These emulators provides an excellent compatibility and hardware and peripheral support for DOS-based operating systems such as Windows 3.x, Windows ME/98/95 (and even NT-based XP/Vista,Win7 supported but not recommended) that is beyond what "DOSBox forks" can offer but unlike "DOSBox forks" these emulators usually requires modest to top-notch single thread performance of CPUs. As of June 14, 2021, PCem's original developer, Sarah Walker, has stopped working on the project. It has now been taken over on December 18, 2021, by a new maintainer, Michael Manley. 86Box is a fork of PCem which is developed more actively, while PCBox and VARCem are forks of 86Box.

One aspect commonly used to compare PCem and 86Box is the emulation performance. PCem v15 introduced a rewritten dynamic recompiler, which was primarily aimed at improving emulation performance in games; however, it also caused minor to severe performance regressions in other applications. 86Box uses the previous recompiler from PCem versions before v15, with optimizations performed by devs, as they have determined that the new one causes too many regressions to be adopted as a sensible default. There is a way for you to try out the new recompiler on 86Box, though. PCem’s emulation of some core system components, such as the Programmable Interval Timer (PIT), takes a few shortcuts to improve performance. These shortcuts are perfectly fine for games, which is what PCem targets; although, they have caused issues with the software preservation side of things. In addition to taking fewer shortcuts, 86Box also tries to follow the specifications of these components, rather than implement the minimum viable feature set, which is - once again - good enough for games, but not good enough for some other applications. Generally speaking, the more accurate a component’s emulation is made, the more host CPU horsepower it will require. In addition to taking fewer shortcuts, 86Box also tries to follow the specifications of these components, rather than implement the minimum viable feature set, which is - once again - good enough for games, but not good enough for some other applications. See this guide for more information.

DOSBox is another option for emulating many older computer games specially for pretty good performance with low-end computers but compatibility, accuracy and hardware support aren't as good as PCem or 86Box. DOSBox is no longer updated but it has many "DOSBox forks" over the years. Windows 95/98/ME can be installed in "DOSBox forks" and also supports 3DFX Voodoo emulation. Even more forks are listed in the "DOSBox forks" page of DOSBox Staging's GitHub wiki or here.

DOSBox-X is vastly different from other "DOSBox forks" in that it aims to be a complete emulation package that covers all pre-2000 DOS and Windows 9x based hardware scenarios. It features more flexibility by way of config options and an accompanying frontend to customize the DOS VM further, and beyond games it also supports standard software for DOS, as well as DOS-based Windows including Windows 3.x and 9x/ME with 3D acceleration via 3dfx emulation. The project also has its own wiki which contains extensive documentation on DOSBox-X, and a summary of notable added features can be seen here. While DOSBox-X currently supports emulation of IBM PC/XT/AT, Toshiba AX/J3100, IBM PCjr/Tandy, and NEC PC-9800 series architecture, the maintainer, Jonathan Campbell, does not plan to add any other MS-DOS system. This limitation is mainly done to prevent bloating of the codebase, keeping it at a manageable level for himself while also staying organized. However, the codebase does contain stubbed source files for FM Towns emulation in the event that other programmers want to add that functionality.

DOSBox Pure is a new DOSBox fork specifically built for RetroArch/Libretro. According to its project description it aims for simplicity and ease of use just like DOSBox Staging. On top of that it has an advantage over other "DOSBox forks" because of libretro features (EmuVR support, Shader presets/Overlays and configs etc).

0.9.5 version brings 3dfx emulation support.

0.9.8 version brings further improvements to the ATAPI CD-ROM emulation for Windows 9x games with CD copy protection, add support for uncompressed CHD version 5 CD images and add netplay for multiplayer games that used IPX, Ethernet or a modem over the internet.

DOSBox Staging is a DOSBox fork that focuses on ease of use, modern technology and best practices. 3dfx emulation is supported with the latest releases.

The UniPCemu (Universal PC emulator) emulator, originally made to play games on the PSP, now built for Android, Windows, PSP, Nintendo Switch and PS Vita! Play your old classic PC games on Android! It's a cycle-accurate x86 emulator (previously called x86EMU before the rename, This isn't based on the other cpu-emulator called x86emu (lower case)). It's a 8086(IBM PC) up to Pentium II (Compaq Deskpro 386, Compaq Deskpro 386 with PS/2 mouse (adds PS/2 mouse to the Compaq Deskpro 386 chipset, optional BIOS ROM replacement (loading it instead, alternatively a i430fx Pentium or i440fx/i450gx Pentium Pro/Pentium II chipset with PS/2 mouse. A 85c496/7 chipset is also supported.) and seperate CMOS settings like the other architectures) emulator(with various, configurable hardware), with up to 80386 timings (80486SX and Pentium using 80386 timings or 1 cycle for newer/unknown timings/instructions, both having no floating point unit)).

 In basic CPU's, all generations in between are supported (8086/8088, 80186/80188, 80286, 80386sx/dx, 80486, Pentium, Pentium Pro and Pentium II. All without FPU emulated, other than software FPU emulation support using drivers).
 It can run many IBM PC XT games, and also various 286(*) up to Pentium II games. Support for ATAPI CD-ROM (using VIDE-CDD.SYS, OAKCDROM.SYS or compatible ATAPI drivers) also works. Many graphics cards and sound cards can be used (MIDI using a Soundfont renderer inside UniPCemu (recordable by UniPCemu's sound recording functionality) or passthrough(passthrough on Windows only, which is not recordable by the emulator's own recording functionality)), from PC speaker up to Sound Blaster 2.0 and from IBM Monochrome Display Adapter up to ET4000/W32 SVGA(up to 16M colors (in True Color mode) using it's SC15025 DAC)!
 EMS is available using the Lo-tech 2MB EMS board on the XT and various EMM emulation software(e.g. JEMM386, EMM386) on IBM AT and up. For more information about UniPCemu use this link.

It's an open source emulator written in rust that aims to be cycle accurate for IBM PCs. Compared to other (also great) PC emulators like PCem/86box/DOSbox forks etc, MartyPC focuses on ultra accurate CGA and DMA emulation. It requires pixel perfect and cycle accurate CGA emulation as well as emulation of CRT properties like overscan.^[3] Developer "Glorious_Cow" said;

 Of course my next target is the 286, I think it would be interesting to try to make a cycle-accurate 286. The biggest challenge is the microcode for 286 hasn't been decoded yet, but there is a high resolution 286 die shot I'd love to get my hands on... My hope is that the 286 is a more 'regular' chip than the 8088. The 8088 turned out to have a lot of odd, poorly documented behavior. I guess we'll find out.
 386 is sort of a long-term goal. I'll get there when I get there, but it might take another year for 286 I estimate before I tackle it. Now that I've accomplished Area 5150 I don't really have a "goal target" in mind other than running DOOM :) My 386 will not be slavishly cycle-accurate, after all, there were many variations of the 386 and clones, so which one would be accurate to? Besides the fact it's hard to write a cycle-accurate CPU at 40MHz...
 At that point I think MartyPC will be done chasing the hardware, I have no interest in following the CPU generations up into the Pentiums - that's probably best left to 86box - and I think I will probably turn my eye just to seeing what kind of interesting debugging features I can add. Save states and rewinding, an inline assembler or scripting language would be cool.
 With most end-users probably best served by using 86box, I figure my best niche going forward is being a 'retro-developer's' emulator of choice, so I am motivated to add any debug features people might request.[4]

The emulation of various CPU types seen here regarding MAME are all over the place in the changelogs and seem confusing. However, MAME has preliminary support for the families of 286, 386/i386, 486/i486, and almost the entire range of Pentium CPUs. However, only the 286/386/486 emulation is acceptable at the moment. According to ProjectMESS, many IBM PC/AT 5170 family PCs running the 286 CPU have preliminary support. MAME 0.146u3 (Jul 2012) added CPU types for Pentium MMX, Pentium Pro, Pentium II, Pentium III, and Pentium 4, but don't expect miracles.

- MAME compat list showing the sector for several IBM-type PC systems - most of which may work fine.

- wiki.mamedev.org's search results for Pentium (e.g. 0.100u4, 0.103u4, 0.146u3, 0.148, 0.152, 0.156)

- wiki.mamedev.org's list for MACHINE_NOT_WORKING (Few systems based on a Pentium CPU)

- wiki.mamedev.org's list for MACHINE_IS_SKELETON drivers (Several PCs/systems based on a Pentium CPU)

A full x86 PC emulator with a focus on development and test operating systems and other low-level software. Its lack of proper timing emulation makes it not useful, and it is often too slow for newer systems to be playable. It is thus not recommended to use Bochs. Bochs is not timing but functional emulator, it's emulates time in very trivial way - one guest instruction emulated equal to one guest cycle. By tuning "IPS" setting you not anything in the way it emulates time - in opposite, you only giving a hint about emulation speed to Bochs which helps it to emulate devices like mouse or keyboard.

Similar to Bochs, QEMU may not be the perfect x86 emulator, but its versatility, hypervisor capabilities, and vast platform support make it a powerful tool for anyone interested in exploring the world of virtualization. Its commitment to open-source development and its vibrant community ensure its continued evolution and relevance in the ever-changing world of computing. While QEMU is versatile and great for virtualization/VMs, if your focus is precise, reasonable and compatible x86 emulation, use alternatives like 86Box, PCem or even DOSBox forks.