Questa mattina al Vertice Qualcomm Snapdragon alle Hawaii, EVP di Microsoft di Windows e dispositivi, Terry Myerson, annuncia l'introduzione del primo Windows 10 PC per essere alimentati da processori Qualcomm Snapdragon. E 'stato quasi un anno fa per il giorno in cui l'azienda first announced their partnership with Qualcomm, which would bring ARM support to Windows 10, but with x86 emulation, allowing all existing applications to work as well. The first PCs will be the ASUS NovaGo, which is a convertible laptop, and the HP ENVY x2 convertible tablet.
The ASUS NovaGo Laptop
This is exciting news on a couple of fronts. Qualcomm Snapdragon 835, which was the processor first announced for Windows 10 on ARM, offers reasonable performance, but with lower power consumption than what we’ve been used to in the PC space, and especially in low-power states. Without having the devices in-hand, we still don’t know how the SD835 compares in performance to the competition. We should finally be able to answer that soon though.
The HP ENVY x2 Tablet
One of the key pieces of using a mobile SoC in a PC is the extra integration. Smartphones don’t have room for large circuit boards, while still providing room for all of the other equipment and batteries required, and mobile SoCs offer a lot more features integrated into the SoC than what a typical PC would, which allows for substantial board space savings over the competition. Back at Computex, Qualcomm was showing off the SD835 PC board compared to a competing 14nm Intel board, and the space savings were up to 30%. This allows smaller, thinner, and lighter devices, but with more battery capacity.
One of the major integrations with the SD835 compared to PC SoCs is the integrated cellular connectivity, which is one of the features that Microsoft is championing the most with this new partnership. There have been PCs with cellular cards added on for some time, but Qualcomm’s cellular tech is aimed at mobile, where always-on connectivity, and low-power usage, is a requirement. That same connectivity will be available on the PC as well, with an always-connected network connection providing a better user experience than what we’ve become accustomed to in the laptop world.
Battery life should also be a big win, and while we don’t have our own tests done yet, Microsoft’s information is claiming up to 30 days of standby and up to 22 hours of active use, while the detachable tablet-style HP ENVY x2 is claiming up to 20 hours of active use. Che è impressionante, and blows past the all-day battery life that we’ve come to expect in a laptop, and should free a device up for a couple of days of use before charging. Terry Myerson has stated that he’s been getting up to a week of use out of a device before he needs to charge it.
The always-on nature of mobile brings other advantages too. The PCs will wake up instantly, just like you’d expect on your phone, or mobile tablet.
The ARM equipped devices will be running full Windows 10, so no desktop apps are left behind, unlike the previous time that Microsoft attempted this. The ARM chips at the time offered much less performance as well, so this time around, it should be a much better experience. Universal Windows Apps will be available compiled for ARM directly, but x86 apps will run in emulation, which is still a cause for concern for both performance and battery life, so we’ll have to see how that pans out. Microsoft has an “optimized” version of Office 365 for the new ARM powered PCs, which likely means it’s been recompiled for native performance.
Perhaps the most exciting part of the announcement is what added competition in this space should bring to the end-user. We have Qualcomm coming to the PC from the mobile space, where low-power has always been key, but the performance has been improving steadily, and we have Intel and AMD on the other side, coming from a high-performance but higher-power world, where integration of components into the SoC hasn’t been as high of a priority. It’ll be interesting to see where the convergence happens in the coming months.