Photos: Adobe Photoshop, Affinity Photo, ...
Last time, we looked at a motherboard that is suitable for use with cheaper processors thanks to its lower price. Now we have the roughly 50 EUR more expensive Gigabyte B660 Aorus Master DDR4. The premium here has a clear justification and reflects on the better features. The power delivery is significantly more efficient, the heatsinks are more effective, and the features are richer overall, including illumination.
Adobe Photoshop (PugetBench)
Test environment: set of PugetBench tests. App version of Adobe Photoshop is 22.4.2.
Affinity Photo (benchmark)
Test environment: built-in benchmark.
Topaz Labs AI apps
Topaz DeNoise AI, Gigapixel AI and Sharpen AI. These single-purpose applications are used for restoration of low-quality photos. Whether it is high noise (caused by higher ISO), raster level (typically after cropping) or when something needs extra focus. The AI performance is always used.
Test environment: As part of batch editing, 42 photos with a lower resolution of 1920 × 1280 px are processed, with the settings from the images above. DeNoise AI is in version 3.1.2, Gigapixel in 5.5.2 and Sharpen AI in 3.1.2.
- Contents
- Gigabyte B660 Aorus Master DDR4 in detail
- What it looks like in the BIOS
- Methodology: Performance tests
- Methodology: How we measure power draw
- Methodology: Temperature and frequency measurements
- Test setup
- 3DMark
- Borderlands 3
- F1 2020
- Metro Exodus
- Shadow of the Tomb Raider
- Total War Saga: Troy
- PCMark and Geekbench
- Web environment
- 3D rendering: Cinebench, Blender, ...
- Video 1/2: Adobe Premiere Pro
- Video 1/2: DaVinci Resolve Studio
- Graphics effects: Adobe After Effects
- Video encoding
- Audio encoding
- Photos: Adobe Photoshop, Affinity Photo, ...
- (De)compression
- (De)encryption
- Numerical computing
- Simulations
- Memory and cache tests
- M.2 (SSD) slots speed
- USB ports speed
- Ethernet speed
- Power draw curve (EPS + ATX connector) w/o power limits
- Power draw curve (EPS + ATX connector) with Intel's power limits
- Total power draw (EPS + ATX connector)
- Achieved CPU clock speed
- CPU temperatures
- VRM temperatures – thermovision of Vcore and SOC
- SSD temperatures
- Chipset temperatures (south bridge)
- Conclusion