Multi-Gig Explained: 1Gig's Best Upgrade

Multi-Gig Explained: 1Gig’s Best Upgrade

With Wi-Fi 6/6E and especially Wi-Fi 7, we naturally need faster-than-Gigabit wired connections to match. And that’s where Multi-Gig comes into play.

This post will explain this type of wired connectivity in simple terms and how it’s applicable today.

If your home network is currently wired for Gigabit, there’s nothing you need to do regarding wiring — it’s ready. But if you’re in the processing building/remodeling your home, consider adding CAT6a or higher cable grades to the budget.

So the most important takeaway is that you must get your home wired. That will make a huge difference now and years in the future.

Let’s start with what Multi-Gig means.

Dong’s note: I first published this post on November 23, 2021, and updated it on May 17, 2023, to add up-to-date information.

TP Link Deco BE85 Ports All Multi Gig
Multi-Gig explained: The Multi-Gig ports on a TP-Link Deco BE85 Wi-Fi 7 router. The device is the first that foregoes the popular Gigabit ports completely. Note the Multi-Gig/SFP+ Combo.

Multi-Gigabit: The base of Multi-Gig

To qualify as multi-Gigabit, a networking party involved — a router, a client, a broadband connection, or a cellular device — must deliver 2Gbps or faster of sustained rate in a single link.

What is Gig+

Gig+, or Gig Plus, conveys a speed grade faster than 1Gbps but slower than 2Gbps. So, it’s 1.5Gbps, give or take, and it’s not fast enough to be qualified as Multi-Gig or multi-Gigabit.

Gig+ generally applies to the sustained speeds of Wi-Fi 6 or 6E (via a 2×2 at 160MHz connection) or Internet speed and is not used to describe wired network connections.

However, Multi-Gig is a bit different from multi-Gigabit. The former is only one of many ways to get the latter.

Multi-Gig is the name of a relatively new BASE-T wired network standard that can deliver beyond Gigabit, which is known as 1000BASE-T, while remaining the same physically and is backward compatible with Gigabit and Fast Ethernet (100MBASE-T).

Multi-Gig has two tiers that cap at 2.5Gbps (2.5GBASE-T) and 5Gbps (5GBASE-T). However, lately, you’ll find 10Gbps switches and routers — the case of most Wi-Fi 6E and all Wi-Fi 7 hardware — that also support these two Multi-Gig grades.

And that begs the question: Is 10Gbps part of Multi-Gig?

The answer is a bit complicated. We have two different 10Gbps standards, 10Gbps BASE-T (10GBASE-T) and SFP+, to start with.


BASE-T (or BaseT) is the common port type and refers to the wiring method used inside a network cable and the connectors at its ends, which is 8-position 8-contact (8P8C).

On the other hand, the SFP or SFP+ (plus) port type is used mostly for enterprise applications. SFP stands for small form pluggable and is the technical name for what is often referred to as Fiber Channel or Fiber.

Best among Multi-Gigabit Routers: The Asus RT AX89X 10GbpsTP Link Archer AXE300 Ports Multi Gig
BASE-T Multi-Gig vs SFP+: The two are generally available as separate ports, such as in the Asus RT-AX89X‘s case (left) but can also be part of a combo port in some hardware, such as the TP-Link Archer AXE300.

An SFP+ port has speed grades of either 1Gbps or 10Gbps. The older version, SFP, can only do 1Gbps, though it shares the same port type as SFP+. This type of port standard is more strict in compatibility and more reliable in performance.

While physically different, BASE-T and SFP/+ are parts of the Ethernet family, sharing the same networking principles and Ethernet naming convention — Gigabit Ethernet (1Gbps) or 10 Gigabit Ethernet (a.k.a 10GE, 10GbE, or 10 GigE).

The BASE-T wiring is more popular thanks to its simple design and flexibility in speed support. Some routers and switches have an RJ45/SFP+ combo which includes two physical ports of each type, but you can use one at a time.

OK. So, 10GBASE-T sure is part of Multi-Gig, then?

The answer is both yes and no.

No, because the 10GBASE-T wired standard came out long before the concept of Multi-Gig. It’s the friendly name of the IEEE 802.3an-2006 specification that was first available in 2006.

Per its specifications, 10GBASE-T requires CAT6 (or later) cable grade to deliver 10Gbps. When hooked to CAT5e, this standard connects at Gigabit.

If your home is wired with CAT5e and you want to move to 10Gbps, rewiring to CAT6 or higher is required, which is an expensive practice.

That, plus the fact a decade ago, Gigabit was more than fast enough — it’s still plenty fast today in most cases — means the 10Gbps BASE-T standard never took off.

We need something that can deliver faster-than-Gigabit without the need to rewire. And that’s the reason in 2016, the new Multi-Gig standard was formed.

Its purpose is to fill the gap between Gigabit and 10Gbps with 2.5Gbps, and 5Gbps while remaining compatible with all previous BASE-T standards. Most importantly, the standard supports CAT5e — the most popular existing network infrastructure in many homes and offices.

And here’s the interesting part: With the availability of Multi-Gig, it turns out that CAT5e can also deliver 10Gbps, but at a shorter distance (cable length) than higher cable grades. That has consistently been the case in my testing.

The distance (length) in which each type of network cable can deliver up to 10Gbps:

  • CAT5e: 45 meters (148 feet)
  • CAT6: 55 meters (180 feet)
  • CAT6a: 100 meters (328 feet)
  • CAT7: Over 100 meters

For virtually all homes, the popular CAT5e cable is enough. You can expect it to deliver up to 10Gbps. At the very least, it will deliver up to 5Gbps, which is fast enough for any application.

Nowadays, switches and routers with 10GBASE-T ports also support Multi-Gig (5Gbps, 2.5Gbps), Gigabit, and lower RJ45 grades. It’s hard, if not impossible, to find a 10GBASE-T device released after 2016 that doesn’t also feature Multi-Gig.

Consequently, yes, it’s safe to count the 10GBASE-T standard as part of Multi-Gig, though technically, it’s part of multi-Gigabit. But that’s only semantics.

Extra: Home routers and 10Gbps Ethernet

To deliver (close to) true 10Gbps, a router needs more than just a couple of 10Gbps Ethernet network ports. It also requires high processing power and applicable firmware to handle this type of bandwidth on top of its routing-related functions.

Generally, home routers, including top-tier ones, do not meet all the requirements for true 10Gbps (10,000Mbps) throughputs. After “overhead,” they sustain at around 6,500Mbps, give or take, on a good day. (A similar thing can be said about most 10Gbps switches though they tend to have better-sustained rates than routers.)

That’s partially why more home Wi-Fi routers support the lowest tier of Multi-Gig, 2.5Gbps, than those with 10Gbps ports. In this case, you can expect them to deliver close to 2,500Mbps in real-world speeds.

Multi-Gig and you

To take advantage of the Multi-Gig standard, you will need new hardware.

Multi-Gig saves you from having to run new network cables, but if you need to run new cables anyway, pick CAT6a or a later grade. Again, to get Multi-Gig, wiring is required.

If you think you don’t need Multi-Gig because Gigabit is already fast enough, you might be right. However, remember that a Gigabit connection doesn’t deliver true 1Gbps (1000Mbps) sustained rates. After overheads, you’ll get around 500Mbps to 900Mbps. So Multi-Gig is the only way to have real Gigaibit.

The point is Multi-Gig is the way of the future. Whether or not you need it, you want it.

How to upgrade your home to Multi-Gig

Assuming your current home is wired for Gigabit — again, that’s CAT5e or higher — you can easily upgrade it to Multi-Gig via a qualified router, a switch, or both.

Ubiquiti Switch Enterprise 8 PoE is in action
Multi-Gig explained: Here’s a Multi-Gig switch, the Ubiquiti Enterprise 8 PoE, with two SFP+ ports and eight 2.5GBASE-T ports in action.

To have a Multi-Gig connection, the two devices at the two ends of a link must support this standard, and the data throughput between a pair always caps at the rate of the slower member.

You’ll also find routers or switches with just one Multi-Gig port, with the rest being Gigabit. In this case, the Multi-Gig port is not useless. The device hosted by a Multi-Gig port can simultaneously deliver full Gigabit connections to multiple devices.

For example, a server connected at 5Gbps to a router can theoretically deliver full 1Gbps speed to up to five Gigabit devices simultaneously.

Many home routers have just a single Multi-Gig port. In this case, the port can work exclusively or selectively for the WAN or LAN sides. The former (WAN side) is for those with super-fast broadband speed, and the latter is for those with a super-fast local client, like a NAS server.

But to have a true multi-Gigabit connection, we need a router or switch with at least two Multi-Gig ports. On this front, the more high-speed ports, the better, and a Multi-Gig switch will help.


Devices connected to a switch will have the switch’s speed grade independent from the router. So for local Multi-Gig connectivity, you don’t need a Multi-Gig router, just a switch.

Specifically, if you have a Gigabit router — the case of most existing routers — and a Multi-Gig switch, wired devices connected to the switch will enjoy Multi-Gig speeds between themselves as long as they do they also support 2.5Gbps, 5Gbps, or 10Gbps.

Multi-Gigabit: Wi-Fi vs Multi-Gig

Even though Wi-Fi 6/6E can deliver multi-Gigabit Wi-Fi speeds on paper, that’s not been the case in real life.

The sustained rates of all routers I’ve tested are capped between 1Gbps and 1.6Gbps because there are only mid-tier 2×2 clients.

The upcoming Wi-Fi 7 is even faster, but its real-world connection speeds also depend on the clients. And, for now, the only currently available Wi-Fi 7 device, the One Plus 11 5G, also doesn’t sustain faster than Gig+. It just doesn’t ever need more than that.

And all of these high-end routers come with Multi-Gig ports. The first Wi-Fi 7 router, TP-Link Deco BE85, no longer has Gigabit ports.

That’s to say, the only way to have a true multi-Gigabit experience, wired or wireless, is via Multi-Gig. So get your home wired and have at least a Multi-Gig switch to connect your devices, including Wi-Fi broadcasters.

Extra: Real-world Multi-Gig speeds

In networking, there’s a difference between theoretical and sustained real-world speed. While wired connections have less overhead than Wi-Fi, the Multi-Gig standard has its discrepancy.

After testing dozens of Multi-Gig routers and switches, I’d say we need to discount between 15 to 40 percent from their ceiling seeds to get real-world performances. Below are the charts of Multi-Gig switches and routers with two or more Multi-Gig ports I’ve tested.

The Real world performance of Multi Gig hardware
The real-world sustained data rates of current Multi-Gig Wi-Fi routers and switches. Hardware with SFP+ might be tested via SFP+ to RJ45 adapters.

Generally, the higher the grade, the more percentage of potential bandwidth loss. Specifically, the 2.5GBASE-T delivers closer to 2500Mbps of sustained speeds than 10GBASE-T to 10000Mbps. But it’s always case by case.

Most importantly, if somebody tells you that their Multi-Gig or 10GBASE-T device can deliver (close to) the ceiling speed, take it with a grain of salt. As mentioned above, similar to the fact we need Multi-Gig to deliver Gigabit in full, we also need an even faster standard (20Gbps or more) to experience true 10Gbps.

And we’ll get there at some point. Until then, Multi-Gig has proven to be always fast enough to qualify as a true multi-Gigabit experience. And that’s a good thing.

The takeaway

In many ways, the Multi-Gig standard (2.5Gbps and 5Gbps) is somewhat of a “hack” to get us significantly beyond 1Gbps in a wired network using existing CAT5e (or higher) wiring.

This standard is a lesser variant of 10GBASE-T — though the two are now blurred into one — and a sweet spot that allows us to take full advantage of Wi-Fi 6/6E and Wi-Fi 7 without spending on replacing the existing infrastructure.

If you’re into this non-compromising performance, get your home wired and a pair of a Multi-Gig switch and a Multi-Gig router. The result can be pretty exciting for Gigabit or faster broadband. If you have fast Internet, give Multi-Gig a try today!