The AMD Ryzen AI Max Plus 395 packs a punch, and enthusiasts are pushing it to its limits. Paired with a mini PC, this processor is being overclocked to desktop-level performance to see how far it can go.
Key Features of the Ryzen AI Max Plus 395
The Ryzen AI Max Plus 395 features a base clock of 5.1 GHz and an integrated Radeon 8060SIG iGPU. Coupled with a system like the Beink GTR9 mini PC, users can fine-tune performance via advanced BIOS options, getting desktop-level power from a small form factor.
Core Specs:
- 16 cores, 32 threads
- Base clock: 5.1 GHz
- Integrated Radeon 8060SIG iGPU
Overclocking Methodology
Experimenters are focusing on maximizing three key areas to boost performance:
- CPU Boost Clocks: Increasing beyond the default 5.1 GHz.
- GPU Clock Speeds: Pushing the Radeon 8060SIG iGPU to its limit for enhanced graphics.
- TDP Adjustment: Raising the Thermal Design Power to sustain higher performance under load.
Achieving stable overclocks requires careful balancing of performance gains and heat management, often involving advanced BIOS settings and custom fan curves.
Ryzen AI Max 395 Overclocking Demonstration
Performance Benchmarks
Overclocking the Ryzen AI Max Plus 395 shows tangible improvements in benchmark scores.
- Geekbench 6: Single-core and multi-core scores see gains.
- Cinebench R24: Rendering performance improves, showing better handling of creative tasks.
- 3DMark Time Spy: Overall, CPU, and GPU scores increase, highlighting the impact on graphics.
Gaming Performance
Real-world gaming tests show the integrated Radeon 8060SIG iGPU can deliver smooth gameplay.
- Forza Horizon 5: Achieves smooth gameplay at high settings.
- Doom: The Dark Ages: Runs seamlessly with FidelityFX Super Resolution (FSR) enabled, boosting frame rates.
- Cyberpunk 2077: Playable performance with ray tracing and FSR frame generation.
Thermal and Power Considerations
Higher TDPs lead to increased heat output, necessitating effective cooling solutions. Maintaining stability requires balancing performance with thermal efficiency, especially in compact mini PC designs.