AMD A6-5357M vs AMD A10-5757M vs AMD A6-5350M

AMD A6-5357M

► remove AMD A6-5357M

The AMD A6-5357M is a mobile dual-core processor based on the Richland-architecture. In contrast to the A6-5350M, the A6-5357M is a BGA version. As successor to the A6-4400M, the A6-5350M/5357M has a slightly higher CPU and graphics performance and settles in the low end segment. The APU integrates 2 CPU cores, a DirectX 11 graphics unit and the Northbridge along with a DDR3 memory controller.

Compared to Trinity, Richland has been modified just slightly. Therefore, no changes in the feature set or the Pro-MHz performance can be reported. The design of the chip is still based on the Bulldozer architecture, which consists of so-called modules. Each module integrates 2 integer units, but only one FPU. Just like Trinity, Richland supports nearly all current techniques such as AVX (including FMA), AES or Turbo Core.

According to the clock rates of 2.9 to 3.5 GHz, the A6-5357M should perform about 15 percent faster than the A6-4400M and just reach a Pentium P6100. Consequently, the performance in less demanding applications and games is sufficient.

The graphics unit called Radeon HD 8450G offers 192 shader units (VLIW4) and clocks slightly higher than the HD 7520G at 533 - 720 MHz. With fast dual-channel memory, performance is expected to match a dedicated Radeon HD 7470M.

The power consumption of the entire APU is rated at 35 watts, which is comparable to conventional middle-class models of competition. Thus, the APU is best suited for 14 inch notebooks or bigger.

AMD A10-5757M

► remove AMD A10-5757M

The AMD A10-5757M is a mobile quad-core processor based on the Richland-architecture. In contrast to the A10-5750M, the 5757M is a BGA version. As the successor of the A10-4600M, the A10-5750M/5757M offers a slightly higher CPU and graphics performance and represents the new top model of the A-series (March 2013).

Compared to Trinity, Richland has been modified just slightly. Therefore, no changes in the feature set or the Pro-MHz performance can be reported. The design of the chip is still based on the Bulldozer architecture, which consists of so-called modules. Each of the two modules integrates 2 integer units, but only one FPU. Just like Trinity, Richland supports nearly all current techniques such as AVX (including FMA), AES or Turbo Core.

Our benchmarks show a performance increase of around 10 percent on the A10-4600M. Thus, the A10-5757M performs at the level of a Core i3-2330M (Sandy Bridge).

The graphics unit called Radeon HD 8650G offers 384 shader units (VLIW4) and clocks at 533 - 720 MHz (slightly higher than the HD 7660G). With fast dual-channel memory, performance is similar to a dedicated HD 7670M.

The power consumption of the entire APU is rated at 35 watts, which is comparable to conventional middle-class models of competition. Thus, the APU is best suited for 14 inch notebooks or bigger.

AMD A6-5350M

► remove AMD A6-5350M

The AMD A6-5350M is a mobile dual-core processor based on the Richland-architecture. As successor to the A6-4400M, the A6-5350M has a slightly higher CPU and graphics performance and settles in the low end segment. The APU integrates 2 CPU cores, a DirectX 11 graphics unit and the Northbridge along with a DDR3 memory controller.

Compared to Trinity, Richland has been modified just slightly. Therefore, no changes in the feature set or the Pro-MHz performance can be reported. The design of the chip is still based on the Bulldozer architecture, which consists of so-called modules. Each module integrates 2 integer units, but only one FPU. Just like Trinity, Richland supports nearly all current techniques such as AVX (including FMA), AES or Turbo Core.

According to the clock rates of 2.9 to 3.5 GHz, the A6-5350M performs about 15 percent faster than the A6-4400M and just reaches a Pentium P6100. Consequently, the performance in less demanding applications and games is sufficient.

The graphics unit called Radeon HD 8450G offers 192 shader units (VLIW4) and clocks slightly higher than the HD 7520G. With fast dual-channel memory, performance matches a dedicated Radeon HD 7470M.

The power consumption of the entire APU is rated at 35 watts, which is comparable to conventional middle-class models of competition. Thus, the APU is best suited for 14 inch notebooks or bigger.

AMD A6-5357MAMD A10-5757MAMD A6-5350M
AMD A-SeriesAMD A-SeriesAMD A-Series
RichlandRichlandRichland
: A-Series Richland
AMD A10-5750M2500 - 3500 MHz4 / 4
AMD A10-5757M2500 - 3500 MHz4 / 4
AMD A10-5745M2100 - 2900 MHz4 / 4
AMD A8-5550M2100 - 3100 MHz4 / 4
AMD A8-5557M2100 - 3100 MHz4 / 4
AMD A8-5545M1700 - 2700 MHz4 / 4
AMD A6-5350M2900 - 3500 MHz2 / 2
» AMD A6-5357M2900 - 3500 MHz2 / 2
AMD A4-5150M2700 - 3300 MHz2 / 2
AMD A6-5345M2200 - 2800 MHz2 / 2
AMD A4-5145M2000 - 2600 MHz2 / 2
AMD A10-5750M2500 - 3500 MHz4 / 4
» AMD A10-5757M2500 - 3500 MHz4 / 4
AMD A10-5745M2100 - 2900 MHz4 / 4
AMD A8-5550M2100 - 3100 MHz4 / 4
AMD A8-5557M2100 - 3100 MHz4 / 4
AMD A8-5545M1700 - 2700 MHz4 / 4
AMD A6-5350M2900 - 3500 MHz2 / 2
AMD A6-5357M2900 - 3500 MHz2 / 2
AMD A4-5150M2700 - 3300 MHz2 / 2
AMD A6-5345M2200 - 2800 MHz2 / 2
AMD A4-5145M2000 - 2600 MHz2 / 2
AMD A10-5750M2500 - 3500 MHz4 / 4
AMD A10-5757M2500 - 3500 MHz4 / 4
AMD A10-5745M2100 - 2900 MHz4 / 4
AMD A8-5550M2100 - 3100 MHz4 / 4
AMD A8-5557M2100 - 3100 MHz4 / 4
AMD A8-5545M1700 - 2700 MHz4 / 4
» AMD A6-5350M2900 - 3500 MHz2 / 2
AMD A6-5357M2900 - 3500 MHz2 / 2
AMD A4-5150M2700 - 3300 MHz2 / 2
AMD A6-5345M2200 - 2800 MHz2 / 2
AMD A4-5145M2000 - 2600 MHz2 / 2
2900 - 3500 MHz2500 - 3500 MHz2900 - 3500 MHz
1 MB4 MB1 MB
2 / 24 / 42 / 2
35 35 35
32 32 32
BGABGA
SSE (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, DDR3-1600 ControllerSSE (1, 2, 3, 3S, 4.1, 4.2, 4A), x86-64, AES, AVX, FMA, DDR3-1600 Controller
iGPUAMD Radeon HD 8450G (533 - 720 MHz)AMD Radeon HD 8650G (600 - 720 MHz)AMD Radeon HD 8450G (533 - 720 MHz)

Cinebench R15 - CPU Multi 64Bit
min: 117     avg: 118     median: 117.5 (3%)     max: 118 Points
Cinebench R15 - CPU Single 64Bit
min: 54     avg: 63.5     median: 63.5 (28%)     max: 73 Points
Cinebench R11.5 - CPU Multi 64Bit
min: 2.14     avg: 2.2     median: 2.2 (5%)     max: 2.31 Points
min: 1     avg: 1.2     median: 1.2 (3%)     max: 1.34 Points
Cinebench R11.5 - CPU Single 64Bit
min: 0.87     avg: 0.9     median: 0.9 (34%)     max: 0.89 Points
min: 0.64     avg: 0.8     median: 0.7 (29%)     max: 0.87 Points
Cinebench R10 - Rendering Single 32Bit
2182 Points (22%)
min: 2389     avg: 2490     median: 2480.5 (25%)     max: 2610 Points
Cinebench R10 - Rendering Multiple CPUs 32Bit
3774 Points (6%)
min: 2990     avg: 3740     median: 3956 (7%)     max: 4057 Points
Cinebench R10 - Rendering Multiple CPUs 64Bit
8232 Points (10%)
min: 3558     avg: 4653     median: 4823 (6%)     max: 5407 Points
Cinebench R10 - Rendering Single CPUs 64Bit
3247 Points (30%)
min: 2838     avg: 3259     median: 3377 (31%)     max: 3444 Points
wPrime 2.0x - 1024m *
901 seconds (11%)
1324 seconds (16%)
wPrime 2.0x - 32m *
28.7 seconds (6%)
min: 39.8     avg: 40.9     median: 40.9 (8%)     max: 41.917 seconds
WinRAR - Result
1266 KB/s (13%)
min: 1120     avg: 1169     median: 1169 (12%)     max: 1218 KB/s
X264 HD Benchmark 4.0 - Pass 2
7.6 fps (5%)
min: 7.46     avg: 8.2     median: 8.2 (5%)     max: 9 fps
X264 HD Benchmark 4.0 - Pass 1
39.2 fps (14%)
min: 40.25     avg: 43.4     median: 43.4 (15%)     max: 46.5 fps
TrueCrypt - Serpent Mean 100MB
0.1 GB/s (5%)
min: 0.0868     avg: 0.1     median: 0.1 (4%)     max: 0.09 GB/s
TrueCrypt - Twofish Mean 100MB
0.2 GB/s (6%)
min: 0.163     avg: 0.2     median: 0.2 (5%)     max: 0.164 GB/s
TrueCrypt - AES Mean 100MB
1.1 GB/s (6%)
min: 0.808     avg: 0.8     median: 0.8 (4%)     max: 0.814 GB/s
3DMark 06 - CPU
2986 Points (20%)
min: 1581     avg: 1793     median: 1649 (11%)     max: 2148 Points
Super Pi mod 1.5 XS 1M *
39 Seconds (8%)
min: 28.9     avg: 29     median: 29 (6%)     max: 29.172 Seconds
Super Pi mod 1.5 XS 2M *
86 Seconds (4%)
69 Seconds (3%)
Super Pi Mod 1.5 XS 32M *
2237 Seconds (10%)
1657 Seconds (7%)
SiSoft Sandra Dhrystone (MIPS)
33372 MIPS (16%)
17160 MIPS (8%)
SiSoft Sandra Whetstone (MFLOPS)
22906 MFLOPS (18%)
12710 MFLOPS (10%)
3DMark Vantage - P CPU no PhysX 1280x1024
6493 Points (9%)
min: 2764     avg: 3371     median: 3404 (5%)     max: 3946 Points
3DMark 11 - Performance Physics 1280x720
min: 2533     avg: 2709     median: 2772 (13%)     max: 2823 points
min: 942     avg: 1357     median: 1414.5 (6%)     max: 1656 points
3DMark - Ice Storm Standard Physics 1280x720
min: 11808     avg: 14488     median: 15493 (10%)     max: 15980 Points
3DMark - Ice Storm Extreme Physics 1920x1080
16269 Points (19%)
3DMark - Ice Storm Unlimited Physics 1280x720 offscreen
17364 Points (20%)
3DMark - Cloud Gate Standard Physics 1280x720
min: 907     avg: 1117     median: 1220 (3%)     max: 1294 Points
3DMark - Fire Strike Physics 1920x1080
min: 1185     avg: 1539     median: 1713 (5%)     max: 1804 Points
Geekbench 2 - 32 Bit - Stream
3509 Points (28%)
Geekbench 2 - 32 Bit - Memory
3223 Points (29%)
Geekbench 2 - 32 Bit - Floating Point
3891 Points (8%)
Geekbench 2 - 32 Bit - Integer
3103 Points (6%)
Geekbench 2 - 32 Bit - Total Score
3443 Points (9%)
Sunspider - 1.0 Total Score *
min: 164     avg: 223     median: 247 (3%)     max: 258 ms
Octane V2 - Total Score
min: 8944     avg: 11205     median: 10252 (20%)     max: 14419 Points

Average Benchmarks AMD A10-5757M → 100%

Average Benchmarks AMD A6-5350M → 89%

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* Smaller numbers mean a higher performance
1 This benchmark is not used for the average calculation

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Redaktion, 2017-09- 8 (Update: 2017-09-11)