.188 volt) and a lower front side bus (1066 vs. 667 MHz). As a result (and because of slower laptop hard discs) the performance of notebooks is about 20% lower than their desktop counterparts with the same clock rate.

Key Features

  • 64 bit support
  • Dual core processor with shared level 2 cache
  • Execute Disable Bit
  • Partially Intel Virtualization Technology (VT)
  • Socket M (starting from Santa Rosa socket P)
  • 291 million transistors

Performance

The performance of the Core 2 Duo processor in comparison with its direct competitor, the AMD Turion 64 X2, is very good. The Core 2 Duo beats the AMD Turion 64 X2 with the same clock rate in virtually all applications (on average by 15%). The energy consumption is similar in both processors. In comparison with the predecessor Core Duo, the Core 2 Duo is about 10% faster and consumes a bit more energy (More details further below).

Specifications

The Core 2 Duo processors are produced in 65 nm (and later in 45nm), contain 14 stages pipelines and 2-4 MB level 2 cache (depending on the model). The features of the Core 2 Duo are:

x86 architecture
The Intel Core 2 Duo uses the x86  instruction set, which was introduced in 1978 with the 8086/8088 processor. Furthermore it supports the multimedia extension MMX, SSE2, SSE3 and SSE4.

Dual core technology
Two processor cores run with the same frequency in the same processor building block and share the level 2 cache as well as the front side bus (FSB).

Execute Disable Bit
Prevents security problems through buffer overflows, if the operation system supports it and if it is activated.

Wide Dynamic Execution *
Every core can execute four complete commands simultaneously. 

Smart-Memory-Access *
Shorter idle times, improved data transfer and faster out-of-order command execution lead to better usage of the pipeline and as a result to higher performance.

Advanced-Smart-Cache *
Like the Core Duo, the Core 2 Duo has shared level 2 cache and each core receives the same amount of cache. Intel doubled the bandwidth to the level 1 cache though.

Advanced-Digital-Media-Boost *
One 128-Bit SSE command is now output per clock cycle.

Virtualisation technology (VT)
The Intel VT offers hardware support for virtual systems on one computer (use of several isolated operation systems at the same time e.g. through Xen or VMWare).
Beware, not all models support VT (especially the cheaper ones dont).

64 bit support *
Support of 64 bit wide words in the CPU. This means the processor can handle 64 bit data packets. The Intel Core 2 Duo supports the AMD64 extension (licensed), through which 32 and 64 bit programs can run on the CPU (if a 64 bit operation system is used).

Theoretically, a 64 bit processor can access more than 4 GB of  memory, but this is usually limited by the chip set used.

 

* This feature was newly introduced with the Core 2 Duo.

Energy saving functions

Like with the previous version, the clock rate and voltage can be set dynamically and individually for each core (Speedstep). Under light load the processor can save energy by lowering the clock speed (to 1200 MHz respectively 800 MHz with the Santa Rosa) and the core voltage (from 1.3 Volt to 1.0375 Volt). This happens with virtually no performance losses, thanks to the automatic adjustment of the clock speed. Additionally, the processor can turn off parts of the CPU which are not used, to save energy.

Intel Dynamic Power Coordination
Coordinates the Enhanced Intel SpeedStep technology and the Idle Power-Management State (C-state) transitions independent of the core.

Enhanced Intel Deeper Sleep with Dynamic Cache Sizing
Writes data from the cache to the main memory during inactivity. As a result, the CPU voltage can be lowered which saves energy.

Intel Dynamic Bus Parking
Allows the chip set to shut down during inactivity to save energy.

Advanced Power Gating
Parts of the CPU core can be shut down through "Advanced Power Gating". This can even happen if performance is required, to improve the performance per watt ratio.

Enhanced Deep C4 Sleep State
The core voltage can be further reduced, if the level 2 cache is turned off.

Split Bus Array
Buses and arrays are separated in order to set them individually into energy saving mode during certain operation states.

Santa Rosa update

Dynamic FSB Switching
Dynamic FSB Switching
Dynamic Acceleration
Dynamic Acceleration
Longer Deeper Sleep
Longer Deeper Sleep

On Mai 9th 2007 the Core 2 Duo processor was upgraded for the 4th Centrino generation called Santa Rosa. The processor is still based on the Merom core, but some energy saving functions and optimisations were added. Furthermore, it now needs the socket P with 478 pins, which isn't compatible with the socket M of the older Core 2 Duo.

In contrast with  its predecessor, the new Core 2 Duo processors now run with a 800 MHz FSB (200 MHz quad-pumped) instead of 667 MHz (133 MHz quad-pumped).

The FSB now supports "Dynamic front side bus switching", whereas the FSB can be lowered from 200 MHz to 100 MHz under light processor load, to save energy. This drop only affects the chipset and CPU and is thus called "virtual". With speedstep, the Core 2 Duo can slow down to a minimum of 1.2 GHz. Thanks to the lower (virtual) FSB, the "Santa Rosa" Core 2 Duo can drop even more, to 800 MHz, to save even more energy.

 

Another new feature is the dynamically overclocking of the core, called "Dynamic Acceleration". If only one core is used, it can be dynamically overclocked, while the second core stays in the energy saving C3-modus. Therefore the overclocked core can work with the clock speed of the next higher model (e.g. 2.2 instead of 2.0 GHz with the T7300), without any change in the TDP (thermal design power) and without the need for more cooling.

If idle, the processor will start one of the various saving modes (C1 to C4/DC4). The chipset of the Santa Rosa keeps the processor as long as possible in energy saving mode (e.g. by preventing memory acces).

 

Penryn Update

In Jannuary 2008 Intel introduced the new T9xxx and T8xxx Core 2 Duo processors of the new "Penryn" core. These CPUs are produced in 45nm (instead of the 65nm before) and offer a bigger Level 2 Cache (3 and 6 MB versus 2 and 4 before). Furthermore, the Penryn core has a faster division engine and 47 new SSE instructions (SSE4). Due to the 45 nm process, Intel was able to increase the core speed without increasing the current consumption.

Compared to a similar clocked Merom Core 2 Duo, the Penryn is on average between 5-10% faster. The speed increase is mostly because of the bigger L2 Cache. Detailled benchmarks of the new Penryn CPUs can be found in our Intel Core 2 Duo Penryn review.

Downward compatibility

The Core 2 Duo prior to the introduction of Santa Rosa is, like its predecessor, still based on the PGA socket-M interface. It is thus possible, to upgrade some notebooks from Core Duo to Core 2 Duo. However, a Bios which supports the Core 2 Duo is necessary and the processor must not be soldered to the Mainboard (which is the case with the BGA - ball grid array - case).

Following chipsets theoretically support a Core 2 Duo:

Intel 945GM: Core 2 Duo, LV, ULV
Intel 945GMS: Core 2 Duo LV und ULV
Intel 945PM: Core 2 Duo, LV, ULV
Intel 940GML: Doesen't support the Core 2 Duo

Core Duo versus Core 2 Duo

The Core 2 Duo (Merom) architecture shows several advantages compared with the Core Duo (Yonah). Especially the 64 bit extension allows now the use of 64 bit operation systems and thus 4 GB memory (limited by the chipset). Furthermore, the Merom got a bigger level 2 cache and the architecture was widened:

  • An additional "Simple Decoder"
  • Maximum Decode Rate 4+1 compared with 3 of the Yonah core
  • 96 to 80 entries in the reorder buffer
  • +1 issue ports (6 versus 5)
  • 32 scheduler entries (versus 24)
  • Seperated FP Units
  • 3 SSE Units (Yonah 1)
  • An additional integer ALU

Furthermore, the pipeline was extended from 12 to 14. This allows a higher clock rate but means the speed per clock is lower (this is compensated by the afore mentioned widening of the architecture). [Source]

The benchmarks in our performance comparison between Core Duo T2400 and Core 2 Duo T5600 showed results ranging from -0.3% to 34% (on average about 10%). The energy consumption rose significantly however, which might be caused by the early Bios. > read the report

Models

Intel Core 2 Duo Box

The energy consumption of the processors is shown in the letter in front of the type number:

X ... Extreme (fastest) version with the highest energy consumption, see next paragraph
E ... >=55 watt (desktop)
T ... 30-39 watt (standard version in notebooks)
P ... max 25 watt
L ... 12-19 watt (low voltage)
U ... <11.9 watt (ultra low voltage)

The following 4-digit number shows built (first number) and performance (the other three numbers). The Core 2 mobile processors are supposed to get 5XXX and 7XXX (currently T2XXX for Core Duo and T1XXX for Core Solo).

The Core 2 Duo was introduced on July 31st 2006 (the FSB 800 version with DAT - Dynamic Acceleration Technology on May 9th 2007). Apart from that, starting from the middle of 2007 the topversion is called Core 2 Extreme X.

A detailed list of all current models is here: Mobile processor overview.

A list of all mobile processors according to performance is here: Benchmarklist of mobile prozessors.

 

Restrictions

(Manufacturer, Model, Series, Codename), Connect search words with   .

   min. TDP W    max. TDP W    Architecture

all, none

all, none

Permalink:

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PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Actions ACT-ATM702910004/4
AllWinner A1012001/1
AllWinner A1310001/1
AMD 3015e1MB + 4MB61200 ‑ 23002/4
AMD 3020e1MB + 4MB61200 ‑ 26002/2
AMD A10 Micro-6700T2MB4.51200 ‑ 22004/4
AMD A10 Pro-7350B4MB192100 ‑ 33004/4
55n3
162n3
23.29
68.13n2
12.08n2
AMD A10-4600M4MB352300 ‑ 32004/4
63n3
187n3
148
26.49n5
57.54n4
13.1n4
AMD A10-4655M4MB252000 ‑ 28004/4
40
AMD A10-4657M4MB352300 ‑ 32004/4
AMD A10-5745M4MB252100 ‑ 29004/4
63.5n2
177n2
34.97
62.1
12.7
AMD A10-5750M4MB352500 ‑ 35004/4
76n5
209n5
434.5n2
22.5n2
76n3
15n3
AMD A10-5757M4MB352500 ‑ 35004/4
28.7
39.24
7.64
AMD A10-5800K4MB1003800 ‑ 42004/4
15.9n2
106.6n2
21.85n2
AMD A10-6800K4MB1004100 ‑ 44004/4
100n2
326n2
16.1
111
23.3
AMD A10-73004MB191900 ‑ 32004/4
58n3
158n3
23.79n2
62.05n2
11.93n2
AMD A10-7400P4MB352500 ‑ 34004/4
AMD A10-7700K4MB953400 ‑ 38004/4
83
285
13.7
110
23.1
AMD A10-7850K4MB953700 ‑ 40004/4
86
318
681
13.1
114
24.1
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD A10-8700P2MB12 - 351800 ‑ 32004/4
69n7
194n7
17.19n3
73.67n4
15.15n4
AMD A10-9600P2MB152400 ‑ 33004/4
76n4
216n4
15.3n2
85.44n2
16.34n2
AMD A10-9620P2MB152500 ‑ 34004/4
72
230
14.41
76.6
16.3
AMD A12-9700P2MB152500 ‑ 34004/4
79n2
225.5n2
84.64
16.66
AMD A12-9720P2MB152700 ‑ 36004/4
72.5n2
234.5n2
13.01
AMD A4 Micro-6400T2MB4.51000 ‑ 16004/4
34
95
46.27
33.5
6.9
AMD A4-12001MB3.910002/2
19n2
31n2
111.88
11.45
2.85
AMD A4-12501MB910002/2
20.5n2
32.5n2
111.18n3
14.96
2.86
AMD A4-13502MB810004/4
AMD A4-3300M2MB351900 ‑ 25002/2
40.2
AMD A4-3305M1MB351900 ‑ 25002/2
40.28
AMD A4-3310MX2MB452100 ‑ 25002/2
41.5
AMD A4-3320M2MB352000 ‑ 26002/2
AMD A4-3330MX2MB452200 ‑ 26002/2
AMD A4-4300M1MB352500 ‑ 30002
60
93
50.38
36
7.08
AMD A4-4355M2MB171900 ‑ 24002
63.5
AMD A4-50002MB1515004/4
33n7
119n7
237.5n2
38.2n5
41.31n2
8.72n2
AMD A4-50502MB13.515504/4
AMD A4-51002MB1515504/4
AMD A4-5145M1MB172000 ‑ 26002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD A4-5150M1MB352700 ‑ 33002/2
59.1n2
100.95n2
186
43
42
8
AMD A4-53002MB653400 ‑ 36002/2
67
107
35.5
50
9.62
AMD A4-62102MB1518004/4
37.5n2
134.5n2
34.05
46.74
9.99
AMD A4-72102MB12-251800 ‑ 22004/4
46
157
26.94
51.3
10.9
AMD A4-91201MB10-152200 ‑ 25002/2
AMD A4-9120C1MB61600 ‑ 24002/2
AMD A6 Pro-7050B1MB172200 ‑ 30002/2
49.5n2
81.5n2
47.99n2
32.84n2
6.31n2
AMD A6-14502MB8 - 151000 ‑ 14004/4
59.98
29.13
6.04
AMD A6-3400M4MB351400 ‑ 23004/4
26n7
AMD A6-3410MX4MB451600 ‑ 23004/4
22.15n4
AMD A6-3420M4MB351500 ‑ 24004/4
23.63n2
59.68
11.27
AMD A6-3430MX4MB451700 ‑ 24004/4
AMD A6-4400M1MB352700 ‑ 32002
46.82n4
38.79
7.59
AMD A6-4455M2MB172100 ‑ 26002
61.8n3
30.66
5.73
AMD A6-52002MB2520004/4
42n4
155n4
202.05
26.1n2
51.7
11.4
AMD A6-5345M1MB172200 ‑ 28002/2
AMD A6-5350M1MB352900 ‑ 35002/2
63.5n2
117.5n2
40.86n2
43.38n2
8.23n2
AMD A6-5357M1MB352900 ‑ 35002/2
AMD A6-63102MB151800 ‑ 24004/4
47n6
157n6
26.64
52.2
11.1
AMD A6-6400K4MB653900 ‑ 41002/2
88
149
56.9
11.2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD A6-70001MB172200 ‑ 30002/2
AMD A6-73102MB12-252000 ‑ 24004/4
44.5n2
139n2
53.1
11.6
AMD A6-8500P1MB151600 ‑ 30002/2
AMD A6-921010-152400 ‑ 28002/2
AMD A6-92201MB10-152500 ‑ 29002/2
68.5n2
111.5n2
27.71
46.5
8.7
AMD A6-9220C1MB61800 ‑ 27002/2
AMD A6-9220e1MB61600 ‑ 24002/2
31
86
110
35.2
14.7
2.65
AMD A6-92251MB10-152600 ‑ 30002/2
73
108.5n2
273
26.28
48.9
9.1
AMD A8 Pro-7150B4MB191900 ‑ 32004/4
AMD A8-3500M4MB351500 ‑ 24004/4
24.09n2
AMD A8-3510MX4MB451800 ‑ 25004/4
AMD A8-3520M4MB351600 ‑ 25004/4
22.43n2
AMD A8-3530MX4MB451900 ‑ 26004/4
AMD A8-3550MX4MB452000 ‑ 27004/4
AMD A8-38504MB10029004/4
14.2
AMD A8-4500M4MB351900 ‑ 28004/4
31.45n5
58.39
10.84
AMD A8-4555M4MB191600 ‑ 24004/4
40.21n3
20.9n2
4.21n2
AMD A8-4557M4MB351900 ‑ 28004/4
AMD A8-5545M4MB191700 ‑ 27004/4
AMD A8-5550M4MB352100 ‑ 31004/4
68
188
26.02n3
70.59n2
13.49n2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD A8-5557M4MB352100 ‑ 31004/4
26.82
62.5
12.4
AMD A8-5600K4MB1003600 ‑ 39004/4
87
292
16.7
102.44
20.93
AMD A8-64102MB152000 ‑ 24004/4
49n5
165n5
24.3
54.4
11.8
AMD A8-6600K4MB1003900 ‑ 42004/4
17.9
106
22.2
AMD A8-71004MB191800 ‑ 30004/4
44n2
133n2
33.23n2
55.95n2
11.05n2
AMD A8-7200P4MB352400 ‑ 33004/4
AMD A8-74102MB12 - 252200 ‑ 25004/4
52n4
174n4
27
45.52
9.69
AMD A8-7650K4MB953300 ‑ 38004/4
84
296
14.2
108
22.7
AMD A8-8600P2MB12-351600 ‑ 30004/4
AMD A9-94101MB10-252900 ‑ 35002/2
63
130
23.96
53.5
10.13
AMD A9-94201MB10-253000 ‑ 36002/2
81n3
134n3
21.29n2
AMD A9-9420e1MB ‑ 25002/2
97
AMD A9-94251MB10-253100 ‑ 37002/2
76
125
284
25.83
50.5
9.7
AMD Athlon 300U1MB + 4MB152400 ‑ 33002/4
119
308
637
15.44
88.6
18.5
AMD Athlon 64 (Desktop) FX-622MB12528002/2
AMD Athlon 64 L110512KB12001/1
AMD Athlon 64 TF-20512KB2516001/1
AMD Athlon 64 X2 (Desktop) 4400+2MB6522002/2
AMD Athlon 64 X2 (Desktop) 4600+1MB6524002/2
AMD Athlon 64 X2 (Desktop) 4800+2MB6524002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Athlon 64 X2 (Desktop) FX-602MB11026002/2
AMD Athlon 64 X2 TK-421MB2016002/2
AMD Athlon 64 X2 TK-53512KB3117002/2
47.3
AMD Athlon 64 X2 TK-55512KB3118002/2
AMD Athlon 64 X2 TK-57512KB3119002/2
AMD Athlon Gold 3150U1MB + 4MB152600 ‑ 33002/4
AMD Athlon II M3001MB3520002/2
39.24n2
AMD Athlon II M3201MB3521002/2
37.16n2
AMD Athlon II M3401MB3522002/2
AMD Athlon II M3601MB3523002/2
AMD Athlon II N3301MB3523002/2
AMD Athlon II N3501MB3524002/2
AMD Athlon II N3701MB3525002/2
AMD Athlon II Neo K1251MB1217001/1
90.72n3
AMD Athlon II Neo K1451MB1218001/1
AMD Athlon II Neo K3251MB1213002/2
87.07n2
AMD Athlon II Neo K3451MB1214002/2
54
AMD Athlon II P3201MB2521002/2
36.45n4
AMD Athlon II P3401MB2522002/2
34.8
AMD Athlon II P3601MB2523002/2
33.3
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Athlon Neo MV-40512KB1516001/1
102n3
11.6
1.96
AMD Athlon Neo X2 L3251MB1815002/2
AMD Athlon Neo X2 L335512KB1816002/2
98.45
AMD Athlon PRO 300U1MB + 4MB152400 ‑ 33002/4
AMD Athlon Silver 3050e1MB + 4MB6 ‑ 28002/4
AMD Athlon Silver 3050U1MB + 4MB152300 ‑ 32002/2
AMD Athlon X2 L3101MB1312002/2
104.36n2
AMD Athlon X2 QL-601MB3519002/2
AMD Athlon X2 QL-621MB3520002/2
AMD Athlon X2 QL-641MB3521002/2
42.8
AMD Athlon X2 QL-651MB3521002/2
39
AMD Athlon X2 QL-661MB3522002/2
AMD Athlon X2 QL-671MB3522002/2
AMD C-30512KB912001/1
AMD C-501MB910002/2
111.21n7
AMD C-601MB91000 ‑ 13332/2
86.15n2
AMD C-701MB91000 ‑ 13332/2
98.16
AMD E-240512KB1815001/1
137.4
AMD E-3001MB1813002/2
79
AMD E-3501MB1816002/2
68.8n9
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD E-4501MB1816502/2
64.5n4
16.17
2.89
AMD E1 Micro-6200T1MB3.951000 ‑ 14002/2
AMD E1-12001MB1814002/2
76n3
AMD E1-15001MB1814802/2
AMD E1-21001MB910002/2
20n5
36n5
72.2n2
106.97n2
14.69n2
2.69n2
AMD E1-22001MB910502/2
AMD E1-25001MB1514002/2
27
44
79.61
20.44
4
AMD E1-60101MB1013502/2
25n3
49n3
95.8
18.78
3.75
AMD E1-70101MB1015002/2
AMD E2-18001MB1817002/2
69.05n8
18.34
3.26
AMD E2-20001MB1817502/2
AMD E2-30001MB1516502/2
AMD E2-3000M1MB351800 ‑ 24002/2
AMD E2-38002MB1513004/4
28
103
42.64
35.8
7.5
AMD E2-61102MB1515004/4
AMD E2-71102MB12-1518004/4
37
140
29.2
46.45
10.8
AMD E2-90001MB101800 ‑ 22002/2
47
84
36.23
35.7
6.3
AMD E2-90101MB10-152000 ‑ 22002/2
53
91
37.14
39.2
7.42
AMD FX-75004MB192100 ‑ 33004/4
55n2
153n2
23.32
68.5
13.9
AMD FX-7600P4MB352700 ‑ 36004/4
75n3
228n3
439
16.4n2
81.5n2
17.6n2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD FX-83508MB + 8MB1254000 ‑ 42008/8
97
636
1325
8.34n2
138.75n2
43.5n2
AMD FX-8800P2MB12-352100 ‑ 34004/4
82n3
277n3
12.02
93.47
21.07
AMD FX-9800P2MB152700 ‑ 36004/4
74
236
14.4
AMD FX-9830P2MB25-453000 ‑ 37004/4
93
301
10.27
AMD Geode LX 700128KB3.14331/1
AMD Geode LX 800128KB3.65001/1
AMD GX-210JA1MB610002/2
AMD Mobile Athlon 64 2700+512KB3516001/1
AMD Mobile Athlon 64 2800+512KB3518001/1
AMD Mobile Athlon 64 3000+512KB3520001/1
AMD Mobile Athlon 64 3200+1MB6220001/1
AMD Mobile Athlon 64 3400+1MB6222001/1
84.5
AMD Mobile Athlon 64 3700+1MB8124001/1
AMD Mobile Athlon 64 4000+1MB6226001/1
AMD Mobile Sempron 200U256KB810001/1
AMD Mobile Sempron 210U256KB1515001/1
AMD Mobile Sempron 2600+128KB2516001/1
109
AMD Mobile Sempron 2700+128KB6216001/1
AMD Mobile Sempron 2800+256KB6216001/1
107
AMD Mobile Sempron 3000+256KB3518001/1
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Mobile Sempron 3100+256KB6218001/1
95
AMD Mobile Sempron 3200+512KB2516001/1
AMD Mobile Sempron 3300+128KB62/2520001/1
84
AMD Mobile Sempron 3400+256KB6220001/1
AMD Mobile Sempron 3500+512KB2518001/1
AMD Mobile Sempron 3600+256KB2520001/1
86
AMD Mobile Sempron 3800+256KB3122001/1
AMD Mobile Sempron 4000+512KB3122001/1
AMD Mobile Sempron M100512KB2520001/1
82.5
AMD Mobile Sempron M120512KB2521001/1
AMD Mobile Sempron M140512KB2522001/1
AMD Mobile Sempron SI-40512KB2520001/1
AMD Mobile Sempron SI-42512KB2521001/1
76
AMD Mobile Sempron X2 NI-52256KB3518002/2
AMD Phenom II X2 N6202MB3528002/2
26.93n2
AMD Phenom II X2 N6402MB3529002/2
AMD Phenom II X2 N6602MB3530002/2
AMD Phenom II X2 P6502MB2528002/2
AMD Phenom II X2 X620 BE2MB4531002/2
AMD Phenom II X2 X640 BE2MB4532002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Phenom II X3 N8301.5MB3521003/3
24.7n5
AMD Phenom II X3 N8501.5MB3522003/3
23.4
AMD Phenom II X3 N8701.5MB3523003/3
AMD Phenom II X3 P8201.5MB2518003/3
AMD Phenom II X3 P8401.5MB2519003/3
27.7
AMD Phenom II X3 P8601.5MB2520003/3
AMD Phenom II X4 905e6525004/4
64
255
15.1
87.5
17.16
AMD Phenom II X4 N9302MB3520004/4
19.1n2
AMD Phenom II X4 N9502MB3521004/4
17.8
AMD Phenom II X4 N9702MB3522004/4
17.8n2
AMD Phenom II X4 P9202MB2516004/4
24n2
AMD Phenom II X4 P9402MB2517004/4
AMD Phenom II X4 P9602MB2518004/4
24
AMD Phenom II X4 X920 BE2MB4523004/4
17.5n2
AMD Phenom II X4 X940 BE2MB4524004/4
AMD Pro A10-8700B2MB12 - 351800 ‑ 32004/4
70
192
30.7
45.4
9.07
AMD Pro A12-8800B2MB12-352100 ‑ 34004/4
72n3
206n3
16.49n2
75.85n2
15.85n2
AMD PRO A12-9800B2MB152700 ‑ 36004/4
75n3
225n3
13.8
77
16.5
AMD PRO A12-9830B2MB25-453000 ‑ 37004/4
AMD Pro A6-8500B1MB151600 ‑ 30002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Pro A8-8600B2MB12-351600 ‑ 30004/4
69
181
18.78
67.5
13.5
AMD PRO A8-9600B2MB152400 ‑ 33004/4
71
203
16.77
70
13.32
AMD Ryzen 3 12002MB + 8MB653100 ‑ 34004/4
135
480
1192
12.5
160
33.34
AMD Ryzen 3 1300X2MB + 8MB653500 ‑ 37004/4
152
558
1336
10.8
181.6
38.4
AMD Ryzen 3 2200G2MB + 4MB653500 ‑ 37004/4
145.55n4
576.84n4
1446
10.8
184
39.7
AMD Ryzen 3 2200U1MB + 4MB152500 ‑ 34002/4
117n4
312n4
14.27
92
17.8
AMD Ryzen 3 2300U2MB + 4MB152000 ‑ 34004/4
79
422.53
AMD Ryzen 3 31002MB + 16MB653600 ‑ 39004/8
178
991
2282
6.58
202.5
58.6
AMD Ryzen 3 3200U1MB + 4MB152600 ‑ 35002/4
128n2
326n2
714n3
14.03
97.8
19.5
AMD Ryzen 3 3250U1MB + 4MB152600 ‑ 35002/4
AMD Ryzen 3 3300U2MB + 4MB152100 ‑ 35004/4
134
471
921
11.94
132.1
26.2
AMD Ryzen 3 3300X2MB + 16MB653800 ‑ 43004/8
198.21
1069.82
2430
6.04
233.5
61.8
AMD Ryzen 3 4300U2MB + 6MB152700 ‑ 37004/4
164.91
570
1432n2
172.3
35
AMD Ryzen 3 5300U2MB + 4MB252600 ‑ 38504/8
2058
AMD Ryzen 3 5400U2MB + 8MB252600 ‑ 40004/8
AMD Ryzen 3 PRO 2200U1MB + 4MB152500 ‑ 34002/4
AMD Ryzen 3 PRO 2300U2MB + 4MB152000 ‑ 34004/4
AMD Ryzen 3 PRO 3300U2MB + 4MB152100 ‑ 35004/4
126
481
AMD Ryzen 3 PRO 4450U2MB + 4MB152500 ‑ 37004/8
AMD Ryzen 5 14002MB + 8MB653200 ‑ 34004/8
133.01n2
688n3
1537
7.8n2
146.9n2
43n2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Ryzen 5 1500X2MB + 16MB653500 ‑ 37004/8
149.5n2
806.75n2
1777
6.9
177
49.5
AMD Ryzen 5 16003MB + 16MB653200 ‑ 36006/12
147n5
1129n5
2578n2
6.85n3
177n3
68.7n3
AMD Ryzen 5 2400G2MB + 4MB653600 ‑ 39004/8
155.63n4
846.71n4
1895
6.9
171.59
47.95
AMD Ryzen 5 2500U2MB + 4MB152000 ‑ 36004/8
137n15
609n16
1298.5n4
10.23n2
121n2
34.7n2
AMD Ryzen 5 26004MB + 16MB653400 ‑ 39006/12
157.28n3
1248.24n3
2793
5.5
205.3
74.96
AMD Ryzen 5 2600H2MB + 4MB453200 ‑ 36004/8
AMD Ryzen 5 2600X4MB + 16MB953600 ‑ 42006/12
163
1341
2688
4.62
207.4
80.5
AMD Ryzen 5 3500U2MB + 4MB152100 ‑ 37004/8
143n18
652n19
1477n15
12.88
134.8
39.2
AMD Ryzen 5 3550H2MB + 4MB352100 ‑ 37004/8
144.5n10
743.32n10
1672n6
7.67
146.82
44.3
AMD Ryzen 5 3580U2MB + 4MB152100 ‑ 37004/8
139
693
1549
7.17
135.33
40.1
AMD Ryzen 5 4500U3MB + 8MB152300 ‑ 40006/6
174n13
892n18
2219n13
8.3n3
210
59.25
AMD Ryzen 5 4600H3MB + 11MB453000 ‑ 40006/12
176n5
1426.5n6
3237.5n4
197
82.9
AMD Ryzen 5 4600HS3MB + 8MB353000 ‑ 40006/12
AMD Ryzen 5 4600U3MB + 8MB152100 ‑ 40006/12
175.5n2
1089n2
2544n3
AMD Ryzen 5 5500U3MB + 8MB252100 ‑ 40006/12
2616
AMD Ryzen 5 5600H3MB + 16MB453300 ‑ 42006/12
3721
AMD Ryzen 5 5600HS3MB + 16MB353300 ‑ 42006/12
AMD Ryzen 5 5600U3MB + 12MB252300 ‑ 42006/12
3067
AMD Ryzen 5 5600X3MB + 32MB653700 ‑ 46006/12
254
1968
4567
3.89
320
117
AMD Ryzen 5 PRO 2500U2MB + 4MB152000 ‑ 36004/8
134n3
553n3
12.36n2
97.71n2
33.91n2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Ryzen 5 PRO 3500U2MB + 4MB152100 ‑ 37004/8
142n2
624n2
1338.5n2
AMD Ryzen 5 PRO 4650U3MB + 8MB152100 ‑ 40006/12
175n4
1161n4
2599n4
AMD Ryzen 7 17004MB + 16MB653000 ‑ 37008/16
147n3
1413.85n4
6
153.85n2
74.4n2
AMD Ryzen 7 1700X4MB + 16MB953400 ‑ 38008/16
154n3
1537n3
3280
4.89n2
180n2
90.05n2
AMD Ryzen 7 1800X4MB + 16MB953600 ‑ 40008/16
159.56n4
1617n4
3610.5n2
4.6n2
179n2
84n2
AMD Ryzen 7 27004MB + 16MB653200 ‑ 41008/16
161
1551
5.14
195.71
89.72
AMD Ryzen 7 2700U2MB + 4MB152200 ‑ 38004/8
144n11
640n11
1448n2
8.55n2
128
36.4
AMD Ryzen 7 2700X4MB + 16MB1053700 ‑ 43008/16
175.67n3
1761.73n3
3944
3.48
226.7
104.5
AMD Ryzen 7 2800H2MB + 4MB353300 ‑ 38004/8
AMD Ryzen 7 3700U2MB + 4MB152300 ‑ 40004/8
127n7
651.58n7
1499n5
13.48
104.8
27.1
AMD Ryzen 7 3700X4MB + 32MB653600 ‑ 44008/16
204
2092
4782
3.71
269.5
115
AMD Ryzen 7 3750H2MB + 4MB352300 ‑ 40004/8
143.5n6
757n6
1793n3
7.44
139.4
48.58
AMD Ryzen 7 3780U2MB + 4MB152300 ‑ 40004/8
166
788
1580
AMD Ryzen 7 3800XT4MB + 32MB1053900 ‑ 47008/16
219
2230
5120
3.74
271
119
AMD Ryzen 7 4700U4MB + 8MB152000 ‑ 41008/8
179n10
1049n11
2602n8
7.89
191.3
57.4
AMD Ryzen 7 4800H4MB + 7.9MB452900 ‑ 42008/16
188n13
1855n17
4339n14
3.38
215.6n2
102.7n2
AMD Ryzen 7 4800HS4MB + 8MB352900 ‑ 42008/16
186.5n2
1700.65n2
3869
4.11
216.52
98.96
AMD Ryzen 7 4800U4MB + 8MB151800 ‑ 42008/16
181.5
1397.5
3213n2
3.63
196.11
88.5
AMD Ryzen 7 5700U4MB + 8MB251800 ‑ 43008/16
3393
AMD Ryzen 7 5800H4MB + 16MB453200 ‑ 44008/16
4661
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Ryzen 7 5800HS4MB + 16MB353200 ‑ 44008/16
AMD Ryzen 7 5800U4MB + 16MB252000 ‑ 44008/16
3655
AMD Ryzen 7 5800X4MB + 32MB1053800 ‑ 47008/16
266
2616
6068
3.04
339
152
AMD Ryzen 7 PRO 2700U2MB + 4MB152200 ‑ 38004/8
AMD Ryzen 7 PRO 3700U2MB + 4MB152300 ‑ 40004/8
149
615.5
AMD Ryzen 7 PRO 4750U4MB + 8MB151700 ‑ 41008/16
181.9n4
1410n4
3157n4
3.95
201.85
79.9
AMD Ryzen 9 39006MB + 64MB653100 ‑ 430012/24
197
2804
6321
255.5
131.9
AMD Ryzen 9 3900X6MB + 64MB1053800 ‑ 460012/24
204.95n3
3033.37n3
6910n3
2.69n2
267.5
147
AMD Ryzen 9 3950X8MB + 64MB1053500 ‑ 470016/32
209
4002
9075
4.11
265
168
AMD Ryzen 9 4900H4MB + 8MB453300 ‑ 44008/16
AMD Ryzen 9 4900HS4MB + 8MB353000 ‑ 43008/16
193
1863
4288
3.28
223
106
AMD Ryzen 9 5900HS4MB + 16MB353300 ‑ 46008/16
AMD Ryzen 9 5900HX4MB + 16MB453300 ‑ 46008/16
4849
AMD Ryzen 9 5900X6MB + 64MB1053700 ‑ 480012/24
271
3717
8629
335
191
AMD Ryzen 9 5950X8MB + 64MB1053400 ‑ 490016/32
266.5n2
4324n2
10061n2
4.23n2
330n2
212n2
AMD Ryzen 9 5980HS4MB + 16MB353300 ‑ 48008/16
4349
AMD Ryzen 9 5980HX4MB + 16MB453300 ‑ 48008/16
AMD Ryzen Embedded R1505G2MB + 4MB102400 ‑ 33002/4
97.3
264
596
AMD Ryzen Threadripper 1950X8MB + 32MB1803400 ‑ 420016/32
159
2997
6700
3.34
189.58
134.26
AMD Ryzen Threadripper 2920X6MB + 32MB1803500 ‑ 430012/24
178
2628
5860
3.03
208.5
131
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Ryzen Threadripper 2950X8MB + 32MB1803500 ‑ 440016/32
176
3110
6950
4.19
202.31
144.88
AMD Ryzen Threadripper 2970WX12MB + 64MB2503000 ‑ 420024/48
173
4376
10000
4.16
202
116.5
AMD Turion 64 MK-36512KB3120001/1
87
AMD Turion 64 MK-38512KB3122001/1
79
AMD Turion 64 ML-28512KB3516001/1
AMD Turion 64 ML-301MB3516001/1
110
AMD Turion 64 ML-32512KB3517901/1
AMD Turion 64 ML-341MB3518001/1
AMD Turion 64 ML-371MB3520001/1
AMD Turion 64 ML-401MB3522001/1
AMD Turion 64 ML-42512KB3524001/1
AMD Turion 64 ML-441MB3524001/1
70
AMD Turion 64 MT-28512KB2516001/1
107
AMD Turion 64 MT-301MB2516001/1
104
AMD Turion 64 MT-32512KB2517901/1
AMD Turion 64 MT-341MB2518001/1
AMD Turion 64 MT-371MB2520001/1
AMD Turion 64 MT-401MB2522001/1
AMD Turion 64 X2 L5101MB2016002/2
AMD Turion 64 X2 TL-50512KB3116002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Turion 64 X2 TL-521MB3116002/2
AMD Turion 64 X2 TL-531MB3117002/2
AMD Turion 64 X2 TL-561MB33/3118002/2
AMD Turion 64 X2 TL-581MB3119002/2
AMD Turion 64 X2 TL-601MB35/3120002/2
39
AMD Turion 64 X2 TL-621MB3521002/2
AMD Turion 64 X2 TL-641MB3522002/2
AMD Turion 64 X2 TL-661MB3523002/2
AMD Turion 64 X2 TL-681MB3524002/2
AMD Turion II M5001MB3522002/2
34.75n2
AMD Turion II M5201MB3523002/2
33.6n5
AMD Turion II M5401MB3524002/2
AMD Turion II M5601MB3525002/2
AMD Turion II N5302MB3525002/2
30.4
AMD Turion II N5502MB3526002/2
AMD Turion II N5702MB3527002/2
AMD Turion II Neo K6251MB1515002/2
53.3
AMD Turion II Neo K6451MB1516002/2
AMD Turion II Neo K6651MB1517002/2
AMD Turion II Neo K6851MB1518002/2
42
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD Turion II P5202MB2523002/2
33.7
AMD Turion II P5402MB2524002/2
AMD Turion II P5602MB2525002/2
AMD Turion II Ultra M6002MB3524002/2
AMD Turion II Ultra M6202MB3525002/2
31.3
AMD Turion II Ultra M6402MB3526002/2
AMD Turion II Ultra M6602MB3527002/2
AMD Turion Neo X2 L6251MB1816002/2
53
AMD Turion X2 RM-701MB3120002/2
44
AMD Turion X2 RM-721MB3521002/2
AMD Turion X2 RM-741MB3522002/2
AMD Turion X2 RM-751MB3522002/2
38
AMD Turion X2 RM-761MB3523002/2
AMD Turion X2 RM-771MB3523002/2
AMD Turion X2 Ultra ZM-802MB3221002/2
39.8
AMD Turion X2 Ultra ZM-822MB3522002/2
AMD Turion X2 Ultra ZM-842MB3523002/2
AMD Turion X2 Ultra ZM-852MB3523002/2
36.5
AMD Turion X2 Ultra ZM-862MB3524002/2
34.9
AMD V-Series V105512KB912001/1
128
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
AMD V-Series V120512KB2522001/1
69.3
AMD V-Series V140512KB2523001/1
68.3
AMD V-Series V160512KB2524001/1
AMD Z-011MB5.910002/2
AMD Z-601MB4.510002/2
114
11.24
1.95
Amlogic AML8726-MX512KB15002/2
Apple A10 Fusion23404/2
Apple A10X Fusion23906/3
Apple A11 Bionic8MB ‑ 23906/6
Apple A12 Bionic8MB ‑ 24906/6
Apple A12X Bionic8MB ‑ 24908/8
Apple A12Z Bionic8MB ‑ 24908/8
Apple A13 Bionic12MB ‑ 26606/6
Apple A14 Bionic6/6
Apple A410001/1
Apple A510002
Apple A5x10002
Apple A610002
Apple A6x14002
Apple A71MB + 4MB13002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Apple A81MB + 4MB14002/2
Apple A8X2MB + 4MB15003/3
Apple A918002/2
Apple A9X22602/2
Apple M116MB2064 ‑ 32008/8
208n2
1020n2
1986n2
Apple S52/2
Apple S62/2
ARM Cortex A8 1.2 GHz12001/1
ARM Cortex A8 1GHz10001/1
Broadcom BCM21664T12002/2
Broadcom BCM2815512002/2
CSR8670802
Cypress PSoC6 MCU1502/2
DK3.5+ST2
HiSilicon k3v2 Hi362012004/4
HiSilicon Kirin 62012008/8
HiSilicon Kirin 65020008/8
HiSilicon Kirin 65521008/8
HiSilicon Kirin 65823508/8
HiSilicon Kirin 65923608/8
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
HiSilicon Kirin 71022008/8
HiSilicon Kirin 710A20008/8
HiSilicon Kirin 8101880 ‑ 22708/8
HiSilicon Kirin 8201840 ‑ 23608/8
HiSilicon Kirin 90002050 ‑ 31308/8
HiSilicon Kirin 91016004/4
HiSilicon Kirin 910T18004/4
HiSilicon Kirin 92017008/8
HiSilicon Kirin 92518008/8
HiSilicon Kirin 93020008/8
HiSilicon Kirin 93522008/8
HiSilicon Kirin 95023008/8
HiSilicon Kirin 95525008/8
HiSilicon Kirin 96024008/8
HiSilicon Kirin 960s21008/8
HiSilicon Kirin 97024008/8
HiSilicon Kirin 980 ‑ 26008/8
HiSilicon Kirin 990 ‑ 28608/8
HiSilicon Kirin 990 5G ‑ 28608/8
Huawei Kirin A12001/1
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Atom 230512KB416001/2
Intel Atom 3301MB816002/4
116.47n2
Intel Atom D25001MB1018662/2
Intel Atom D25501MB1018662/4
Intel Atom D25601MB1020002/4
Intel Atom D27001MB1021302/4
Intel Atom D5251MB1818002/4
55.25n2
Intel Atom E38051MB313302/2
Intel Atom E3815512KB514601/1
Intel Atom E38251MB613302/2
Intel Atom E38261MB714602/2
Intel Atom E38271MB817502/2
Intel Atom E38452MB1019104/4
Intel Atom N26001MB3.516002/4
66
9.8
9.9
Intel Atom N26501MB3,617332/4
Intel Atom N270512KB2.516001/2
126n5
Intel Atom N280512KB2.516601/2
115.02n2
Intel Atom N28001MB6,518602/4
54.3
19.7
3.67
Intel Atom N28501MB6,620002/4
Intel Atom N435512KB513331/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Atom N450512KB5.516601/2
117n15
Intel Atom N455512KB6.516601/2
119.5n2
Intel Atom N470512KB6.518601/2
106.7n2
Intel Atom N475512KB6.518601/2
104.92
Intel Atom N5501MB8.515002/4
66.78n11
Intel Atom N5701MB8.516602/4
59
Intel Atom x3-C3130512KB10002/2
Intel Atom x3-C3230RK11004/4
Intel Atom x3-C34401MB1200 ‑ 14004/4
Intel Atom x5-E80002MB51040 ‑ 20004/4
27
94
34.57
36.73
7.57
Intel Atom x5-Z83002MB1440 ‑ 18404/4
27n5
94n6
36.4
35.7n2
6.98n2
Intel Atom x5-Z83502MB1440 ‑ 19204/4
28n9
97n10
36.2
Intel Atom x5-Z85002MB1440 ‑ 22404/4
35.5n4
106.5n4
36.57n2
7.22n2
Intel Atom x5-Z85502MB1440 ‑ 24004/4
36
134
Intel Atom x7-E39502MB121600 ‑ 20004/4
41
125
272
30.26
45.11
9.2
Intel Atom x7-Z87002MB1600 ‑ 24004/4
37.5n2
116n2
24.51
50.82
10.28
Intel Atom x7-Z87502MB1600 ‑ 25604/4
38.9
133
220
24.7
48
10
Intel Atom Z2000512KB10001/1
Intel Atom Z2420512KB12001/2
Intel Atom Z2460512KB4?1300 ‑ 16001/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Atom Z2480512KB20001/2
Intel Atom Z25601MB3933 ‑ 16002/4
Intel Atom Z25801MB31300 ‑ 20002/4
Intel Atom Z27601MB1.7 / 318002/4
58.13n7
17.75n2
3.28n2
Intel Atom Z34601MB16002/2
Intel Atom Z34801MB21332/2
Intel Atom Z35302MB13304/4
Intel Atom Z35602MB18304/4
Intel Atom Z35702MB20004/4
Intel Atom Z35802MB23304/4
Intel Atom Z36801MB<41330 ‑ 20002/2
Intel Atom Z3680D1MB<41330 ‑ 20002/2
Intel Atom Z3735D2MB<41330 ‑ 18304/4
37.16
35.1
6.78
Intel Atom Z3735E2MB<41330 ‑ 18304/4
Intel Atom Z3735F2MB<41330 ‑ 18304/4
35.66n3
35.9n3
6.83n3
Intel Atom Z3735G2MB<41330 ‑ 18304/4
37.53
31.8
6.55
Intel Atom Z3736F2MB<41330 ‑ 21604/4
38.01n2
35.6
6.77
Intel Atom Z3736G2MB<41330 ‑ 21604/4
Intel Atom Z37402MB<41330 ‑ 18604/4
29
Intel Atom Z3740D2MB<41330 ‑ 18304/4
31.92
31.85
7.8
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Atom Z37452MB<41330 ‑ 18604/4
Intel Atom Z3745D2MB<41330 ‑ 18304/4
38.09
7.26
Intel Atom Z37702MB<41460 ‑ 24004/4
26.55n4
40.49n3
7.65n3
Intel Atom Z3770D2MB<41500 ‑ 24104/4
Intel Atom Z37752MB<41460 ‑ 23904/4
25.47n2
47
9.5
Intel Atom Z3775D2MB<41490 ‑ 24104/4
Intel Atom Z37852MB<41490 ‑ 24104/4
Intel Atom Z37952MB<41590 ‑ 23904/4
37n3
131n3
27.16n2
42.14n2
8.31n2
Intel Atom Z500512KB0.658001/1
115
Intel Atom Z510512KB211001/1
Intel Atom Z520512KB213331/2
146.28n3
Intel Atom Z530512KB216001/2
123.05n3
Intel Atom Z540512KB218301/2
105.4n2
Intel Atom Z550512KB2.420001/2
101.5
Intel Atom Z560512KB2.521301/2
Intel Atom Z670512KB315001/2
151
Intel Celeron 1000M512KB + 2MB3518002/2
41.63
47.23
8.49
Intel Celeron 1005M512KB + 2MB3519002/2
Intel Celeron 1007U512KB + 2MB1715002/2
Intel Celeron 1017U512KB + 2MB1716002/2
46.39
41.9
7.57
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Celeron 1019Y512KB + 2MB1010002/2
Intel Celeron 1020E512KB + 2MB3522002/2
Intel Celeron 1020M512KB + 2MB3521002/2
Intel Celeron 1037U512KB + 2MB1718002/2
41.48
46.82
8.5
Intel Celeron 1047UE512KB + 2MB1714002/2
Intel Celeron 2.8 GHz128KB52.828001/1
Intel Celeron 220512KB1912001/1
Intel Celeron 2950M512KB + 2MB3720002/2
Intel Celeron 2955U512KB + 2MB1514002/2
53.18
40.7
7.52
Intel Celeron 2957U512KB + 2MB1514002/2
55
105
53.49
41.27
7.57
Intel Celeron 2961Y512KB + 2MB11.511002/2
Intel Celeron 2970M512KB + 2MB3722002/2
85
164
33.5
62.5
11.7
Intel Celeron 2980U512KB + 2MB1516002/2
Intel Celeron 2981U512KB + 2MB1516002/2
Intel Celeron 3205U512KB + 2MB1515002/2
Intel Celeron 3215U512KB + 2MB1517002/2
Intel Celeron 3755U512KB + 2MB1517002/2
Intel Celeron 3765U512KB + 2MB1519002/2
Intel Celeron 3865U512KB + 2MB1518002/2
72
142
39.36
54.4
10.8
Intel Celeron 3867U512KB + 2MB1518002/2
134
159
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Celeron 3965U512KB + 2MB1522002/2
Intel Celeron 3965Y512KB + 2MB615002/2
Intel Celeron 4205U512KB + 2MB1518002/2
136
Intel Celeron 5205U1MB + 2MB1519002/2
Intel Celeron 62052.5MB + 4MB152/2
Intel Celeron 63052.5MB + 4MB1518002/2
Intel Celeron 797256KB + 1.5MB3514001/1
Intel Celeron 807256KB + 1.5MB1715001/2
Intel Celeron 847512KB + 2MB1711002/2
80.36
Intel Celeron 867512KB + 2MB1713002/2
Intel Celeron 877512KB + 2MB1714002/2
Intel Celeron 887512KB + 2MB1715002/2
48
Intel Celeron 927UE256KB + 1MB1715001/1
Intel Celeron B710256KB + 1.5MB3516001/1
88.4
20.28
3.53
Intel Celeron B720 + 1.5MB3517001/1
Intel Celeron B730256KB + 1.5MB3518001/2
Intel Celeron B800512KB + 2MB3515002/2
47
Intel Celeron B810 + 2MB3516002/2
44.75n2
Intel Celeron B815 + 2MB3516002/2
44.3
Intel Celeron B820512KB + 2MB3517002/2
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Celeron B830 + 2MB3518002/2
Intel Celeron B840 + 2MB3519002/2
Intel Celeron Dual-Core SU23001MB1012002/2
Intel Celeron Dual-Core T1400512KB3517332/2
47
Intel Celeron Dual-Core T1500512KB3518662/2
Intel Celeron Dual-Core T16001MB3516602/2
Intel Celeron Dual-Core T17001MB3518302/2
Intel Celeron Dual-Core T30001MB3518002/2
45.65
Intel Celeron Dual-Core T31001MB3519002/2
Intel Celeron Dual-Core T33001MB3520002/2
Intel Celeron Dual-Core T35001MB3521002/2
38.5
Intel Celeron J17501MB1024102/2
Intel Celeron J18001MB102410 ‑ 25802/2
Intel Celeron J18502MB1020004/4
Intel Celeron J19002MB102000 ‑ 24204/4
Intel Celeron J33552MB102000 ‑ 25002/2
47.6
90
200
Intel Celeron J40054MB102000 ‑ 27002/2
77
144
33.07
49.93
9.96
Intel Celeron J41054MB101500 ‑ 25004/4
73
270
Intel Celeron J41154MB101800 ‑ 25004/4
70.6n2
244n2
546.5n2
19.09
76.31
17.5
Intel Celeron J41254MB102000 ‑ 27004/4
75.3
243
304
19.42
52.6
11.31
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Celeron M 310512KB2112001/1
Intel Celeron M 320512KB2113001/1
Intel Celeron M 330512KB2114001/1
Intel Celeron M 333512KB59001/1
Intel Celeron M 340512KB2115001/1
125
Intel Celeron M 3501MB2113001/1
Intel Celeron M 353512KB59001/1
Intel Celeron M 3601MB2114001/1
131
Intel Celeron M 3701MB2115001/1
121
Intel Celeron M 373512KB510001/1
Intel Celeron M 3801MB2116001/1
111
Intel Celeron M 3831MB510001/1
Intel Celeron M 3901MB2117001/1
102
Intel Celeron M 4101MB2714601/1
Intel Celeron M 4201MB2716001/1
Intel Celeron M 4231MB510601/1
Intel Celeron M 4301MB2717301/1
Intel Celeron M 4401MB2718601/1
Intel Celeron M 4501MB2720001/1
Intel Celeron M 5201MB3016001/1
PosModelL2 Cache + L3 CacheTDP (Watt)MHz - TurboCores / ThreadsCinebench R15 CPU Single 64BitCinebench R15 CPU Multi 64BitCinebench R20wPrime 32(-)x264 Pass 1x264 Pass 2
Intel Celeron M 5231MB59331/1
Intel Celeron M 5301MB3017301/1
Intel Celeron M 5401MB3018601/1
Intel Celeron M 5501MB3020001/1
Intel Celeron M 5601MB3021301/1
Intel Celeron M 5701MB3022601/1
Intel Celeron M 5751MB3120001/1
Intel Celeron M 5851MB3121601/1