The Acer Swift 3 SF314 Notebook Review: Swift Gets Swifter With Ryzen 4000
by Brett Howse & Andrei Frumusanu on May 5, 2020 8:00 AM ESTAlmost two years ago to the day, we had a chance to check out Acer’s Swift 3 laptop featuring AMD's first Ryzen Mobile platform, Raven Ridge. Acer has been a strong partner for AMD, generally being one of the first out of the gate with new designs featuring AMD’s latest platforms, and this year that partnership has played out again. Today we are taking a look at the newest AMD APU offering, the Ryzen 4000 "Renoir", which is at the heart of Acer’s latest iteration of the 14-inch Swift 3. With a brand-new AMD processor and some innovations in the Swift 3 design itself, both AMD and Acer have made some tremendous improvements for 2020.
Ryzen 7 4700U
The big news for 2020 is AMD’s new APU platform, codenamed Renoir. Selling as the Ryzen 4000 series, these new APUs bring a number of major updates to AMD's platform, as the company further sands down the rough edges from the Ryzen 3000 Picasso series. Key to this is a much-needed jump from GlobalFoundries' 12nm process to TSMC's class-leading 7nm process, giving AMD a much-wanted boost in transistor performance and overall energy efficiency. Coupled with a number of further optimizations at the chip and driver level, and AMD's latest APUs are proving far better suited for thin-and-light mobile designs than their predecessors.
Under the hood, like AMD's desktop processors introduced last year, the new Ryzen 4000 series APUs are the first laptop-focused products from AMD which feature their Zen 2 CPU cores. Designed hand-in-hand with TSMC's 7nm process, the Zen 2 architecture has further boosted AMD's performance across both IPC and clockspeeds, and the small cores have allowed AMD to get away with 8 of them in even a laptop APU. Meanwhile the iGPU is based on the same Vega architecture graphics as both the 2000-series and 3000-series APUs, but in a new configuration. Thanks to TSMC’s 7nm process, AMD has been able to crank up the GPU frequency much higher than before – so much higher that they’ve actually scaled back on the number of GPU compute units, while still promising improved GPU performance over the previous generation of APUs.
Ian had a chance to take the new Ryzen 4000 platform for a spin in early April, although that sample was the 45-Watt H series. Many of the concepts carry across though, so if you’ve not yet had a chance to catch up on Renoir, be sure to check out the Ryzen 9 4900HS review. The 45-Watt processor range is pretty much the standard in high-performance notebooks, but the vast majority of laptops on the market stick to the lower-powered 15-Watt range, which is what we have in the Acer Swift 3.
Acer has opted for what is likely to be one of the most popular SKUs in the AMD Ryzen 4000 range, the Ryzen 7 4700U. AMD has gone a very non-traditional route for this part, offering eight physical CPU cores, but disabling simultaneous multithreading (SMT). All of AMD’s H-Series lineup of 45-Watt processors do offer SMT, but only two of the new U-Series provide this, with the Ryzen 5 4600U offering 6 cores and 12 threads, and the Ryzen 7 4800U providing 8 cores and 16 threads, all in the 15-Watt thermal design power (TDP) that is so common on laptops. In the typical 15-Watt laptop space, AMD is the first to offer 8 cores, just not always with SMT.
On the GPU side, the Ryzen 7 4700U offers 7 Vega-architecture Compute Units (CUs), with a maximum clockspeed of 1600 MHz. Compared to the previous generation Ryzen 7 3700U, the GPU drops three compute units, but bumps the maximum frequency from 1300 MHz to 1600 MHz, so we shall see where this plays out in terms of performance.
The Acer Swift 3
Acer has managed to bundle a lot of product into the Swift 3. The 14-inch notebook features a 1920x1080 IPS display that, albeit lacking touch support, does get showcased well thanks to the Swift 3's thin bezel surround. The laptop ships with 8 GB of DDR4-3200, and though we would have loved to see LPDDR4X, the capacity is what is important here, and 8 GB is a good amount for a budget-friendly laptop like the Swift 3. Also, Acer has managed to outfit this notebook with a 512 GB SSD, which is fantastic. They will also be offering a less-expensive version with a Ryzen 5 4500U, 8 GB of RAM, and a 256 GB SSD.
Acer Swift 3 SF314-42 | |||||
Ryzen 5 | Ryzen 7 Model Reviewed |
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CPU | AMD Ryzen 5 4500U 6 core 6 thread 2.3-4.0 GHz 2x 4MB L3 15W TDP |
AMD Ryzen 7 4700U 8 core 8 thread 2.0-4.1 GHz 2x 4MB L3 15W TDP |
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GPU | AMD Vega 6 6 CUs 1500MHz Boost |
AMD Vega 7 7 CUs 1600MHz Boost |
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RAM | 8 GB Dual-Channel DDR4-3200 | ||||
Storage | 256 GB PCIe NVMe SSD | 512 GB PCIe NVMe SSD | |||
Display | 14-inch 1920x1080 IPS | ||||
Networking | Intel Wi-Fi 6 AX200 2x2:2 802.11ax Bluetooth 5.0 |
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Audio | Stereo Speakers DTS Sound |
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Battery | 48 Wh Li-Ion 65-Watt Charger (barrel connector) USB Power Delivery Support |
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Right Side | USB 2.0 x 1 Headset jack Battery Charge Indicator |
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Left Side | USB 3.2 Gen 1 x 1 with power-off charging USB 3.2 Gen 2 Type-C w/DisplayPort, PD HDMI 2.0 Charging connector |
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Dimensions | 323.4 x 218.9 x 15.95 mm 12.73 x 8.62 x 0.63 inches |
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Weight | 1.2 kg / 2.65 lbs | ||||
Camera | 720p Super High Dynamic Range | ||||
Extras | Fingerprint Reader | ||||
Price (MSRP) | $629 USD | $649 USD |
Despite the strong APU, RAM, and storage offerings, Acer is not done there. The Swift 3 also features Wi-Fi 6 thanks to Intel’s AX200 wireless adapter, which means 2.4/5.0 GHz wireless support with 160 Mhz channels if your router is has the correct capabilities. There’s also an integrated fingerprint reader for Windows Hello Support, and the entire package is contained in an all-aluminum chassis which weighs just 1.2 kg / 2.65 lbs. Considering the $649 MSRP, this is an incredible value.
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fmcjw - Tuesday, May 5, 2020 - link
Because over in Mac land they finally got the butterfly keyboard revolt over with and now talks can resume on the finer points of systems design. But it's not looking good for fine arts because the front burners have been conscripted for the A15 (MacOS on ARM) revolution.Spunjji - Wednesday, May 6, 2020 - link
Buying a CPU that doesn't have turbo is *not* a worthy trade-off unless you simply cannot afford anything better, because you'll be leaving a whole ton of performance on the table - especially when the device is plugged in.The 25% battery deficit isn't as simple as "more cores, more power" either - check out the Zephyrus G14 vs the Razer Blade 15 for a more appropriate comparison of well-designed devices. Put simply, that deficit has more to do with how this particular notebook was designed than it does to do with Ryzen 4000.
Focusing on single-thread performance when the vast majority of applications users interact with are multi-threaded doesn't really make sense, either. I'd recommend reading in a little more depth.
Omega215D - Tuesday, May 5, 2020 - link
Looks like we've got another piece of crap Intel fanboy here intent on spreading FUD on AMD's new mobile processors. So far reviews of the ASUS TUF featuring the new procs do far better on battery life and gaming performance.yeeeeman - Tuesday, May 5, 2020 - link
Looks like we've got another piece of crap AMD fanboy that cannot read the damn graphs.yankeeDDL - Tuesday, May 5, 2020 - link
The XPS and the Surface cost about twice as much as the Swift 3: they are high-end systems with high-end components, especially screens.Irata - Tuesday, May 5, 2020 - link
Actually the Dell's "as reviewed" price on At was $ 1,749.99, the Surface Laptop 3 with a 512GB SSD costs $ 2,199, so we are talking three times the price. The Yoga C930 is almost budget, costing only slightly less than twice as much as the Swift.yankeeDDL - Wednesday, May 6, 2020 - link
Thanks. You're right of course.Irata - Tuesday, May 5, 2020 - link
Eight cores vs. four cores....You have surely seen the battery life comparisons between Ryzen 4000 and Intel's eight core counterpart.
notb - Wednesday, May 6, 2020 - link
Number of cores is of less importance. Intel makes 16-core processors using 30W and 6-core chips using 100W.Comparison of 8-core SoCs are between chips made on TSMC 7N and Intel 14nm, which makes AMD much more efficient.
This comparison is for TSMC 7N vs Intel 10nm.
What matters is performance vs power and average these are similar. The gap will be minimal when Intel launches 6 or 8-core models later this year.
Spunjji - Wednesday, May 6, 2020 - link
Is there any evidence that Intel will be releasing 10nm 15W 6-8 core CPUs this year? I thought they were sticking with 4 cores on 10nm and releasing 6-8core 15W 14nm CPUs.