(Pocket-lint) – The Asus TUF Dash F15 is another of the company’s ultra-thin gaming laptops, which sports some serious specs in a compact, lightweight and portable frame.
Available in two colours with a small mix of specs options and some nifty design accents, the TUF Dash F15 is interesting enough on paper, but is it worth a buy? We’ve been gaming and working with it for a couple of weeks to find out.
A compact frame that packs power
Up to Nvidia GeForce RTX 3070 GPU, 8GB GDDR6 RAM
Up to Intel Core i7-11370H processor
Up to 32GB DDR4 3200Mhz RAM
Up to 1TB M.2 NVMe
In classic Asus fashion, the TUF Dash F15 features some nifty tech packed into a compact frame. That chassis has been put through the usual military standard durability tests, which in reality results in a solid frame that feels robust and well built. It doesn’t bend or flex easily during use and yet is light enough to carry around with you, or position on your lap when gaming.
Outwardly the TUF Dash F15 is also easy on the eyes. It’s available in two different colours – Moonlight White or Eclipse Gray – with understated accents on the shell and an equally subtle backlit keyboard.
Super-narrow bezels also ensure maximum screen real-estate and “minimal distraction” – though this does come at the expense of a webcam (ugh!).
Hidden within that frame is some powerful tech with options that include some of the best from Nvidia and Intel. This means the TUF Dash F15 is a capable gaming machine that can take advantage of ray tracing and DLSS, while also maximising performance with Dynamic Boost and keeping things running quietly with Whisper Mode.
Pocket-lint
Naturally, the specs of this gaming laptop mean you can push the visuals up to maximum, but still get frame rates high enough to make the most of the 240hz screen. The Nvidia GeForce RTX 3070 is more than capable of driving this 15.6-inch display at Full HD resolution and delivering smooth gameplay experiences with satisfying visuals.
With this spec, you can also manage streaming to Twitch and the like if you want, while the addition of a RJ45 connection means you’ll have a solid connection when doing so.
How to start streaming your gaming: All the gear you need
The keyboard on this laptop is fairly basic compared to other Asus laptops we’ve tested though. At least in terms of RGB lighting anyway. There are very basic settings here, with just a few effects and no per-key illumination. It does, however, have some nicely accented WASD keys which help those stand out.
Pro grade gaming screen options
15.6-inch Full HD (1920 x 1080) anti-glare IPS display
Adaptive-sync panel – up to 240Hz refresh rate
Colour gamut: 100% sRGB, 75.35% Adobe
Benchmarks: Timespy, Timespy Extreme, Port Royal, Firestrike Ultra, Firestrike Extreme, PC Mark
Despite only being 15.6-inches, the panel on this gaming laptop gives the impression of something larger. The thin bezels mean the screen stands out nicely and didn’t lead us to feel like we were straining to see our targets in Rainbow Six Siege or struggling fighting skeletons in Valheim.
The viewing angles on this screen are also satisfying, as are the colours. The Adaptive-Sync tech means the panel is also synchronised nicely with the GPU which results in ultra-smooth gaming visuals.
As with other Asus gaming laptops, the TUF Dash F15 lets you use Armoury Crate to tweak the visuals. There are various settings that adjust the colours of the screen to suit your mood or need. This includes settings for Vivid, Cinema, RTS, FPS, and Eye Care. You can tweak what you’re seeing to maximise the look and feel of a game or eliminate eye-taxing blue light if you’re simply using the laptop for work.
Armoury Crate also lets you do things like monitor system performance, frequencies and temperatures, and switch between the various performance modes to increase power or reduce fan noise.
Performance-wise, the TUF Dash F15 does a good job. It wasn’t quite as impressive as the ROG Strix G15 we tested recently but still manages some decent frame-rates.
Where that laptop managed 64fps on Assassin’s Creed Odyessy, this TUF Dash F15 averaged 50fps. Similarly, the G15 pushed 200fps in Rainbow Six Siege while the TUF Dash F15 got around the 150fps mark. Still, those aren’t performance levels to be sniffed at on the maximum settings – but shows that the slender frame has an impact overall.
Convenient connectivity?
1x Thunderbolt 4 (USB 4, supports DisplayPort)
3x USB 3.2 Gen 1 Type-A, 1x HDMI 2.0b
1x 3.5mm jack, noise-cancelling mic
1x RJ45 LAN port
Wi-Fi 6(802.11ax)
Bluetooth 5.1
Continuing a trend of usefulness, the TUF Dash F15 sports a decent number of ports and connectivity options. For those serious gamers looking to stream or game with a solid connection, there’s an Ethernet port, but the machine is also Wi-Fi 6 capable – which means a solid and satisfying connection whatever you’re doing.
There’s also no shortage of USB ports. Though we will note Asus has chosen to place two of them on the right-hand side, which is a pain when you’re trying to use a dedicated gaming mouse rather than the lacklustre trackpad for your gaming sessions.
Yes, we didn’t get on with the trackpad on this laptop. It’s finicky and frustrating and the fact that two out of the three USB Type-A ports are on the right means you need a decent amount of desk space to comfortably game and not have wires get in the way – unless you have a wireless mouse.
That’s not the only connection niggle either. Once again, if you want to use DisplayPort to output to an external monitor you’ll need to buy an adapter as it’s only available via USB-C. There’s no standard DisplayPort or Mini DisplayPort connection – which is a pain if you’re planning on gaming in VR.
As with other recent thin and light gaming laptops from Asus, there’s also the distinct lack of a webcam. This is an odd choice in our mind considering how many Teams, Skype and Zoom video calls we’ve all been having in the last year. If you’re purely using it for gaming though, then it’s not a bother – as you’ll want a better accessory separate anyway.
Best webcam: Top cameras for video calling
The TUF Dash F15 has speakers that are capable enough to overpower its cooling fans and a two-way noise cancellation mic setup which means you can be heard if you’re using the built-in mic to chat to friends. It’s still worth investing in a decent gaming headset if you really want to get lost in the games – as on max settings the fans are far from quiet and you will eventually get fed up with the white noise whirr from them.
Battery life
76WHr li-ion battery
200W AC charger
One area the TUF Dash F15 impresses is battery life. We could get through most of the day working and browsing and we also managed hours and hours of Netflix watching before the machine ran out of juice. In a gaming specific laptop away from the plug that’s an unusual accomplishment.
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We did note a performance hit when playing on battery alone – and that was a more significant one than we encountered with the Strix G15. But then if you want to make the most of the display you’ll be using it plugged in for gaming anyway.
But for general day-to-day use, this laptop won’t disappoint and you certainly won’t find yourself running for the plug every five minutes.
Verdict
All told, the Asus TUF Dash F15 manages to live up to expectations. It’s a decent performer with some nice specification options – at a price tag that isn’t going to make you cry.
With the right games you’ll get some seriously impressive frame rates to make the most of the fast-refresh screen. When maxing out those games this laptop doesn’t get too hot or loud either, all while lasting for a decent innings on battery alone.
What more could you want? Well, there are other options that can squeeze out yet more performance – but it’ll depend on just how much more you’re willing or able to spend for that performance bump.
Also consider
Pocket-lint
Asus ROG Strix G15
squirrel_widget_4304199
A more premium device with a heftier price tag to match, but it’s really a magnificent gaming laptop. There’s more RGB for a start, better performance overall, and a lot more style.
Read our review
Pocket-lint
Razer Blade 15 Advanced
squirrel_widget_2693967
If understated externals are your thing, then this Razer might be another alternative. Again, it’s another powerhouse, but this laptop is a pleaser in multiple areas – apart from the massive price, but of course.
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to make up some of that lost ground with the new 11th Gen Intel Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete against its Ryzen 9 5900X AMD rival in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Intel Core Processors, but Z590 introduces some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The ASRock Z590 Phantom Gaming Velocita is a recent addition to ASRock’s arsenal. The Phantom Gaming Velocita targets the gamer market with Killer Networking for both wired and wireless connectivity and even an option to route the network traffic straight from the Killer LAN controller to the CPU. The ASRock Z590 Phantom Gaming Velocita features a dependable 14-phase VRM that takes advantage of 50 A power stages from Vishay. The ASRock Z590 Phantom Gaming Velocita has all the core features for a great gaming motherboard. All that is left is to see how the ASRock Z590 Phantom Gaming Velocita stacks up against the competition!
1x Killer E3100G 2.5 Gb/s LAN 1x Intel I219V Gigabit LAN 1x Killer AX1675x WiFi 6E
Rear Ports:
2x Antenna Ports 1x HDMI Port 1x DisplayPort 1.4 1x Optical SPDIF Out Port 1x USB 3.2 Gen2 Type-A Port 1x USB 3.2 Gen2 Type-C Port 6x USB 3.2 Gen1 Type-A Ports 2x USB 2.0 Ports 2x RJ-45 LAN Ports 5x 3.5 mm HD Audio Jacks
Intel officially positions its Rocket Lake CPUs as the best CPUs for gaming today, yet like all desktop chips it will inevitably be used for a wide variety of applications. Nonetheless, Asus this week made a surprising move and introduced a small form-factor low-power desktop powered by Intel’s latest Rocket Lake CPU.
Measuring 175×175×42 mm, the Asus Mini PC PB62 can be equipped with Intel’s Rocket Lake processor with up to eight cores as well as a 35W or 65W TDP, up to 64 GB of DDR4 memory, two M.2-2280 SSDs with a PCIe 3.0 and 4.0 x4 interface, and one 2.5-inch HDD. Since the Asus PB62 is even smaller than Apple’s Mac Mini, it naturally cannot accommodate a discrete graphics card, so the owner will have to stick to Intel’s UHD Graphics based on the Xe architecture.
Gaming is arguably Intel’s main focus when it comes to its latest Rocket Lake CPUs, but Asus positions its Mini PC PB62 primarily for business and commercial applications, such as office PCs, digital signage, point-of-sales, and vending machines.
(Image credit: ASUS)
To address different requirements, Asus equipped its Mini PC PB62 with a plethora of connectivity technologies, including Intel’s AX201 Wi-Fi 6 + Bluetooth 5 adapter, a GbE port, seven USB Type-A connectors (including USB 2.0, USB 3.2 Gen 1, USB 3.2 Gen 2), a USB 3.2 Gen 1 Type-C port, two DisplayPort 1.2 outputs, audio connectors, and one configurable port (HDMI 2.0/VGA/COM/DisplayPort/LAN).
(Image credit: ASUS)
Depending on exact configuration, the Asus Mini PC PB62 may come equipped with a 90W, 120W, or a 150W external PSU.
Asus did not touch upon pricing of the Mini PC PB62.
The MSI Aegis RS 11th is a powerful gaming desktop with the latest parts from Intel and Nvidia and off-the-shelf components that allow for easy upgrades.
For
+ Off the shelf parts
+ Powerful gaming performance
+ Decent pack-in peripherals
Against
– MSI Center software is clunky
– Middling file transfer speeds
It’s hard to build a computer right now, because many of the key parts are sold out everywhere you look . If you can get a quality desktop prebuilt, it may be worth springing for it just to get the components you want. The MSI Aegis RS11th ($1,999 to start, $2,499) as tested, delivers the latest with Intel’s 11th Gen Rocket Lake and an Nvidia GeForce RTX 3080. If those are the parts you’re looking for, this PC should be in your consideration.
MSI isn’t using a weird, proprietary
chassis
that’s hard to open; This is made of standardized parts, just mostly MSI-branded ones. That does mean that when parts are easier to buy, this is a PC you’ll be able to upgrade and grow with.
The MSI Aegis RS 11th’s gaming performance is strong, which makes one of the
best gaming PCs
, but Rocket Lake’s modest core count holds it back in productivity workloads.
Design of the MSI Aegis RS 11th
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How much you like the design of the Aegis RS will rely heavily on how much you like one of MSI’s existing PC cases, the MPG Gungnir 110R, s a mid-tower chassis with both tempered glass and black aluminum.The front is split between the two, making it look like the
Two-Face
of computer cases. Considering our review unit had three RGB fans up front, I didn’t love that they were half covered up. It’s a weird design choice.
The rest of it, however, is far more conservatve. The left side panel is tempered glass, which lets you see your components, while the right side is opaque and covers up the cable management. There are two dust filters: a magnetic one on top of the case, and a second one in front of the intake fans.
There are three 120mm intake fans on the front. There’s another on the rear, as exhaust, but it also cools the radiator on the MSI Coreliquid 120 liquid cooler for the CPU. I would like to see the radiator mounted up top, where there is room for one up to the 240mm in size, and have a regular exhaust fan in the back, since there is no obstacle to that with this case. (In fact, I wouldn’t mind a beefier cooler for this processor, too.) Still, unlike many custom chassis we’ve seen lately, this one doesn’t seem to have particular issues with where to put fans.
The front three fans and CPU cooler have RGB lighting, which can be controlled with a button labeled “LED” on the top of the case, or with a module in the MSI Center software.
At 17.72 x 16.93 x 8.46 inches, the Aegis RS is smaller than the Alienware Aurora R11 (18.9 x 17 x 8.8) and iBuypower Gaming RDY IWBG207 (18.9 x 19.2 x 8.5 inches). The HP Omen 30L, however, is slightly smaller at 17.7 x 16.8 x 6.6 inches.
2x USB 3.2 Gen 1 Type-A, USB 3.2 Gen 2 Type-C, 3.5 mm headphone and microphone jacks
Rear Ports (Motherboard)
4x USB 2.0, 2x USB 3.2 Gen 1 Type-A, USB 3.2 Gen 2 Type-A, USB 3.2 Gen 2×2 Type-C, PS/2, DisplayPort, HDMI, audio connectors
Video Output (GPU)
3x Displayport 1.4a, HDMI 2.1
Power Supply
MSI MPG A750GF – 750W
Cooling
MSI Coreliquid 120R liquid cooler, 3x 120mm case fans
Operating System
Windows 10 Home
Dimensions
17.72 x 16.93 x 8.46 inches
Price as Configured
$2,499
Ports and Upgradeability on the MSI Aegis RS 11th
There are five ports on the top of the Aegis RS chassis: a USB 3.2 Gen 2 Type-C port, a pair of USB 3.2 Gen 1 Type-A ports, and separate 3.5 mm headphone and microphone jacks.
(Image credit: Tom’s Hardware)
The rear ports are from the MSI Z590 Pro Wi-Fi motherboard, and include four USB 2.0 Type-A ports, two USB 3.2 Gen 1 Type-A ports, two USB 3.2 Gen 2 Type-A ports, USB 3.2 Gen 2×2 Type-C, as well as audio connectors and PS/2 for legacy peripherals. There’s also DisplayPort and HDMI, though you’ll likely use the options on the graphics card.
(Image credit: Tom’s Hardware)
Internally, the Aegis is easy to update or repair, because it’s built just like a PC you might put together yourself. There aren’t any weird custom chassis tricks or hidden parts. MSI makes the case, power supply, graphics card, motherboard and liquid cooler as separate components. There’s nothing proprietary about this that you couldn’t change or update later.
You can get to most of the parts by removing the tempered glass side panel. It’s held into the back of the chassis with two thumb screws, so no tools are needed. There’s a handle to pull it straight back from the case. One highlight here is a sled for a 2.5-inch drive for easy extra storage. The RAM and M.2 SSD are easy enough to access without moving anything.
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The right side panel comes off the same way as the glass door, and it’s the easiest (only, really) way to access the HDD and the PSU, which are hidden beneath a shroud. The case’s RGB controller is also back here, and there’s another 2.5-inch drive sled.
I’m not going to say the cable management is beautiful compared to some other prebuilts, but it’s functional enough (I honestly probably don’t have the patience to do any better) and, unlike some cases, you can easily access it.
Gaming and Graphics on the MSI Aegis RS 11th
The Nvidia GeForce RTX 3080 and Intel Core i7-11700K proved potent for gaming.
I played a bit of Control on the Aegis RS, which I like to try because of how well it integrates ray tracing and stresses even the most powerful components. I ran it at 4K with the high preset and medium ray tracing.
In the beginning of the game, which features exploration sequences, combat with hiss guards in the Oldest House and fights on the Astral Plane, the game typically ran at around 57 frames per second. During fights inside the house, the rate dropped as low as 37 fps when I used lots of Jesse’s melee attacks, which bring about large telekinetic explosions with lots of objects moving. In the Astral Plane, which is rendered on a largely white background, it often stayed in the low 70’s, even during combat. With a slightly lower resolution or a few tweaks, you could be at a steady 60 fps fairly easily.
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On the Shadow of the Tomb Raider benchmark (highest settings), the game ran at 147 fps in 1080p and 57 fps at 4K. It was beat in both only by the Alienware Aurora R11 (149 fps at 1080p, 64 fps at 4K) with an RTX 3090.
In Grand Theft Auto V (very high settings), the Aegis RS had superior 1080p performance at 163 fps and ran in 4K at 54 fps. The Aurora won out in 4K, while the Omen and iBuypower both had identical 4K performance to the Aegis.
On the Far Cry New Dawn benchmark, The Aegis dominated again at FHD, running at 134 fps. In 4K, it ran at 94 fps, behind the iBuypower and the Aurora by a few frames but tied with the Omen.
The Aegis came just behind the Alienware in Red Dead Redemption 2 (medium settings) at 113 fps, but had the highest 4K score at 40 fps. It beat the Omen by 10 frames, though the iBuypower was closer.
On Borderlands 3 (badass settings), the Aegis RS hit 136 fps at FHD and 58 fps in 4K. That’s the worst of the 4K showings, but on par with the HP Omen 30L for 1080p. The Aurora, with its RTX 3090, did the heavy lifting, winning at both resolutions.
Productivity Performance of the MSI Aegis RS 11th
This is the first pre-built desktop we’ve reviewed with the Intel Core i7-11700K. MSI has paired it with 16GB of RAM, a 1TB PCIe Gen 4 SSD and a 2TB HDD. The CPU has 8 cores and 16 threads. Its competitors, though, pose a threat, as many high-end PCs come with Core i9 processors that have more cores. It should be noted that even the Core i9 Rocket Lake has just 8 cores, so this isn’t a limitation of testing the Core i7.
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On Geekbench 5, an overall performance benchmark, the Aegis RS 11th notched a single-core score of 1,676 and a multi-core score of 10,102. While that was the highest single-core score, the other three desktops had higher multi-core scores. All of those used Intel Core i9-10900K chips, which have 10 cores rather than the 8 cores in the 11700K.
The PCIe Gen 4 SSD in the Aegis didn’t show off. It transferred 25GB of files at a rate of 635.3 MBps, just edging past the iBuypower and falling far short of the Omen (978 MBps) and Aurora (1,201.87 MBps).
On our Handbrake video editing test, the MSI Aegis RS 11th transcoded a 4K video to 1080p in 5 minutes and 19 seconds. That’s faster than the iBuypower, but the Aurora and Omen both beat the Aegis’ time by five seconds.
MSI Vigor GK30 Keyboard and Clutch GM08 Mouse
MSI includes a keyboard and mouse in the box, which are good enough to use if you don’t have a lot else lying around, but that you may want to replace if you already have favorite peripherals.
The mouse, the Clutch GM08, has rubberized grips on the side, though it felt a bit narrow for my wide claw grip. Still, there are some higher-end features here, including adjustable weights (two 3-gram weights and one 5-gram weight) to make the mouse lighter or heavier. It has a PixArt PAW351 sensor that goes up to 4,200 DPI. The mouse has a DPI switch button that lets you adjust sensitivity, and has two buttons on the left side of the mouse, but they aren’t programmable in MSI Center. It typically
sells separately for around $20
, so don’t get your hopes up too much, but it gets the job done in a pinch. The red LED light can’t be changed in MSI’s software, either.
The keyboard, the Vigor GK30, is the same one that came with the MSI Aegis Ti5 I recently reviewed. It’s just OK. The keyboard, which MSI suggests is “mechanical-like” has keys that are stiff and not quite clicky. There’s perhaps too much RGB lighting in a sea around the keys. They can’t be controlled in MSI’s software, either, but can be customized with buttons on the keyboard.
MSI Center, Software and Warranty on the MSI Aegis RS 11th
This is the first MSI PC that’s crossed my desk with MSI Center, the company’s replacement for its two previous swiss army-knife applications, Dragon Center (for gaming) and Creator Center (for, well, creating).
MSI Center, though, seems barebones. Sure, it has an optional light/dark mode switcher, which is nice, and you can still see CPU and GPU temperatures and usage, and there are still different usage scenarios to choose from, though they’re buried behind menus. But some features from Dragon Center are nowhere to be found, including one-click optimization for games, Mystic Light and the LAN manager are optional modules to add on. This feels like it’s in beta; there’s an area to “downlaod, update or uninstall” (MSI’s typo, not mine).
But MSI still includes its share of bloat, including MSI App Player, its version of BlueStacks, which runs Android apps, as well as LinkedIn. It notably doesn’t have the Cyberlink suite that I’ve complained about on previous systems, though no one can escape the bloat that comes with
Windows 10
, like Facebook Messenger, Hulu and Roblox.
MSI sells the Aegis RS 11th with a one-year warranty.
MSI Aegis RS 11th Configurations
We reviewed the Aegis RS with a new Intel Core i7-11700K “Rocket Lake” processor, 16GB of RAM, and MSI RTX 3080 Ventus 3X OC GPU, a 1TB PCIe Gen 4 SSD and a 2TB, 7,200-rpm HDD. When the system becomes widely available in mid-April, it will run for $2,499.
When we were reviewing this model, MSI told us that the RS 11th series would start at $1,999. It didn’t have completely finalized specs, but suggested the base model would have an RTX 3070 and 650W GPU and ditch the HDD. Several configurations may continue to utilize a Z490 motherboard and then transition to Z590 as supply levels out. The Aegis RS series is expected to top out at a Core i9-11900K, RTX 3090, 32GB of RAM, an 850W power supply and a 240mm CPU cooler, going possibly as high as $3,899.
Bottom Line
If you’re looking for the latest and greatest, the MSI Aegis RS 11th delivers you the most recent parts from Intel and Nvidia (at least, as long as it’s in stock).
Unlike some other prebuilts, there’s nothing proprietary here. It’s all standardized parts, mostly from MSI, that you can easily upgrade down the line.
Intel’s Core i7 Rocket Lake and the Nvidia GeForce RTX 3080 in our review configuration worked potently together. In productivity, though, Rocket Lake’s limited core count didn’t stand up to some competition, which affects some workloads.
MSI needs to add polish to its MSI Center utility.. If you use the app to monitor CPU usage, check temperatures or change RGB colors, it will feel a bit like beta. If you prefer other applications, you may not notice.
As a whole package, the Aegis RS 11th is a powerful gaming rig with few frills. If you need a PC to play games, this will stand up, even in 4K with the right settings.
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to retake some of that lost ground with the new 11th Gen Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete against its AMD rival Ryzen 9 5900X in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Core Processors, but Z590 brings some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The AORUS line from Gigabyte spans a broad range of products: laptops, peripherals, and core components. Across the enthusiast spectrum, the AORUS name denotes Gigabyte’s gaming-focused products, with the AORUS motherboard range featuring a consistent naming scheme that includes the Pro, Elite, Ultra, Master, and Extreme motherboards. Within this lineup, the Master serves as the high-end mainstream option offering prime features at a high but attainable price point.
The Gigabyte Z590 AORUS Master features a massive 19-phase VRM utilizing 90 A power stages and Gigabyte’s signature finned cooling solution. Both Q-Flash and a dual BIOS have been included, providing a redundant safety net for ambitious overclocking. The Gigabyte Z590 AORUS Master also offers a full-coverage aluminium backplate for added rigidity and additional VRM cooling. Additionally, Gigabyte has included a 10 Gb/s LAN controller from Aquantia. All of the features are in order, so let’s see how the Gigabyte Z590 AORUS Master stacks up against the competition.
1x Q-Flash Plus button 1x Clear CMOS button 2x SMA antenna connectors 1x DisplayPort 1x USB Type-C® port, with USB 3.2 Gen 2×2 5x USB 3.2 Gen 2 Type-A ports (red) 4x USB 3.2 Gen 1 ports 1x RJ-45 port 1x optical S/PDIF Out connector 5x audio jacks
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to make up some of that lost ground with the new 11th Gen Intel Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete against its Ryzen 9 5900X AMD rival in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Intel Core Processors, but Z590 introduces some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The ASRock Z590 Steel Legend WiFi 6E aims to be a durable, dependable platform for the mainstream market. The ASRock Z590 Steel Legend WiFi 6E features a respectable 14-phase VRM that takes advantage of 50 A power stages from Vishay. Additionally, ASRock has included a 2.5 Gb/s LAN controller from Realtek as well as the latest WiFi 6 connectivity. The ASRock Z590 Steel Legend WiFi 6E has all the mainstream features most users need packaged in at a reasonable price. All that is left to see is how the ASRock Z590 Steel Legend WiFi 6E stacks up against the competition!
2x Antenna Ports 1x PS/2 Mouse/Keyboard Port 1x HDMI Port 1x DisplayPort 1.4 1x Optical SPDIF Out Port 1x USB 3.2 Gen2 Type-A Port 1x USB 3.2 Gen2 Type-C Port 2x USB 3.2 Gen1 Ports 2x USB 2.0 Ports 1x RJ-45 LAN Port 5x HD Audio Jacks
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to make up some of that lost ground with the new 11th Gen Intel Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete with its Ryzen 9 5900X AMD rival in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Intel Core Processors, but Z590 introduces some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The MSI Performance Gaming line, or “MPG” for short, from MSI is generally pitched as the middle ground between the no-holds-barred MEG line and more value-oriented MAG line. The MSI MPG Z590 Carbon EK X is an exception. Developed in partnership with and distributed by EKWB, the MSI MPG Z590 Carbon EK X features a monoblock for CPU and VRM cooling as well as all the tools you need to integrate it into your custom water-cooling build.
The MSI MPG Z590 Carbon EK X features a 16-phase Vcore VRM on a 6-layer PCB. There is also 2.5 Gb/s LAN and built-in WiFi 6E, as well as three M.2 slot heatsinks and even a physical RGB LED off switch. EK is including a leak test kit with the MSI MPG Z590 Carbon EK X, so you can build with confidence.
Let’s take a closer look at what the MSI MPG Z590 Carbon EK X has to offer.
1x Intel 1225V 2.5G LAN 1x Intel WiFi 6E AX210 module
Rear Ports:
4x USB 2.0 ports 1x DisplayPort 2x USB 3.2 Gen1 5 Gbps Type-A 1x 2.5G LAN 5x Audio Connectors 1x Flash BIOS Button 1x HDMI port 3x USB 3.2 Gen 2 10Gbps Type-A 1x USB 3.2 Gen 2×2 20Gbps Type-C 2x SMA WiFi connectors 1x Optical S/PDIF Out
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to make up some of that lost ground with the new 11th Gen Intel Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete with its Ryzen 9 5900X AMD rival in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Intel Core Processors, but Z590 introduces some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The MSI Performance Gaming line, or “MPG” for short, from MSI is generally pitched as the middle ground between the no-holds-barred MEG line and more value-oriented MAG line. The MSI MPG Z590 Carbon EK X is an exception. Developed in partnership with and distributed by EKWB, the MSI MPG Z590 Carbon EK X features a monoblock for CPU and VRM cooling as well as all the tools you need to integrate it into your custom water-cooling build.
The MSI MPG Z590 Carbon EK X features a 16-phase Vcore VRM on a 6-layer PCB. There is also 2.5 Gb/s LAN and built-in WiFi 6E, as well as three M.2 slot heatsinks and even a physical RGB LED off switch. EK is including a leak test kit with the MSI MPG Z590 Carbon EK X, so you can build with confidence.
Let’s take a closer look at what the MSI MPG Z590 Carbon EK X has to offer.
1x Intel 1225V 2.5G LAN 1x Intel WiFi 6E AX210 module
Rear Ports:
4x USB 2.0 ports 1x DisplayPort 2x USB 3.2 Gen1 5 Gbps Type-A 1x 2.5G LAN 5x Audio Connectors 1x Flash BIOS Button 1x HDMI port 3x USB 3.2 Gen 2 10Gbps Type-A 1x USB 3.2 Gen 2×2 20Gbps Type-C 2x SMA WiFi connectors 1x Optical S/PDIF Out
Audio:
1x Realtek ALC4080 Codec
Fan Headers:
8x 4-pin
Form Factor:
ATX Form Factor: 12.0 x 9.6 in.; 30.5 x 24.4 cm
Exclusive Features:
Custom EK monoblock
EK leak test kit
2.5 Gb/s LAN
Intel WiFi 6E
Mystic Light
Frozr heatsink design
M.2 Shield Frozr
PCIe Steel Armor
Pre-installed I/O shielding
Testing for this review was conducted using a 10th Gen Intel Core i9-10900K. Stay tuned for an 11th Gen update when the new processors launch!
VPN and privacy lovers may have heard of OVPN before, a popular VPN service provider based out of Sweden that specifically focuses on no trackers when browsing the internet. The company had built a hardware router a few years ago, the OVPNbox based on pfSense, but it had.. less than desirable results and feedback. For one, it cost more than the net sum of the output. People were quick to note that they could build an analogous setup using an x86 processor with OpenVPN. The product seemed too technically out of reach for the average end user, so much so that the customer who could make the most of it could also do something custom entirely. Vilfo was created because of that experience, which the company states outright is fully independent from OVPN and has as its goal the development of a true successor that aims to lower the entry barrier for a VPN router experience for everyone. We take a look at the Vilfo VPN router today, and thanks again to the company for sending TechPowerUp a review sample!
Vilfo has recently brought a product out, the VPN router for homes, which is on display in the preview above. The company is working on a business solution as well, which does peak my interest in terms of how it will differ. Regardless, it has been a while since I have had my hands on a router that has external antennas, which makes it a nice departure from the usual mix of mesh WiFi systems and mobile routers tested to date. This is an all-white router that is on the smaller side of things, with the company taking time to let you know of the powerful processing system inside to handle all the integrated VPN features. We will examine all this and more in this review beginning with a look at the specifications in the table below.
Specifications
Vilfo VPN Router
Processor:
Intel® Celeron
WiFi:
Mediatek MT7612E supporting 802.11a/b/g/n/ac at up to 867 Mbps throughput
(Pocket-lint) – For 2021 it seems like Asus is going after competitive gamers with the 2021 versions of the ROG Strix G15 and G17. The G15 is now not only more compact than the previous model, but also boasts Nvidia’s RTX 3000 series graphics cards. Something that’s notoriously hard to get hold of in the desktop world.
On paper, the ROG Strix G15 (G513) is a gaming beast with some great options, whether you favour fast screens or stunning visuals. That’s because not only is there a lot of power under the hood, it’s also specced with a choice of Full HD 300Hz or a WQHD 165Hz panel.
The aim to create either gaming powerhouses or the ultimate portable e-sport machines depending on your preference. Or maybe both? We’ve been living with, working with, and gaming with the Strix G15 for a couple of weeks to see how it all stacks up.
Power and prowess
Up to an Nvidia GeForce RTX 3070 Max Q 8GB GDDR6 GPU
Up to AMD Ryzen 9 5900HX CPU
Up to 32GB DDR4 3200MHz SDRAM
Up to 1TB M2 NVMe storage
Don’t be fooled by the compact-yet-snazzy frame of Asus ROG Strix G15 – this is still a powerhouse of a gaming machine. It needs to be as well, in order to reach the lofty goals Asus is aiming for and, of course, to make the most of the 300Hz refresh rate screen (as specified for this review).
On the outside, the Strix G15 retains the usual Asus ROG aesthetic. It boasts an aluminium chassis, a textured finish with ROG logo etching, and a backlit keyboard with RGB underlighting. It’s compact and stylish – but beauty is more than skin deep as the goodness continues when you open the lid and turn the device on.
As you’d expect, the G15 uses NVMe storage, so it boots to Windows in the blink of an eye when you press that power button. Your experience is going to vary depending on whether you go for the WQHD (1440p) model or the Full HD (1080p) one, but even at 1080p we were struck by just how easy-on-the-eye the panel is.
It’s rich and vivid. But more importantly, it’s fast and accurate. With Armoury Crate, you can also adjust the visuals and switch between several pre-programmed settings including Vivid, Cinema, RTS, FPS, and Eye Care. That last one is our favourite for working during the day as it reduces the blue light and makes the screen easier on the eye while you’re beavering away.
Gaming goodness
Display options: Full HD 1080p 300Hz IPS // WQHD 1440p 165Hz, 3ms response
62.5% sRGB, 47.34% Adobe RGB, Adaptive Sync
Benchmarks: PC Mark, TimeSpy, TimeSpy Extreme, Port Royale, FireStrike Ultra, FireStrike Extreme
The screen really shines when you get into a good gaming session of course. If you opt for the 300Hz panel, you can push competitive games to their limit and theoretically make the most of the display’s nifty fast refresh rate.
We played Rainbow Six Siege at around 200fps on Max settings. We managed 66fps average on Dirt 5, 80fps on Far Cry 5, 60-70fps on Assassin’s Creed Odyessy. Even outputting to a 32-inch Samsung Odyssey G7, the G15 still did the business with comparable frame rates.
Other games, including CS:Go and Apex Legends, are bound to make the most of this panel too.
Connection options and downfalls
3x USB 3.2 Gen 1 Type-A, 1x USB 3.2 Gen2 Type-C (support Display Port & 100w PD Charger)
1x LAN RJ-45 Ethernet jack, 1x HDMI 2.0b, 1x audio combo jack
Wi-Fi 6 802.11ax (2×2), Bluetooth w/ support for Range Boost
One of our niggles with the Strix G15 is the connection options. While there are some highlights – there’s an Ethernet port, for example – it lacks a Display Port or Display Port Mini connection unless you have a DP to USB-C adapter.
It also doesn’t have a webcam as standard. We begrudge that in a world where everyone’s on Zoom calls or Microsoft Teams meetings. Yes, it could be countered by simply buying an external webcam but that’s more expense. It also means you’d be using up one of the precious few USB ports as well. Plug in a mouse (no right-minded gamer would use a trackpad), headset and external keyboard and you’ve barely got any ports left.
That said, a nice amount of thought has been put into the overall design. The USB ports are located on the left and rear, meaning if you do plug in a gaming mouse you won’t find cables getting in the way while you play.
Great sound and positional audio too
Up to Twin 4W Smart Amp speakers
Built-in array microphone
Dolby Atmos compatibility
AI microphone noise cancellation
Compact and thin gaming laptops usually run hot and loud in our experience. Sometimes painfully so. The Strix G15 is intelligently designed with excellent cooling vents that seem to keep it running cool under pressure.
It has various different fan modes too, all of which can be switched to from within the Armoury Crate software. Choose from Windows, Silent, Performance and Turbo modes. Under general use, the Strix G15 is pleasantly quiet and barely ramps up when watching video, surfing the web or working away.
Under gaming load it remains fairly quiet too. This is in part thanks to Nvidia’s Whisper Mode technology, which uses AI-powered analysis to adjust cooling to keep things quiet as well as cool. Of course, if you need power for the best performance then you can ramp things up with Turbo and Performance modes. These bring more frames per second potential – but also more fan noise.
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We’re happy to report that even under pressure the Strix G15 is not only quieter than other gaming laptops we’ve tried, but the speakers also do a great job of overpowering any noise from the fan sufficiently enough to not spoil your gaming fun.
Those speakers are also smashing in other ways. They’re great sounding and deliver satisfying audio whatever you’re doing. A two-way AI-noise cancellation mic also removes fan noise and background noise from your chat as well – whether you’re on a work call or gaming with friends.
Battery longevity
90WHr 4-cell li-ion battery
240W AC adapter, 100W PD Charger via USB-C
Despite its compact frame, the G15 packs in some neat battery charging tech that includes the ability to fast-charge for as much as 50 per cent power in just 30 minutes at the plug.
Pocket-lint
But the highlight for us is under standard, everyday load – browsing and working – we managed to get between five to six hours out of it before it needed charging. That’s great capacity and pleasing if you’re away from a plug or just want to work wire-free around the home.
Unlike other models we’ve tried, the Strix G15 is also capable of playing games when not plugged in with semi-decent performance. We managed to play Rainbow Six Siege at between 30-60fps while unplugged and other casual or less taxing games like Valheim will run nicely too.
Verdict
The Asus ROG Strix G15 is a great bit of kit that’s solidly built and powerful enough to make light work of modern games.
It doesn’t annoy with excessive fan noise, instead delighting with visual pleasures and audible goodness. The battery life means you can happily work all day too. Indeed, about the only irks are the limited connections and lack of webcam.
All told, the ROG Strix G15 is a great gaming device with far more delights than downfalls. It’s one of the best gaming laptops we’ve seen to date.
Also consider
Asus ROG Zephyrus Duo 15
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If you want something even slimmer and with extra screens then look no further than Zephyrus Duo 15. It runs a bit hotter but it’s also a really pleasing laptop whether you’re working or trying to be gaming productive.
Asus ROG Zephyrus Duo 15 (GX550) review: Too hot to handle?
Gigabyte Aorus 17X
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If you don’t mind your laptop being a bit fatter, then the Gigabyte Aorus 17X is an interesting choice as well. It’s designed as a desktop replacement with some serious power under the hood. It also has great highlights including a mechanical keyboard and AI designed to help tune performance.
Gigabyte’s AORUS Z590 Extreme Waterforce is one of the craziest motherboards that you’ll be able to buy soon for Intel’s Comet Lake and Rocket Lake SKUs, and could very well at some point find its way onto our best motherboards list. The board is designed for custom liquid cooling from the start, featuring a large monoblock cooling the CPU and power delivery components. There’s also a fully liquid-cooled chipset heatsink, as well as liquid-cooled M.2 heatsinks to keep your high-speed storage devices extra cool.
Aesthetically, the board looks like something designed to draw attention on a CES showroom floor. The entire PCB is covered in matte black and metal, with the chipset and monoblocks featuring RGB illumination. Naturally, there’s an RGB-illuminated AORUS logo on top of the rear I/O.
(Image credit: Gigabyte)
To top it all off, the monoblock features digital water and CPU temperature gauges right on top of the block, and build-in leak protection that will automatically shut down your PC in-case that situation occurs. The monoblock is connected to an internal USB Type-C port to interface with the motherboard’s firmware.
As one of Gigabyte’s flagship motherboards, the amount of features it has is almost uncanny. For power delivery, the board comes with a 20+1 VRM solution with 100A power stages. This is a very high-end VRM system, with the bonus of being liquid cooled by the board’s monoblock. So you should have no problems with the motherboard when overclocking and overvolting Intel’s highest core-count CPUs.
(Image credit: Gigabyte)
For connectivity, you have basically everything you can ask for. Dual Thunderbolt 4 USB Type-C ports, Intel WiFI 6E and Bluetooth 5.0 for wireless support, one Aquantia 10Gb ethernet port, plus an Intel 2.5Gb LAN port, and over eight USB 3.2 Gen 2 ports, counting both internal USB headers and rear I/O.
We don’t know how much this board will cost, but given the number of features included, the price will be high. However, this board is targeted towards consumers who want the best of the best you can get from a motherboard. For those looking for similar features at a more mid-range price, take a look at the MSI MPG Z590 Carbon EK X, which we just took an in-depth look at.
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to make up some of that lost ground with the new 11th Gen Intel Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete against its Ryzen 9 5900X AMD rival in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Intel Core Processors, but Z590 introduces some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The ASRock Z590 Steel Legend WiFi 6E aims to be a durable, dependable platform for the mainstream market. The ASRock Z590 Steel Legend WiFi 6E features a respectable 14-phase VRM that takes advantage of 50 A power stages from Vishay. Additionally, ASRock has included a 2.5 Gb/s LAN controller from Realtek as well as the latest WiFi 6 connectivity. The ASRock Z590 Steel Legend WiFi 6E has all the mainstream features most users need packaged in at a reasonable price. All that is left is to see how the ASRock Z590 Steel Legend WiFi 6E stacks up against the competition!
2x Antenna Ports 1x PS/2 Mouse/Keyboard Port 1x HDMI Port 1x DisplayPort 1.4 1x Optical SPDIF Out Port 1x USB 3.2 Gen2 Type-A Port 1x USB 3.2 Gen2 Type-C Port 2x USB 3.2 Gen1 Ports 2x USB 2.0 Ports 1x RJ-45 LAN Port 5x HD Audio Jacks
Audio:
1x Realtek ALC897 Codec
Fan Headers:
7x 4-pin
Form Factor:
ATX Form Factor: 12.0 x 9.6 in.; 30.5 x 24.4 cm
Exclusive Features:
ASRock Super Alloy
XXL Aluminium Alloy Heatsink
Premium Power Choke
50A Dr.MOS
Nichicon 12K Black Caps
I/O Armor
Shaped PCB Design
Matte Black PCB
High Density Glass Fabric PCB
2oz copper PCB
2.5G LAN
Intel® 802.11ax Wi-Fi 6E
ASRock steel Slot
ASRock Full Coverage M.2 Heatsink
ASRock Hyper M.2 (PCIe Gen4x4)
ASRock Ultra USB Power
ASRock Full Spike Protection
ASRock Live Update & APP Shop
Testing for this review was conducted using a 10th Gen Intel Core i9-10900K. Stay tuned for an 11th Gen update when the new processors launch!
Supermicro’s 1023US-TR4 is a slim 1U dual-socket server designed for high-density compute environments in high-end cloud computing, virtualization, and enterprise applications. With support for AMD’s EPYC 7001 and 7002 processors, this high-end server packs up to two 64-core Eypc Rome processors, allowing it to cram 128 cores and 256 threads into one slim chassis.
We’re on the cusp of Intel’s Ice Lake and AMD’s EPYC Milan launches, which promise to reignite the fierce competition between the long-time x86 rivals. In preparation for the new launches, we’ve been working on a new set of benchmarks for our server testing, and that’s given us a pretty good look at the state of the server market as it stands today.
We used the Supermicro 1023US-TR4 server for EPYC Rome testing, and we’ll focus on examining the platform in this article. Naturally, we’ll add in Ice Lake and EPYC Milan testing as soon as those chips are available. In the meantime, here’s a look at some of our new benchmarks and the current state of the data center CPU performance hierarchy in several hotly-contested price ranges.
Inside the Supermicro 1023US-TR4 Server
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The Supermicro 1023US-TR4 server comes in the slim 1U form factor. And despite its slim stature, it can host an incredible amount of compute horsepower under the hood. The server supports AMD’s EPYC 7001 and 7002 series chips, with the latter series topping out at 64 cores apiece, which translates to 128 cores and 256 threads spread across the dual sockets.
Support for the 7002 series chips requires a 2.x board revision, and the server can accommodate CPU cTDP’s up to 280W. That means it can accommodate the beefiest of EPYC chips, which currently comes in the form of the 280W 64-core EPYC 7H12 with a 280W TDP.
The server has a tool-less rail mounting system that eases installation into server racks and the CSE-819UTS-R1K02P-T chassis measures 1.7 x 17.2 x 29 inches, ensuring broad compatibility with standard 19-inch server racks.
The front panel comes with standard indicator lights, like a unit identification (UID) light that helps with locating the server in a rack, along with drive activity, power, status light (to indicate fan failures or system overheating), and two LAN activity LEDs. Power and reset buttons are also present at the upper right of the front panel.
By default, the system comes with four tool-less 3.5-inch hot-swap SATA 3 drive bays, but you can configure the server to accept four NVMe drives on the front panel, and an additional two M.2 drives internally. You can also add an optional SAS card to enable support for SAS storage devices. The front of the system also houses a slide-out service/asset tag identifier card to the upper left.
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Popping the top off the chassis reveals two shrouds that direct air from the two rows of hot-swappable fans. A total of eight fan housings feed air to the system, and each housing includes two counter-rotating 4cm fans for maximum static pressure and reduced vibration. As expected with servers intended for 24/7 operation, the system can continue to function in the event of a fan failure. However, the remainder of the fans will automatically run at full speed if the system detects a failure. Naturally, these fans are loud, but that’s not a concern for a server environment.
Two fan housings are assigned to cool each CPU, and a simple black plastic shroud directs air to the heatsinks underneath. Dual SP3 sockets house both processors, and they’re covered by standard heatsinks that are optimized for linear airflow.
A total of 16 memory slots flank each processor, for a total of 32 memory slots that support up to 4TB of registered ECC DDR4-2666 with EPYC 7001 processors, or an incredible 8TB of ECC DDR4-3200 memory (via 256GB DIMMs) with the 7002 models, easily outstripping the memory capacity available with competing Intel platforms.
We tested the EPYC processors with 16x 32GB DDR4-3200 Samsung modules for a total memory capacity of 512GB. In contrast, we loaded down the Xeon comparison platform with 12x 32GB Sk hynix DDR4-2933 modules, for a total capacity of 384GB of memory.
The H11DSU-iN motherboard’s expansion slots consist of two full-height 9.5-inch PCIe 3.0 slots and one low-profile PCIe 3.0 x8 slot, all mounted on riser cards. An additional internal PCIe 3.0 x8 slot is also available, but this slot only accepts proprietary Supermicro RAID cards. All told, the system exposes a total of 64 lanes (16 via NVMe storage devices) to the user.
As one would imagine, Supermicro has other server offerings that expose more of EPYCs available 128 lanes to the user and also come with the faster PCIe 4.0 interface.
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The rear I/O panel includes four gigabit RJ45 LAN ports powered by an Intel i350-AM4 controller, along with a dedicated IPMI port for management. Here we find the only USB ports on the machine, which come in the form of two USB 3.0 headers, along with a COM and VGA port.
Two 1000W Titanium-Level (96%+) redundant power supplies provide power to the server, with automatic failover in the event of a failure, as well as hot-swapability for easy servicing.
The BIOS is easy to access and use, while the IPMI web interface provides a wealth of monitoring capabilities and easy remote management that matches the type of functionality available with Xeon platforms. Among many options, you can update the BIOS, use the KVM-over-LAN remote console, monitor power consumption, access health event logs, monitor and adjust fan speeds, and monitor the CPU, DIMM, and chipset temperatures and voltages. Supermicro’s remote management suite is polished and easy to use, which stands in contrast to other platforms we’ve tested.
Test Setup
Cores/Threads
1K Unit Price
Base / Boost (GHz)
L3 Cache (MB)
TDP (W)
AMD EPYC 7742
64 / 128
$6,950
2.25 / 3.4
256
225W
Intel Xeon Platinum 8280
28 / 56
$10,009
2.7 / 4.0
38.5
205W
Intel Xeon Gold 6258R
28 / 56
$3,651
2.7 / 4.0
38.5
205W
AMD EPYC 7F72
24 / 48
$2,450
3.2 / ~3.7
192
240W
Intel Xeon Gold 5220R
24 / 48
$1,555
2.2 / 4.0
35.75
150W
AMD EPYC 7F52
16 / 32
$3,100
3.5 / ~3.9
256
240W
Intel Xeon Gold 6226R
16 / 32
$1,300
2.9 / 3.9
22
150W
Intel Xeon Gold 5218
16 / 32
$1,280
2.3 / 3.9
22
125W
AMD EPYC 7F32
8 / 16
$2,100
3.7 / ~3.9
128
180W
Intel Xeon Gold 6250
8 / 16
$3,400
3.9 / 4.5
35.75
185W
Here we can see the selection of processors we’ve tested for this review, though we use the Xeon Platinum Gold 8280 as a stand-in for the less expensive Xeon Gold 6258R. These two chips are identical and provide the same level of performance, with the difference boiling down to the more expensive 8280 coming with support for quad-socket servers, while the Xeon Gold 6258R tops out at dual-socket support.
Memory
Tested Processors
Supermicro AS-1023US-TR4
16x 32GB Samsung ECC DDR4-3200
EPYC 7742, 7F72, 7F52, 7F32
Dell/EMC PowerEdge R460
12x 32GB SK Hynix DDR4-2933
Intel Xeon 8280, 6258R, 5220R, 6226R, 6250
To assess performance with a range of different potential configurations, we used the Supermicro 1024US-TR4 server with four different EPYC Rome configurations. We outfitted this server with 16x 32GB Samsung ECC DDR4-3200 memory modules, ensuring that both chips had all eight memory channels populated.
We used a Dell/EMC PowerEdge R460 server to test the Xeon processors in our test group, giving us a good sense of performance with competing Intel systems. We equipped this server with 12x 32GB Sk hynix DDR4-2933 modules, again ensuring that each Xeon chip’s six memory channels were populated. These configurations give the AMD-powered platform a memory capacity advantage, but come as an unavoidable side effect of the capabilities of each platform. As such, bear in mind that memory capacity disparities may impact the results below.
We used the Phoronix Test Suite for testing. This automated test suite simplifies running complex benchmarks in the Linux environment. The test suite is maintained by Phoronix, and it installs all needed dependencies and the test library includes 450 benchmarks and 100 test suites (and counting). Phoronix also maintains openbenchmarking.org, which is an online repository for uploading test results into a centralized database. We used Ubuntu 20.04 LTS and the default Phoronix test configurations with the GCC compiler for all tests below. We also tested both platforms with all available security mitigations.
Linux Kernel and LLVM Compilation Benchmarks
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We used the 1023US-TR4 for testing with all of the EPYC processors in the chart, and here we see the expected scaling in the timed Linux kernel compile test with the AMD EPYC processors taking the lead over the Xeon chips at any given core count. The dual EPYC 7742 processors complete the benchmark, which builds the Linux kernel at default settings, in 21 seconds. The dual 24-core EPYC 7F72 configuration is impressive in its own right — it chewed through the test in 25 seconds, edging past the dual-processor Xeon 8280 platform.
AMD’s EPYC delivers even stronger performance in the timed LLVM compilation benchmark — the dual 16-core 7F72’s even beat the dual 28-core 8280’s. Performance scaling is somewhat muted between the flagship 64-core 7742 and the 24-core 7F72, largely due to the strength of the latter’s much higher base and boost frequencies. That impressive performance comes at the cost of a 240W TDP rating, but the Supermicro server handles the increased thermal output easily.
Molecular Dynamics and Parallel Compute Benchmarks
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NAMD is a parallel molecular dynamics code designed to scale well with additional compute resources; it scales up to 500,000 cores and is one of the premier benchmarks used to quantify performance with simulation code. The EPYC processors are obviously well-suited for these types of highly-parallelized workloads due to their prodigious core counts, with the dual 7742 configuration completing the workload 28% faster than the dual Xeon 8280 setup.
Stockfish is a chess engine designed for the utmost in scalability across increased core counts — it can scale up to 512 threads. Here we can see that this massively parallel code scales well with EPYC’s leading core counts. But, as evidenced by the dual 24-core 7F72’s effectively tying the 28-core Xeon 8280’s, the benchmark also generally responds well to the EPYC processors. The dual 16-core 7F52 configuration also beat out both of the 16-core Intel comparables. Intel does pull off a win as the eight-core 6250 processors beat the 7F32’s, though.
We see similarly impressive performance in other molecular dynamics workloads, like the Gromacs water benchmark that simulates Newtonian equations of motion with hundreds of millions of particles and the NAS Parallel Benchmarks (NPB) suite. NPB characterizes Computational Fluid Dynamics (CFD) applications, and NASA designed it to measure performance from smaller CFD applications up to “embarrassingly parallel” operations. The BT.C test measures Block Tri-Diagonal solver performance, while the LU.C test measures performance with a lower-upper Gauss-Seidel solver.
Regardless of the workload, the EPYC processors deliver a brutal level of performance in highly-parallelized applications, and the Supermicro server handled the heat output without issue.
Rendering Benchmarks
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Turning to more standard fare, provided you can keep the cores fed with data, most modern rendering applications also take full advantage of the compute resources. Given the well-known strengths of EPYC’s core-heavy approach, it isn’t surprising to see the 64-core EPYC 7742 processors carve out a commanding lead in the C-Ray and Blender benchmarks. Still, it is impressive to see the 7Fx2 models beat the competing Xeon processors with similar core counts nearly across the board.
The performance picture changes somewhat with the Embree benchmarks, which test high-performance ray tracing libraries developed at Intel Labs. Naturally, the Xeon processors take the lead in the Asian Dragon renders, but the crown renders show that AMD’s EPYC can offer leading performance even with code that is heavily optimized for Xeon processors.
Encoding Benchmarks
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Encoders tend to present a different type of challenge: As we can see with the VP9 libvpx benchmark, they often don’t scale well with increased core counts. Instead, they often benefit from per-core performance and other factors, like cache capacity.
However, newer encoders, like Intel’s SVT-AV1, are designed to leverage multi-threading more fully to extract faster performance for live encoding/transcoding video applications. Again, we can see the impact of EPYC’s increased core counts paired with its strong per-core performance as the EPYC 7742 and 7F72 post impressive wins.
Python and Sysbench Benchmarks
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The Pybench and Numpy benchmarks are used as a general litmus test of Python performance, and as we can see, these tests don’t scale well with increased core counts. That allows the Xeon 6250, which has the highest boost frequency of the test pool at 4.5 GHz, to take the lead.
Compression and Security
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Compression workloads also come in many flavors. The 7-Zip (p7zip) benchmark exposes the heights of theoretical compression performance because it runs directly from main memory, allowing both memory throughput and core counts to impact performance heavily. As we can see, this benefits the EPYC 7742 tremendously, but it is noteworthy that the 28-core Xeon 8280 offers far more performance than the 24-core 7F72 if we normalize throughput based on core counts. In contrast, the gzip benchmark, which compresses two copies of the Linux 4.13 kernel source tree, responds well to speedy clock rates, giving the eight-core Xeon 6250 the lead due to its 4.5 GHz boost clock.
The open-source OpenSSL toolkit uses SSL and TLS protocols to measure RSA 4096-bit performance. As we can see, this test favors the EPYC processors due to its parallelized nature, but offloading this type of workload to dedicated accelerators is becoming more common for environments with heavy requirements.
SPEC CPU 2017 Estimated Scores
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We used the GCC compiler and the default Phoronix test settings for these SPEC CPU 2017 test results. SPEC results are highly contested and can be impacted heavily with various compilers and flags, so we’re sticking with a bog-standard configuration to provide as level of a playing field as possible. It’s noteworthy that these results haven’t been submitted to the SPEC committee for verification, so they aren’t official. Instead, view the above tests as estimates, based on our testing.
The multi-threaded portion of the SPEC CPU 2107 suite is of most interest for the purpose of our tests, which is to gauge the ability of the Supermicro platform to handle heavy extended loads. As expected, the EPYC processors post commanding leads in both the intrate and fprate subtests. And close monitoring of the platform didn’t find any thermal throttling during these extended duration tests. The Xeon 6250 and 8280 processors take the lead in the single-threaded intrate tests, while the AMD EPYC processors post impressively-strong single-core measurements in the fprate tests.
Conclusion
AMD has enjoyed a slow but steadily-increasing portion of the data center market, and much of its continued growth hinges on increasing adoption beyond hyperscale cloud providers to more standard enterprise applications. That requires a dual-pronged approach of not only offering a tangible performance advantage, particularly in workloads that are sensitive to per-core performance, but also having an ecosystem of fully-validated OEM platforms readily available on the market.
The Supermicro 1023US-TR4 server slots into AMD’s expanding constellation of OEM EPYC systems and also allows discerning customers to upgrade from the standard 7002 series processors to the high-frequency H- and F-series models as well. It also supports up to 8TB of ECC memory, which is an incredible amount of available capacity for memory-intensive workloads. Notably, the system comes with the PCIe 3.0 interface while the second-gen EPYC processors support PCIe 4.0, but this arrangement allows customers that don’t plan to use PCIe 4.0 devices to procure systems at a lower price point. As one would imagine, Supermicro has other offerings that support the faster interface.
Overall we found the platform to be robust, and out-of-the-box installation was simple with a tool-less rail kit and an easily-accessible IPMI interface that offers a cornucopia of management and monitoring capabilities. Our only minor complaints are that the front panel could use a few USB ports for easier physical connectivity. The addition of a faster embedded networking interface would also free up an additional PCIe slot. Naturally, higher-end Supermicro platforms come with these features.
As seen throughout our testing, the Supermicro 1023US-TR4 server performed admirably and didn’t suffer from any thermal throttling issues regardless of the EPYC processors we used, which is an important consideration. Overall, the Supermicro 1023US-TR4 server packs quite the punch in a small form factor that enables incredibly powerful and dense compute deployments in cloud, virtualization, and enterprise applications.
After almost a decade of total market dominance, Intel has spent the past few years on the defensive. AMD’s Ryzen processors continue to show improvement year over year, with the most recent Ryzen 5000 series taking the crown of best gaming processor: Intel’s last bastion of superiority.
Now, with a booming hardware market, Intel is preparing to retake some of that lost ground with the new 11th Gen Core Processors. Intel is claiming these new 11th Gen CPUs offer double-digit IPC improvements despite remaining on a 14 nm process. The top-end 8-core Intel Core i9-11900K may not be able to compete against its AMD rival Ryzen 9 5900X in heavily multi-threaded scenarios, but the higher clock speeds and alleged IPC improvements could be enough to take back the gaming crown. Along with the new CPUs, there is a new chipset to match, the Intel Z590. Last year’s Z490 chipset motherboards are also compatible with the new 11th Gen Core Processors, but Z590 brings some key advantages.
First, Z590 offers native PCIe 4.0 support from the CPU, which means the PCIe and M.2 slots powered off the CPU will offer PCIe 4.0 connectivity when an 11th Gen CPU is installed. The PCIe and M.2 slots controlled by the Z590 chipset are still PCI 3.0. While many high-end Z490 motherboards advertised this capability, it was not a standard feature for the platform. In addition to PCIe 4.0 support, Z590 offers USB 3.2 Gen 2×2 from the chipset. The USB 3.2 Gen 2×2 standard offers speeds of up to 20 Gb/s. Finally, Z590 boasts native support for 3200 MHz DDR4 memory. With these upgrades, Intel’s Z series platform has feature parity with AMD’s B550. On paper, Intel is catching up to AMD, but only testing will tell if these new Z590 motherboards are up to the challenge.
The AORUS line from Gigabyte spans a broad range of products: laptops, peripherals, and core components. Across the enthusiast spectrum, the AORUS name denotes Gigabyte’s gaming-focused products, with the AORUS motherboard range featuring a consistent naming scheme that includes the Pro, Elite, Ultra, Master, and Extreme motherboards. Within this lineup, the Master serves as the high-end mainstream option offering prime features at a high but attainable price point.
The Gigabyte Z590 AORUS Master features a monster 19-phase VRM utilizing 90 A power stages and Gigabyte’s signature finned cooling solution. Both Q-Flash and a dual BIOS have been included, providing a redundant safety net for ambitious overclocking. The Gigabyte Z590 AORUS Master also offers a full-coverage aluminium backplate for added rigidity and additional VRM cooling. Additionally, Gigabyte has included a 10 Gb/s LAN controller from Aquantia. All of the features are in order, so let’s see how the Gigabyte Z590 AORUS Master stacks up against the competition.
1x Q-Flash Plus button 1x Clear CMOS button 2x SMA antenna connectors 1x DisplayPort 1x USB Type-C® port, with USB 3.2 Gen 2×2 5x USB 3.2 Gen 2 Type-A ports (red) 4x USB 3.2 Gen 1 ports 1x RJ-45 port 1x optical S/PDIF Out connector 5x audio jacks
Audio:
1x Realtek ALC1220 Codec
Fan Headers:
9x 4-pin
Form Factor:
ATX Form Factor: 12.0 x 9.6 in.; 30.5 x 24.4 cm
Exclusive Features:
APP Center
@BIOS
EasyTune
Fast Boot
Game Boost
RGB Fusion
Smart Backup
System Information Viewer
USB TurboCharger
Support for Q-Flash Plus
Support for Q-Flash
Support for Xpress Install
Testing for this review was conducted using a 10th Gen Intel Core i9-10900K. Stay tuned for an 11th Gen update when the new processors launch!
While we still don’t have an Intel Rocket Lake-S Core i9-11900K CPU to use for testing, Intel Z590 boards have been rolling in. So while we await benchmark results, we’ll be walking in detail through the features of these brand-new boards. First up on our bench was the ASRock Z590 Steel Legend 6E Wi-Fi, followed by the Gigabyte Z590 Aorus Master and Gigabyte’s Z590 Vision G. Today, we take a close look at the MSI MEG Z590 Ace. We’ll have to wait for benchmark results, though, to see if it deserves a spot on our best motherboards list.
The latest version of the Ace board features robust power delivery, four M.2 sockets, a premium audio codec and more. The new Ace also has updated styling on the heatsink and shrouds while still keeping the black with gold highlights theme from the previous generation. Emblazoned on the rear IO is the MSI Dragon (with RGB LEDs) and the Ace name (no lighting). We don’t have an exact price for the MEG Z590 Ace. However, the Z490’s MSRP was $399, so we expect the Z590 version to cost the same or slightly more.
MSI’s current Z590 product stack consists of 11 models, with most falling into the MEG (high-end) MPG (mid-range) and MAG (budget) lineups. We’re greeted by several familiar SKUs and a couple of new ones. Starting at the top is the flagship MEG Z590 Godlike, the Ace we’re looking at now, and a Mini ITX MEG Z590I Unify. The mid-range MPG line consists of four boards (Carbon EK X, Gaming Edge WiFi, Gaming Carbon WiFi and Gaming Force), while the less expensive MAG lineup consists of two boards (Z590 Tomahawk WiFi, and Torpedo). Wrapping up the current product stack are two ‘Pro’ boards in the Z590 Pro WiFi and Z590-A Pro. The only thing missing out of the gate is a Micro ATX board, but it’s likely we see one or two down the line.
We can’t talk about Rocket Lake-S performance yet — not that we have a CPU at this time to test boards with anyway. All we’ve seen at this point are rumors and a claim from Intel of a significant increase to IPC. But the core count was lowered from 10 cores/20 threads in Comet Lake (i9-10900K) to 8 cores/16 threads in the yet-to-be-released i9-11900K. To that end, we’ll stick with specifications and features, adding a full review that includes benchmarking, overclocking and power consumption shortly.
MSI’s MEG Z590 Ace includes all the bits you expect from a premium motherboard. The board has a stylish appearance, very capable power delivery (16-phase 90A Vcore) and the flagship Realtek ALC4082 audio codec with included DAC. We’ll cover these features and much more in detail below. First, here are the full specs from MSI.
(1) Intel Wi-Fi 6E AX210 (MU-MIMO, 2.4/5/6GHz, BT 5.2)
USB Controllers
??
HD Audio Codec
Realtek ALC4082
DDL/DTS Connect
✗ / DTS:X Ultra
Warranty
3 Years
The accessories included with the board are reasonably comprehensive, including most of what you need to get started. Below is a full list.
Manual
Quick Installation Guide
USB drive (Drivers)
Cleaning brush
Screwdrivers
Stickers (MEG/Cable)
(4) SATA cables
(4) Screws/standoff sets for M.2 sockets
Thermistor cable
1 to 2 RGB LED Y cable, Corsair RGB LED cable, Rainbow RGB LED cable
DP to mini DP cable
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Looking at the Z590 Ace for the first time, we see the black PCB along with black heatsinks and shrouds covering most of the board. MSI stenciled on identifying language such as the MEG Ace name and the MSI Gaming Dragon in gold, setting this SKU apart from the rest. The VRM heatsinks are both made from a solid block of aluminum with lines cut out. Additionally, the shroud is made of metal and connected to the heat pipes, increasing surface area significantly. Also worth noting is the VRM heatsinks share the load connected via heatpipe. RGB LED lighting is minimal here, with a symbol on the chipset shining through a mesh cover on the chipset heatsink and the MSI dragon above the rear IO. While tastefully done, some may want more. With its mostly black appearance, the board won’t have trouble fitting in most build themes.
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Focusing on the top half of the board, we’ll get a better look at what’s going with the VRM heatsinks and other board features in this area. In the upper-left corner, we spot two 8-pin EPS connectors, one of which is required for operation. Just below this is the shroud covering the rear IO bits and part of the VRM heatsink. On it is a carbon-fiber pattern along with the MSI Gaming Dragon illuminated by RGB LEDs. The socket area is relatively clean, with only a few caps visible.
Just above the VRM heatsink is the first of eight fan headers. All fan headers on the board are the 4-pin type and support PWM- and DC-controlled fans and pumps. The CPU_FAN1 header supports up to 2A/24W and auto-detects the attached device type. The PUMP_FAN1 supports up to 3A/36W. The rest of the system fan headers support up to 1A/12W. This configuration offers plenty of support for most cooling systems. That said, I would like to have seen all pump headers auto-detect PWM/DC modes instead of only CPU_FAN1.
To the right of the socket are four reinforced DRAM slots. The Z590 Ace supports up to 128GB of RAM with speeds listed up to DDR4 5600 (for one stick with one rank). The highest supported speed with two DIMMs is DDR4 4400+, which is plenty fast enough for an overwhelming majority of users.
MOving down the right edge of the board, we see the 2-character debug LED up top, a system fan header, five voltage read points (Vcore/DRAM/SA/IO/IO2), 4-LED debug, 24-pin ATX connector, and finally, a USB 3.2 Gen2 Type-C front panel header. Between both debug tools and the voltage read points, you’ll have an accurate idea of what’s going on with your PC.
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With the MEG Z590 Ace towards the top of the product stack, you’d expect well-built power delivery and you wouldn’t be wrong. MSI lists the board as 16+2+1 (Vcore/GT/SA) and it uses a Renesas ISL69269 (X+Y+Z = 8+2+1) PWM controller that feeds power to eight-phase doublers (Renesas ISL617A), then onto 16 90A Renesas ISL99390B MOSFETs for the Vcore. This configuration yields 1440A of power for the CPU, which is plenty for ambient and sub-ambient/extreme overclocking. It won’t be this board holding you back in any overclocking adventures, that’s for sure.
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As we focus on the bottom half, we’ll take a closer look at the integrated audio, PCIe slot configuration and storage. Starting with the audio bits on the left side, under the shroud, is the Realtek latest premium codec, the ALC4082. Additionally, the Z590 Ace includes an ESS Sabre 9018Q2C combo DAC, a dedicated headphone amplifier (up to 600 Ohm) and high-quality Chemicon audio capacitors. This audio solution should be more than adequate for most users.
In the middle of the board are four M.2 sockets and five PCIe slots. With the PCIe connectivity, all three full-length slots are reinforced to prevent shearing and EMI, while the two PCIe x1 slots don’t have any reinforcement. The top slot supports PCIe 4.0 x16 speeds, with the second and third slots PCIe 3.0. The slots break down as follows, x16/x0/x4 x8/x8/x4 or x8/x4+x4/x4. This configuration supports 2-Way Nvidia SLI and 2-Way AMD Crossfire technologies. All x1 slots and the full-length bottom slot are fed from the chipset, while the top two full-length slots source their lanes from the CPU.
M.2 storage on the Z590 Ace consists of four onboard sockets supporting various speeds and module lengths. The top slot, M2_1, supports PCIe 4.0 x4 modules up to 110mm. Worth noting on this socket is that it only works with an 11th Gen Intel CPU installed. M2_2, M2_3, M2_4 are fed from the chipset, with M2_2 and M2_3 supporting SATA- and PCIe-based modules up to 80mm, while M2_4 supports PCIe only. M2_2/3/4 are all PCIe 3.0 x4.
The way this is wired, you will lose some SATA ports and PCIe bandwidth depending on the configuration. For example, SATA2 is unavailable when using a SATA-based SSD in the M2_2 socket. SATA 5/6 are unavailable when using the M2_3 socket with any type of device. Finally, the bandwidth on M2_4 switches from x4 to x2 when PCI_E5 (bottom x1 slot) is used. The M.2 sockets support RAID 0/1 for those who would like additional speed or redundancy.
Finally, along the right edge of the board are six horizontally oriented SATA ports. The Z590 Ace supports RAID 0, 1 and 10 on the SATA ports. Just be aware you lose a couple of ports on this board if you’re using some of the M.2 sockets. Above these ports is a USB 3.2 Gen1 front panel header along with another 4-pin system fan header.
Across the board’s bottom edge are several headers, including more USB ports, fan headers, and more. Below is the full list, from left to right:
Front Panel Audio
aRGB and RGB headers
(3) System Fan headers
Supplemental PCIe power
Tuning controller connector
Temperature sensor
(2) USB 2.0 headers
LED switch
BIOS selector switch
OC Retry jumper
TPM header
Power and Reset buttons
Slow mode jumpers
Front panel connectors
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Moving to the rear IO area, we see the integrated IO plate sporting a black background with gold writing matching the board theme. There are eight USB Type-A ports (two USB 3.2 Gen2, four USB 3.2 Gen1 and two USB 2.0 ports). On the Type-C front, the Z590 Ace includes two Thunderbolt 4 ports capable of speeds up to 40 Gbps. Just to the right of those are Mini-DisplayPort inputs for running video through the Thunderbolt connection(s). Handling the video output for the CPU’s integrated graphics is a single HDMI (2.0b) port. We also spy here the Wi-Fi antenna connections, 5-plug plus SPDIF audio stack, Intel 2.5 GbE and finally, a Clear CMOS button and BIOS Flashback button that can be used without a CPU.
Software
For Z590, MSI has changed up its software offerings. We used to have several individual programs to adjust the system, but MSI moved to an all-in-one application called MSI Center with thisboard. The new Software is a central repository for many of the utilities (12) MSI offers. These include Mystic Light (RGB control), AI Cooling (adjust fan speeds), LAN Manager (control the NIC), Speed Up (for storage), Gaming Mode (auto-tune games), among several others (see the screenshots below for details). The User Scenario application has a couple of presets for system performance and is where you manually adjust settings, including CPU clock speeds and voltage, RAM timings, and more. Overall, I like the move to a single application. The user interface is easy to read and get around in. However, sometimes loading these applications takes longer than I would like to see. But MSI Center does an excellent job of pulling everything in.
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Firmware
To give you a taste of the Firmware, we’ve gathered screenshots showing most BIOS screens. MSI’s BIOS is unique from the other board partners in that the headings aren’t at the top but split out to the sides. In each section, all the frequently used options are easy to find and not buried deep within menus. Overall, MSI didn’t change much here when moving from Z490 to Z590 and their BIOS continues to be easy to use.
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Future Tests and Final Thoughts
With Z590 boards arriving but now Rocket Lake-S CPUs yet, we’re in an odd place. We know most of these boards should perform similarly to our previous Z490 motherboard reviews. And while there are exceptions, they are likely mostly at the bottom of the product stack. To that end, we’re posting these as detailed previews until we get data using a Rocket Lake processor.
Once we receive a Rocket Lake CPU and as soon as any embargos have expired, we’ll fill in the data points, including the benchmarking/performance results, as well as overclocking/power and VRM temperatures.
We’ll also be updating our test system hardware to include a PCIe 4.0 video card and storage. This way, we can utilize the platform to its fullest using the fastest protocols supported. We will also update to the latest Windows 10 64-bit OS (20H2) with all threat mitigations applied and update the video card driver and use the newest release when we start this testing. We use the latest non-beta motherboard BIOS available to the public unless otherwise noted. While we do not have performance results from the yet-to-be-released Rocket Lake CPU, we’re confident the 70A VRMs will handle the i9-11900K processor without issue. A quick test of the i9-10900K found the board quite capable with that CPU, easily allowing the 5.2 GHz overclock we set. For now, we’ll focus on features, price, and appearance until we gather performance data from the new CPU.
(Image credit: MSI)
The MSI MEG Z590 Ace is a premium motherboard adorned with several high-end features, including a very robust VRM capable of handling 10th and 11th generation flagship Intel processors at both stock speeds and overclocked. Additionally, the board includes four M.2 sockets, 2.5 GbE and integrated Wi-Fi 6E, and two Thunderbolt 4 ports for increased bandwidth and peripheral flexibility.
The MEG Z590 Ace’s 16-phase 90A VRM handled our i9-10900K without issue, even overclocked to 5.2 GHz. We’ll retest once we receive our Rocket Lake-based i9-11900K, but so long as the BIOS is right, it shouldn’t pose any problems for this board. Although it has four M.2 sockets, unlike the Gigabyte Z590 Vision G, using these sockets causes SATA ports to drop, because more lanes are tied to the chipset on this board). That said, if you’re in a worst-case scenario, you can run four M.2 modules and still have three SATA ports left over. Most users should find this acceptable.
As far as potential drawbacks go, the price point of $400-plus will be out of reach for some users. Another concern for some may be the lack of RGB elements on the board. The MSI dragon and chipset heatsink light up with RGB LEDs, but that’s it. If you like a lot of RGB LED bling, you can add it via the four aRBG/RGB headers located around the board. The other drawback is the lack of a USB 3.2 Gen2x2 Type-C port, but the faster Thunderbolt 4 ports certainly make up for that.
Direct competitors at this price point are the Asus ROG Strix Z590-E Gaming, Gigabyte Z590 Aorus Master, and the ASRock Z590 Taichi. All of these boards are plenty capable with the differences residing in VRMs (Gigabyte gets the nod here), M.2 storage (MSI and Giga both have four) and audio (the Ace has the most premium codec). Beauty is in the eye of the beholder, but if you forced me to pick among these, the Taichi would be the board I’d want to show off the most. That said, no board here is a turnoff and has its own benefit over another.
The Ace’s appearance, including the brushed aluminum and carbon fiber-like finish, really gives it a premium look and feel, while easily blending in with your build theme. If your budget allows for a ~$400 motherboard and you’re looking for a lot of M.2 storage and enjoy a premium audio experience, the MEG Z590 Ace is an excellent option near that price point. Stay tuned for benchmarking, overclocking, and power results using the new Rocket Lake CPU.
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