Changes

Generally==CPU=====Megahertz Myth===Whenever a CPU has a high clock speed (e.g: Pentium 4 580 @ 4 GHz), it does not always necessarily mean that it is powerful.<ref>http://www.computer-hardware-explained.com/megahertz-myth.html</ref> This is usually a common misconception, that stems from lack of detailed information on how a CPU works. However, it is true that a higher CPU clock speed guarantees improved emulation runs off performance. While it is true that a high clock speed is one of the main factors for good CPUperformance, with it is not always the sole determining factor. For example, a Core 2 Duo E6600 @ 2.4 GHz will nearly always outperform a Pentium D 940 @ 3.2 GHz.<ref>http://www.pcstats.com/articleview.cfm?articleid=2097</ref> Even though the GPU allowing for Pentium D 940 is clocked significantly higher resolutions, AAthe Core 2 Duo E6600 is still faster due to the reduced amount of pipeline stages and a wider execution unit. This improves the amount of instructions it can output per cycle, etcwhich means better performance at a lower clock speed. If your In other words, the particular architecture of the CPU itself matters more than the clock speed. AMD's FX (Bulldozer) CPUs also follows the aforementioned Pentium 4 (NetBurst) example, which has the same issue that the NetBurst-derived CPUs suffer from. They also share the same high clock speed traits, which might cause confusion and misleading performance conclusions. Because of this, it is recommended to completely avoid Bulldozer at all costs. To further discourage the use of a Bulldozer-derived CPU isn; its single-threaded performance is somewhat lower when compared to an equally-clocked Phenom II or Core 2,<ref>https://www.overclock.net/photopost/data/1501987/b/b1/b16fb0b4_ScreenShot005.jpeg</ref> though the multi-threaded performance of Bulldozer far exceeds the fastest Phenom II or Core 2 offerings. The actual problem here is Bulldozer't good enoughs under-average single-threaded performance that will not help in high-end emulation that uses 4 or fewer cores, and the fact that Bulldozer has a shared FPU between 2 cores. What this means, is that a FX-4350 would have 2 FPUs (1 FPU per 2 cores), and a FX-9590 would have 4 FPUs (1 FPU per 2 cores x 4). This will lead to weaker performance in floating-point heavy calculations, which is also another reason why it is not recommended. If you can't emulate are still not convinced, have a system too welllook at the benchmarks.<ref>https://docs.google.com/spreadsheet/ccc?key=0AunYlOAfGABxdFQ0UzJyTFAxbzZhYWtGcGwySlRFa1E#gid=1></ref><ref>https://docs.google.com/spreadsheet/ccc?key=0AunYlOAfGABxdFQ0UzJyTFAxbzZhYWtGcGwySlRFa1E#gid=0</ref><ref>http://forums.pcsx2.net/Thread-CPU-Benchmark-designed-for-PCSX2-based-on-FFX-2?page=107</ref><ref>https://forums.dolphin-emu.org/Thread-new-dolphin-cpu-benchmark-no-game-required?page=15</ref><ref>https://forums.dolphin-emu.org/Thread-new-dolphin-cpu-benchmark-no-game-required?page=15</ref><ref>http://translate.google.com/translate?act=url&depth=1&hl=pl&ie=UTF8&prev=_t&rurl=translate.google.pl&sl=auto&tl=en&u=http://pclab.pl//art55934.html</ref><ref>http://wccftech.com/ultimate-cpu-gpu-floating-point-performance-battle-amd-intel/</ref><ref>http://www.anandtech.com/show/7711/floating-point-peak-performance-of-kaveri-and-other-recent-amd-and-intel-chips</ref><ref>http://vr-zone.com/articles/ivy-bridge-e-i7-4960x-vs-amd-fx-9590-battle-2013-flagships/54295.html/2</ref><ref>http://www.extremetech.com/computing/159619-5ghz-showdown-overclocked-5ghz-amd-haswell-ivy-bridge/2</ref> ===AMD vs. An '''Intel Core i5 2500K===As of Ryzen (Summit Ridge), 3570K AMD's CPUs have similar single-threaded performance when compared to Intel''or '''4570K''' or above s CPUs,<ref>https://i0.wp.com/www.solidsmack.com/wp-content/uploads/2017/09/AMD-Threadripper-single-thread-competition.png?ssl=1</ref> though it is still not exactly close to an equivalent Intel CPU of the same era. While Summit Ridge is recommended slightly slower than an equally-clocked Kaby Lake in single-threaded applications, it remains as a good budget-friendly alternative for high -end emulation . The release of Pinnacle Ridge has not brought any architectural improvements to Ryzen yet, apart from it being manufactured on a better process that allows for higher clock speeds. Due to that, the instructions-per-cycle performance remains the same as Summit Ridge. Current processors manufactured by both Intel and AMD (eincluding Rocket Lake and Alder lake from Intel and Vermeer from AMD) have significantly improved single-threaded performance compared to previous generations of hardware from both companies. Of these, the Alder Lake architecture displays the best single threaded performance, followed by Vermeer and finally Rocket Lake<ref> https://www.tomshardware.gcom/amp/features/intel-core-i9-11900K-vs-amd-ryzen-9-5900x</ref>. [[PlayStation 2|PS2]] ===Emulation on a non-x86/ARM CPU===CPUs that are not x86-based, [[Wii]]or are not ARM-based <small>(smartphones can run emulators with varying degrees of success)</small>, are not very likely to be good enough for emulation in general. This page will detail Certain emulators have been ported or programmed for some CPUs that are not ARM or x86-based, but those are generally very old and are possibly no longer in active development. IBM PowerPC CPUs for example, had emulators ported or even programmed for it. However, these are rather outdated emulators and are not recommended for emulation. Some very specific information CPU architectures such as the Elbrus, SPARC, MIPS, IA-64 (Itanium), Alpha, PA-RISC, and 68000, are heavily discouraged for specific systemsemulation. This is mostly due to the lack of support and interest in them, which forces people that utilize these CPUs to resort to x86 emulation. While some of them may be capable of performing x86 emulation, not all of them have the necessary software or hardware capability to do so. Even such emulators that are native to their architecture are extremely hard to find, or non-existent. Therefore, it is strongly recommended to avoid using these CPUs in any way possible. ===Desktop vs. Laptop===Laptop CPUs are typically much weaker than their desktop variants due to lower clock speeds and heat management requirements. They may also come with fewer cores when compared with their desktop variants with similar naming schemes, which may be confusing. Also, please be aware that different laptops with the same CPU may vary in actual performance due to the aforementioned restrictions, as well as manufacturer-implemented settings. This is strongly correlated with cooling capabilities, with thicker and larger laptops typically having better performance. As such, it is strongly recommended to pick a laptop with a decent cooling system if emulation is one of your primary goals. A limited number of laptops have full desktop processors: however, due to thermal and power requirements, they are relatively heavy and in many cases noisy and expensive. As above, the constraints of a portable system often reduces the performance of the above device, so such hybrid devices are not recommended. ===More Cores and Threads===Emulators generally only utilize 2 cores, or with hacks, sometimes 3 or 4 cores. Thus, owning a CPU with 6 cores or more with Hyper-Threading/Simultaneous Multi-Threading, does not help or give the said CPU an advantage over a CPU with only 4 cores. Although, there are certain exceptions. One such exception is RPCS3, which can utilize more cores and threads by emulating the system's thread scheduler, that allows it to use as many cores and threads as the game makes threads. While 2-core or 4-core CPUs with very high clock speeds are usually recommended for emulation, most CPUs nowadays feature more than 4 cores with even higher clock speeds. This in comparison to the previously released 6-core or 8-core CPUs with far lower clock speeds, is a fine improvement. Therefore, purchasing a 6-core or an 8-core CPU with said higher clock speeds would hold no disadvantages over a lower core-count CPU, as it no longer forces a clock speed reduction over a similarly clocked 2-core or 4-core CPU. ===Overclocking===Not all CPUs can be overclocked, and the motherboard's BIOS must be additionally capable of supporting overclocking. The CPUs in particular that can be overclocked are the usually the ones that are labeled: OverDrive, FX, Extreme Edition, Black Edition, K, and X. Although, certain engineering or qualification sample CPUs that AMD or Intel has manufactured may also be overclockable, since they were used for testing purposes and were not meant for sale. If you are not sure what kind of a viable optionCPU you have, check if it has these overclocking labels. For Intel CPUs, their overclocking labels are OverDrive, Extreme Edition, K, and X. For AMD CPUs, their overclocking labels are FX and Black Edition.

Enabling dynarec options Although, some special CPUs such as the Pentium E6500K, Pentium G3258, and all Ryzen CPUs are overclockable. But keep in mind that you have to be running the CPU on a motherboard that supports overclocking. The motherboards that tend to support overclocking features, comes with a chipset that also speed things upsupports overclocking, which is required for the CPU to be overclockable. However, this only applies to the newer motherboards, not the older motherboards as they tend to vary from being overclockable to not overclockable. For Intel, the overclockable chipsets' name starts with an X or a Z. The other chipsets that were not mentioned, are not overclockable (B, C, H, and Q). For AMD, the overclockable chipsets' name starts with an X or a B. The other chipsets that were not mentioned, are not overclockable (A).

==Recommended Specs=====[[PCSX2]]===Minimum:*Windows Vista / Windows 7 32For older desktop motherboards with older chipsets, there might be overclocking available in the form of a front-side bus setting. Use that setting with caution however, as the front-bitside bus clock speed gets raised, so does the rest of the other components on the motherboard (which causes instability, data corruption, etc). Unless the motherboard has a PCI/64AGP lock, it is advised not to use the front-bit*side bus setting to overclock the CPU: Intel Core 2 Duo @ 3.2 GHz In further depth, there is a safer setting that can be used to overclock without suffering from instability. Called the 'CPU BSEL Select' or bettersimilar, it was intended to manually select the proper front-side bus clock speed of the CPU. By using this method, it allows us to use it for overclocking whilst staying within the factory specifications of the motherboard. This does not affect the rest of the other components on the motherboard, as the front-side bus is not overclocked and is only following the rated speeds it can achieve. Therefore, it is safer than the dangerous front-side bus setting. Also, be aware that once the CPU has hit a certain clock speed, it may be no longer capable of scaling to higher clock speeds due to voltage issues. The reasoning behind this is because of how higher clock speeds require more voltage, and these non-overclockable motherboards have a high chance of not having the ability to directly modify the CPU's core voltage.*GPU: 8600 GT or better*1GB RAM (2GB However, if there is no 'CPU BSEL Select', proceed with the front-side bus setting with caution. As a safety precaution, do whatever it takes to not allow the PCI bus' clock speed to reach above 40 MHz. This is because anything higher than the 40 MHz mark will have a very high chance of inducing instability and possible data corruption, or worse. This is also why the front-side bus setting is only recommended for motherboards that are equipped with a PCI/AGP lock, since they prevent the other components on Vista / Windows 7)Recommended:the motherboard from being overclocked. Additionally, please be aware that your motherboard can only supply a limited amount of current before it hits its limits, which will then limit your CPU's overclocking ability. This is due to the weak voltage regulator modules that are not rated to supply a large amount of stable current to keep the CPU and the rest of the other components stable, which is common for motherboards that are not meant for overclocking. The CPU's potential overclock may also be limited by the power supply unit, so a better power supply unit with better efficiency and wattage rating may be required.

If you have a laptop, overclocking will be severely limited. Most laptops in circulation do not support overclocking, and may not be capable of handling the extra heat produced from an overclocked CPU: Intel Core i5 2500k. For the few laptops that can be overclocked through the BIOS, i5 3570K it is more or i5 4570Kless the same as how a desktop would be configured to overclock the CPU. For the majority that does not officially support overclocking, it may be possible to overclock it in a different approach.

For those with DualShock 3 controllersnon-overclockable laptop CPUs, you might be able to overclock it in a different way. Certain third-party applications are capable of controlling a chip that generates the clock signal for the front-side bus' clock, which is called the phase-locked loop. This is extremely unsafe and may result in potential data corruption, as it follows the same principle of overclocking the front-side bus. All laptops in existence do not have a PCI/AGP lock either, so keeping the PCI bus below 40 MHz is advised. The applications that can control the phase-locked loop are: ClockGen, CPUCool, SetFSB, SoftFSB, SetPLL, and SysTool. However, there is a catch when using these mentioned programs; none of them supports every phase-locked loop in existence. This means that each one of them has a range of phase-locked loops they support, and you must use the new [[XInput Wrapper SCP]]correct matching program that has support for your phase-locked loop. There is also no auto-detection in these programs for the phase-locked loop, as they do not have a standardized way to report their manufacturer and model name, so be careful when selecting the correct phase-locked loop that resides in your laptop.===[[Dolphin]]===Minimum:*3 GHz+ dual core CPU*DX11 GPU*4 GB+ RAMRecommended:

CPU: Intel Core i5 2500k==GPU==GPUs are basically just hundreds of under-powered CPUs on the same die, i5 3570K or i5 4570Kbetter described as a massively parallel CPU with a core count that far exceeds most traditional multi-core CPUs.

See the [[Dolphin]] page File compression/extraction and bitcoin mining are also good examples of programs that can make use of parallel processing. However, most programs can not do this. Dwarf Fortress, for further recommendationsexample, such as controller setupscan't make use of a graphics card. This is because of how every calculation it does is dependent on the one performed before it. That obviously doesn't work if you try and do them all at the same time.

It is generally recommended that people Most 3D emulators have an Intel 2hardware and software renderers.0GHz dual-core processor or better for good Software renderers use more CPU power, which may mostly be slower. They may also run on their own threads separate from other emulator parts, which would likely reduce the performance with this emulatorloss, but the CPU must still be fast enough in the first place.

==Recommended Specifications==;Before diving in:*This list excludes inactive or unsupported emulators as much as possible, see [[HiganHistory of emulation]]page for older software emulators. For seeing recommended specifications for obsolete, non-active and older emulators, see [https://emulation.gametechwiki.com/index.php?title=Computer_specifications&diff=77290&oldid=77289#Recommended_Specifications this page].*'''We discourage recommending outdated hardware[https://www.nvidia.com/download/index.aspx][https://www.amd.com/en/support], operating systems, or inactive emulators'''.::Why? Because active and popular emulators such as Dolphin, Ryujinx, PCSX2 and others[https://old.reddit.com/r/emulation/comments/ucit8l/ryujinx_will_officially_drop_support_for_windows/i6btthj/] implements newest frontends, API related stuff and functions from time to time such as "XAudio2 situation[https://github.com/RPCS3/rpcs3/pull/15248][https://emulation.gametechwiki.com/index.php/PCSX2#Windows_XP.2F7.2F8.1_Compatibility][https://learn.microsoft.com/en-us/windows/win32/xaudio2/xaudio2-versions]", "using [https://learn.microsoft.com/en-us/windows-hardware/test/hlk/testref/d82297bd-09ae-47d2-a40e-02977e6fd773 D3D12]", "[https://github.com/qt/qtbase qt6]" "[https://learn.microsoft.com/en-us/windows/win32/api/memoryapi/nf-memoryapi-virtualalloc2 VirtualAlloc2]", "[https://docs.microsoft.com/en-us/windows/win32/api/memoryapi/nf-memoryapi-mapviewoffile3 mapviewoffile3]" which usually depends on latest operating system versions (considering using binaries provided by official sources, not building software by yourself without some serious patching).*Provide only the official system requirements page URL if available (nothing else), but for emulators '''lacking detailed''' official information, we offer unofficial guidelines/data to help you decide.*Also see [https://www.youtube.com/@natemasterson7274 Nate Masterson's YouTube channel] for benchmarks with emulators using obsolete hardware. [https://github.com/xemu-project/xemu/issues/1492#issuecomment-1646644783 Supported instruction sets for various chips].

'''bsnes ===[[Yuzu]]/[[Suyu]]===See [https://web.archive.org/web/20240302185354/https://yuzu- Performance, bsnes emu.org/help/quickstart/#hardware- Balanced'''requirements official requirements page for yuzu]. Also see [https://github.com/MaxLastBreath/TOTK-mods?tab=readme-ov-file#--quick-installation-guide-- TOTK Optimizer recommended specs].

A 2===[[Ryujinx]]===See [https://github.0 GHz Intel dualcom/Ryujinx/Ryujinx/wiki/Ryujinx-core processor will run most games full speedSetup-&-Configuration-Guide#system-requirements official requirements page for Ryujinx].

'''bsnes - Accuracy'''???===[[DeSmuMeCxbx-Reloaded]]===*Windows Vista SP2 or later*Mac OS XSee [https: v10//github.6.8 Snow Leopard or later*Linux: Any recent Linux distribution with a 2.6 kernel.*3.0 GHz Intel Core 2 Duo CPU or equivalent*2GB+ RAMEnable the dynarec option for speedups.com/Cxbx-Reloaded/Cxbx-Reloaded?tab===[[PPSSPP]]===*Modern CPU*OpenGL 2.1readme-ov-file#system-compliant GPUEnable the dynarec option requirements official requirements page for speedups.CXBX-Reloaded]

==CPU=[[Xenia]]===:[https://github.com/xenia-canary/xenia-canary/wiki/Quickstart#system-requirements Official requirements page];Minimum:*Windows: 10 (x64)*Linux: Distributions based on 64-bit [https://www.kernel.org/category/releases.html active kernel releases/EOL] (you need to use [[Compatibility_layers|Proton]]. If using [[Wrappers|VKD3D]] with D3D12 backend for Linux giving you incompatibility issues, use Vulkan backend, see [[Xenia#Linux_and_SteamOS.2FSteam_Deck|Xenia Linux and Steam Deck guide]].)*CPU: x86-64 processor with AVX support and 4-cores, 4-threads - ''(Intel Core i5-2300 or overclocked AMD FX-4350)''*GPU: NVIDIA GeForce GTX 750Ti or AMD RX 460*RAM: 4 GB;Recommended and using [[Xbox_360_emulators#Enhancements|enhancements]]:*CPU: [https://www.cpubenchmark.net/singleThread.html Latest lineup of x86-64 processor] with AVX2 or AVX512[https://github.com/xenia-project/xenia/blob/master/src/xenia/cpu/backend/x64/x64_backend.cc#L29] support and at least 6-cores[https://discord.com/channels/308194948048486401/308194948048486401/1222104538195038228]*GPU: NVIDIA RTX 3060Ti or AMD RX 6650 XT or better::''Some of the titles needs the latest lineup of graphics cards to play on 4K internal resolution.''*RAM: 8 GB or more

===MegaHertz Myth[[RPCS3]]===http*[https://wwwrpcs3.computer-hardware-explainednet/quickstart#requirements_desktop Official requirements page for RPCS3]*[https://docs.google.com/megahertzspreadsheets/d/1Rpq_2D4Rf3g6O-mythx2R1fwTSKWvJH7X63kExsVxHnT2Mc/edit#gid=0 CPU Tier List for RPCS3]*For information on DualShock 3 controller support, see [[SCP Driver Package]].html

Summarising the above===[[xemu]]===:[https://xemu.app/docs/about/#system-requirements Official requirements page for xemu]As mentioned in [[Xbox emulators#Comparisons]] section, just because a CPU has a high clock some titles require powerful hardware for full-speed (eemulation, particularly [https://www.cpubenchmark.gnet/singleThread. in GHz) doesn't mean that it html single-threaded performance], is powerfuloften the bottleneck. For exampleAdditionally, using demanding graphical [[#Enhancements|enhancements]] may also require a 4GHz Pentium strong GPU.;Minimum:*Windows: 10 (x64)*Linux: Distributions based on 64-bit [https://www.kernel.org/category/releases.html active kernel releases/EOL]*macOS: [[Wikipedia:Template:MacOS_versions|Still maintained version]]*CPU: x86-64 processor with SSE4.2 support[https://github.com/xemu-project/xemu/issues/1492#issuecomment-1793758595] and 4 is much-cores, much less powerful than a 3GHz 4-threads - ''(Intel Core i5-750 or AMD FX 4350)''*GPU: OpenGL 4. Though "i5" is quite vague0-compatible hardware*RAM: 4 GB;Recommended and using [[Xbox_emulators#Enhancements|enhancements]]:*CPU: [https://www.cpubenchmark.net/singleThread.html Latest lineup of x86-64 processor] with AVX2 or AVX512 support and at least 4-cores, as that could be any 8-threads*GPU: NVIDIA GTX 1650 or AMD RX 570::''Some of the generations or models, P4s are just that weak. Newer CPUs are almost always better. Though titles needs the particular architechture does matterlatest lineup of graphics cards to play on 4K internal resolution.''*RAM: 8 GB or more

===AMD vs Intel[[PCSX2]]===Generally, AMD CPUs perform worse than Intel CPUs *[https://pcsx2.net/docs/setup/requirements/#system-requirements Official requirements page for emulators specificallyPCSX2]:*[https://wiki.pcsx2.net/Category:CPU_intensive_games CPU-intensive games (PCSX2 wiki)], due [http://forums.pcsx2.net/Thread-LIST-The-Most-CPU-Intensive-Games CPU-intensive games (PCSX2 forum thread)] and [https://wiki.pcsx2.net/Category:Software_rendering_only_games Software rendering only (PCSX2 wiki)]:*[http://forums.pcsx2.net/Thread-LIST-Games-that-don-t-need-a-strong-CPU-to their worse single-core performanceemulate Games that don-t need a strong CPU to emulate for weak processors]:*[https://wiki.pcsx2. They will still perform wellnet/Category:GPU_intensive_games GPU-intensive games (PCSX2 wiki)], especially if they're powerful[http://forums.pcsx2.net/Thread-LIST-The-Most-GPU-Intensive-Games GPU-intensive games (PCSX2 forum thread)]*For information on DualShock 3 controller support, but will still perform worse than Intel at the same clock speedssee [[SCP Driver Package]].*See [[PCSX2#Windows_XP.2F7.2F8.1_Compatibility|Windows XP/7/8.1 compatibility]] section for running specific PCSX2 build with older Windows OSes.

===Desktop vs. laptop[[Mednafen]]===Depends on which core used for emulation.*[https://mednafen.github.io/documentation/ss.html Official requirements for Saturn core page]*[https://mednafen.github.io/documentation/psx.html#Section_intro Official requirements for PSX core page]

Laptop CPUs are typically much weaker than their desktop variants due to being clocked lower, ===[[PPSSPP]]===See [https://www.ppsspp.org/docs/getting-started/system-requirements/ official requirements page for battery and heat reasonsPPSSPP]. They may also have less cores than desktop processors with similar namesAlso see [https://github. For example, an i7 2com/hrydgard/ppsspp/issues/10560#issuecomment-core laptop processor is most often weaker than a decent i3 desktop one360733737 this issue page]. It's a common misconception ;Minimum:*CPU: Any reasonably modern CPU will be just fine.*GPU: Any GPU that an i-whatever laptop is equal in power to i-whatever desktopcan handle OpenGL 3.0 should have no issue.===More Cores===*RAM: Minimum amount required by the operating system;Recommended:Emulators generally only utilize 2 cores *Windows: Windows 10 (sometimes 364-bit), so having a hexaor later*macOS: Any M1 or later Mac*Linux: Distributions based on 64-bit [https:/octacore /www.kernel.org/category/releases.html active kernel releases/EOL]*CPU, : Any AVX2 instruction set supported x86-64 hardware or [[Wikipedia:ARM_architecture_family#Cores|ARM64 v8-A or one capable of hyperthreading, wont benefit you anymore than having a similar quadcore CPUlater]]*GPU: Any Vulkan 1.3 supported hardware*RAM: 4 GB or more

===Overclocking[[Cemu]]===See [https://cemu.info/ official requirements page for cemu];Minimum: Similar to [[#PCSX2]] situation, some release titles and 2D games which underutilized the Wii U hardware may run on less powerful hardware, but for the best experience you need something like below.*CPU: Any SSE4.2 x86-64 hardware and 4-cores, 4-threads - ''i5-750 or AMD FX-4100''*GPU: OpenGL 4.5 or Vulkan 1.2 required - ''NVIDIA GeForce GTX 750 or AMD RX 460''*RAM: 4 GB;Recommended and using enhancements[https://emulation.gametechwiki.com/index.php/Wii_U_emulators#Enhancements]:*CPU: Any AVX2[https://cemu.info/changelog/cemu_1_11_0.txt][https://cemu.info/changelog/cemu_1_16_1.txt] (including AVX[https://cemu.info/changelog/cemu_1_8_2.txt]) and BMI supported[https://cemu.info/changelog/cemu_1_5_1.txt] x86-64 hardware and at least 4-cores, 8-threads - ''Intel Core i7-4770 or AMD Ryzen 5 1600AF or better''*GPU: NVIDIA GTX 1660 or AMD RX 580 or better*RAM: 8 GB or more

Not every ===[[Dolphin]]===See [https://en.dolphin-emu.org/docs/guides/performance-guide/ official requirements page for Dolphin];Minimum:*Windows: 10 1803 (64-bit)*Linux: Distributions based on 64-bit [https://www.kernel.org/category/releases.html active kernel releases/EOL]*RAM: 4GB*Desktop CPU can be over clocked: Intel Core i5-750 or AMD FX 4350*Mobile CPU: Any x86-64 or AArch64 processor::''Some release titles and 2D games which underutilized the GameCube and Wii hardware may run on even less powerful hardware such as: Core 2 Duo E8400 or AMD Athlon II X2 255 CPUs, nor does every motherboard/BIOS support it. An advantage on top of the intel K series is that they there are unlocked several performance and can easily be overclockedhack options such as "VBI Skip" which is a powerful tool for weaker devices, especially in games that struggle. So if it canIt't play a s obviously not perfect, but the mixture of slowdown and frameskip keeps the game currently then you canfairly playable[https://dolphin-emu.org/blog/2023/02/12/dolphin-progress-report-december-2022-january-2023/#50-18271-video-hack-vbi-skip-by-sam-belliveau].*Desktop GPU: Direct3D 11 / OpenGL 4.4 required.*Mobile GPU: OpenGL ES 3.0 required;Recommended:*RAM: 8 GB or more*Desktop CPU: Any AVX2 instruction set supported x86-64 hardware[https://github.com/PCSX2/pcsx2/issues/634#issuecomment-119015467] and at least 4-cores, in many cases4-threads - Intel Core i5-4460 or AMD Ryzen 3 1200::''Some intensive titles and incompatible ones with performance options such as "[https://en.dolphin-emu.org/docs/guides/performance-guide/#Dolphin_Configuration dual core]"[https://dolphin-emu.org/blog/2022/07/07/dolphin-progress-report-may-and-june-2022/#50-16448-fix-some-dual-core-full-screen-panic-alert-deadlocks-by-josjuice][https://dolphin-emu.org/blog/2022/02/08/dolphin-progress-report-nov-and-dec-2021-jan-2022/#50-15579-delay-single-core-gpu-interrupts-by-phire][https://dolphin-emu.org/blog/2021/08/01/dolphin-progress-report-june-and-july-2021/#50-14359-aarch64-jit-fix-branch-following-optimization-by-josjuice][https://dolphin-emu.org/blog/2021/06/06/dolphin-progress-report-april-and-may-2021/#50-14019-fifo-runsync-with-the-gpu-on-command-processor-register-access-by-stenzek] '''may''' require Intel Core i5-7600 or OC'ed AMD Ryzen 3 2300X level of [https://www.cpubenchmark.net/singleThread.html single thread performance] for running on full speed.''*Mobile CPU: For Qualcomm devices, overclock it until it doesprocessors with 2 or more "big cores" recommended. Snapdragon 700 or newer is typically recommended.*Desktop GPU: Vulkan 1.1 supported hardware. ''NVIDIA GeForce GTX 750 or AMD RX 460''*Mobile GPU: OpenGL ES 3.2 / Vulkan 1. Laptop CPUS often cannot be overclocked due to BIOS limitations1 supported hardware:;For using enhancements[https://emulation.gametechwiki.com/index.php/GameCube_emulators#Enhancements][https://emulation.gametechwiki.com/index.php/Wii_emulators#Enhancements];:*Desktop GPU: NVIDIA GTX 1650 or AMD RX 570 or better:*Mobile GPU: Recent RDNA2 or Snapdragon based graphics processors hardware

GPUs are basiacally just hundreds of underpowered CPUs on the same die===[[Citra]]===See [http://web. Or you archive.org/web/20240228020658/https://citra-emu.org/wiki/faq/#can think of it as a 300 core CPU-i-expect-_citra_-to-play-game-at-full-speed official requirements page for Citra].

The thing is with 3D graphics is you can split the work up into hundreds of different parts and give each piece to a different core on the GPU since it doesn't matter which order the polys are rendered in, as long as they all get rendered ===[[DeSmuME]]===See [https://wiki.desmume.org/index.php?title=Faq#What_are_the_minimum_hardware_requirements_for_DeSmuME.3F official requirements page for the same frame before moving on to the nextDeSmuME].

File compression===[[mGBA]]===See [https:/extraction and buttcoin mining /mgba.io/faq.html#what-are -the-system-requirements-for-mgba official requirements page for mGBA], also good examples of programs that can make use of parallel processingsee [https://github.com/mgba-emu/mgba?tab=readme-ov-file#system-requirements this section].

However, most programs can not do this;Minimum:*Linux: Distributions based on 64-bit [https://www.kernel.org/category/releases. Dwarf Fortress for example can't make use of a graphics card, because every calculation it does is dependent on the one done before ithtml active kernel releases/EOL]*CPU: Any x86 processor with SSE2 instructions*GPU: Any OpenGL 1. That obviously doesn't work if you try and do them all at 1 supported hardware*RAM: Minimum amount required by the same time.operating system