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AMD A6 Pro-7050B vs AMD A10-7400P vs AMD A10 Pro-7350B

AMD A6 Pro-7050B

► remove from comparison AMD A6 Pro-7050B

The AMD A6 Pro-7050B is a power efficient ULV (Ultra Low Voltage) dual-core processor based on the Kaveri architecture. It was revealed in June 2014 for notebooks and is manufactured by GlobalFoundries using a 28 nm SHP process. In addition to having one CPU module for a total of two integer cores clocked at 2.2 - 3.0 GHz, the AMD chip also integrates a Radeon R4 GPU clocked at up to 533 MHz with 192 GCN shaders and a dual-channel DDR3-1600 memory controller.

Technically, the 7050B is almost identical with the consumer model A6-7000. However, AMD guarantees an especially high stability and durability for the business-oriented Pro-Series.

Architecture 

Kaveri is the successor to the 2013 Richland architecture (e.g. A10-5750M). The revised CPU cores, codenamed Steamroller, represent the third generation of the module-based Bulldozer design. A number of major changes include modified decoders (now one per integer core), optimized branch prediction, and increased L1 I-cache from 64 KB to 96 KB per module. These revisions boost the performance per clock slightly over a similarly clocked Richland APU. For more details about the AMD Kaveri architecture, see our detailed analysis here:

Analysis of the AMD Kaveri Notebook Platform

Performance 

The A6 Pro-7050B offers a relatively low CPU performance somewhere between an Intel Atom Z3735G and Pentium 977. Overall, the 7050B is sufficient for simple everyday workloads (Office, light browsing, multimedia), but will struggle in more demanding applications or multitasking.

Graphics

The Radeon R4 (Kaveri) GPU of the A6 Pro-7050B features a core clock of up to 533 MHz and 192 shader units. Since the GPU is based on AMD's GCN 1.1 architecture, both DirectX 11.2 "Tier 2" and Mantle are supported. Furthermore, the GPU can be used for general purpose computing in various applications, such as Adobe Photoshop via the OpenCL API. 

In terms of 3D performance, the GPU is roughly as fast as the Intel HD Graphics (Haswell) or HD Graphics 4000. Limited by the CPU performance, however, only a few older and less demanding games such as Trackmania will run fluently in (very) low settings.

Power Consumption

The power consumption of the entire APU is rated at 17 Watts, which is somewhat above the Haswell ULV CPUs from Intel (15 W including chipset). Nevertheless, the A6 Pro-7050B is suited for 12 - 13-inch notebooks or larger.

AMD A10-7400P

► remove from comparison AMD A10-7400P

The quad-core AMD A10-7400P is a mid-range processor based on the Kaveri architecture. It was revealed in June 2014 for notebooks and is manufactured by GlobalFoundries using a 28 nm SHP process. In addition to having two CPU modules for a total of four integer cores clocked at 2.5 - 3.4 GHz, the AMD chip also integrates a Radeon R6 GPU clocked at up to 654 MHz with 384 GCN shaders and a dual-channel DDR3-1866 memory controller.

Architecture 

Kaveri is the successor to the 2013 Richland architecture (e.g. A10-5750M). The revised CPU cores, codenamed Steamroller, represent the third generation of the module-based Bulldozer design. A number of major changes include modified decoders (now one per integer core), optimized branch prediction, and increased L1 I-cache from 64 KB to 96 KB per module. These revisions boost the performance per clock slightly over a similarly clocked Richland APU. For more details about the AMD Kaveri architecture, see our detailed analysis here:

Analysis of the AMD Kaveri Notebook Platform

Performance 

According to the clock rates, the A10-7400P should offer a CPU performance level similar to the Sandy Bridge-based Intel Core i3-2330M or 2350M. Overall, the A10-7400P will be sufficient for multitasking daily workloads (Office, Internet browsing, multimedia) as well as more demanding programs.

Graphics

The Radeon R6 (Kaveri) GPU of the A10-7400P features a core clock of up to 654 MHz and 384 shader units. Since the GPU is based on AMD's GCN 1.1 architecture, both DirectX 11.2 "Tier 2" and Mantle are supported. Furthermore, the GPU can be used for general purpose computing in various applications, such as Adobe Photoshop via the OpenCL API. 

In terms of 3D performance, the GPU benefits from its high raw computational power and memory support up to DDR3-1866. Thus, the Radeon R6 is just slightly behind a dedicated GeForce GT 730M and can handle many current games at low or medium settings at WXGA resolution.

Power Consumption

The power consumption of the entire APU is rated at 35 Watts, which is similar to other competing mid-range models. As a result, the A10-7400P is best suited for 14-inch notebooks or larger.

AMD A10 Pro-7350B

► remove from comparison AMD A10 Pro-7350B

The AMD A10 Pro-7350B is a power efficient ULV (Ultra Low Voltage) quad-core processor based on the Kaveri architecture. It was revealed in June 2014 for notebooks and is manufactured by GlobalFoundries using a 28 nm SHP process. In addition to having two CPU modules for a total of four integer cores clocked at 2.1 - 3.3 GHz, the AMD chip also integrates a Radeon R6 GPU clocked at up to 553 MHz with 384 GCN shaders and a dual-channel DDR3-1600 memory controller.

Technically, the 7350B is almost identical with the consumer model FX-7500. However, AMD guarantees an especially high stability and durability for the business-oriented Pro-Series.

Architecture 

Kaveri is the successor to the 2013 Richland architecture (e.g. A10-5750M). The revised CPU cores, codenamed Steamroller, represent the third generation of the module-based Bulldozer design. A number of major changes include modified decoders (now one per integer core), optimized branch prediction, and increased L1 I-cache from 64 KB to 96 KB per module. These revisions boost the performance per clock slightly over a similarly clocked Richland APU. For more details about the AMD Kaveri architecture, see our detailed analysis here:

Analysis of the AMD Kaveri Notebook Platform

Performance 

According to our benchmarks (shown below), the A10 Pro-7350B offers a CPU performance level similar to the Haswell-based Intel Core i3-4100U. Overall, the 7350B will be sufficient for all daily workloads (Office, Internet browsing, multimedia) as well as light multitasking.

Graphics

The Radeon R6 (Kaveri) GPU of the A10 Pro-7350B features a core clock of up to 553 MHz and 384 shader units. Since the GPU is based on AMD's GCN 1.1 architecture, both DirectX 11.2 "Tier 2" and Mantle are supported. Furthermore, the GPU can be used for general purpose computing in various applications, such as Adobe Photoshop via the OpenCL API. 

In terms of 3D performance, the GPU is almost as fast as a dedicated GeForce GT 720M and can handle many current games at low or medium settings at (W)XGA resolution.

Power Consumption

The power consumption of the entire APU is rated at 19 Watts, which is somewhat above the Haswell ULV CPUs from Intel (15 W including chipset). Nevertheless, the A10 Pro-7350B is suited for 12 - 13-inch notebooks or larger.

ModelAMD A6 Pro-7050BAMD A10-7400PAMD A10 Pro-7350B
SeriesAMD KaveriAMD KaveriAMD Kaveri
CodenameKaveriKaveriKaveri
Series: Kaveri Kaveri
AMD FX-7600P2.7 - 3.6 GHz4 / 4 cores
AMD A10-7400P2.5 - 3.4 GHz4 / 4 cores
AMD A8-7200P2.4 - 3.3 GHz4 / 4 cores
AMD FX-75002.1 - 3.3 GHz4 / 4 cores
AMD A10 Pro-7350B2.1 - 3.3 GHz4 / 4 cores
AMD A10-73001.9 - 3.2 GHz4 / 4 cores
AMD A8 Pro-7150B1.9 - 3.2 GHz4 / 4 cores
AMD A8-71001.8 - 3 GHz4 / 4 cores
AMD A6 Pro-7050B « 2.2 - 3 GHz2 / 2 cores
AMD A6-70002.2 - 3 GHz2 / 2 cores
AMD FX-7600P2.7 - 3.6 GHz4 / 4 cores
AMD A10-7400P « 2.5 - 3.4 GHz4 / 4 cores
AMD A8-7200P2.4 - 3.3 GHz4 / 4 cores
AMD FX-75002.1 - 3.3 GHz4 / 4 cores
AMD A10 Pro-7350B2.1 - 3.3 GHz4 / 4 cores
AMD A10-73001.9 - 3.2 GHz4 / 4 cores
AMD A8 Pro-7150B1.9 - 3.2 GHz4 / 4 cores
AMD A8-71001.8 - 3 GHz4 / 4 cores
AMD A6 Pro-7050B2.2 - 3 GHz2 / 2 cores
AMD A6-70002.2 - 3 GHz2 / 2 cores
AMD FX-7600P2.7 - 3.6 GHz4 / 4 cores
AMD A10-7400P2.5 - 3.4 GHz4 / 4 cores
AMD A8-7200P2.4 - 3.3 GHz4 / 4 cores
AMD FX-75002.1 - 3.3 GHz4 / 4 cores
AMD A10 Pro-7350B « 2.1 - 3.3 GHz4 / 4 cores
AMD A10-73001.9 - 3.2 GHz4 / 4 cores
AMD A8 Pro-7150B1.9 - 3.2 GHz4 / 4 cores
AMD A8-71001.8 - 3 GHz4 / 4 cores
AMD A6 Pro-7050B2.2 - 3 GHz2 / 2 cores
AMD A6-70002.2 - 3 GHz2 / 2 cores
Clock2200 - 3000 MHz2500 - 3400 MHz2100 - 3300 MHz
L2 Cache1 MB4 MB4 MB
Cores / Threads2 / 24 / 44 / 4
TDP17 Watt35 Watt19 Watt
Transistors2410 Million2410 Million2410 Million
Technology28 nm28 nm28 nm
Die Size245 mm2245 mm2245 mm2
FeaturesSSE (1, 2, 3, 3S, 4.1, 4.2, 4A), x86-64, AES, AVX, FMA, DDR3-1600 ControllerSSE (1, 2, 3, 3S, 4.1, 4.2, 4A), x86-64, AES, AVX, FMA, DDR3-1866 ControllerSSE (1, 2, 3, 3S, 4.1, 4.2, 4A), x86-64, AES, AVX, FMA, DDR3-1600 Controller
iGPUAMD Radeon R4 (Kaveri) ( - 533 MHz)AMD Radeon R6 (Kaveri) (576 - 654 MHz)AMD Radeon R6 (Kaveri) (? - 553 MHz)
Architecturex86x86x86
Announced
Manufacturerwww.amd.comwww.amd.comwww.amd.com
max. Temp.102 °C
SocketBGA (FP3)

Benchmarks

Cinebench R15 - Cinebench R15 CPU Multi 64 Bit
min: 81     avg: 81.5     median: 81.5 (1%)     max: 82 Points
min: 151     avg: 160     median: 162 (1%)     max: 167 Points
Cinebench R15 - Cinebench R15 CPU Single 64 Bit
min: 49     avg: 49.5     median: 49.5 (15%)     max: 50 Points
min: 49     avg: 55.3     median: 55 (17%)     max: 62 Points
Cinebench R11.5 - Cinebench R11.5 CPU Multi 64 Bit
min: 0.96     avg: 1     median: 1 (1%)     max: 0.99 Points
min: 1.69     avg: 1.8     median: 1.8 (2%)     max: 1.91 Points
Cinebench R11.5 - Cinebench R11.5 CPU Single 64 Bit
min: 0.56     avg: 0.6     median: 0.6 (14%)     max: 0.58 Points
min: 0.63     avg: 0.7     median: 0.7 (17%)     max: 0.7 Points
Cinebench R10 - Cinebench R10 Rend. Single (32bit)
min: 1790     avg: 1820     median: 1820 (11%)     max: 1850 Points
min: 1907     avg: 2004     median: 2003.5 (12%)     max: 2100 Points
Cinebench R10 - Cinebench R10 Rend. Multi (32bit)
min: 2785     avg: 2930     median: 2930 (2%)     max: 3075 Points
min: 4951     avg: 5276     median: 5275.5 (4%)     max: 5600 Points
Cinebench R10 - Cinebench R10 Rend. Multi (64bit)
min: 3876     avg: 3975     median: 3974.5 (3%)     max: 4073 Points
min: 6750     avg: 7166     median: 7166 (5%)     max: 7582 Points
Cinebench R10 - Cinebench R10 Rend. Single (64bit)
min: 2386     avg: 2392     median: 2392 (3%)     max: 2398 Points
min: 2573     avg: 2685     median: 2684.5 (3%)     max: 2796 Points
wPrime 2.10 - wPrime 2.0 1024m *
min: 1370     avg: 1483     median: 1482.5 (18%)     max: 1595 s
914 s (11%)
wPrime 2.10 - wPrime 2.0 32m *
min: 38.95     avg: 48     median: 48 (10%)     max: 57 s
23.3 s (5%)
WinRAR - WinRAR 4.0
765 Points (1%)
min: 1456     avg: 1484     median: 1484 (2%)     max: 1512 Points
X264 HD Benchmark 4.0 - x264 Pass 2
min: 6.29     avg: 6.3     median: 6.3 (2%)     max: 6.33 fps
min: 11.18     avg: 12.1     median: 12.1 (4%)     max: 12.98 fps
X264 HD Benchmark 4.0 - x264 Pass 1
min: 32.67     avg: 32.8     median: 32.8 (8%)     max: 33 fps
min: 65.4     avg: 68.1     median: 68.1 (16%)     max: 70.8 fps
TrueCrypt - TrueCrypt Serpent
0.1 GB/s (0%)
min: 0.132     avg: 0.1     median: 0.1 (0%)     max: 0.158 GB/s
TrueCrypt - TrueCrypt Twofish
0.1 GB/s (2%)
min: 0.202     avg: 0.2     median: 0.2 (4%)     max: 0.244 GB/s
TrueCrypt - TrueCrypt AES
0.6 GB/s (2%)
min: 1.1     avg: 1.2     median: 1.2 (3%)     max: 1.2 GB/s
3DMark 06 - CPU - 3DMark 06 - CPU
1468 Points (3%)
min: 2506     avg: 2525     median: 2525 (5%)     max: 2544 Points
Super Pi mod 1.5 XS 1M - Super Pi mod 1.5 XS 1M *
min: 29.42     avg: 31.7     median: 31.7 (7%)     max: 33.98 s
min: 23.46     avg: 24.4     median: 24.4 (5%)     max: 25.42 s
Super Pi mod 1.5 XS 2M - Super Pi mod 1.5 XS 2M *
min: 70.3     avg: 73.8     median: 73.8 (3%)     max: 77.3 s
min: 63     avg: 64.6     median: 64.6 (3%)     max: 66.1 s
Super Pi Mod 1.5 XS 32M - Super Pi mod 1.5 XS 32M *
min: 1665     avg: 1674     median: 1673.5 (7%)     max: 1682 s
min: 1532     avg: 1574     median: 1574 (7%)     max: 1616 s
3DMark Vantage - 3DM Vant. Perf. CPU no Physx
2591 Points (2%)
min: 5498     avg: 5533     median: 5533 (5%)     max: 5568 Points
3DMark 11 - 3DM11 Performance Physics
min: 1113     avg: 1133     median: 1133 (3%)     max: 1153 Points
min: 1812     avg: 1984     median: 2066 (6%)     max: 2075 Points
3DMark - 3DMark Ice Storm Physics
min: 10780     avg: 10798     median: 10798 (9%)     max: 10816 Points
min: 16380     avg: 17970     median: 18395 (15%)     max: 19136 Points
3DMark - 3DMark Ice Storm Extreme Physics
8512 Points (7%)
3DMark - 3DMark Ice Storm Unlimited Physics
10306 Points (9%)
3DMark - 3DMark Cloud Gate Physics
min: 846     avg: 855     median: 854.5 (2%)     max: 863 Points
min: 1395     avg: 1528     median: 1576 (4%)     max: 1613 Points
3DMark - 3DMark Fire Strike Standard Physics
min: 1129     avg: 1137     median: 1137 (2%)     max: 1145 Points
min: 1940     avg: 2129     median: 2193 (4%)     max: 2254 Points
Geekbench 3 - Geekbench 3 32 Bit Multi-Core
1902 Points (3%)
min: 3733     avg: 3869     median: 3868.5 (7%)     max: 4004 Points
Geekbench 3 - Geekbench 3 32 Bit Single-Core
1255 Points (25%)
min: 1390     avg: 1449     median: 1449 (28%)     max: 1508 Points
Geekbench 3 - Geekbench 3 64 Bit Multi-Core
2035 Points (3%)
Geekbench 3 - Geekbench 3 64 Bit Single-Core
1311 Points (20%)
Geekbench 2 - 32 Bit - Geekbench Stream
2177 Points (18%)
2728 Points (22%)
Geekbench 2 - 32 Bit - Geekbench Memory
2300 Points (21%)
2660 Points (24%)
Geekbench 2 - 32 Bit - Geekbench Floating Point
2118 Points (4%)
3786 Points (7%)
Geekbench 2 - 32 Bit - Geekbench Integer
2601 Points (5%)
4812 Points (10%)
Geekbench 2 - 32 Bit - Geekbench Total Score
2329 Points (6%)
3814 Points (10%)
Mozilla Kraken 1.1 - Kraken 1.1 Total Score *
5810 ms (7%)
Sunspider - Sunspider 1.0 Total Score *
243.9 ms (3%)
Octane V2 - Octane V2 Total Score
6167 Points (6%)

Average Benchmarks AMD A6 Pro-7050B → 0% n=

Average Benchmarks AMD A10 Pro-7350B → 0% n=

- Range of benchmark values for this graphics card
- Average benchmark values for this graphics card
* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

v1.26
log 28. 16:08:20

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Redaktion, 2017-09- 8 (Update: 2023-07- 1)