Video Game Emulation Wiki
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There are several displays you can use for emulation. Some are better than others at displaying older standard definition games.

This FAQ is very work in progress. Please expand upon it.

Integer scaling

CRT TVs[]

Main article: CRT TVs

They come in several forms:

  1. Shadow Mask
  2. Aperture grille
  3. HD CRTs

Features:[]

  • Can display a wide range of resolutions up to 480i on SDTVs and 1080i on HDTVs
    • May actually force and scale to a resolution non-native to the input. HDTVs that scale EVERYTHING to 1080i aren't rare. That defeats the purpose of avoiding scaling, but you still get the other benefits.
  • True black levels
  • Wide viewing angles
  • 4:3 Aspect ratio (with a few exceptions)

How to connect to a CRT TV:[]

  • Wii would be the easiest method. Can output to 240p[citation needed]
  • VGA to RCA and S-Video converter box.
  • Most CRT HDTVs have either DVI or HDMI ports which can accept as low as 30kHz (480p at 60Hz) from a PC
    • They do not support 120Hz to force 240p resolutions while doing this[citation needed]

CRT monitors[]

CRT resolutions

Comparison of resolutions on a common CRT monitor. From left to right: 240p - 480p - 960p

  • All the benefits of a CRT TV besides native inputs for actual hardware
  • Generally 30kHz (480p at 60Hz) horizontal frequency at minimum, unless the monitor is tri-sync (15kHz, 25kHz, 31kHz).
    • You can force 240p resolutions with 120Hz refresh rates. You can then use black frame insertion to get the effective refresh rate back down to 60hz.
    • There are also hacks, both software and hardware, to allow 15kHz output. But the monitor must also support it, and most of them aren't written for modern OSs. Careful there.
  • Larger resolutions available, often massive
    • Horizontal resolution is only limited by video bandwidth, so you can set it really high and scale output to fit, and the CRT will display it 4:3. This is useful for 240p modes where you can avoid having to have different custom resolutions for each game and not have any visible scaling issues due to individual horizontal pixels being smaller than your monitor's dot pitch.
  • Large range of vertical refresh rates supported, often 50Hz to 160Hz. It's possible to display arcade games like R-Type and others with unusual refresh rates almost exactly the same as the real cabinet did, with perfect smooth scrolling. V-sync is still needed due to dot clock granularity and the fact the emulator frames needs to be synchronized to the CRT's vertical retrace, otherwise you will get some minor static tearing.
    • Keep in mind your vertical refresh rate and vertical resolution must stay within your monitor's horizontal frequency limits, e.g. if your monitor's limits are 30kHz to 70kHz and you are trying to set a display mode for PAL games, you will find that 480p at 50Hz is not possible as that is 25kHz, you will need to increase the vertical resolution to around 576p to make it 30kHz.
  • Easy to connect to a computer
  • Not as large as many TVs, rarely larger than 19" or 21"
  • 4:3 Aspect ratio (with a few exceptions, notably the FW900)

LCD[]

(TN) displays[]

  • Native resolution which all output must scale to


IPS displays[]

  • Native resolution which all output must scale to
  • Vivid colors and contrast
  • Good viewing angles
  • Massive resolutions available.
  • Korean monitors such as Qnix QX2710 can run at 120Hz

Black frame insertion[]

For 120hz monitors.

Simulates CRT flicker, which is necessary for the human eye to perceive fluid motion. Without it, the sample-and-hold method used by LCDs manifests as motion blur to our eyes. For LCDs, running at 120Hz with black frame insertion every other frame gives you 60Hz CRT motion quality on 60fps content. This is especially effective on strobe-backlight gaming monitors (e.g. NVIDIA LightBoost, EIZO Turbo240, BENQ XL2720Z Blur Reduction) that often only enable motion blur reduction backlight strobing only at 120 Hz.

For CRT monitors, they can use a 120Hz refresh rate to sync to 30kHz (240p) resolutions.

However, 240p at 120Hz can create motion blur, due to having twice as many frames being drawn on screen and overlapping. The solution is to draw a black frame every other frame. At 120Hz that essentially brings it back down to proper 60Hz. The issues are that brightness is halved and any frame drops are very noticeable.

In RetroArch there is an option for black frame insertion in the video options in RGUI. This makes it draw an extra black frame for every frame and it succeeds in making the motion smooth at 120hz. There is an option for the swap interval.

Upscalers[]

http://scanlines.hazard-city.de/

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