If you’re a PC gaming enthusiast, you know about speed. Gaming rigs are good only if they’re tricked out with the latest and fastest CPUs, lots of memory, the quickest solid state drive (SSD), and, of course, the best graphic cards. But while that combination will definitely give you a fast machine, online gaming performance can still be hampered if it’s connected to a crowded network with an Internet connection controlled by an overburdened or old fashioned wireless router. Additionally, the majority of home networks are more taxed than ever because so many folks are working from home due to COVID-19. So if game performance is important to you, it’s well worth your time to take a close look at optimizing your network.
Start with what’s connected. A whole family’s worth of gear can mean oodles of phones, tablets, HDTVs, streaming video/music devices, and smart-home gear all connecting to—and hammering—the beleaguered household router. (It’s not an exaggeration that some households will have dozens of devices.) Any online gamers in the house must compete for that router’s bandwidth not only with everyone else but all those smart devices, too. And that can lead to unpredictable, often subpar, performance.
Now, on a basic level, many routers, even those we classify as budget routers, offer Quality of Service (QoS) settings that let you give priority to devices or applications that require lots of bandwidth. But not many of them offer the gamer-centric settings and optimizations that you get with a dedicated gaming router. If network lag is messing with your game, read on to find out how a gaming router can give you back your competitive edge—and how to choose the one that best suits your household, your play style, and your budget.
QoS: You Gotta Have Priorities
Perhaps the biggest difference between a gaming router and a typical consumer router is how it handles QoS, or bandwidth prioritization duties. Almost all routers offer some sort of QoS. This can range from the generic Wi-Fi Multimedia (WMM) extensions that automatically prioritize network packets carrying data necessary for voice over IP (VoIP) and video conferencing apps on up to drag-and-drop prioritization that lets you assign a higher priority to specific devices connected to the network essentially making sure they experience better performance than other devices.
Gaming routers go a step further, by offering prioritization for specific gaming systems and applications, and allowing you to decide how much bandwidth each client is entitled to. That can be especially important if you have multiple online gamers in the same household, who are all competing for the feed from the same pipe. For example, Linksys gaming routers have firmware that automatically gives network priority to devices that are equipped with Rivet Networks’ Killer Prioritization Engine (KPE). When the router detects a device equipped with Killer networking hardware, it gives that device the lion’s share of bandwidth to ensure smooth, lag-free online gameplay. The company also has a gaming router that automatically gives network priority to Microsoft Xbox consoles. (It’s a variant of the Linksys WRT32X Wi-Fi Gaming Router in our favorites table above.)
Many gaming routers also use a modified management console with a gamer-friendly user interface that makes it easy to assign bandwidth priorities on the fly. Netgear recently began outfitting its gaming routers with DUMAOS, an interactive, gamer-friendly operating system developed by Netduma. It has a sleek-looking dashboard that lets you see what is going on with your network at a glance, with graphs showing real-time CPU and bandwidth usage, currently installed apps, guest networking status, Wi-Fi status, and internet status.
See our favorite Wi-Fi routers that support DD-WRT.)
Dual Band or Tri-Band?
Any gaming router worth its salt will offer at least two radio bands. The 2.4GHz band is the most widely used band and tends to get more crowded than the 5GHz one. You’ll get much better range on the 2.4GHz band, but it can’t match the speeds that you get with the 5GHz. Every router that comes through PCMag Labs is thoroughly tested across all bands, but you should be aware that different bands can have an impact on performance.
If your gaming system is in close proximity to your router, the 5GHz band will provide the best throughput performance. If you have numerous devices connecting to your network, a tri-band router is your best bet, especially if you’re also employing range extenders to reach the far corners of your home. Tri-band routers add a second 5GHz band that you can dedicate to certain devices or applications. For example, you can reserve an entire 5GHz band just for gaming (so long as your PC-gaming rig or your console supports 5GHz Wi-Fi) and use the other 5GHz band for high-bandwidth applications such as video streaming, massive file transfers, or torrent downloads. This leaves the more crowded 2.4GHz band free for everyday tasks such as web surfing and connecting to smart-home devices such as lights, cameras, locks, and security systems.
Of course, if you are a dedicated online gamer (or you have one in your household), you know that network demands for the latest games seldom move in the direction of “less demanding.” So you’ll want to make sure you choose a future-proof router.
Multi-User Multiple Input Multiple Output (MU-MIMO) technology is a big feature to look for today. It allows for simultaneous data streaming to multiple clients, as opposed to sequential streaming. This is a very handy feature; the main caveat is that each client device has to support MU-MIMO to take advantage of the improved throughput. As new gear gets added to your network in coming years, however, it’s more and more likely to support MU-MIMO, so you’ll be glad you opted for it in your router. (For more on MU-MIMO, check out our primer, Understanding MU-MIMO Wireless.)
What is Wi-Fi 6?
The latest Wi-Fi protocol, 802.11ax, also known as Wi-Fi 6 or High Efficiency (HE) Wireless launched last year, and now there is a wave of new Wi-Fi 6 routers hitting the market. This standard is an evolution of 802.11ac technology. It promises increased throughput speeds (up to 4.8Gbps), less network congestion, greater client capacity, and better range performance courtesy of several new and improved wireless technologies including Orthogonal Frequency-Division Multiple Access (OFDMA) and Target Wake Time (TWT). OFDMA improves overall throughput by breaking Wi-Fi channels into sub-channels, allowing up to 30 users to share a channel at the same time. Target Wake Time (TWT) is designed to reduce power consumption by allowing devices to determine when and how often they will wake up to begin sending and receiving data. TWT tech is expected to extend the battery life of mobile devices such as smart phones and tablets as well as battery-powered smart home devices such as security cameras and video doorbells. All these capabilities make it perfect for Wi-Fi mesh networks, which are fast becoming the most popular choice for broad home networking.
Additionally, 802.11ax takes advantage of previously unused radio frequencies to provide faster 2.4GHz performance, and it uses refined uplink and downlink bandwidth management to provide enhanced QoS. It also offers uplink and downlink MU-MIMO streaming (802.11ac only supports downlink MU-MIMO). As with the 802.11ac protocol, 802.11ax is backward-compatible and will work with devices that use 802.11a/b/g/n/ac Wi-Fi radios. Although 802.11ax routers are widely available, client devices are just starting to hit the market. If you’re thinking about upgrading now, read our explainer first.
While we haven’t seen any dedicated gaming routers that support the latest Wi-Fi 6E standard, you can expect to see a few in time for the 2020 holiday season. Wi-Fi 6E is the same as Wi-Fi 6 as far as software and features go, but routers that support 6E can access the newly-released 6GHz band. That provides a huge bandwidth boost, so it helps with bandwidth-hungry apps, especially games, as well as chronic connection problems due to congestion in more crowded environments, like an apartment building.
Most gaming routers use the same hardware inside that traditional Wi-Fi routers do, but you’ll often be able to tell the gaming models apart from the rest on sight. They usually sport a somewhat different exterior-chassis design than their general-purpose counterparts. Shop around, and you may see unusual flair, such as a stylish enclosure or even LED illumination effects.
On a more utilitarian level, look for a router that has at least four gigabit LAN ports, so you can offer up wired connectivity to nearby gaming consoles, printers, and PCs. At least one USB port, preferably supporting USB 3.0, comes in handy for attaching peripherals you want to share across the network, such as portable hard drives, flash drives, and printers. A router with two such USB ports offers a lot more flexibility.
Parental controls are important, too, especially if you happen to have younger children. They allow you to block access to certain sites (think: adult content), limit online gaming or overall network access to specific hours and days of the week, and monitor network usage for each client. A guest-networking feature is also worth looking for if you often have digitally savvy houseguests, as it lets you provide limited wireless access to your network using a separate SSID and password. This way, your guests can access the Internet, but they can’t see other network assets, such as folders, files, printers, and the identities of other connected clients. (Plus, you can assign guests to a radio band that won’t interfere with your gaming.)
All routers, of course, offer some type of security. Wi-Fi Protected Access (in WPA and/or WPA2 flavors) is the most common, and it requires that each client use a password to access the network. Support for Wi-Fi Protected Setup (WPS) is also common and very convenient, as it allows you to add WPS-compatible clients to your network with the push of a button. For more robust security measures, though, look for a router that supports WPS-Enterprise or Remote Authentication Dial-In User Service (RADIUS) authentication.
setting up your router and boosting your Wi-Fi signal.
The Best For Power hungry gamers
Asus ROG Rapture GT-AC5300
The Best For Gamers With Limited Budgets
Asus RT-AC86U AC2900 Router
at B&H Photo Video
The Best For Killer Network Prioritization users
Linksys WRT32X Wi-Fi Gaming Router
The Best For Gamers Who Value Security
TP-Link AC4000 MU-MIMO Tri-Band WiFi Router (Archer A20)
The Best For Alexa and IFTTT users
TP-Link Archer C5400X AC5400 MU-MIMO Tri-Band Gaming Router
The Best For Gamers and Video Streamers
Linksys Max-Stream AC4000 MU-MIMO Tri-Band Router (EA9300)
The Best For 10-Gigabit connectivity
Netgear NightHawk Pro Gaming XR700
at Dell Technologies
The Best For Gaming-only networks
Pros: Speedy throughput performance.
Lots of gamer-friendly features.
Eight LAN ports.
Works with Alexa voice commands and IFTTT applets.
Slick user interface.
Middling file-transfer speeds.
Bottom Line: One of the fastest routers we’ve tested, the Asus ROG Rapture GT-AC5300 offers lots of gamer-friendly features, copious I/O ports, and a slick management console that lets you optimize your network for lag-free gaming.
Pros: Easy to install
Lots of gamer-friendly settings
Multi-gig WAN. Link aggregation
Lifetime malware protection
Solid parental controls
Bottom Line: The TP-Link AX11000 is one of the fastest Wi-Fi 6 routers we’ve tested, and it’s loaded with features, too, including a gamer-centric user interface, numerous ports, multi-gig WAN support, and anti-malware tools.
Pros: Solid throughput performance.
Excellent prioritization controls.
Built-in network protection.
Robust features and management settings.
Cons: Middling file-transfer speeds.
Vertical mount only.
Bottom Line: The Asus RT-AC86U is a fast AC2900 dual band router that’s equipped with the latest networking technology and is loaded with gamer optimization and network protection features.
Pros: Uses Killer Networks Prioritization engine.
Fast 2.4GHz throughput in testing.
Easy to install and configure.
Supports MU-MIMO streaming.
Fast file-transfer speeds.
Middling 5GHz throughput.
Bottom Line: The Linksys WRT32X Wi-Fi Gaming Router uses the Killer Networks Prioritization engine to make sure you have plenty of bandwidth for online gaming.
It also offers fast 2.4GHz and file transfer performance.
Pros: Easy to install.
Very fast file-transfer speeds.
Strong parental controls and anti-malware tools.
Alexa voice control.
Cons: Middling 5GHz range performance.
Bottom Line: The TP-Link Archer A20 is a tri-band router that offers solid throughput and very fast file-transfer performance as well as built-in network security tools and robust parental controls.
Pros: Fast throughput performance.
Lots of LAN ports.
Works with Alexa and IFTTT.
Built-in malware and anti-virus tools.
Short on game-centric features.
So-so file transfer speeds.
Bottom Line: A router designed for gaming enthusiasts, the TP-Link Archer C5400X offers solid throughput speeds, built-in malware protection, and support for Alexa voice commands and IFTTT applets.
Pros: Easy to install.
Speedy file-transfer performance.
Good throughput performance.
Supports MU-MIMO and beamforming.
Works with Alexa voice commands.
Limited parental controls.
Lacks built-in malware protection.
Bottom Line: The Linksys Max-Stream EA9300 is a solid-performing tri-band router for high-bandwidth scenarios like video streaming and online gaming.
Pros: Easy to install.
Solid throughput performance.
Numerous I/O ports.
Supports 60GHz and 10Gb Ethernet connectivity.
Gamer-friendly management console.
Middling MU-MIMO performance.
Bottom Line: Netgear’s NightHawk Pro Gaming XR700 is a powerful, feature-packed, and expensive tri-band router designed for gamers.
Pros: Solid performance.
Easy to install.
Lots of gamer-friendly settings.
Supports mesh networking.
Cons: Only three LAN ports.
Limited parental controls.
No malware protection.
Expensive when configured as a mesh network.
Bottom Line: The Razer Sila is a sleek-looking, solid-performing tri-band router designed for gamers.
As a Contributing Editor for PC Magazine, John Delaney has been testing and reviewing monitors, HDTVs, PCs, servers, and other assorted hardware and peripherals for more than 14 years. A 13-year veteran of PC Magazine’s Labs (most recently as Director of Operations), John was responsible for the recruitment, training and management of the Labs technical staff, as well as evaluating and maintaining the integrity of the Labs testing machines and procedures.
Prior to joining Ziff Davis Publishing, John spent six years in retail operations for Federated Stores, Inc. before accepting a purchasing position with Morris Decision Systems, one of New York’s first value-added resellers of the original IBM PC. For … See Full Bio