Most servers are i/o limited, not CPU limited unlike desktop PCs, so ARM server chips would be fine for the majority of servers and server farms.
Also note that most servers handle many requests per second, and so having multiple cores or multiple servers in a server farm fed by a round robin router works very well, again allowing use of more lower powered ARM servers, or lower powered ARM cores. Indeed far more so than with desktop computers.
Dell timelines should be an year behind HP and other OEMs. Dell is hardly a trend-setter in the server space. It has been over 2 years since HP announced moonshot and has servers shipping today. Dell has nothing to show yet.
uummm strange post. It seems like all servers load can be accomodate with large clusters of tiny socks. Unfortunately, most of real world workloads are very sensitive to monothread performance. So yes, in this upcoming 10/15 percent of server world intel will lose a bit asp, still the bulk of server sold will remain an high ipc cpus territory.
uummm strange post. It seems like all servers load can be accomodate with large clusters of tiny socks. Unfortunately, most of real world workloads are very sensitive to monothread performance. So yes, in this upcoming 10/15 percent o server world intel will lose a bit, still the bulk of server sold will remain an high ipc cpus territory.
I am not sure OEMs are really leveraging this opportunity to get back into more value-added system design. My observation is Dell and HP seem to be letting the chip makers do a fair amount of the board design and just creating passive backplane chassis for them to ride in. Hopefully, this won't be their missed opportunity.
As for Intel, it's actually the only company shipping microserver SoCs now, admittedly at lower ASPs than it is used to.
To me, it is always long shot for ARM to get into Intel dominant server business. But I don't think Intel will be winner either. Under pressue, Intel will be forced to come out low cost server chips to fend off Competition from ARM. This will hurt Intel Business overall with falling ASP. At end, winners are likely system Companies such as HP and Dell since they have better price negotiation power againt Intel, or end users to have access on low cost servers. Although it is hard for ARM to get into general purpose server market, I still believe ARM could be used by large service Companies such as Google, Facebook, Microsoft to build purpose build servers to address their own specific need.
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.