Used for file import and applying cutting technology.
: Before sending the job to the machine, run a Cutting Time Simulation to identify potential bottlenecks and verify the total machining time. Mastering the Bending Process
Define which lines are outer cuts, inner cuts (holes), micro-joints, or engraving/marking lines. BySoft uses color-coding to differentiate these processes visually. Section 3: Mastering Cutting Technology & Lead-Ins
For sheets with arrays of small grids or holes, enable FlyCut . The laser head moves at a constant speed across rows, pulsing the beam on and off over the holes without stopping to pierce each one individually. bysoft cam tutorial
: Allow the software to rotate parts by 90°, 45°, or 180° to find the tightest fit.
Run the 2D cutting simulation inside BySoft. Watch the cutting sequence. Check for any inefficient movements or erratic head lifting.
The cutting order determines heat distribution and prevents raw sheet deformation. Used for file import and applying cutting technology
Click to visualize the laser path, identify potential collisions, and review the cutting sequence.
Unnecessary travel paths (dead movement) that increase cycle times. Generating G-Code (NC Programming)
BySoft CAM uses a sophisticated algorithm to nest parts onto metal sheets, tubes, or profiles. It maximizes material usage, runs multiple iterations, and retains the most efficient layout. It also supports various sheet shapes and includes a powerful remnant management system that tracks leftover material so it can be easily reused for future jobs, leading to significant material cost savings. : Allow the software to rotate parts by
Here are some common questions and solutions to help you troubleshoot issues in BySoft Cam:
Use the main screen to manage your active jobs, materials, and parts libraries.