Bottleneck calculator


AMD A12-9800E Image
CPU Score: 3350
AMD A12-9800E (100%)
    • Used in: Desktop PCs
    • Cores: 4
    • Threads: 4
    • Socket: AM4
    • Clock: 3.1 GHz
    • Turboclock: 3.8 GHz
    • TDP: 35 W
NVIDIA GeForce GTX 1060 5GB Image
GPU Score: 14923
    • Used in: Desktop PCs
    • Memory Size: 5120 MB
    • Core Clock Frequency: 1556 MHz

Average bottleneck percentage: 3.67% (GPU bottleneck)

*This result is based on average CPU and GPU usage from different programs and games. It changes based on operating system, background processes activity and targeted applications. This result is not universal and changes based on differences in hardware and software enviroments. Please do not use this calculator primary as decision maker than as helping tool to understand performance correlations between different components.

Graphic card and processor will work great together on 1080p resolution.

AMD A12-9800E (Clock speed at 100%) with NVIDIA GeForce GTX 1060 5GB (Clock speed at 100%) x1 will produce only 3.67% of GPU bottleneck on 1080p resolution.

Solutions to upgrade your NVIDIA GeForce GTX 1060 5GB

#
GPU
BN
Links
1.
NVIDIA GeForce GTX 1050 Image
NVIDIA GeForce GTX 1050
  • Used in: Desktop PCs
  • Memory Size: 2048 MB
  • Core Clock Frequency: 1354 MHz
Bottleneck: 0.15%
2.
NVIDIA GeForce GTX 960 Image
NVIDIA GeForce GTX 960
  • Used in: Desktop PCs
  • Memory Size: 4096 MB
  • Core Clock Frequency: 1127 MHz
Bottleneck: 0.6%
3.
NVIDIA GeForce GTX 950 Image
NVIDIA GeForce GTX 950
  • Used in: Desktop PCs
  • Memory Size: 2048 MB
  • Core Clock Frequency: 1024 MHz
Bottleneck: 1.97%
4.
NVIDIA GeForce GTX 770 Image
NVIDIA GeForce GTX 770
  • Used in: Desktop PCs
  • Memory Size: 4096 MB
  • Core Clock Frequency: 1046 MHz
Bottleneck: 0.45%
5.
AMD Radeon R9 380 Image
AMD Radeon R9 380
  • Used in: Desktop PCs
  • Memory Size: 4096 MB
  • Core Clock Frequency: 970 MHz
Bottleneck: 0.69%
6.
AMD Radeon R9 280X Image
AMD Radeon R9 280X
  • Used in: Desktop PCs
  • Memory Size: 3072 MB
  • Core Clock Frequency: 850 MHz
Bottleneck: 0.25%
7.
NVIDIA Quadro M4000 Image
NVIDIA Quadro M4000
  • Used in: Workstations
  • Memory Size: 8192 MB
  • Core Clock Frequency: 800 MHz
Bottleneck: 0.18%
8.
NVIDIA GeForce GTX 670 Image
NVIDIA GeForce GTX 670
  • Used in: Desktop PCs
  • Memory Size: 4096 MB
  • Core Clock Frequency: 915 MHz
Bottleneck: 2.08%
9.
AMD Radeon R9 380X Image
AMD Radeon R9 380X
  • Used in: Desktop PCs
  • Memory Size: 4096 MB
  • Core Clock Frequency: 970 MHz
Bottleneck: 0.38%
10.
NVIDIA GeForce GTX 680 Image
NVIDIA GeForce GTX 680
  • Used in: Desktop PCs
  • Memory Size: 4096 MB
  • Core Clock Frequency: 1006 MHz
Bottleneck: 1.36%
11.
NVIDIA GeForce GTX 760 Ti Image
NVIDIA GeForce GTX 760 Ti
  • Used in: Desktop PCs
  • Memory Size: 2048 MB
  • Core Clock Frequency: 915 MHz
Bottleneck: 2.08%
12.
AMD Radeon Pro Vega 20 Image
AMD Radeon Pro Vega 20
  • Used in: Desktop PCs
Bottleneck: 0.25%
13.
AMD Radeon HD 7970 / R9 280X Image
AMD Radeon HD 7970 / R9 280X
  • Used in: Desktop PCs
  • Memory Size: 3072 MB
  • Core Clock Frequency: 1000 MHz
Bottleneck: 2.04%
14.
AMD Radeon HD 8990 Image
AMD Radeon HD 8990
  • Used in: Desktop PCs
  • Memory Size: 3072 MB
  • Core Clock Frequency: 950 MHz
Bottleneck: 0.17%
15.
AMD Radeon HD 7950 / R9 280 Image
AMD Radeon HD 7950 / R9 280
  • Used in: Desktop PCs
  • Memory Size: 3072 MB
  • Core Clock Frequency: 850 MHz
Bottleneck: 3.55%
16.
NVIDIA GeForce GTX 690 Image
NVIDIA GeForce GTX 690
  • Used in: Desktop PCs
  • Memory Size: 2048 MB
  • Core Clock Frequency: 915 MHz
Bottleneck: 0.44%
17.
AMD Radeon R9 280 Image
AMD Radeon R9 280
  • Used in: Desktop PCs
  • Memory Size: 3072 MB
  • Core Clock Frequency: 827 MHz
Bottleneck: 2.24%
18.
AMD Radeon Pro WX 5100 Image
AMD Radeon Pro WX 5100
  • Used in: Workstations
  • Memory Size: 8096 MB
  • Core Clock Frequency: 926-1090 MHz
Bottleneck: 0.76%
19.
NVIDIA Quadro K5200 Image
NVIDIA Quadro K5200
  • Used in: Workstations
  • Memory Size: 8192 MB
  • Core Clock Frequency: 650 MHz
Bottleneck: 0.63%
20.
AMD Radeon HD 7990 Image
AMD Radeon HD 7990
  • Used in: Desktop PCs
  • Memory Size: 3072 MB
  • Core Clock Frequency: 950 MHz
Bottleneck: 1.12%
21.
AMD Radeon R9 285 / 380 Image
AMD Radeon R9 285 / 380
  • Used in: Desktop PCs
  • Memory Size: 2048 MB
  • Core Clock Frequency: 918 MHz
Bottleneck: 2.15%
22.
AMD FirePro W7100 Image
AMD FirePro W7100
  • Used in: Workstations
  • Memory Size: 8192 MB
  • Core Clock Frequency: 920 MHz
Bottleneck: 2.84%
23.
AMD FirePro W9000 Image
AMD FirePro W9000
  • Used in: Workstations
  • Memory Size: 6144 MB
  • Core Clock Frequency: 975 MHz
Bottleneck: 1.84%

Check Out How Good Will This Configuration Run Games

Results can vary in comparison to reality. Frames per second can vary because of differences in hardware and software enviroments.

Frames per second are calculated for factory clock of CPU and only one GPU.

Game
Frames Per Second
Low Settings - 1.25% Bottlenecked by CPU
56 FPS
Low Settings - 49.25% Bottlenecked by CPU
134 FPS
Medium Settings - 47.28% Bottlenecked by GPU
64.3 FPS
Medium Settings - 100% Bottlenecked by CPU
68.1 FPS
Ultra-High Settings - 95.26% Bottlenecked by CPU
101.3 FPS
Low Settings - 3.21% Bottlenecked by CPU
46.8 FPS
Low Settings - 5.12% Bottlenecked by GPU
50.8 FPS
Low Settings - 100% Bottlenecked by CPU
53.4 FPS
Ultra-High Settings
200+ FPS
Medium Settings - 43.47% Bottlenecked by CPU
46.7 FPS

If you are wondering how much Frames per Second you can expect playing specific game visit our Can You Run It Calculator and find out!


Random-access memory icon

RAM recommendation

Random-access memory is a form of computer data storage which stores frequently used program instructions to increase the general speed of a system.
AMD A12-9800E will need at least 8GB of RAM to work well. If you are planning to work with some memory intense programs, or run multiple programs at ones, you should consider adding even more memory. Adding more RAM memory won't significally speed up you computer, find the balance between quality and quantity. Memory should be splitted in multiple sticks based on architecture of your motherboard. On the market there are multiple types of memory architectures from single-channel memory upto eight-channel memory.

Solid-state disk icon

Storage recommendation

Solid-state drives (SSDs) are expensive and hard disk drives (HDDs) are slow. Now that you can buy a hybrid of the two, there are a lot of choices with varying costs.
Case #1: Cost Is Irrelevant, I Have Small Storage Needs, and Speed Is Paramount - Buy SSD
Case #2: Cost Is Irrelevant, I Have Large Storage Needs, and Speed Is Important - Buy SSD and HDD
Case #3: I′m on a Budget, I Have Large Storage Needs, and Speed Is Irrelevant - Buy HDD
Case #4: I′m on a Budget, I Have Large Storage Needs, and Speed Is Important - Buy Hybrid



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