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Dell Launches Ryzen-Powered Inspiron 13 7000: 13.3" 1080p, 2-in-1 Convertible

Despite not wanting to do away with Intel's dominance in its portfolio anytime soon, Dell is obviously looking to better round up its product lineup with some red team-powered goodies. Case in point: the 2-in-1 convertible Dell Inspiron 13 7000, which makes use of AMD's latest Ryzen mobile APUs to deliver a strong computing performance, whilst also emphasizing content consumption. There's an option for all budgets (starting from $700 for the base version and up to $1019 for the top-tier one), and the CPU choices are naturally based around either AMD's Ryzen 5 2500U with a Radeon Vega 8 iGPU, or the more powerful Ryzen 7 2700U with a Radeon Vega 10 iGPU (both 4 core, 8-thread CPUs, but with 512 and 640 Vega Stream processors, respectively).

Select AMD Mobile Platforms to Include Qualcomm-Powered LTE Capabilities

At the Qualcomm Technology Summit, AMD made a surprise appearance to shed some light on their partnership in Qualcomm. The objective: to integrate Qualcomm's LTE modems in AMD-powered mobile platforms, offering always connected capabilities to laptops and convertibles. AMD's Kevin Lensing took to the stage to talk about how AMD's reference designs for the Ryzen Mobile platform (which includes deployment of the company's Ryzen 5 2500U and Ryzen 7 2700U APUs, for instance) shipped to OEMs with an integrated Qualcomm LTE modem - a clear nod at another design point OEMs could look towards integration on their products. These should allow for online connectivity on the go, offering users more ways to keep connected, whether for work or play.

Of course, this is hardly the first time mobile PC form-factors have had this kind of modem integration; Intel has done it for quite some time on their products, with the XMM7260 and XMM7360 that it has applied to more business-oriented devices or Chromebooks. However, adding LTE enablement as an option for AMD-based platforms at this scale is actually a first for AMD. Naturally, the integration of yet another piece of silicon to a mobile device will undoubtedly add to cost and battery consumption, besides adding some more question that end-users have to answer: which carrier option are available, which of those to go with... But having more options is usually better than the alternative, is it not?

HP ENVY x360 15-bq101na Could be First "Raven Ridge" Implementation

HP posted the datasheet of its upcoming 2-in-1 notebook PC, the ENVY x360 15-bq101na, which could be the world's first implementation of AMD's upcoming 14 nm "Raven Ridge" APU. The silicon combines a quad-core "Zen" CPU with an integrated graphics core based on the "Vega" GPU architecture. The datasheet speaks of an "AMD Ryzen 5 2500U" processor powering the machine.

The Ryzen 5 2500U is being described as featuring a quad-core CPU clocked at 2.00 GHz with 3.60 GHz boost frequency, and 6 MB of cache. This could very well be total-cache, since that's how AMD likes OEMs to advertise cache on its chips, which works out to 512 KB of L2 cache per core, and 4 MB of shared L3 cache. The graphics core features the branding "AMD Radeon Vega M," confirming that this chip is indeed a derivation of "Raven Ridge."

AMD Raven Ridge Ryzen 5 2500U with Vega Graphics APU Geekbench Scores Surface

A Geekbench page has just surfaced for AMD's upcoming Raven Ridge APUs, which bring both Vega graphics and Ryzen CPU cores to AMD's old "the future is Fusion" mantra. The APU in question is being tagged as AMD's Raven Ridge-based Ryzen 5 2500U, which leverages 4 Zen cores and 8 threads (via SMT) running at 2.0 GHz with AMD's Vega graphics.

According to Geekbench, the Ryzen APU scores 3,561 points in the single-core score, and 9,421 points in the multi-core score. Compared to AMD's A12-9800, which also leverages 4 cores (albeit being limited to 4 threads) running at almost double the frequency of this Ryzen 5 2500U (3.8 GHz vs the Ryzen's 2 GHz), that's 36% better single-core performance and 48% better multi-core performance. These results are really fantastic, and just show how much AMD has managed to improve their CPU (and in this case, APU) design over their Bulldozer-based iterations.
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