• @TheGrandNagus
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    9 months ago

    The upcoming Qualcomm chip certainly looks good… in the synthetic benchmarks we’ve seen so far.

    ARM devices, particularly on windows, often look good in synthetic workloads, but falter in real-world tasks.

    Yeah, right now the benchmarks are competitive… with AMD’s chips from last year. When the Snapdragon X Elite comes out, it’ll be against AMD’s Strix chips (although those are delayed), which will be a sizable performance uplift, and won’t have to do any x86-to-ARM translation.

    Both Intel and AMD will lose some potential market share, sure, but I’m tired of people who don’t know what they’re talking about acting like Qualcomm will be able to crush AMD or Intel just because they use an ARM CPU. It’s not how things work.

    • @[email protected]OP
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      69 months ago

      The ARM architecture does apparently (I’m no expert) have some inherent power-efficiency advantages over x86, and it sounds like the Snapdragon X Elite will be specifically designed for high-performance mobile computing with low power consumption like the Apple M-series chips. So, all else being equal, you’d expect Qualcomm to have an advantage in laptops with this chip, but all else isn’t equal because the software isn’t there yet, and no one in the PC market is quite in a position to kickstart the software development like Apple is with Macs.

      • 7heo
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        89 months ago

        The ARM architecture does apparently (I’m no expert) have some inherent power-efficiency advantages over x86

        Well, the R from ARM means RISC, and x86 (so, by extension, x86_64) is a CISC architecture, so they are not even in the same “family” of designs.

        Originally, CISC architectures were more popular, because it meant less instructions to write, read, store, etc. Which is beneficial when hardware is limited and developers write in assembly directly.

        Over time, the need for assembly programming faltered, and in the 90s, the debate for CISC vs RISC resurfaced. Most developers then wrote code in C and C++, and the underlaying architecture was losing relevance. It is also worth noting that due to a higher number of instructions, the machine code is more granular, and as a result, RISC code can inherently be further optimised. It also means that the processor design is simpler than for CISC architectures, which in turn leaves more room for innovation.

        So, all else being equal, you’d expect Qualcomm to have an advantage in laptops with this chip, but all else isn’t equal because the software isn’t there yet, and no one in the PC market is quite in a position to kickstart the software development like Apple is with Macs.

        Now, a key consideration here is that the x86 architecture has been dominating the personal computer market for close to half a century at this point, meaning that a lot of the hardware and software is accommodating (wrt functionality, optimisation, etc) for it specifically.

        Therefore, RISC architectures find themselves at a disadvantage: the choice in Operating Systems is limited, firmware and drivers are missing, etc. Additionally, switching to RISC means breaking legacy support, or going through emulation (like the Apple M3 does).

        However, in our modern ecosystem, the potential gain from switching to a RISC architecture is considerable (storage is cheaper than ever, RAM is cheap and fast, and seldom anyone is writing assembly anymore. Plus, those who do might enjoy the higher degree of control the additional granularity affords them, without having to do everything by hand, given the degree of assistance modern IDEs offer), and it will gradually become a necessity for every vendor.

        For now however, the most popular computer Operating System worldwide has poor performance on ARM, and no support for other RISC architectures (such as RISC-V) that I know of.

        The challenge here is in breaking a decades long dominance that originated from a monopoly: if you have paid attention to what Apple has been doing, they initially used large parts of FreeBSD to build a new Operating System that could run on their custom processors (Motorola 68k), and then built the rest of their Operating System (Darwin and Aqua) on top of it. This afforded them the possibility to switch to Intel CPUs in 2005, and back to ARM in 2020 with their M series CPUs.

        The quality of their software (in large parts derived from the quality of free software and of staggering design work) has allowed them to grow from a virtually negligible share of computer users to the second place behind windows.

        Now, other Operating Systems (such as Linux) have the same portability characteristics as FreeBSD, and can feasibly lead to such a viable commercial OS offering with support for several hardware architectures.

        “All” that is needed is a consistent operating system, based on whichever kernel fits, to supplement MacOS in the alternative offering to windows.

        Most software would be available, and a lot of firmware would too, thanks to ARM being used nearly exclusively in mobile phones, and most mobile phones running a Linux kernel.

        Once we have a (or better, a few) Linux or BSD based operating system(s) with commercial support, consistent design, and acceptable UX for “normies”, such CPUs will become a very valid offering.

        • @ndru
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          29 months ago

          🛼 Yeah, RISC is good ⚗️🔥