Bottleneck calculator


AMD A10-4657M APU image/logo
CPU Score: 54
  • Cores: 4
  • Logical Cores: 4
  • Clock: 2.3 GHz
  • Turboclock: 3.2 GHz
  • TDP: 35 W
  • Socket: FP2
AMD Radeon Vega 8 image/logo
GPU Score: 101
AMD Radeon Vega 8 x1 (100%)
  • Bus Interface: Integrated
  • Core Clock Frequency: 1100 MHz

Average bottleneck percentage: 15.49%

*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.

Your graphic card is too weak for this processor.

AMD A10-4657M APU (Clock speed at 100%) with AMD Radeon Vega 8 (Clock speed at 100%) x1 will produce 15.49% of bottleneck. Everything over 10% is considered as bottleneck.



We recommend you to replace AMD Radeon Vega 8 with AMD Radeon HD 7770

AMD Radeon Vega 8 image/logo
GPU Score: 101
AMD Radeon Vega 8 x1 (100%)
  • Bus Interface: Integrated
  • Core Clock Frequency: 1100 MHz
AMD Radeon HD 7770 image/logo
GPU Score: 119
AMD Radeon HD 7770 x1 (100%)
  • Bus Interface: PCIe x16
  • Core Clock Frequency: 1020 MHz
  • Memory: 1 GB
  • TDP: 80 W
  • Chipset: Radeon HD 7770
  • Memory Type: GDDR5
  • Core Clock: 1100 MHz
  • Effective Mem. Clock: 1300 MHz
  • SLI / CrossFire: 2-way CrossFire Capable
  • DVI Ports: 2
  • HDMI Ports: 1
  • Mini-HDMI Ports: 0
  • DP Ports: 1
  • Mini-DP Ports: 0
  • MBO Slots Width: 2
  • Length: 225 mm

Solutions to upgrade your AMD Radeon Vega 8

#
Image
GPU
BN
Links
1.
AMD Radeon HD 7770 Image
AMD Radeon HD 7770 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCI Express 3.0 x16
  • Core Clock Frequency: 1020 MHz
  • Memory: 2048 MB
  • TDP: 80 W
Bottleneck: Low
2.
NVIDIA GeForce GTX 460 Image
NVIDIA GeForce GTX 460 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 675 MHz
  • Memory: 768 MB
  • TDP: 150 W
Bottleneck: Low
3.
AMD Radeon HD 6850 Image
AMD Radeon HD 6850 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 775 MHz
  • Memory: 1024 MB
  • TDP: 127 W
Bottleneck: Low
4.
AMD Radeon HD 6870 Image
AMD Radeon HD 6870 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 900 MHz
  • Memory: 2048 MB
  • TDP: 151 W
Bottleneck: Low
5.
NVIDIA GeForce GTX 650 Ti Image
NVIDIA GeForce GTX 650 Ti x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 928 MHz
  • Memory: 2048 MB
  • TDP: 110 W
Bottleneck: Low
6.
AMD Radeon HD 5850 Image
AMD Radeon HD 5850 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 725/725 MHz
  • Memory: 2048 MB
  • TDP: 151 W
Bottleneck: Low
7.
AMD Radeon HD 5870 Image
AMD Radeon HD 5870 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 850/850 MHz
  • Memory: 2048 MB
  • TDP: 228 W
Bottleneck: Low
8.
NVIDIA GeForce GT 1030 Image
NVIDIA GeForce GT 1030 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 3.0 x4
  • Core Clock Frequency: 1227 MHz
  • Memory: 2048 MB
  • TDP: 30 W
Bottleneck: Low
9.
AMD Radeon RX Vega 11 Image
AMD Radeon RX Vega 11 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: Integrated
  • Core Clock Frequency: 1250 MHz
Bottleneck: Low
10.
NVIDIA GeForce GTX 745 Image
NVIDIA GeForce GTX 745 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 1033 MHz
  • Memory: 4096 MB
  • TDP: 55 W
Bottleneck: Low
11.
NVIDIA GeForce GTX 460 SE Image
NVIDIA GeForce GTX 460 SE x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 650 MHz
  • Memory: 1024 MB
  • TDP: 150 W
Bottleneck: Low
12.
NVIDIA Quadro K620 Image
NVIDIA Quadro K620 x1 (100%)
  • Used in: Workstations
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 1000 MHz
  • Memory: 2048 MB
  • TDP: 45 W
Bottleneck: Low
13.
AMD Radeon HD 5970 Image
AMD Radeon HD 5970 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 725/725 MHz
  • Memory: 2048 MB
  • TDP: 294 W
Bottleneck: Low
14.
NVIDIA Quadro K4000 Image
NVIDIA Quadro K4000 x1 (100%)
  • Used in: Workstations
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 810.5 MHz
  • Memory: 3072 MB
  • TDP: 80 W
Bottleneck: Low
15.
AMD Radeon HD 6790 Image
AMD Radeon HD 6790 x1 (105%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 840 MHz
  • Memory: 1024 MB
  • TDP: 150 W
Bottleneck: Low
16.
NVIDIA GeForce GTX 560 SE Image
NVIDIA GeForce GTX 560 SE x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 736 MHz
  • Memory: 1024 MB
  • TDP: 150 W
Bottleneck: Low
17.
AMD Radeon HD 5830 Image
AMD Radeon HD 5830 x1 (105%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.1 x16
  • Core Clock Frequency: 800 MHz
  • Memory: 1024 MB
  • TDP: 175 W
Bottleneck: Low
18.
NVIDIA Quadro K3100M Image
NVIDIA Quadro K3100M x1 (100%)
  • Used in: Workstations
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 680 MHz
  • Memory: 4096 MB
  • TDP: 75 W
Bottleneck: Low
19.
NVIDIA Quadro 5000 Image
NVIDIA Quadro 5000 x1 (100%)
  • Used in: Workstations
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 513 MHz
  • Memory: 2560 MB
  • TDP: 152 W
Bottleneck: Low
20.
NVIDIA GeForce GTX 460 v2 Image
NVIDIA GeForce GTX 460 v2 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 778 MHz
  • Memory: 1024 MB
  • TDP: 160 W
Bottleneck: Low
21.
NVIDIA GeForce GTX 645 Image
NVIDIA GeForce GTX 645 x1 (105%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 823.5 MHz
  • Memory: 1024 MB
  • TDP: 64 W
Bottleneck: Low
22.
NVIDIA GeForce GTX 555 Image
NVIDIA GeForce GTX 555 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 2.0 x16
  • Core Clock Frequency: 736 MHz
  • Memory: 1024 MB
  • TDP: 150 W
Bottleneck: Low
23.
NVIDIA Quadro K4100M Image
NVIDIA Quadro K4100M x1 (100%)
  • Used in: Workstations
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 706 MHz
  • Memory: 4096 MB
  • TDP: 100 W
Bottleneck: Low
24.
NVIDIA Quadro K4000M Image
NVIDIA Quadro K4000M x1 (100%)
  • Used in: Workstations
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 600 MHz
  • Memory: 4096 MB
  • TDP: 100 W
Bottleneck: Low
25.
AMD Radeon R7 450 Image
AMD Radeon R7 450 x1 (100%)
  • Used in: Desktop PCs
  • Bus Interface: PCIe 3.0 x16
  • Core Clock Frequency: 1050 MHz
  • Memory: 2048 MB
  • TDP: 65 W
Bottleneck: Low

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 A10-4657M APU 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

See also

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