Settings > Video > Black Frame Insertion > 1 Settings > Video > Synchronization > Hard GPU Sync Frames > 0 Settings > Video > Synchronization > Hard GPU Sync > On Settings > Video > Synchronization > Vsync Swap Interval > 2 Settings > Video > Synchronization > Vertical Sync > On
Retroarch windows setup audio update#
Settings > Video > Output > You may have to select “Set Display-Reported Refresh Rate”, and this will update the Vertical Refresh Rate to what should be 239.x hz (not 240hz, 240 is a nominal term).
Settings > Video > Output > Screen Resolution > Ensure a 240hz resolution is used.
Retroarch windows setup audio 1080p#
Many processor's onboard graphics (~pre-2017) may not have a recent enough implementation of HDMI in order to output to a display at the minimum of 1080p at 240hz, but will support this minimum resolution through a DisplayPort signal. Older processor's onboard graphics (~pre-2013) may not have a recent enough implementation of HDMI or DisplayPort in order to output to a display at the minimum of 1080p at 240hz. We'll use that number later for the final input lag adjustment.Ī 240hz+ monitor outputting at 240hz with its BFI setting enabled. Check online or at for the input lag in milliseconds measured for your monitor with BFI enabled. These monitors of course have input lag, and we will adjust for that with RetroArch. While I consider myself screen-flicker sensitive, I personally don't have issues with BFI during long emulation sessions, although I also disable the monitor's BFI when I'm not using the emulator – as is recommended. BFI doesn't create screen flickering that many people are sensitive to, but it does have its own low frequency pulsing. Mario for example can appear to be in multiple parts of the screen, blurred.ĬRTs do a great job of eliminating this, and while CRT emulation is around the corner, there are options to greatly reduce motion blur available now.Ī 240hz+ monitor with its own 'BFI technology' (varies by manufacturer, examples: ULMB, LightBoost, DyAc, ELMB) combined with RetroArch's own Black Frame Insertion option creates an incredibly clear display, close to CRT, for 60FPS retro games like SMW. A monitor's own input lag and refresh rate can make this worse (60hz on a 60 fps game means there are always pixels transition-blurring from one frame to the next). We perceive this affect due to a combination of refresh rates, pixel transitions, and fast on-screen movement. I'm addressing this first, because it has made the most impact for removing lag in my own setup. Typically referred to as input lag – apparent lag in emulation is a sum of a few factors that I'll be concisely describing here. This guide applies to RetroArch with the snes9x core (for Lunar Magic creators: running emulation in Lunar Magic won't have the same benefits, but switching to RetroArch to playtest longer sections might be useful with these improvements). First, while this write-up is my opinion, and comes from my own experience, I've shared it here as a small way to give back to a community that has offered so much.
0 kommentar(er)
