The 2013 MacBook Air Review (13-inch)
by Anand Lal Shimpi on June 24, 2013 12:01 AM EST802.11ac: 533Mbps Over WiFi
Haswell isn’t all that’s new with the 2013 MacBook Air, Apple also integrated support for 802.11ac. I wrote a primer on 802.11ac last year, but I’ll provide a quick recap here. 802.11ac is a 5GHz-only WiFi standard, with support for wider channels (80/160MHz vs. 40MHz in 802.11n) and better spatial efficiency within those channels (256QAM vs. 64QAM in 802.11n). Today, that means a doubling of channel bandwidth and a 4x increase in data encoded on a carrier, which are responsible for the significant increase in bandwidth. Usable bandwidth should also see improvements on 802.11ac as high-end access points are all expected to ship with beam forming enabled.
The first 802.11ac implementations we saw were on the smartphone side with HTC’s One and Samsung’s Galaxy S 4. Both of these devices were single antenna/single spatial stream implementations with 80MHz channels and 256QAM, resulting in a max PHY rate of 433Mbps. In his review of the HTC One, Brian documented peak performance using iPerf and a TCP transfer. In a smartphone, such high bandwidth from WiFi is really useful for improving battery life (race to sleep). In a notebook, you get the same potential improvement in battery life but there’s one more: a wireless alternative to Gigabit Ethernet.
In a 3-stream configuration given what’s available today, we’re talking about a 1.33Gbps PHY rate. Assuming better link efficiency on a notebook compared to what we’ve seen in smartphones thus far, we could be talking about a real alternative to Gigabit Ethernet - at least close to an AP. While wired GbE is always going to give you a more consistent experience, the vast majority of homes aren’t pre-wired with Gigabit Ethernet. In living situations where you can’t just run a bunch of Cat6 everywhere, but still want high speed networking, 802.11ac could be a real alternative.
The 2013 MacBook Air adds support for 802.11ac via Broadcom’s BCM4360. The controller is capable of supporting up to 3 spatial streams, but in its implementation in the MacBook Air we see a maximum of 2 used. I fully expect the 2013 rMBPs to use a third antenna to leverage all 3 streams. BCM4360 supports 80MHz channels, 256QAM and short guard intervals. The result is a max PHY rate of 867Mbps.
ASUS sent me its RT-AC66U based on the same BCM4360 silicon (coincidentally the same controller that’s in the new Airport Extreme), which I promptly used for testing the new MacBook Air. The ASUS router and MacBook Air combination worked perfectly. In the same room as the AP, I had no issues seeing the maximum 867Mbps PHY rate (above).
Within about 5 - 8 feet of the AP, I saw an average of 533Mbps using iPerf. That’s real data sent over TCP:
A 3-stream solution could definitely rival wired GbE, at least for short distances.
I then went about characterizing 802.11ac performance vs. distance to get an idea for how performance fell off as I moved away from the AP. My desk and test area is in the corner of my office, which is where I put the ASUS 802.11ac router. Performance around my desk was always up around 533Mbps.
Move around 18 feet away but remain in the same room and measured performance dropped to 450Mbps. One set of walls and another 10 - 15 feet dropped performance to between 250Mbps - 340Mbps. Another set of walls without moving much further and I was looking at 200Mbps. When I went one more set of rooms away, or dropped down to a lower level, I saw pretty consistent falloff in performance - dropping down to 145Mbps. Note that my setup is pretty much the worst case scenario for longer distances. The AP isn’t centrally located at all. If I were setting up an 802.11ac network for max coverage, I’d probably see 300 - 400Mbps in most immediately adjacent rooms.
So 802.11ac on the new MacBook Air is pretty awesome, there's just one issue...
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doobydoo - Tuesday, June 25, 2013 - link
Sigh @ Ignorant people who compare processors of different architectures by GHz.TheinsanegamerN - Sunday, June 30, 2013 - link
the boost clocks are similar, and the haswell boosts way more than ivy bridge did. look at the cpu scores, which are similar, despite the 400 mhz reduction.Krysto - Monday, June 24, 2013 - link
Disappointing to see that even Apple has started being misleading about its battery life for laptops.It seems unlike Steve Jobs, Tim Cook is more of a "regular manager" who prefer spec lists and bullet points, over being truthful to customers. Now they're just lying about battery life numbers just as every other PC OEM out there - 12h of battery life! (but you might actually get only half of that).
And all that with a CPU that is 20 percent slower than last year, and a GPU that's twice as big but only 10-20 percent better than last year.
Also, the dual core Haswell chip alone costs $350? Yikes. So you still think these chips have any chance of competing in the tablet space, Anand? The whole of iPad Mini costs less than that, with a sub $30 chip. Intel is as behind as always when it comes to competing in the mobile space.
madmilk - Monday, June 24, 2013 - link
Sheesh, at least read the review. The battery life is 11 hours on the light workload, which is certainly more than half of the advertised 12. This difference is easily accounted for by the higher screen brightness and Flash. The 1.3GHz Haswell is not 20% slower either than the comparable 1.7GHz Ivy. More like 5% at worst, and in several cases faster. The GPU is 20% faster in a _much_ lower TDP, once the FIVR and PCH are accounted for, which contributes to the very impressive battery life on the heavy workload as well. As for Haswell pricing -- ULV i5/i7 are in another league compared to any ARM offering on the market. Atoms and Celerons are more appropriate for the toy tablet market.Sushisamurai - Tuesday, June 25, 2013 - link
... If you read the fine print on apple's website, they increased the benchmark demands on the MBA compared to previous battery tests just to make the 12 hrs seem more realistic. CNET and a few other sites posted their battery tests of the 13" to be rated for 14+ hours. I think anand already made a point about this...And if you compare ARM A9's & ARM A15's performance to intel's haswell platform... You would know ARM processors really can't compete on the same level. There's a reason for that price difference
lyeoh - Monday, June 24, 2013 - link
OK, so which review site is better? So that we can go read it as well...whyso - Monday, June 24, 2013 - link
You know what would be nice. GPU benchmarks for the rmbp 13" or HD 4000 from a standard voltage part to see how it compares to the HD 5000.tipoo - Monday, June 24, 2013 - link
Agreed. It can be confusing when the ULV parts have the same name as normal TDP parts and perform significanlty differently.tecsi - Monday, June 24, 2013 - link
Could these MBAs support external 4k displays given the Intel 5000? There appears to be a new Thunderbolt part—is this Thunderbolt 2? I am surmising that this support could be turned on in MBAs when the Mac Pro arrives with Mavericks, along with potentially Apple 4k displays.tipoo - Monday, June 24, 2013 - link
Not Thunderbolt 2. Only the new Mac Pro has that right now.