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Last year Sony sold the most full-frame mirrorless cameras in Japan, and while Canon and Nikon attempt to play catch up, today Sony is announcing its latest high-end mirrorless cam – the A7SIII – which looks like it’s about to crush the competition.

Now I fully admit that using “crush” this way is a bit hyperbolic, and because the camera won’t be available in stores until sometime in September, things could change between now and then. But if you look at the A7SIII’s specs and new features, Sony’s latest full-frame mirrorless feels like a shot across the bow of every other high-end camera maker.

The A7SIII starts with a 12-MP backside-illuminated sensor that Sony says was designed to maximise low-light performance and deliver super-fast sensor readout times, which helps reduce the effect of things like rolling shutter. Then Sony paired that 12-MP sensor with its new Bionz XR image processor which the company claims is eight times more powerful than its previous Bionz chip while offering even faster face and eye detection, better colour reproduction, and support for significantly higher data speeds, both when writing to internal memory cards or when sent out over HDMI (via a full-size HDMI Type-A port) or wifi.

The good stuff doesn’t stop there though because the A7SIII has a new 9.44 million-dot OLED electronic viewfinder that boasts almost twice the resolution of its closest competitors like the 5.76 million dot OLED EVF used in the Panasonic S1. Alternatively, for those who prefer framing up shots using a camera’s rear display, the A7SIII also comes with a fully articulating rear touchscreen (another first for any of Sony’s full-frame A-series cams) that can be flipped around a full 180 degrees so you can easily compose shots from in front of the cam. That said, because of the position of the A7SIII’s HDMI port, if you do have an external monitor or recorder attached, you might have to deal with cables partially getting in the way of that display.

As for storage, Sony is even including two new CF Express card readers that support both standard SD cards and new CF Express Type-A cards, with the A7SIII being the first camera designed to take advantage of the new cards. One immediate advantage of the new card reader is that when combined with its speedier image processor, Sony says the A7SIII now features an image buffer of up to 1,000 shots, even when the camera is shooting full out at 10 FPS in RAW + JPEG mode.

This means users coming from older cameras won’t need to buy a new set of cards for storage right away, though if you do want to take advantage of the A7SIII’s advanced video recording formats, you will need to upgrade at some point. Though with CFexpress Type A cards slated to cost $200 (£154) for an 80GB card or $400 (£309) for a 160GB card (UK pricing is TBA), you might need to save up a bit before switching.

And with the A7S line historically being a major go to camera for video, Sony also included support for 4K video recording using the camera’s full pixel readout at up to 120 fps, or up to 240 fps at 1080p. The A7SIII also supports 10-bit 4:2:2 colour, four-channel audio recording, and thanks to improvements in recording speeds and heat dissipation, the A7SIII no longer has a max 30-minute recording time either.

Sony even addressed one of the longest-running gripes about Sony cameras in general by completely redesigning the A7SIII’s menu system so that it’s better organised, works with touch input, and easier to see multiple layers of settings without needing to constantly dig three or four levels deep. And like other A-series cameras, the A7SIII also features in-body image stabilisation (up to 5.5 stops) and compatibility with Sony’s huge lineup of E-mount lenses.

However, unlike the new Canon EOS R5, the A7SIII does not come with support for 8K video recording, which was an intentional choice made by Sony as the company wanted to focus strictly on making the best possible 4K video camera it could. It’s an interesting move by Sony, because while 8K video is sure to become a more important feature in the future, considering the workflows of most filmmakers today, I think Sony made a prudent decision to really concentrate its efforts on 4K.

The Sony A7SIII is expected to go on sale sometime in September for £3,800 (body only). Compared to other full-frame mirrorless competitors, the A7SIII costs £400 less than Canon’s EOS R5 and £200 more than Panasonic’s S1H, but about £1,100 more than a Nikon Z7.

The division responsible for Konami’s famed pachinko machines is diving into a new market: PC gaming. Japanese outlet PC Watch (via Tom’s Hardware) reports that the company has three desktop models currently available to preorder, with shipping due to commence this September.

The Arespear product line is handled by Konami Amusements, which also handles arcade systems and the company’s esports interests. The models range from 184,000 yen (roughly $1,750 in the US) through to 338,800 yen ($3,205) depending on the specs.

And what are they? The Arespear C300 is the low cost model, with an i5-9400F processor, a GTX 1650, 8GB of DDR4-2666 memory and a 512GB SSD. The Arespear C700 and C700+ have much better specs: a watercooled i7-9700, an RTX 2070 Super and 16GB DDR4-2666 memory. These models house the same 512GB M.2 PCIe SSD as the C300, but also come with a 1TB hard drive.

The difference between the C700 and C700+ is mostly cosmetic: you’re getting RGB lighting and a windowed case for the extra 22,000 yen (around $210). All models have a discrete sound card in the form of the Asus Xonar AE.

It’s an interesting and unexpected move for Konami, for not an illogical one: as Wes reported back in 2017, PC gaming is on the up in Japan. Pre-orders are open, but it’s unclear whether they’ll ship outside of Japan.

Following the launch of the new Z5, Nikon has released a wave of firmware updates for its existing family of three Z-mount mirrorless cameras. 

The Nikon Z50 can now detect dogs’ and cats’ eyes and faces, in addition to those of humans, thanks to firmware version 2.00, and also receives improvements in subject tracking. Nikon Z7 and Nikon Z6 users already have these features, of course, so updating to firmware version 3.10 treats them to the ability to use the newly announced Z teleconverters (which is also included in the Z50 update). 

The Nikon Z5 will come preloaded with the latest firmware, and so will possess all these functions straight out of the box.

Animal AF

If anything, animal detection is even more useful for our four-legged friends than humans, as the deeper distance between noses and eyes will typically have regular AF producing a sharp snout with soft eyes. 

The system automatically switches between faces and eyes, depending on subject distance, while using the left and right indicators allows you to switch between pets, or their individual eyes (when shooting video, only animal faces are recognized). The feature enables photographers to concentrate more on interacting with the animal and on framing the shot, instead of finding the focus. 

Subject tracking improvements

Subject tracking with still-image shooting in AF-A, AF-C and auto-area AF in AF-area mode has been modified for a greater and more flexible operational feel. The camera now tracks the subject while the shutter-release button is pressed halfway, ending when the user takes their finger off the button, where the focus point returns to the original position before subject tracking. 

A custom control can also be configured for switching between the auto-area AF screen and the subject tracking screen, allowing for easier transition to subject tracking, or to change the target subject, while looking through the viewfinder.

Teleconverter compatibility

All three cameras can now use the new Z Teleconverter TC-1.4x and Z Teleconverter TC-2.0x, which extend the focal length of compatible lenses – namely the yet-to-be-released Nikkor Z 70-200mm f/2.8 VR S, although future Z lenses will also be added to the list.

The teleconverters extend lenses’ telephoto capabilities by increasing the focal length by 1.4× or 2.0×, with the loss of one or two stops of maximum aperture respectively. The teleconverters don’t change the minimum focus distance, so they bring their subjects even closer when shooting.

How to update

The firmware updates can be downloaded from the Nikon website’s Download Center. Click through the options to select your camera model whether you need the PC or macOS versions. 

After first announcing it last year, Microsoft has started rolling out the Surface Pro X’s highly-anticipated Eye Contact feature as part of its latest Windows 10 Insider Preview. The AI-powered software uses the tablet’s custom SQ1 ARM processor to make it look like your eyes are always directly looking at the camera while video chatting.

The feature is available with any app that works with the Surface Pro X’s front-facing camera, so you can use it with non-Microsoft apps like Zoom and Google Meet. However, you can’t take advantage of the feature while the tablet is oriented vertically. 

Because the software depends on Microsoft’s custom silicon, it’s unclear if the company will make the feature available on x86-based PCs. That said, Microsoft is not the only company working on this type of functionality. With the iOS 13 betas, Apple started testing a similar FaceTime Attention Correction feature. The company ultimately shelved the feature before releasing the operating system to the public. However, as The Verge notes, Attention Correction is one of the enhancements Apple says iOS 14 will include when it comes out later this year. 

If you don’t own a Surface Pro X, there’s still a good reason to check out the latest Windows 10 preview build. The update includes a nifty tweak to how the Alt + Tab shortcut works. By default, pressing the two keys will let you see all of your browser tabs alongside open app windows. If having the option to switch between all your tabs at once is jarring, you can tweak the feature to show only your most recent three or five tabs instead, or none at all. 

Intel announced today in its Q2 2020 earnings release that it has now delayed the rollout of its 7nm CPUs by six months relative to its previously-planned release date, undoubtedly resulting in wide-ranging delays to the company’s roadmaps. Intel’s press release also says that yields for its 7nm process are now twelve months behind the company’s internal targets, meaning the company isn’t currently on track to produce its 7nm process in an economically viable way. The company now says its 7nm CPUs will not debut on the market until late 2022 or early 2023. 

Here’s the snippet from Intel’s press release:

“The company’s 7nm-based CPU product timing is shifting approximately six months relative to prior expectations. The primary driver is the yield of Intel’s 7nm process, which based on recent data, is now trending approximately twelve months behind the company’s internal target.”

On the earnings call, Intel CEO Bob Swan said the company had identified a “defect mode” in its 7nm process that caused yield degradation issues. As a result, Intel has invested in “contingency plans,” which Swan later defined as including using third-party foundries. The company will also use external third-party foundries for its forthcoming 7nm Ponte Vecchio GPUs, the company’s first graphics chips. Ponte Vecchio comes as a chiplet-based design, and Swan clarified that production for some of the chiplets (tiles) will be outsourced to third parties. Swan noted the GPUs will come in late 2021 or early 2022, portending a delay beyond the original schedule for a 2021 launch in the exascale Aurora supercomputer. 

Intel’s first 7nm server CPUs (Granite Rapids) will arrive in 2023, which is later than listed in earlier roadmaps that projected a launch in 2022. That timeline is concerning in the face of AMD’s continued execution with its EPYC data center chips – AMD’s roadmaps outline its 5nm Genoa processors coming to market before the end of 2022. Swan also said that Intel’s first 7nm processors will debut for the client market, meaning chips targeting either desktop PCs or laptops. Intel’s first 10nm desktop CPUs, Alder Lake, will arrive in the second half of 2021.

For perspective, rival foundry TSMC plans to be on the 3nm node in the same time frame as Intel’s new schedule for 7nm. Intel clearly isn’t pleased with its execution on the 7nm node, as an embattled Swan remarked that “And we feel pretty good about where we are, though we’re not happy. I’m not pleased with our 7nm process performance” at the end of the call after a bruising question and answer session with analysts. Swan also said “we have root-caused the [7nm] issue and believe there are no fundamental roadblocks,” and that the company would provide further updates at an upcoming Architecture Day. 

Swan said the company had a built-in buffer in its roadmap to account for process node delays. That accomodation comes as a result of hard-learned lessons from the company’s incessant 10nm delays. Intel says it will use its advanced packaging technologies, which allow it to mix and match components produced from external sources with its own chips, to help reconcile the six month delay to its 7nm processors with the year-long delay to its internal 7nm yield projections. In the past, Intel stated that it would also enable newer architectures to be portable to older nodes, so it’s plausible that Intel could resort to back-porting some architectures as part of its contingency plan.

The 7nm delay reflects yet another setback as Intel still struggles to overcome the multi-year yield issues it has encountered with its 10nm process. Those delays have allowed its competitors, like AMD, to wrest the process node leadership position from Intel for the first time in the company’s history. That’s triggered a price war in the market as Intel fights a true x86 competitor with a better node, not to mention Amazon’s new Graviton 2 ARM chips based on TSMC’s 7nm node. Apple also recently announced that it is transitioning from Intel’s chips to its own ARM-based 7nm silicon. The 7nm delay also exacerbates the recent news that rock star chip architect Jim Keller, who was a key part of a team effort to revitalize the company’s roadmaps, has left the company. 

Intel CFO George Davis has previously indicated that the company’s process tech would lag its its competitors until 7nm arrived in 2021, and that the company would regain the lead with its 5nm process at an undefined time:

“So we bring a lot of capability to the table for our customers, in addition to the CPU, and we feel like we’re starting to see the acceleration on the process side that we have been talking about to get back to parity in the 7nm generation and regain leadership in the 5nm generation.”

That plan to regain a competitive footing has now obviously shifted due to the 7nm delay. Intel had planned to speed the delivery of its 7nm node to offset the underperforming 10nm, which it said would not perform as well as other nodes. At the time, Davis noted that the company was trying to be clear with investors about the impacts of 10nm on the company’s gross margins: “…but the fact is that I wanted to be clear what was happening during the 10nm generation. The fact is, it isn’t going to be as strong a node as people would expect from 14nm or what they’ll see in 7nm.”

In regards to the 10nm node, Davis commented: “As we said back at our analyst day in May of 19: Look, this isn’t just going to be the best node that Intel has ever had. It’s going to be less productive than 14nm, less productive than 22nm, but we’re excited about the improvements that we’re seeing and we expect to start the 7nm period with a much better profile of performance over that starting at the end of 2021.”

“Also, we were at a time when in order to regain process leadership we had to accelerate the overlap between 10nm, 7nm, and then 7nm and 5nm, so the cost that you’re absorbing, starting in particular in 2021, you’ve got this intersection of the performance of 10nm, the investment in 7nm, and were also well into starting the investment in 5nm: All of those elements just combine to impact gross margin.”

Today Intel said that it plans to increase its shipments of 10nm chips by 20% over its prior projections, so it appears the company’s 10nm plans have shifted out of necessity. Intel’s new plan centers on gaining another ‘full node’ of performance from its current 10nm node, meaning 10nm may have longer legs than the company expected when it announced last year that it would accelerate 7nm production. Intel pulled off a similar feat with its 14nm processors through a series of “+” revisions that added incremental performance improvements, so it does have a track record of successful inter-node improvements that could help it remain competitive until it can correct the issues with its 7nm process.

Intel has also traditionally used third-party fabs, currently to the tune of ~20% of its production, for low-margin, non-CPU products built on trailing-edge nodes. Intel’s new plans to more aggressively leverage external fabs could result in it using other fabs for its core logic, like CPUs and GPUs, which the company hasn’t done in the past. As Swan noted, that will present challenges in maintaining attractive ASPs for Intel’s products, especially given the scale of its production needs. Ultimately, Intel could also face significantly reduced margins if it outsources significant portions of its fabrication of high-margin products, like CPUs, to third parties. Relying upon an outside vendor for leading-edge node production also incurs more risk in terms of supply assurance as Intel could be forced to compete with deep-pocketed rival semiconductor companies, like Apple, Nvidia and AMD, among others, for production capacity. 

Whether you buy a brand new Windows 10 device or install the operating system on a system you’ve built yourself, bloatware will still be an issue. 

Microsoft’s operating system ships with a number of universal apps that users normally aren’t able to uninstall, but a new standalone third-party utility named Bloatbox allows users to rid their machines of such apps.

While you can normally uninstall apps loaded onto a laptop or desktop PC by Dell, Samsung or other hardware makers, you can’t uninstall first-party apps from Microsoft such as the Your Phone app. Now you can use Bloatbox to remove these and any other apps from your system as you please.

Bloatbox

Bloatbox was originally intended to ship as part of a privacy-focused app for Windows 10 called Spydish before its developer decided to release it as a standalone program. In the app’s Github repository, the developer Belim explained why he decided to release Bloatbox on its own, saying:

“This was intended as a small extension for Spydish to uninstall specific apps. Since I didn’t want to bloat Spydish unnecessarily (those who know me know that I am a friend of small apps and lean code), I have now made this available as a standalone app. With the upcoming Spydish release it can be started from within Spydish.”

To get started using Bloatbox, users first have to download the Zip file, extract it and install the program. The app has a clean and simple user interface that makes it easy to focus on which Windows 10 programs you want to uninstall. 

When you open the app, you’ll see a list containing all of the installed apps on your system including those that Windows 10 would normally not allow you to uninstall such as the Weather, News and Your Phone apps.

Windows 10 May 2020 Update is the first of two feature-packed releases planned for this year. The new version of the operating system brought a redesigned Cortana app and the ability to make your PC password-less …to name just a few new additions. Unfortunately, there were some unplanned changes that arrived with the update too, including users left unable to connect to printers, randomly deleting emails in Gmail, problems accessing files saved in OneDrive cloud storage, and stuttering video games.

And now there’s another quibble to add to the ever-growing list since the roll out of Windows 10 May 2020 Update.

Spotted by Microsoft-centric blog Windows Latest, a number of users who installed the latest Patch Tuesday – a monthly bundle of bug fixes and security improvements pushed out by Microsoft – have started to notice issues with their internet connection.

Windows 10 users who are impacted by the issue are being alerted by a “No Internet Access” warning message that appears within the “Network and Internet” panel in the Settings app. Bafflingly, the issue only appears to affect select internet-enabled services baked into the operating system.

According to one user, while the “No Internet Access” warning appears within the Settings app, browsing the internet works without a hitch… but asking Cortana a question doesn’t return an answer – only a notification that an active internet connection is required to use the digital assistant.

Even though there is an active internet connection to your device, a number of apps and system features will not work if Windows 10 believes – incorrectly, in this case – that there is a problem connecting to Wi-Fi. Anecdotal evidence from the Windows Latest blog post suggests the main features impacted for users are Cortana, Microsoft Store, and Spotify. That’s enough to cause users a serious headache.

Thankfully, Microsoft is well aware of the issue and is actively looking into a fix.

With any luck, that means we won’t have to wait very long until a new update is rolled out to fix the problem. The next Patch Tuesday is scheduled on August 11, 2020 although Microsoft could rush it out to users a little earlier as long as it’s ready / considered urgent enough.

It’s another blow for Windows 10 users who have had a rough time with the latest operating system. And as millions of people stay home to work and study due to the ongoing public health crisis, it’s not an ideal time to be breaking essential features like internet connectivity, printers and emails. (As for the video game problem, that’s admittedly less essential …but equally annoying).

As Apple focuses on its environmental impact and reducing the company’s carbon footprint, the MacBook Pro will lead the charge as part of a stunning commitment from Tim Cook and his team.

Today’s news from Apple confirms that it is working with aluminium suppliers on carbon-free processing. As an intermediate step, the 16-inch MacBook Pro will be the first hardware to use a low-carbon aluminium and forge a new and more environmentally friendly laptop. 

July 22 update: Aluminium International Today’s Nadine Bloxsome not only talks about the new process, but also notes the investment that Apple is making into the process alongside a number of commercial partners and government departments:

“As part of Apple’s commitment to reducing the environmental impact of our products through innovation, Alcoa helped accelerate the development of this technology. And Apple has partnered with both aluminium companies, and the governments of Canada and Quebec, to collectively invest a combined $144 million in future research and development.”

Apple is bringing its size to bear on this issue, with BBC News noting that suppliers must commit to being 100 percent renewable on their Apple production lines within ten years.

The move comes as part of Apple’s goal to becoming 100 percent carbon neutral across the entire company. From the press release:

“Apple today unveiled its plan to become carbon neutral across its entire business, manufacturing supply chain, and product life cycle by 2030. The company is already carbon neutral today for its global corporate operations, and this new commitment means that by 2030, every Apple device sold will have net zero climate impact.”

As part of takling emissions during the production process, Apple is working with its suppliers on a carbon-free smelting process, and the first beneficiary of this technology will be the 16-inch MacBook Pro:

“Apple is supporting the development of the first-ever direct carbon-free aluminium smelting process through investments and collaboration with two of its aluminum suppliers. Today the company is announcing that the first batch of this low carbon aluminum is currently being used in production intended for use with the 16-inch MacBook Pro.”

For the moment, this MacBook Pro will be unique, but it will be joined in time by the rest of the MacBook range, then the Mac family, before the new aluminium will be found in every Apple product. It’s not an immediate switch over and it may not have a public cut-of date of ‘before and after’, so there’s no way or a consumer to specify that it wants the newer materials. Instead they need to be content with the knowledge of Apple’s march forward.

What they can choose is whether to pick up the 16-inch MacBook Pro now, or later. The current 16-inch MacBook Pro is the last new MacBook to not offer one of Intel’s tenth-generation CPUs – both the MacBook Air and the MacBook Pro were refreshed to Intel’s current tech in the first half of this year. An update to the 16-inch machine from its current ninth-generation chipset is surely on the horizon.

Perhaps Tim Cook is holding back on that powerful update to showcase at the same time as the first ARM-powered MacBook Pro goes on sale to consumers during Q4 2020. What better way to reassure the geekerati that Apple, although it is pushing forward with the transition to ARM, will not be leaving behind the massive Intel user base.

Zotac has announced today a new compact 5.85-liter PC that the brand bills as an excellent tool for content creators. 

The Inspire Studio SCF72060S arrives in an all-white body that measures 225 x 203 x 128mm (8.86 x 7.99 x 5.04 inches). Zotac doesn’t specify the materials used in the mini-PC’s construction, but the images show what appears to be a plastic exterior. You’ll find an Intel Core i7-9700 octa-core processor inside the Inspire Studio SCF72060S. The processor enjoys the company of a Nvidia GeForce RTX 2060 Super graphics card and 32GB of DDR4-2666 memory. Only one SO-DIMM DDR4 memory slot is occupied so there’s room for another 32GB module to expand the system’s total memory up to 64GB.

Zotac fits the Inspire Studio SCF72060S with a 512GB M.2 NVMe SSD for primary storage and a 2TB 2.5-inch hard drive for secondary storage. Microsoft Windows 10 Pro (64-bit) is included. The manufacturer also mentions a M.2 slot for Intel Optane drives up to 80mm. Additionally, the mini-PC also has an integrated card reader that’s compatible with SD, SDHC and SDXC cards.

The Inspire Studio SCF72060S is tailored towards content creators so it comes equipped with sufficient connectivity options. There are six USB 3.1 ports in total. One Type-A and one Type-C port are each located up front and the remaining four are positioned in the back of the mini-PC. The mini-PC supplies two 3.5 mm audio jacks, one for your headphones and the other for your microphone.

The system can connect to the Internet via an old-school cable or wireless connection. The Inspire Studio SCF72060S has two Gigabit Ethernet ports. Zotac doesn’t go into details, but one of the port is based on a Killer controller so the other port is likely leveraging an Intel controller. If you want to free yourself from cables, the Inspire Studio SCF72060S sports a Killer Wi-Fi 6 AX1650 module that offers Wi-Fi 6 and Bluetooth 5 features.

If multitasking is your gig, the Inspire Studio SCF72060S doesn’t disappoint either. The GeForce RTX 2060 Super lets you run up to four displays simultaneously. There are three DisplayPort 1.4 outputs and one HDMI 2.0b port at your disposal. The first does 3840 x 2160 at 60 Hz, while the latter supports 4096 x 2160 at 60 Hz.

Zotac didn’t provide any details on when the Inspire Studio SCF72060S will be available or how much it will cost.

Built for business, but great for anyone who wants to get work done, Lenovo’s ThinkPad X1 Carbon has long been one of the best ultrabooks you can buy. Starting at $1,331 ($1,472 and $1,989 as tested), The latest version of Lenovo’s 2.4-pound laptop comes standard with Intel 10th Gen Comet Lake, Wi-Fi 6 connectivity and a pair of VoIP function keys on the keyboard, but otherwise is identical to last year’s model. However, with improved performance and battery life to go with its sleek design and snappy keyboard, the Lenovo ThinkPad X1 Carbon (Gen 8) is a compelling productivity powerhouse. 

Design of ThinkPad X1 Carbon (Gen 8) 

The aesthetics of the ThinkPad X1 Carbon haven’t changed much over the last several generations, but why mess with a good thing? The X1 Carbon (Gen 8) has the raven black stylings of a typical ThinkPad, complete with the slight red accents of its TrackPoint and power light. The lid of most configs is plain back, but if you opt for the 4K display, you get a carbon fiber cross-hatch pattern, which adds a unique dose of style I wish was standard. 

Like other ThinkPads, the X1 Carbon (Gen 8) is designed to pass MIL-SPEC durability tests, including those for extreme temperatures, spills and drops. 

As with last year’s model, the power button is located on the right side of the laptop, rather than above the keyboard; this allows you to turn the laptop on even if the lid is closed and it’s docked. However, the tiny button is annoyingly hard to locate by feel and it’s so small that you have to be very deliberate about finding and pressing it. Lenovo probably does this to avoid accidental presses, but it’s still a pain in the butt.

At 2.4 pounds and just 0.6 inches thick, the ThinkPad X1 Carbon (Gen 8) is incredibly thin and light for a laptop that offers strong battery life and some legacy ports. At that weight, it’s quite a bit lighter than the Dell XPS 13 (9300) (2.8 pounds), the Asus ZenBook 13 (2.7 pounds) and the HP Spectre x360 (2.7 pounds) and even a little lighter than the HP Elite Dragonfly (2.5 pounds). Of these competitors, only the Dell XPS 13 is thinner, but by a mere 0.02 inches (and it lacks Type-A ports).

The ThinkPad X1 Carbon (Gen 8) has a number of useful ports, including two Thunderbolt 3 connectors (one of which is used for charging), two USB 3.1 (Gen 1) Type-A ports, a 3.5mm headphone jack and a full-size HDMI port. There’s a proprietary Ethernet port that sits next to one of the Thunderbolt ports and, together with its neighbor, can plug into one of Lenovo’s side-attaching docks. If you want to use this Ethernet port on its own, you’ll need to buy a Lenovo dongle that costs $20. 

Performance of ThinkPad X1 Carbon (Gen 8) 

Whichever processor you choose, the ThinkPad X1 Carbon (Gen 8) will provide really solid productivity performance. We tested units with both Core i5-10310U and a Core i7-10610U processors and found both were more than capable of handling whatever tasks we threw at them, from surfing the web to transcoding videos. We would, however, recommend buying the X1 Carbon with 16GB of RAM rather than 8GB, because if you’re doing heavy multitasking or just have a lot of tabs open, it’s very easy on any PC to exceed 8GB. 

On Geekbench 5, a synthetic benchmark that measures overall performance, the Core i7 config of the ThinkPad X1 Carbon (Gen 8) scored a bit less than some competitors, namely the Dell XPS 9300 (4,848) and the HP Spectre x360 (4,074), both of which have 10nm Ice Lake, Core i7-1065G7 CPUs. However, both Core i5 and Core i7 configs bested the Asus ZenBook 13 UX334F, which has a Core i7-10510U, and the HP Elite Dragonfly we tested, which was rocking an older, Core i7-8665U. 

The ThinkPad X1 Carbon with Core i7 took 18 minutes and 28 seconds to transcode a 4K video to 1080p using Handbrake while the Core i5 model finished in 19 minutes and 51 seconds. Both times are faster than all of its competitors but the Dell XPS 13 9300, which completed the task in just 15 minutes and 40 seconds.

No matter what capacity of SSD you choose, the ThinkPad X1 Carbon has speedy storage for you. Our two models had 256GB and 512GB NVMe drives and they transferred 5GB of files at rates of 783 and 997.9 MBps respectively. None of the competitors came close to either score.

The ThinkPad X1 Carbon (Gen 8) is only available with integrated Intel HD graphics, which makes it power efficient, but not a machine worth gaming on. On Dirt 3, a very low-end game, the Core i7 and Core i5 Thinkpads scored 33 and 30 fps respectively while competitors like the Dell XPS 13 9300, which has Iris Plus graphics, and the Asus ZenBook 13 UX334F which has Nvidia MX250 graphics, offered silky smooth rates above 50 fps.

To see how the ThinkPad X1 Carbon performs under stress, we took both configurations and ran Cinebench R20 on them 20 times and logged the results and the clock speeds. With the Core i7 processor, the ThinkPad got an average score of 1,308 with an average clock speed of 2.5 GHz and an average temperature of 83 degrees Celsius with a maximum of 99 degrees Celsius. The Core i5 version got an average score of 1,112 with a clock speed of 2.2 GHz and an average temperature of 85.1 degrees Celsius and a max temperature of 97 degrees Celsius. 

Display on ThinkPad X1 Carbon (Gen 8) 

The ThinkPad X1 Carbon (Gen 8) is available with five different screen options and we tested both the base model, 1080p non-touch screen and the high-end 4K HDR screen (also non-touch). Both screens were bright enough for productivity, but the 4K HDR panel is a true visual treat. 

When I watched Tears of Steel, a 4K movie, on the high-end panel, fine details like the grout in bricks or the hairs in a character’s beard were all very prominent. Colors like the greens in a computer readout and the reds in a jacket were all extremely vibrant. Colors stayed true even at wide viewing angles (up to 90 degrees left and right) but since the screen is glossy, intense ambient light such as sunlight makes it harder to see at those angles and even shows some reflections head on.

The same video wasn’t quite as sharp or colorful on the 1080p ThinkPad X1 Carbon screen, but the viewing angles were better. Because the lower-end panel is matte, I saw no reflections and image quality didn’t degrade at all even at a full 90 degrees to the left or right. If you plan to use the ThinkPad X1 Carbon outside or near a window on a sunny day, this lower-end screen is a better choice.

The 4K display returned a strong 498 nits of brightness on our light meter while the 1080p screen hit a respectable 364 nits. Both far outpace the Asus ZenBook 13 UX334F and the 4K model beats the Dell XPS 13 9300, HP Elite Dragonfly and HP Spectre x360. 

The high-end panel managed to reproduce an impressive 95.5% of the DCI-P3 color gamut, which is far more colorful than the 1080p unit (71.5%) and the screens on ZenBook 13, Dell XPS 13 , HP Elite Dragonfly and HP Spectre x360. The only one of these screens to come close was the optional 4K panel on the XPS 13, which topped out at 81.3%.

Keyboard, TrackPoint and Touchpad 

As we’ve come to expect from Lenovo ThinkPads, the X1 Carbon (Gen 8)’s keyboard is a joy to use. The keys have a solid 1.5mm of travel and offer strong tactile feedback, along with curved, smile-shaped keycaps that make it easier to feel one’s way around. The soft-touch palmrest added another level of comfort as I rested my wrists on it and racked up a strong 108 word-per-minute score (5 percent error rate) on the 10fastfingers.com typing test. That’s about 10 percent faster than my typical score with a similar error rate.

Interestingly, Lenovo has made one, blink-and-you’ll-miss-it change to the keyboard design since last year’s Gen 7 model. The F10 and F11 keys have telephone icons on them as they can be used for VoIP call answer or hang up functions. However, at least right now, the only two VoIP apps these work with are Skype for Business and Microsoft Teams, so if you don’t have either of those installed, the buttons simply launch the Windows 10 notification panel and Lenovo ThinkVantage utility respectively. 

Like most ThinkPads, the X1 Carbon (Gen 8) has both a TrackPoint pointing stick and a touchpad. While not everyone appreciates its greatness, the little red nub provides more precise navigation around the desktop and doesn’t make you lift your hands off of the home row in order to move the pointer.

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Using Windows precision drivers, the 3.9 x 2.2-inch buttonless touchpad provides accurate navigation, and supports all the Windows gestures, including pinch to zoom, three-finger swipe and two-finger scroll. Its glass surface is smooth but gives just the right amount of friction.

Audio on ThinkPad X1 Carbon (Gen 8) 

While we haven’t always gotten (or expected) outstanding audio from Lenovo ThinkPads, the X1 Carbon (Gen 8) is an exception. Its quad speakers (two on the bottom and two below the bezel) provide sound that’s loud enough to fill a room and rich enough to dance to. When I played Earth, Wind and Fire’s “September,” there was a clear separation of sound with some notes and instruments appearing to come from the right side while others streamed in from the left. AC/DC’s “Back in Black,” which sounds distorted or tinny on lesser laptops, was clear and clean if not overly detailed. 

Upgradeability of Thinkpad X1 Carbon (Gen 8) 

You can swap out the ThinkPad X1 Carbon (Gen 8)’s M.2 NVMe SSD by simply loosening the five Philip’s head screws on the bottom panel, prying the panel off and then unscrewing and pulling out the drive. Lenovo charges a whopping $268 to move up from a 256GB SSD to a 512GB model and a gobsmacking $536 to go all the way to 1TB. Considering that you can buy a 1TB SSD for less than $125, you can save a lot of money by upgrading.

Unfortunately, the RAM is soldered to the motherboard so there’s no way to upgrade it. That’s why we recommend configuring with 16GB, the highest capacity available.

Battery Life of ThinkPad X1 Carbon (Gen 8)

The ThinkPad X1 Carbon (Gen 8) delivers all day battery life with its 1080p non-touch screen, as it lasted 10 hours and 45 minutes on our battery test, which involves continuous web surfing, video streaming and OpenGL tests over Wi-Fi at 150 nits of brightness. The configuration with the 4K panel was less impressive, lasting only 7 hours and 23 minutes. Both battery numbers are a noticeable step up from X1 Carbon (Gen 7) we tested last fall which had times of 9:30 and 5:33 with its 1080p and 4K panels.

However competitors offer noticeably longer endurance than the 1080p model. The Dell XPS 13 with 1080p screen, HP Spectre x360 and HP Elite Dragonfly all lasted more than 12 hours.

Heat on ThinkPad X1 Carbon (Gen 8) 

The ThinkPad X1 Carbon (Gen 8) stayed pleasantly cool throughout our testing. After 15 minutes of streaming a video, the Core i5 and Core i7 configs had touchpad temperatures of 73 / 78.6 degrees Fahrenheit while the keyboard hit a mere 86.2 / 88 degrees Fahrenheit and the underside was a modest 92.1 / 95.6 degrees Fahrenheit. 

Webcam on ThinkPad X1 Carbon (Gen 8) 

The ThinkPad X1 Carbon’s 720p webcam is unimpressive at best. When I took a picture of myself in a room with plenty of sunlight, colors were muted but mostly accurate and my features were a little blurry but visible. In low light, the image quality was just plain awful with my face looking really blurry and washed out. If you plan to do a lot of video conferencing, it’s always a good idea to get one of the best external webcams. All configurations of the X1 Carbon come with a privacy shutter that lets you physically block your webcam and some SKUs also have an IR camera for facial recognition. 

Software and Warranty of ThinkPad X1 Carbon (Gen 8) 

The ThinkPad X1 Carbon (Gen 8) comes with a couple of useful utilities and, at least on the units we tested, almost no crapware. The only real trialware we noticed on the two systems we tested was Microsoft Office 365, something a lot of people and companies already have a license for. 

The main utility for all ThinkPads, Lenovo Vantage, helps you keep drivers and firmware up-to-date while also giving you some control over the system’s power and cooling policies. It also lets you decide whether to enable USB charging with the system off or turn on airplane plane mode automatically when it detects that you are on an actual airplane by detecting when you’ve plugged into an outlet at your seat (we were not flying anywhere so unable to test how well this works). 

Available on configs with the 4K screen only, Lenovo Display Optimizer allows you to calibrate the panel or changeit for different viewing modes such as movie editing or blue-light reduction. Dolby Atmos Speaker System allows you to change audio profiles and adjust the equalizer. 

Lenovo backs the ThinkPad X1 Carbon with a standard one-year warranty on parts and labor. However, you can pay to extend the warranty up to five years or get added benefits such as on-site service. The top warranty plan, which has five years of on-site service, was $424 at publish time.

Configurations of ThinkPad X1 Carbon 

The ThinkPad X1 Carbon is available in a wide variety of configurations and, if you purchase it from Lenovo.com, you can even custom configure it, selecting the screen, CPU, storage and RAM, among other options. Options include models withup to a Core i7-10610U CPU, 16GB of RAM, a 1TB SSD and a 4K HDR display. In addition to the 4K and 1080p non-touch screen options, there’s also a 1080p touch screen with 500 nits and Privacy Guard, a 1080p 400-nit touch screen and a 2K, 300-nit screen. 

Available for $1,331.40, the base model features a Core i5-10210U CPU, a 1080p non-touch display, 8GB of RAM and a 256GB SSD. The low-end configuration we tested was slightly more expensive ($1,472) because it carried a Core i5-10310U CPU and Windows 10 Pro The high-end model we tested goes for $1,989 and was packed with all the top-of-the-line features, except that it had a 512GB SSD rather than a 1TB model.

We strongly recommend configuring your ThinkPad X1 Carbon with 16GB of RAM rather than the base option of 8GB. The RAM is soldered to the motherboard so you’ll never get to upgrade.

Bottom Line 

Whether you’re a corporate executive in a large company, a small business person or a prosumer, there’s a lot to like about the Lenovo ThinkPad X1 Carbon (Gen 8). The laptop’s excellent tactile keyboard and precise pointing stick / touchpad will help you work faster and make fewer typos while the svelte design makes it easy to use on your lap or throw in a bag where you may not even feel the weight of carrying it. 

If you don’t care as much about the keyboard and don’t require a business laptop with MIL-SPEC-grade durability, consider the Dell XPS 13 (9300) or HP Spectre x360, both of which offer about two hours longer battery life and slightly better performance, thanks to their 10nm Ice Lake processors. However, both competitors are heavier and the XPS 13 lacks USB Type-A ports. HP’s Elite Dragonfly is an appealing business 2-in-1 with a gorgeous blue chassis and longer battery life, but it is still only available with older, Intel 8th Gen Core CPUs. If you want the ultimate ultrabook for work, the Lenovo ThinkPad X1 Carbon (Gen 8) could be your best choice.