Servers are essentially reliable data pumps, so the 'core' debate is a red herring.
Things like ECC will matter, as will low energy memory, and there also has to be a sweet spot in servers, where you match pump-throughout to the average user, not to some brag-contest peak.
That sweet spot is where you will find the lowest J/GB served, and that is what customers will pay for.
It is less about bragging rights and more about efficiency.
Spending more money to be slower ... that dog don't hunt. Servers are about latency and Watt-hours, not Watts. If you do a calculation on a processor that uses half the power, but take more than twice the time, you have slowed the application and paid more for that privilege. That's where microservers fall down. They'll probably find some application, just as blade servers have, but this looks like a preemptive strike by Intel.
Whether 32 or 64 bit ARMS on blade is viable high margin business & can compete with Xeon in server with system management & targeted acceleration.
And its not really issue of wimpy ARM, but crippled ARM given need for architectural enhancement that can make a StrongARM®. ARM architectural license is advantageous over design license.
Cautionary note, Intel is an ARM customer. Design producers who want too compete in server vs. Intel must own control over processor architecture. On Intel’s field it could result in severe fandango to count on ARM. Option to hedge knowing payroll must be met, staff have house payments, children too send to college must be considered.
Bet on your design capabilities on leading advantages ARM architecture offers on path toward network in processor integration.
ARM community places scalar ARM at ½ per of Intel dual issue. ARM 64 bit super speculated closing processing gap on freq verse ATOM. Two 32 bit ARM 1.1 GHz quads equal one Xeon 2620 hexa 2.0 GHz in an Intel loaded molecular docking benchmark; http://www.lowpowerservers.com/?p=141
For multiple ARMS on blade analyst suspects will
reach into high end XEON product performance and price rungs. Verse Xeon 2620 analyst calculates Calxeda Energy Core value at $171 to $200 per component.
Subsequently octa ATOM presents solely an initial low power barrier meant to protect higher power Xeon product and price voids certainly into E3, into E5 & even 46xx for massive dense where NIC in SOC across fabric VM mode is aimed to resolve Xeon power utilization issue.
ARM power clocking islands are an advantage verse Intel architecture with insight mixed on how long it will take Intel to gain parity in chip power management.
Time will tell if dense ARM achieves aim of Xeon parity performance but that concept is spreading.
ARMs on blade is a viable high margin business.
Guess I was thinking about the "mobile" Atom, that's arriving in 2015:
But this also shows how out of touch Intel is with the reality. I thought they were going to make Atom a "prime" chip for their fabs and whatnot, and give them as much priority as their Core chips, so they can compete better with ARM.
So when why are they releasing the mobile chip much later than the server now? I guess the server one will be much less inefficient? But then, how is it supposed to compete with ARM in servers? Yeah, I don't see this ending very well for Intel, in either market.
Intel cannot use conflicting propaganda. On one hand, 22 nm rollout need not be so fast due to not enough demand or too much inventory at 32 nm needed to clear out, according to Intel. On the other hand, if Intel wants design wins against ARM it needs to roll out 22 nm across the board much faster, even if it means dumping the old 32 nm earlier than expected.
As we unveil EE Times’ 2015 Silicon 60 list, journalist & Silicon 60 researcher Peter Clarke hosts a conversation on startups in the electronics industry. Panelists Dan Armbrust (investment firm Silicon Catalyst), Andrew Kau (venture capital firm Walden International), and Stan Boland (successful serial entrepreneur, former CEO of Neul, Icera) join in the live debate.