Their silicon is really good. I’d argue it is mostly because they have a node advantage but it is what it is.
But especially in the MacBook Air it can only really show off its stuff in the short-bursty workloads of casual users (and Geekbench). My four-year-old PC would pull ahead quite quickly on any task when you actually have to run it at load for a while.
It also is perfectly fine for running a few minute long compile cycles - without running into thermal throttling. I guess if you do some hour long stuff it might eventually become an issue - but generally the CPUs available in the Airs seem to be perfectly fine with passive cooling even for longer peak loads. Definitely usable as a developer machine, though, if you can live with the low memory (16GB for the M1, which I have).
I bought some Apple hardware for a customer project - which was pretty much first time seriously touching Apple stuff since the 90s, as i’m not much of a friend of them - and was pretty surprised about performance as well as lack of heat. That thing is now running Linux, and it made me replace my aging Thinkpad x230 with a Macbook Pro - where active cooling clearly is required, but you also get a lot of performance out of it.
The real big thing is that they managed to scale power usage nicely over the complete load range. For the Max/Ultra variants you get comparable performance (and power draw/heat) on high load to the top Ryzen mobile CPUs - but for low load you still get a responsive system at significantly less power draw than the Ryzens.
Intel is playing a completely different game - they did manage to catch up a bit, but generally are still running hot, and are power hogs. Currently it’s just a race between Apple and AMD - and AMD is gimped by nobody building proper notebooks with their CPUs. Prices Apple is charging for RAM and SSDs are insane, though - they do get additional performance out of their design (unlike pretty much all x86 notebooks, where soldered RAM will offer the same throughput as a socketed on), but having a M.2 slot for a lower speed extra SSD would be very welcome.
Not entirely sure about that. I have a bunch of systems with the current 8cx, and that’s pretty much 10 years behind Apple performance wise, while being similar in heat and power consumed. It is perfectly fine for the average office and webbrowsing workload, though - a 10 year old mobile i7 still is an acceptable CPU for that nowadays, the more problematic areas of IO speed are better with the Snapdragon. (That’s also the reason why Apple is getting away with that 8GB thing - the performance impact caused by that still keeps a usable system for the average user. The lie is not that it doesn’t work - the lie is that it doesn’t have an impact).
From the articles I see about the Snapdragon Elite it seems to have something like double the multicore performance of the 8cx - which is a nice improvement, but still quite a bit away from catching up to the Apple chips. You could have a large percentage of office workers use them and be happy - but for demanding workloads you’d still need to go intel/AMD/Apple. I don’t think many companies will go for Windows/Arm when they can’t really switch everybody over. Plus, the deployment tools for ARM are not very stable yet - and big parts of what you’d need for doing deployments in an organization have just been available for ARM for a few months now (I’ve been waiting for that, but didn’t have a time to evaluate if they’re working).
Their silicon is really good. I’d argue it is mostly because they have a node advantage but it is what it is.
But especially in the MacBook Air it can only really show off its stuff in the short-bursty workloads of casual users (and Geekbench). My four-year-old PC would pull ahead quite quickly on any task when you actually have to run it at load for a while.
It also is perfectly fine for running a few minute long compile cycles - without running into thermal throttling. I guess if you do some hour long stuff it might eventually become an issue - but generally the CPUs available in the Airs seem to be perfectly fine with passive cooling even for longer peak loads. Definitely usable as a developer machine, though, if you can live with the low memory (16GB for the M1, which I have).
I bought some Apple hardware for a customer project - which was pretty much first time seriously touching Apple stuff since the 90s, as i’m not much of a friend of them - and was pretty surprised about performance as well as lack of heat. That thing is now running Linux, and it made me replace my aging Thinkpad x230 with a Macbook Pro - where active cooling clearly is required, but you also get a lot of performance out of it.
The real big thing is that they managed to scale power usage nicely over the complete load range. For the Max/Ultra variants you get comparable performance (and power draw/heat) on high load to the top Ryzen mobile CPUs - but for low load you still get a responsive system at significantly less power draw than the Ryzens.
Intel is playing a completely different game - they did manage to catch up a bit, but generally are still running hot, and are power hogs. Currently it’s just a race between Apple and AMD - and AMD is gimped by nobody building proper notebooks with their CPUs. Prices Apple is charging for RAM and SSDs are insane, though - they do get additional performance out of their design (unlike pretty much all x86 notebooks, where soldered RAM will offer the same throughput as a socketed on), but having a M.2 slot for a lower speed extra SSD would be very welcome.
The incoming Snapdragon Elite chips should make for an interesting change to the laptop landscape.
Not entirely sure about that. I have a bunch of systems with the current 8cx, and that’s pretty much 10 years behind Apple performance wise, while being similar in heat and power consumed. It is perfectly fine for the average office and webbrowsing workload, though - a 10 year old mobile i7 still is an acceptable CPU for that nowadays, the more problematic areas of IO speed are better with the Snapdragon. (That’s also the reason why Apple is getting away with that 8GB thing - the performance impact caused by that still keeps a usable system for the average user. The lie is not that it doesn’t work - the lie is that it doesn’t have an impact).
From the articles I see about the Snapdragon Elite it seems to have something like double the multicore performance of the 8cx - which is a nice improvement, but still quite a bit away from catching up to the Apple chips. You could have a large percentage of office workers use them and be happy - but for demanding workloads you’d still need to go intel/AMD/Apple. I don’t think many companies will go for Windows/Arm when they can’t really switch everybody over. Plus, the deployment tools for ARM are not very stable yet - and big parts of what you’d need for doing deployments in an organization have just been available for ARM for a few months now (I’ve been waiting for that, but didn’t have a time to evaluate if they’re working).