GPU Comparison
RADEON
AMD Radeon HD 8400 IGP
CORE STATE
Kalindi
VRAM
System Shared
CLOCK SPEED
—
TDP
25 W
BUS WIDTH
System Shared
ARCHITECTURE
GCN 2.0
PROCESS
28 nm
LAUNCH DATE
2013
VS
GEFORCE
GeForce GTX 1650 Mobile
CORE STATE
TU117
VRAM
4 GB
CLOCK SPEED
1560 MHz
TDP
50 W
BUS WIDTH
128 bit
ARCHITECTURE
Turing
PROCESS
12 nm
LAUNCH DATE
2019
DETAILED SPECIFICATIONS
SPECIFICATION
HD 8400 IGP
GTX 1650 Mobile
Core Specs
Shading Units
128
1,024
+700.0%
Shaders
128
1,024
+700.0%
TMUs
8
64
+700.0%
ROPs
4
32
+700.0%
Compute Units
2
—
SM Count
—
16
Clocks
Base Clock
—
1395 MHz
Boost Clock
—
1560 MHz
GPU Clock
600 MHz
—
Memory Clock
System Shared
2001 MHz
8 Gbps effective
Memory
Memory Size
System Shared
4 GB
VRAM (MB)
—
4,096
Memory Type
System Shared
GDDR5
Memory Bus
System Shared
128 bit
Bandwidth
System Dependent
128.1 GB/s
Cache
L1 Cache
—
64 KB (per SM)
L2 Cache
—
1024 KB
Performance
Pixel Rate
2.400 GPixel/s
49.92 GPixel/s
Texture Rate
4.800 GTexel/s
99.84 GTexel/s
FP32 (TFLOPS)
153.6 GFLOPS
3.195 TFLOPS
FP64 (TFLOPS)
9.600 GFLOPS (1:16)
99.84 GFLOPS (1:32)
FP16 (TFLOPS)
—
6.390 TFLOPS (2:1)
Power
TDP
25 W
50 W
TDP (W)
25
50
+100.0%
Power Connectors
—
None
Architecture
Architecture
GCN 2.0
Turing
GPU Name
Kalindi
TU117
Generation
GCN 2.0 IGP
(Kabini)
GeForce 16 Mobile
Process Size
28 nm
12 nm
Transistors
1,178 million
4,700 million
Die Size
110 mm²
200 mm²
Foundry
TSMC
TSMC
Density
10.7M / mm²
23.5M / mm²
API Support
DirectX
12 (12_0)
12 (12_1)
OpenGL
4.6
4.6
Vulkan
1.2.170
1.4
OpenCL
2.1
3.0
CUDA
—
7.5
Shader Model
6.5
6.8
Physical
Slot Width
IGP
—
Outputs
Motherboard Dependent
Portable Device Dependent
Bus Interface
IGP
PCIe 3.0 x16
Other
Production
End-of-life
End-of-life
Predecessor
TeraScale 3 IGP
GeForce 10 Mobile
Successor
GCN 3.0 IGP
GeForce 20 Mobile