On Tue, Aug 16, 2022 at 05:00:38PM +0200, Geert Uytterhoeven wrote: > Hi Maxime, > > On Tue, Aug 16, 2022 at 3:26 PM Maxime Ripard wrote: > > On Fri, Aug 12, 2022 at 03:18:58PM +0200, Geert Uytterhoeven wrote: > > > On Fri, Jul 29, 2022 at 6:35 PM Maxime Ripard wrote: > > > > Multiple drivers (meson, vc4) define the analog TV 525-lines and 625-lines > > > > modes in the drivers. > > > > > > Nit: strictly speaking these are not analog modes, but the digital > > > variants (ITU-R BT.656 and DVD-Video D1) of NTSC and PAL, using a > > > 13.5 MHz sampling frequency for pixels. > > > > > > In analog modes, the only discrete values are the number of lines, and > > > the frame/field rate (fixing the horizontal sync rate when combined). > > > > > > The number of (in)visible pixels per line depends on the available > > > bandwidth. In a digital variant (which is anything generated by a > > > digital computer system), the latter depends on the pixel clock, which > > > can wildly differ from the 13.5 MHz used in the BT.656 standard. (e.g. > > > Amiga uses 7.09/14.19/28.38 MHz (PAL) or 7.16/14.32/28.64 MHz (NTSC)). > > > > > > So I think we probably need some way to generate a PAL/NTSC-compatible > > > mode based not only on resolution, but also on pixel clock. > > > > This would also fix the comments made by Jani and Thomas, so I quite > > like the idea of it. > > > > I'm struggling a bit to find how would could implement this though. > > > > From what you were saying, I guess the prototype would be something like > > > > struct drm_display_mode *drm_create_analog_mode(unsigned int pixel_clock, > > unsigned int lines, > > unsigned int frame_rate) > > > > But I have zero idea on what the implementation would be. Do you have > > some resources for this you could point me to? > > Horizontally, I think you should calculate left/right margins and > hsync length to yield timings that match those for the BT.656 PAL/NTSC > modes. I.e. when a 640x512 mode with a pixel clock of 14 MHz is > requested, you want to calculate left', right', and hslen' for > > | <---- left' ---> | <- 640 pixels -> | <---- right' ---> | <--- hslen' --> | > @ 14 MHz > > so they match the timings for left, right, and hslen for > > | <--- left ---> | <--- 720 pixels ---> | <--- right ---> | <--- hslen ---> | > @ 13.5 MHz > > As 640 pixels @ 14 MHz are less wide than 720 pixels @ 13.5 MHz, > you want to make sure to align the center of the visible part. So I guess in that example if we want to center it, left == right and left' == right'? What about the sync length? > Vertically, it's simpler, as the number of lines is discrete. > You do have to take into account interlace and doublescan, and > progressive modes with 262/312 lines. So we only have to deal with 525 and 625 lines total (without taking interlace and doublescan into account), right? I guess we still have the same question, we probably want to center it, so top == bottom, but what about the vsync length? Maxime