I can provide tailored technical details or configuration steps based on your specific setup. Share public link
So, how do you turn the idea of "nsfs160+4k" into a reality? Here is a practical guide to assembling your complete high-end system.
The true differentiator for this 4K release is the implementation of Wide Color Gamut (WCG) and High Dynamic Range. nsfs160+4k
Crisp boundaries between blinding highlights and deep, velvety shadows.
| Parameter | Value | |-----------|-------| | Max Force | 160 tons (1,568 kN) | | Max Hydraulic Pressure | 4,000 PSI (276 bar) | | Stroke Length | 300 mm (adjustable) | | Daylight Opening | 450 mm | | Table Size (L x W) | 1,200 x 900 mm | | Ram Speed (Approach) | 120 mm/s | | Ram Speed (Pressing) | 5–15 mm/s (controlled) | | Ram Speed (Return) | 150 mm/s | | Position Repeatability | ±0.01 mm (with 4K encoder) | | Control System | PLC + HMI with servo valve control | | Power Supply | 400V / 3-phase / 50-60 Hz | | Motor Power | 22 kW (servo pump drive) | I can provide tailored technical details or configuration
While native 4K is the gold standard for clarity, many users find that DLSS "Performance" or "Balanced" modes offer a near-identical visual experience with much lower hardware strain.
If you are setting up or researching this configuration, let me know: The true differentiator for this 4K release is
If a system writes a 4KB file across two different physical sectors, the drive must read both sectors, modify them, and write them back. This cuts performance in half.
What is your monitor preference? High refresh rate vs. Resolution