Framework ships RISC-V board for its 13" laptops along with "boardless" laptop chassis.
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[email protected]replied to [email protected] last edited by
Just like kde 4.0 and wayland were not marketed to consumers and yet consumers used them anyway and then decided latter releases marketed to consumers must also be bad.
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[email protected]replied to [email protected] last edited by
That's the future of RiscV.
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[email protected]replied to [email protected] last edited by
How come?
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[email protected]replied to [email protected] last edited by
How come?
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[email protected]replied to [email protected] last edited by
Didn’t NT 3.x or 4.x run on a RISC CPU back in the day?
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[email protected]replied to [email protected] last edited by
Alpha, yes, and modern Windows has been ported to ARM.
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[email protected]replied to [email protected] last edited by
I would have rather seen an ARM Linux board for a more modest cost
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[email protected]replied to [email protected] last edited by
Well, the RISC-V instruction set is open source, but that doesn't imply a system architecture standard. So there's not going to be one. The x86 PC became an industry standard basically by accident, an accident that is unlikely to happen again. Hell, even CP/M, the DOS before DOS had to come in different flavors for different manufacturers because the several manufacturers that supported it didn't build compatible computers.
Microsoft has so much inertia on x86 that it's probably not going anywhere, and RISC-V will become the new ARM, same cores slapped into whatever the hell the company wanted to build that day. With no standard platforms, there will be no modular accessories. What you'll get are sealed shut devices with no user serviceability, the RAM and storage soldered to the board and the bootloader stored in on-chip ROM.
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[email protected]replied to [email protected] last edited by
"Early KDE 4", but I'd add that the distros are also to blame for packaging it in the main repositories when it should have been stuck way out in some dev repos, out of sight of users. And of course, KDE 4 was actually quite good once it got the kinks worked out.
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[email protected]replied to [email protected] last edited by
Milk-V Oasis Mini ITX board was going to have replaceable RAM, M.2 slot for SSD, and 4x SATA slots. The only reason it didn’t release was because of Sophgo sanctions (They make the SG2380 which was the Oasis was based on)
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[email protected]replied to [email protected] last edited by
Sure, it's technologically possible. Is there even an inkling of a plan to go from "dev kit" to "widely available consumer product?" Because basically the only "widely available consumer products" are locked down playpens like iPhones and such. Even a lot of x86 devices are going to the soldered everything approach.
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[email protected]replied to [email protected] last edited by
And MIPS too. NT 3.1, 3.5, 4.0 all saw MIPS, Alpha, and x86 releases.
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[email protected]replied to [email protected] last edited by
Can someone shut up the edgy guys trying to play Nostradamus? Go play with your x86 and overpriced nvidia RTX cards that you use only to run one lame game. People building the future don't care about your prejudices.
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[email protected]replied to [email protected] last edited by
The NT kernel is built on top of a hardware abstraction layer, which should make it easier to port it to different architectures.
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[email protected]replied to [email protected] last edited by
Is there even an inkling of a plan to go from "dev kit" to "widely available consumer product?"
It’s not a dev kit, it’s meant to be a regular PC with upgradable storage, RAM, and PCIe slot for $120. Milk-V and other RISC-V companies already have widely available consumer products (Milk-V Mars, Banana Pi, etc.), they’re just usually SBCs because that’s what’s easiest to produce and RISC-V is early in development. Remember that the first standard with Vector instructions just came out a few months ago (RVA23), and there’s no point in trying to seriously compete with X86/ARM PCs until you have that.
Even a lot of x86 devices are going to the soldered everything approach.
That right there tells you this is not a RISC-V/ARM problem. It’s just that everyone knows on-SOC memory performs better than DIMM, and manufacturers are starting to offer these to compete with Apple M chips.
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[email protected]replied to [email protected] last edited by
Yes it supported PPC and MIPS, which are RISC platforms.
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[email protected]replied to [email protected] last edited by
Boardless? What, like, components connected directly to the chassis instead?
That sounds like ass.
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[email protected]replied to [email protected] last edited by
It's just the chassis, screen, battery, and keyboard. You would just buy one of their boards separately to go in it, or make one yourself I suppose.
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[email protected]replied to [email protected] last edited by
Ah okay, thank you for explaining it to me.
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[email protected]replied to [email protected] last edited by
I didn't say it's a problem inherent to RISC-V; it's more that anyone who can make the jump to RISC-V (or ARM) will do so in a locked down sealed shut proprietary format like Apple, or doesn't have the capability of making a platform shift at all like Microsoft. You could make an ATX form factor ARM or RISC-V machine with a lot of processing power and run Linux on it, but who would buy it and for what? That question is why no one makes such a thing.
