CPU comparison with benchmarks |
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CPU lineage |
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AMD G-T16R or AMD G-T16R – which processor offers superior performance? In this comparison, we examine disparities and assess which of these two CPUs outperforms the other. We delve into technical specifications and benchmark outcomes.
The AMD G-T16R features 1 processor cores and has the capability to manage 1 threads concurrently. It was released in Q1/2012 and belongs to the 1 generation of the AMD G series. The AMD E-300 features 2 processor cores and has the capability to manage 2 threads concurrently. It was released in Q3/2011 and belongs to the 1 generation of the AMD E series. To use the AMD E-300, you'll need a motherboard with a BGA 413 socket. |
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AMD G | Family | AMD E |
Mobile | Segment | Mobile |
1 | Generation | 1 |
AMD G-T16R | Name | AMD E-300 |
AMD G | Group | AMD E/E1/E2-1000 |
CPU Cores and Base Frequency |
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The AMD G-T16R has 1 CPU cores and can calculate 1 threads in parallel.
The clock frequency of the AMD G-T16R is 0.62 GHz The processor has one core only. The AMD E-300 has 2 CPU cores and can calculate 2 threads in parallel. The clock frequency of the AMD E-300 is 1.3 GHz |
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No | Overclocking | No |
0.62 GHz | Frequency | 1.3 GHz |
1x | Cores | 2x |
1 | Threads | 2 |
1 | CPU Cores | 2 |
normal | Core architecture | normal |
No | Hyperthreading | No |
Internal Graphics |
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The AMD G-T16R has integrated graphics, called iGPU for short.
Specifically, the AMD G-T16R uses the AMD Radeon HD 6250, which has 80 texture shaders and 1 execution units. The iGPU uses the system's main memory as graphics memory and sits on the processor's die. The AMD E-300 has integrated graphics, called iGPU for short. Specifically, the AMD E-300 uses the AMD Radeon HD 6310, which has 80 texture shaders |
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1 | Execution units | 1 |
3 | Generation | 3 |
11 | Direct X | 11 |
80 | Shaders | 80 |
1.0 GB | Max. GPU Memory | 1.0 GB |
0.28 GHz | GPU frequency | 0.49 GHz |
40 nm | Technology | 40 nm |
Q4/2010 | Release date | Q4/2010 |
-- | Max. displays | -- |
-- | GPU (Turbo) | -- |
AMD Radeon HD 6250 | GPU name | AMD Radeon HD 6310 |
Artificial Intelligence and Machine Learning |
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-- | AI specifications | -- |
-- | AI hardware | -- |
Hardware codec support |
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A photo or video codec that is accelerated in hardware can greatly accelerate the working speed of a processor and extend the battery life of notebooks or smartphones when playing videos.
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Decode | AVC | Decode |
No | VP8 | No |
No | h265 / HEVC (10 bit) | No |
Decode | h264 | Decode |
No | h265 / HEVC (8 bit) | No |
No | VP9 | No |
Decode / Encode | JPEG | Decode / Encode |
Decode | VC-1 | Decode |
No | AV1 | No |
Memory & PCIe |
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0 bytes | Max. Memory | 0 bytes |
No | ECC | No |
No | AES-NI | Yes |
1 | Memory channels | 1 |
pci | PCIe | pci |
-- | Bandwidth | -- |
DDR3L-1066 | Memory type | DDR3-1066 |
Thermal Management |
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The processor has a thermal design power (TDP) of 4 W watts.
TDP indicates the cooling solution needed to effectively manage the processor's heat. It generally provides an approximate indication of the actual power consumption of the CPU itself. The processor has a thermal design power (TDP) of 18 W watts. |
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-- | Tjunction max | -- |
4 W | TDP (PL1 / PBP) | 18 W |
Technical details |
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The AMD G-T16R is manufactured using a 40 nm process.
A smaller manufacturing process indicates a more contemporary and energy-efficient CPU. In total, this processor boasts a generous 1.0 MB cache. A substantial cache can significantly enhance the processor's performance, particularly in scenarios like gaming. The AMD E-300 is manufactured using a 32 nm process. |
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1.0 MB | L3-Cache | 1.0 MB |
Operating systems | ||
SSE3, SSE4a | ISA extensions | SSE4a, SSE4.1, SSE4.2, AVX |
x86-64 (64 bit) | Instruction set (ISA) | x86-64 (64 bit) |
-- | Release price | -- |
Technical data sheet | Documents | Technical data sheet |
Q1/2012 | Release date | Q3/2011 |
0 bytes | L2-Cache | 0 bytes |
AMD-V | Virtualization | AMD-V |
-- | Part Number | -- |
Ontario (Bobcat) | Architecture | Zacate (Bobcat) |
40 nm | Technology | 32 nm |
Socket | BGA 413 | |
-- | Chip design | -- |