Amd Quad A8 Pro-7150b Up to 32ghz Review
AMD A8 Pro-7150B
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TheAMD A8 Pro-7150B is a ability efficient ULV (Ultra Low Voltage) quad-core processor based on the Kaveri architecture. It was revealed in June 2014 for notebooks and is manufactured past GlobalFoundries using a 28 nm SHP procedure. In addition to having two CPU modules for a full of iv integer cores clocked at 1.9 - 3.2 GHz, the AMD fleck too integrates a Radeon R5 GPU clocked at upwards to 533 MHz with 384 GCN shaders and a dual-channel DDR3-1600 memory controller.
Technically, the 7150B is most identical with the consumer model A10-7300. However, AMD guarantees an particularly high stability and immovability for the business-oriented Pro-Series.
Compages
Kaveri is the successor to the 2013 Richland compages (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 ane 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, run across our detailed analysis here:
Assay of the AMD Kaveri Notebook Platform
Performance
According to the clock rates, the A8 Pro-7150B should offering a CPU operation level similar to the Haswell-based Intel Cadre i3-4010U. Overall, the 7150B volition exist sufficient for all daily workloads (Office, Cyberspace browsing, multimedia) likewise as light multitasking. Detailed criterion can be institute on the cpu page of the A10-7300 APU.
Graphics
TheRadeon R5 (Kaveri) GPU of the A8 Pro-7150B features a core clock of upward to 533 MHz and 384 shader units. Since the GPU is based on AMD's GCN 1.1 architecture, both DirectX 11.ii "Tier 2" and Pall are supported. Furthermore, the GPU can be used for full general purpose computing in various applications, such equally Adobe Photoshop via the OpenCL API.
In terms of 3D operation, the GPU should exist roughly as fast equally a dedicated GeForce GT 720M and tin can handle many electric current games at low or medium settings at (W)XGA resolution.
Power Consumption
The power consumption of the unabridged APU is rated at 19 Watts, which is somewhat higher up the Haswell ULV CPUs from Intel (15 W including chipset). Nevertheless, the A8 Pro-7150B is suited for 12 - 13-inch notebooks or larger.
AMD FX-7600P
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The quad-coreAMD FX-7600P is a mid-range processor based on the Kaveri architecture. It was revealed in June 2014 for notebooks and is manufactured past GlobalFoundries using a 28 nm SHP process. In addition to having two CPU modules for a full of four integer cores clocked at 2.vii - 3.6 GHz, the AMD chip also integrates a Radeon R7 GPU clocked at upwards to 686 MHz with 512 GCN shaders and a dual-channel DDR3-2133 retention controller. The FX-7600P was the fastest mobile Kaveri APU in 2014.
In addition to the CPU and GPU cores, the APU also integrates a dual-channel DDR3-2133 retentivity controller, UVD 4.0 video decoder, VCE 2.0 video encoder and TrueAudio sound processor.
Architecture
Kaveri is the successor to the 2013 Richland architecture (due east.k. A10-5750M). The revised CPU cores, codenamed Steamroller, stand for the third generation of the module-based Bulldozer design. A number of major changes include modified decoders (now i 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 compages, run across our detailed analysis here:
Analysis of the AMD Kaveri Notebook Platform
Operation
In our benchmarks with a demo laptop from AMD the performance of the processor cores was comparable to a Haswell Cadre i5-4210U. The unmarried thread performance is the clogging of the CPU and only on a level of the previous A10-5750M (Richland) or Haswell Cadre i3-4030U.
Overall, the FX-7600P will be sufficient for multitasking daily workloads (Office, Internet browsing, multimedia) every bit well as more demanding programs.
Graphics
TheRadeon R7 (Kaveri) GPU of the FX-7600P features a core clock of upwardly to 686 MHz and 512 shader units. Since the GPU is based on AMD's GCN ane.i architecture, both DirectX 11.2 "Tier 2" and Drape are supported. Furthermore, the GPU tin can be used for general purpose computing in various applications, such as Adobe Photoshop via the OpenCL API.
In terms of 3D functioning, the GPU benefits from its loftier raw computational power and memory support upwardly to DDR3-2133. Thus, the Radeon R7 is just slightly behind Intel'southward Iris Pro Graphics 5200 and roughly on par with a dedicated GeForce GT 730M. The integrated GPU in the Core i3 and i5 Haswell processors (like HD Graphics 4400) is left conspicuously behind.
As of Q2 2014, the Radeon R7 in the FX-7600P is one of the fastest integrated notebook graphics solutions that can handle many electric 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 consequence, the FX-7600P is best suited for xiv-inch notebooks or larger.
AMD A8-7100
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TheAMD A8-7100 is a power efficient ULV (Ultra Low Voltage) quad-cadre processor based on the Kaveri architecture. Information technology was revealed in June 2014 for notebooks and is manufactured past GlobalFoundries using a 28 nm SHP process. In add-on to having two CPU modules for a full of four integer cores clocked at one.8 - three.0 GHz, the AMD chip also integrates a Radeon R5 GPU clocked at up to 514 MHz with 256 GCN shaders and a dual-channel DDR3-1600 memory controller.
Architecture
Kaveri is the successor to the 2013 Richland architecture (e.g. A10-5750M). The revised CPU cores, codenamed Steamroller, correspond the tertiary generation of the module-based Bulldozer blueprint. 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 operation per clock slightly over a similarly clocked Richland APU. For more than details about the AMD Kaveri compages, come across our detailed analysis here:
Analysis of the AMD Kaveri Notebook Platform
Performance
According to our benchmarks, the A8-7100 offers a CPU performance similar to the Haswell-based Intel Core i3-4010U. While the Cadre i3 wins in single-thread benchmarks, the A8-7100 takes the lead in some multi-thread tests. Overall, the A8-7100 will be sufficient for all daily workloads (Office, Cyberspace browsing, multimedia) as well every bit light multitasking.
Graphics
TheRadeon R5 (Kaveri) GPU of the A8-7100 features a core clock of up to 514 MHz and 256 shader units. Since the GPU is based on AMD's GCN one.1 architecture, both DirectX 11.2 "Tier 2" and Mantle are supported. Furthermore, the GPU can be used for general purpose computing in diverse applications, such as Adobe Photoshop via the OpenCL API.
In terms of 3D functioning, the GPU is roughly as fast every bit a defended GeForce 710M and can handle many current games at depression settings and (W)XGA resolution (as of 2014).
Power Consumption
The power consumption of the entire APU is rated at 19 Watts, which is somewhat in a higher place the Haswell ULV CPUs from Intel (15 W including chipset). Nevertheless, the A8-7100 is suited for 12 - 13-inch notebooks or larger.
Cinebench R23 - Cinebench R23 CPU (Multi Core)
Cinebench R23 - Cinebench R23 CPU (Unmarried Core)
Cinebench R20 - Cinebench R20 CPU (Unmarried Core)
Cinebench R20 - Cinebench R20 CPU (Multi Core)
Cinebench R15 - Cinebench R15 CPU Multi 64 Flake
min: 211 avg: 224 median: 228 (2%) max: 232 Points
min: 126 avg: 133 median: 133 (1%) max: 140 Points
Cinebench R15 - Cinebench R15 CPU Single 64 Fleck
min: 72 avg: 74.3 median: 75 (26%) max: 76 Points
min: 40 avg: 44 median: 44 (15%) max: 48 Points
Cinebench R11.5 - Cinebench R11.5 CPU Multi 64 Scrap
min: ii.38 avg: 2.five median: 2.v (5%) max: 2.68 Points
min: i.55 avg: 1.8 median: 1.8 (iii%) max: 1.97 Points
Cinebench R11.v - Cinebench R11.5 CPU Single 64 Scrap
min: 0.81 avg: 0.8 median: 0.8 (24%) max: 0.88 Points
min: 0.54 avg: 0.6 median: 0.6 (16%) max: 0.56 Points
Cinebench R10 - Cinebench R10 Rend. Unmarried (32bit)
min: 2472 avg: 2590 median: 2555 (23%) max: 2742 Points
min: 1287 avg: 1379 median: 1379 (12%) max: 1471 Points
Cinebench R10 - Cinebench R10 Rend. Multi (32bit)
min: 6602 avg: 7256 median: 7418 (10%) max: 7749 Points
min: 4103 avg: 4134 median: 4134 (6%) max: 4165 Points
Cinebench R10 - Cinebench R10 Rend. Multi (64bit)
Cinebench R10 - Cinebench R10 Rend. Single (64bit)
wPrime 2.10 - wPrime 2.0 1024m *
min: 966.584 avg: 984 median: 984 (12%) max: 1001.37 s
wPrime two.10 - wPrime 2.0 32m *
min: sixteen.three avg: 16.four median: xvi.iv (iii%) max: xvi.5 s
min: 30.719 avg: 33.ii median: 33.2 (seven%) max: 35.736 s
WinRAR - WinRAR 4.0
min: 1200 avg: 1500 median: 1500 (x%) max: 1800 Points
min: 1409 avg: 1417 median: 1416.v (9%) max: 1424 Points
X264 Hard disk Benchmark 4.0 - x264 Pass two
min: 11 avg: 11.1 median: 11.ane (v%) max: 11.1 fps
X264 Hard disk drive Benchmark iv.0 - x264 Laissez passer 1
min: 75.5 avg: 81.5 median: 81.5 (22%) max: 87.5 fps
min: 55.7 avg: 56 median: 56 (15%) max: 56.two fps
HWBOT x265 Benchmark v2.2 - HWBOT x265 4k Preset
TrueCrypt - TrueCrypt Ophidian
min: 0.217 avg: 0.2 median: 0.2 (viii%) max: 0.221 GB/s
min: 0.132 avg: 0.i median: 0.one (5%) max: 0.135 GB/s
TrueCrypt - TrueCrypt Twofish
min: 0.35 avg: 0.4 median: 0.4 (7%) max: 0.357 GB/s
min: 0.211 avg: 0.2 median: 0.2 (4%) max: 0.212 GB/s
TrueCrypt - TrueCrypt AES
min: 1.vii avg: 1.8 median: 1.8 (half-dozen%) max: 1.viii GB/s
min: ane avg: 1.1 median: 1.1 (4%) max: ane.i GB/south
R Benchmark 2.v - R Criterion 2.v *
3DMark 06 - CPU - 3DMark 06 - CPU
min: 3023 avg: 3400 median: 3569 (8%) max: 3608 Points
Super Pi modern 1.5 XS 1M - Super Pi mod i.v XS 1M *
min: 21.3 avg: 22.4 median: 22.iv (5%) max: 23.five south
min: 26.547 avg: 27.2 median: 27.2 (half dozen%) max: 27.785 due south
Super Pi mod 1.5 XS 2M - Super Pi mod 1.5 XS 2M *
min: 33.553 avg: 48 median: 48 (ii%) max: 62.36 south
Super Pi Modern ane.5 XS 32M - Super Pi modern 1.5 XS 32M *
3DMark Vantage - 3DM Vant. Perf. CPU no Physx
min: 5981 avg: 6755 median: 6754.five (7%) max: 7528 Points
min: 4846 avg: 4887 median: 4886.5 (5%) max: 4927 Points
3DMark eleven - 3DM11 Performance Physics
min: 2348 avg: 2584 median: 2467 (9%) max: 2938 Points
min: 1666 avg: 1710 median: 1710 (vi%) max: 1754 Points
3DMark - 3DMark Ice Storm Physics
min: 23143 avg: 25133 median: 25132.5 (16%) max: 27122 Points
min: 10696 avg: 11244 median: 11243.5 (seven%) max: 11791 Points
3DMark - 3DMark Water ice Storm Farthermost Physics
3DMark - 3DMark Ice Tempest Unlimited Physics
3DMark - 3DMark Cloud Gate Physics
min: 2123 avg: 2203 median: 2202.5 (six%) max: 2282 Points
min: 1062 avg: 1119 median: 1119 (3%) max: 1176 Points
3DMark - 3DMark Fire Strike Standard Physics
min: 2956 avg: 3255 median: 3254.5 (8%) max: 3553 Points
min: 1490 avg: 1581 median: 1581 (four%) max: 1672 Points
3DMark - 3DMark Time Spy CPU
Geekbench 2 - 32 Bit - Geekbench Stream
min: 2503 avg: 3297 median: 3297 (27%) max: 4091 Points
min: 2810 avg: 2901 median: 2900.5 (23%) max: 2991 Points
Geekbench 2 - 32 Bit - Geekbench Memory
min: 2247 avg: 2767 median: 2767 (25%) max: 3287 Points
min: 2381 avg: 2432 median: 2431.5 (22%) max: 2482 Points
Geekbench 2 - 32 Bit - Geekbench Floating Point
min: 5275 avg: 5334 median: 5334 (10%) max: 5393 Points
min: 4575 avg: 4583 median: 4582.five (nine%) max: 4590 Points
Geekbench 2 - 32 Fleck - Geekbench Integer
min: 6242 avg: 6317 median: 6316.5 (13%) max: 6391 Points
min: 4360 avg: 4382 median: 4382 (9%) max: 4404 Points
Geekbench 2 - 32 Bit - Geekbench Full Score
min: 4824 avg: 4961 median: 4960.5 (13%) max: 5097 Points
min: 3889 avg: 3914 median: 3913.5 (10%) max: 3938 Points
Geekbench iii - Geekbench 3 32 Bit Multi-Core
min: 5210 avg: 5308 median: 5307.5 (ix%) max: 5405 Points
min: 3319 avg: 3337 median: 3337 (6%) max: 3355 Points
Geekbench 3 - Geekbench three 32 Bit Single-Core
min: 1861 avg: 1893 median: 1892.v (39%) max: 1924 Points
min: 1459 avg: 1473 median: 1473 (30%) max: 1487 Points
Geekbench 3 - Geekbench 3 64 Bit Multi-Core
Geekbench 3 - Geekbench three 64 Bit Single-Cadre
Geekbench 5.3 - Geekbench 5.1 - 5.4 64 Bit Single-Core
Geekbench v.three - Geekbench v.i - 5.four 64 Bit Multi-Core
Mozilla Kraken 1.1 - Kraken 1.i Total Score *
min: 2466 avg: 2886 median: 2610.5 (iii%) max: 3856 ms
Sunspider - Sunspider i.0 Full Score *
min: 142.1 avg: 201 median: 201.iii (2%) max: 260.5 ms
Octane V2 - Octane V2 Full Score
min: 10177 avg: 14762 median: 17046 (18%) max: 17063 Points
WebXPRT 3 - WebXPRT 3 Score
Average Benchmarks AMD FX-7600P → NAN% n=
Boilerplate Benchmarks AMD A8-7100 → NAN% n=
- Range of criterion values for this graphics card
- Average benchmark values for this graphics menu
* Smaller numbers mean a higher operation
i This benchmark is non used for the average adding
Source: https://www.notebookcheck.net/A8-Pro-7150B-vs-FX-7600P-vs-A8-7100_5995_5987_5992.247596.0.html
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