Netgear has announced imminent availability of their first 802.11ax router - the 8-stream Nighthawk RAX80, along with the technical details, pricing, and other information. In addition, they have also unveiled the 12-stream RAX120. While the RAX80 will be available for purchase this month, RAX120 will make it to retail in Q1 2019.

802.11ax has had an uphill adoption curve. Silicon vendors have been announcing draft-compliant chipsets since late 2016 (Quantenna - Q4 2016, Qualcomm - Q1 2017, Broadcom - Q3 2017, Marvell - Q4 2017, and Intel - Q1 2018). Device vendors were not far behind, with Asus going public about its plans to release a router (RT-AX88U) based on the Broadcom platform as early as September 2017. A year after the announcement, the RT-AX88U finally made it to retail at a $350 price point. D-Link also gave a sneak peek into their AX6000 and AX11000 routers based on the Broadcom chipset at the 2018 CES.  In the meanwhile, we have had deployments of the Qualcomm chipset in the carrier gateways from KDDI and NEC in Asia, as well as enterprise access points from Huawei and Ruckus Wireless.

Netgear had hinted at their 802.11ax product stack in their 2018 Analyst Day presentation. Today's launch provides concrete details of their first-generation 802.11ax products.

The benefits of 802.11ax have been brought out in multiple articles before, but, a recap of the major improvements is in order:

  • Availability of both uplink and downlink OFDMA (orthogonal frequency-division multiple access) to improve spectral efficiency
  • Usage of both 2.4 GHz and 5 GHz bands (unlike the 5 GHz-only 802.11ac standard)
  • Standardization of 1024-QAM and and making MU-MIMO a mandatory feature (dissimilar to its optional downlink-only nature in 802.11ac Wave-2)

It must be noted that the aim of 802.11ax is not to target peak data-rates, but, improve the aggregate performance over several simultaneously active clients. The OFDMA-enabled simultaneous transmission to several users results in increased efficiency. Thanks to the lowered waiting time, the battery life of client devices also increases.

The first 802.11ax product to ship from Netgear will be the Nighthawk RAX80 AX6000 router based on the Broadcom BCM49408 SoC with two 802.11ax radios - the BCM43684. The BCM49408 has a 1.8 GHz quad-core ARMv8 processor (Cortex A53) supplemented by a 800 MHz network packet co-processor that keeps the main CPU free for other tasks. The radios are in a 4x4:4 configuration, with one dedicated to 2.4 GHz duties (bgn+ax, with 40 MHz channels for 1150 Mbps of theoretical throughput), and another dedicated to the 5 GHz channel (an+ac+ax, with 160 MHz channel support for 4800 Mbps of theoretical throughput). The 8-stream configuration puts the Nighthawk RAX80 in the AX6000 class.

Early next year, Netgear will be shipping the Nighthawk RAX120 AX6000 router based on the Qualcomm IPQ8078 SoC. This SoC appears to be a slightly tweaked version of the IPQ 8074 announced in Feburary 2017. The key difference is that the quad-core Cortex A53 cluster runs at 2.2 GHz (compared to the 2 GHz IPQ 8074 configuration). This SoC is complemented by two 802.11ax radios - the QCN5154 (an+ac+ax) and the QCN5124 (bgn+ax) for the 5 GHz and 2.4 GHz channels. The radios are in a 8x8:8 and 4x4:4 configuration respectively. The router will still be in the AX6000 class, just like the RAX80 - because the 8x8:8 configuration doesn't support 160 MHz channels (only 80 MHz). The IPQ8078 SoC comes with an integrated NBASE-T MAC, which is used by the RAX120 to enable a 5 Gbps LAN port. The PHY duty for this port is handled by the Aquantia AQR108.

There are a few aspects that differentiate the RAX80 and the RAX120:

  • The RAX80's spatial streams configuration is 4x4:4 + 4x4:4 in the 2.4 GHz and 5 GHz bands, while the RAX120's configuration is 4x4:4 + 8x8:8
  • The RAX80 can support 160 MHz-wide channels and DFS, and those features are enabled in the launch firmare, while the RAX120 will initially ship with 80 MHz channels and no DFS.
  • The RAX120 platform can support DFS, and that is in the firmware roadmap. The Qualcomm platform used in the RAX120 can also support 160 MHz channels, but, the spatial stream configuration drops down to 4x4:4 in that case. Netgear indicated that 4x4:4 160 MHz channel support for the RAX120 is also in the firmware roadmap.
  • The RAX120 will be the first WPA3-certified consumer router from Netgear. WPA3 certification for the RAX80 is also planned, but, it will not be done in time for its retail launch.
  • The RAX80 claims multi-gig support using link-aggregation, while the RAX120 comes with a N-BASET LAN port (up to 5 Gbps). The NBASE-T port is currently set for LAN duties, but the firmware roadmap indicates that it could potentially be used as a WAN port in the future.
  • The RAX80 supports both uplink and downlink OFDMA, but, the RAX120 supports only downlink OFDMA.

The RAX80 and RAX120 differentiate themselves from the other 802.11ax routers announced so far by opting for a very different industrial design. Instead of going with the traditional antennae, the routers comes with a couple of 'wings' in which the antennae are hidden. With pre-positioning for optimal performance, and wall-mount capability for the unit, Netgear claims that the routers can fit practically anywhere to deliver high-end Wi-Fi performance.

Antennae Placement for the RAX120 (RAX80 is similar, except for the number of hidden antennae)

The RAX80 comes with 5x GbE LAN ports and 1x GbE WAN port, along with a couple of USB 3.0 ports.The RAX80 allows for link-aggregation across its LAN ports, and also between the WAN and one of the LAN ports. The latter allows for full compatibility with upcoming multi-gigabit Internet uplinks, though Netgear currently does not have any modems with dual LAN ports supporting link aggregation.

Netgear RAX80 Link Aggregation

The RAX120 comes with (4x 1Gbps + 1x 5Gbps) LAN and a 1Gbps WAN port. Just like the RAX80, the router also sports a couple of USB 3.0 ports. Link aggregation is supported on two of the 1Gbps LAN ports. Netgear is marketing the NBASE-T connection as a flexible multi-gig port.

Netgear RAX120 NBASE-T Support

The absence of 802.11ax clients has definitely held back the adoption of 802.11ax a bit. However, Netgear was quick to stress that the new routers would enable even advanced 802.11ac clients with Wave 2 features to benefit. The RAX80 supports 160 MHz-wide channels and is also DFS (dynamic frequency selection) certified out of the box. Thanks to the non-availability of a contiguous 160 MHz wide-channel in the permitted operation spectrum, DFS support is absolutely essential if the full advantage of such wide channels is to be realized.

Even though both routers are in the AX6000 class, the availability of more spatial streams in the RAX120 is helpful when we have a large number of clients that are simultaneously active. On the other hand, DFS and 160 MHz channels support out of the box should help provide better peak rates for single clients capable of supporting that configuration. NBASE-T support in the AX12 gives it a slight edge compared to the link-aggregation routine that is not straightforward for the average consumer. However, the firmware status for the AX12 seems fairly fluid, and its launch is also a few months away. For the 2018 holiday season, it appears that Netgear is putting its bets on the AX8 as its flagship router.

The Nighthawk RAX80 is priced at $400, and is available for pre-order now (with shipping date set to late December 2018). Netgear did not provide any pricing information for the RAX120 that will make it to retail in Q1 2019. [Update: Netgear has a new subscription-based 'Wi-Fi as a Service' program that is launching with the AX12. Apparently, it is a beta-testing program that allows users to pay for the hardware after 90 days, assuming they are satisfied with the router.]

Source: Netgear

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  • The Chill Blueberry - Wednesday, November 7, 2018 - link

    100% will end up as a document holder. With the added heating+drying bonus too.
  • PeachNCream - Wednesday, November 7, 2018 - link

    Haha! They do look like a great way to store papers and books! Though, I admit I like the design better than the upside down bug things that had a bunch of antennas sticking out of them for no reason other than to impress people that don't understand radio technology and think more visible antennas means better.
  • peevee - Tuesday, December 11, 2018 - link

    For multi-story houses, ability to reposition antennas so they would provide better performance in up-down direction and not just on the same floor as the router is not a small thing.
  • Hxx - Wednesday, November 7, 2018 - link

    Designed by Kylo Ren
  • schujj07 - Wednesday, November 7, 2018 - link

    At that price it should have 10Gigabit ports instead of Gigabit ports
  • edzieba - Wednesday, November 7, 2018 - link

    As network performance increases, it makes less and less sense to buy a monolithic router/switch/AP than to use separate components and upgrade only the parts required, e.g. it is cheaper (and FAR less hassle) to swap out an AC AP for an AX AP and keep the rest of the network in place than to effectively replace and recreate an entire network setup.
  • Death666Angel - Wednesday, November 7, 2018 - link

    Well, if you get a new router, no one forces you to throw out your switch, do they? How many routers also aren't wireless access points? So two out of your three items are already linked in all consumer cases I know of. Plus of your, wifi routers usually have 4 or 5 gigabit LAN ports, so they are switches as well. And a quick look at a price comparison website says that wifi routers and wifi router with built in modems are much cheaper across the board (probably due to scaling powers) than routers and router with modems without wifi. The access point stuff seems to be mostly for people building a mesh network or covering larger places anyway, which is a totally different bag in and of itself.

    Here in Germany you get provided a wifi router/modem with 4 Gb/s LAN ports or more when you enter a contract. The default model is free of charge in my experience, the premium model from the supplier is either a one time payment thing or a monthly rent thing. You can provide your own modem and anything else, that is a new right we gained a year or two ago. Apart from some people with FritzBoxes who want to use the built in DECT stuff or people with really specific need, I don't think anyone actually does that. You can configure the wifi router to just act as a modem and supply your own switches, routers and wifi APs after the fact, setting up your own pfSense PC, DHCP server or whatever.

    So you really need to explain to me in what (preferrably generally done) way your solution would be less hassle and cheaper to boot?
  • Death666Angel - Wednesday, November 7, 2018 - link

    Some typos and generally sloppy writing and mistakes. My apologies.
  • oRAirwolf - Thursday, November 8, 2018 - link

    Agreed. I would much rather have a separate access point. I migrated my home network over to a Sophos virtualized router, a Netgear 10 gigabit switch, and a Ubiquiti UniFi AP AC Pro. I couldn't be happier. When I ran some iperf tests comparing my ASUS ac1900 router to my UniFi AP AC Pro, the difference was night and day. Even though the UniFi AP is technically slower, I actually get much higher throughput on my laptop with an Intel 9260 chipset. The connection is also much more stable from a throughput perspective. When I ran iperf with the ASUS router, the graph was going up and down all over the place. With the UniFi AP, it's just a nice flat line with no peaks or dips. You can tell that the UniFi AP is much more well built and thought out. There really is no replacement for enterprise grade hardware like the stuff that Ubiquiti and other vendors offer. A lot of it is the same price or cheaper than these ridiculous routers like this new Netgear.
  • Gasaraki88 - Wednesday, November 7, 2018 - link

    *drooling* over the AX12 but soooo expensive...

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