Intel can't even compete at the Cortex A15 level, and they want to compete at the Cortex A7 level? Even if it's possible to do it, do they really want to sell $5 chips?
And that's Intel's biggest problem in the mobile market, especially at the low-end:
Perhaps a low end cell phone strategy is an admission that existing software ecologies (iOS, Android) are too much to compete with. Like how the Windows ecology stymied any different PC processors - 68000, Alpha and ARM.
Interesting. I really don't see the low end cell phone market growing significantly... Unless low end of tomorrow is high end of today...
On another subject, the skin shaded microphone in the picture above looks like a huge mole....
Intel's culture of over-designing might be hard to change,however i can see they're getting on the path on being lean. i agree with your take on the instruction sets, but that's just what their architecture based on and ARM architectures are designed on RISC which is historically meant for low power. i would be interested on how ARM is playing in the server market on being more high-performance. it's Jack vs the big giant.
Intel is in third place, but are they poised to take advantage of the market growth and will they grow share? Qualcomm has a big lead. Will they continue to dominate the market? Arm is a big advantage and I don't see Intel moving to it.
Intel should reduce the amount of instructions that an Atom processor supports w.r.t x86 ISA. Otherwise the core will have issues like :-
1. Bigger area for implementation
2. More power consumption (means more/better battery tech)
3. More core / processor(or SOC) on chip will have the above 1 & 2 issues in a much bigger scale
4. Cost will always be higher because of 1 & 2 points
5. Going to leading edge process will reduce issues of points 1, 2 & 3, but how to take care of point 4 !
So, Intel should support the required subset of x86 ISA very much like what ARM, Qualcomm and others have.
But having said that, many x86 (PC) software will not run by default which is Intel's biggest selling point in the name of Atom processor which ARM processor clearly lags.
Striking a balance for Atom between x86 ISA & x86 code base for mobile is Intel's greatest challenge.
With Atom, the question used to be whether it was low power enough. Assuming the answer is now yes, then for success at the low end of the smartphone market, one would expect the next question to be whether it is lower cost or no costlier than an ARM-based apps processor.
If so, that would also be decidedly un-Intel.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Are the design challenges the same as with embedded systems, but with a little developer- and IT-skills added in? What do engineers need to know? Rick Merritt talks with two experts about the tools and best options for designing IoT devices in 2016. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.