I haven't tried it on Linux as I run a bit of *everything* here although mostly Windows, but that page you linked does seem to list downloads specifically for running under Linux/Mono. Plus I still didn't see any ability to output multiple gcode files in one convenient step. While this could be done with separate manual operations, it'd be nice to have it supported natively, so you wouldn't have to edit the bevel curve yourself manually if you change the main shape. This is typically done by making another toolpath around the surface level of those edges, possibly at some inside offset to account for the cutter's shape. There's "Side Profile" which can be used to have a regular endmill cutter make a particular profiled shape, but the operation I'm looking for involves putting a "45degree" (the industry calls them 90degree but I think that's an odd name) cutter in the spindle, and making a secondary pass around certain edges, to cut a smooth bevel onto them. Also, I don't see any options for edge-bevelling. But they do have a "Linux support page" of sorts, being so it may be better than average. NET program - so unsure how well that'd run on Linux. A couple of points of concern though: It's a Windows. Yes, I've just been looking over its docs and tutorials. Does such software, or something close to it, exist at all? Or am I going to have to contemplate writing it? The software would emit a set of GCode files, corresponding to each layer, for hobbiest use (because I suspect most home-use CNC machines don't have autochangers), though I imagine a combined file with instructions for a tool turret or similar could also be an option. a mounting hole could be both a through-cut and an edge bevel for its screwhead countersink). As with PCB design software, each component added to the design can contribute to multiple layers simultaneously (e.g. Perhaps too a standard library of common case sizes to perform the overall panel cutout and drill holes. It would operate on a number of layers (through-cut, front/back pocketing, engraving, edge bevelling), to which components are added from a standard library of connector cutouts, engraving symbols, text, and other such definitions. Does anyone have any better suggestions for software? I'm imagining my ideal program would be something similar to KiCad etc. I'm beginning to feel that starting from SVG in Inkscape is not the best way to design these, because the process flow does have a number of shortcomings. I've been making front panels for projects lately, that are CNC milled out of acrylic sheets and screwed onto the fronts of extruded aluiminum cases (primarily the Hammond 1455 series).
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