Android On Intel x86 Tablet Performance Explored: Things Are Improving

MojoKid writes: For the past few years, Intel has promised that its various low-power Atom-based processors would usher in a wave of low-cost Android and Windows mobile products that could compete with ARM-based solutions. And for years, we've seen no more than a trickle of hardware, often with limited availability. Now, that's finally beginning to change. Intel's Bay Trail and Merrifield SoCs are starting to show up more in full-featured, sub-$200 devices from major brands. One of the most interesting questions for would-be x86 buyers in the Android tablet space is whether to go with a Merrifield or Bay Trail Atom-based device. Merrifield is a dual-core chip without Hyper-Threading. Bay Trail is a quad-core variant and a graphics engine derived from Intel's Ivy Bridge Core series CPUs. That GPU is the other significant difference between the two SoCs. With Bay Trail, Intel is still employing their own graphics solution, while Merrifield pairs a dual-core CPU with a PowerVR G6400 graphics core. So, what's the experience of using a tablet running Android on x86 like these days? Pretty much like using an ARM-based Android tablet currently, and surprisingly good for any tablet in the $199 or less bracket. In fact, some of the low cost Intel/Android solutions out there currently from the likes of Acer, Dell, Asus, and Lenovo, all compete performance-wise pretty well versus the current generation of mainstream ARM-based Android tablets.

Re:Once again proving ARM is awesome

[marcansoft]

Um, no, x86 CPUs are nothing like ARM and I'm not aware of any commercial x86 CPU with an ARM backend. Yes, modern x86 cores use a RISC-ish microcode backend with an x86 decoder frontend, but that doesn't say anything in favor of ARM. All it means is that the industry has collectively agreed that CISC as a microarchitecture is a stupid idea - not necessarily as an instruction set.

I'm not a fan of x86 myself, and I think it's a stupid design with a vast amount of baggage causing a significant power/performance impact when designing an x86 CPU (that Intel can get away with because they're a generation or two ahead of everyone else in silicon tech), but then again ARM isn't the pinnacle of RISC either (though I do think it's better than x86).

Me, I'll take whatever microarch gets the best performance per watt at whatever TDP is relevant. If Intel can pull that off with x86-64, by all means. If ARM AArch64 ends up ahead, awesome. If both are about equal, I'll take whatever's more practical based on other factors.