I recently bought an HP OmniBook 430 that needed a system ROM card, which has to be on a linear flash card. Continue reading “Flashing linear flash cards – quick notes”
If you follow this blog, you may remember that I’ve mentioned RISC OS, the OS used on ARM-based computers made by Acorn Computers. The OS has a very loyal following, and as an “outsider,” I found it (and the hardware, for that matter) interesting.
However, as Acorn pulled out of the personal computer market in 1998, the community has had trouble obtaining hardware since. Many users still use circa 1997 RiscPCs with 200 or 233 MHz StrongARM CPUs, which just don’t cut it today. While there were a few clones made after the fall of Acorn, most notably the Iyonix (with a 600 MHz XScale,) and the A9home (with a 400 MHz Samsung ARM9-based system on chip,) these machines are expensive for what they are, and the Iyonix is no longer in production. It’s proven to be difficult to make custom hardware specifically for this market, as the RISC OS community can’t afford custom chips designed for RISC OS machines, so they’re required to use embedded chips that provide suboptimal performance, and the low volume causes extremely high hardware prices to make up for development and tooling costs.
But, ARM is now pushing their architecture into the netbook and nettop spaces, countering Intel’s attempt to move into ARM’s traditional smartphone and embedded spaces. This means that there’s now PC-class ARM hardware. And, the best part is, someone else is paying for the development, and ARM wants the volume to be huge.
Not only that, but Castle Technology, the company that makes the Iyonix, has released their version of RISC OS under a shared source license, to RISC OS Open. This has allowed developers to take advantage of the new ARM platforms. Right now, there’s a port to the Beagle Board, although it’s arguably not well suited towards desktop applications, due to its lack of any form of ATA support, and poor 2D graphics capabilities – the OMAP3530 chip that it’s based on is essentially a cell phone chip. Also, it’s a developer board, so there’s no good case for it. But, there’s an ARM platform that’s low-cost, commercially available, and does offer SATA, good 2D graphics, and a case. Continue reading “HP t5325 thin client, RISC OS, and maybe combining the two. Or just running Linux on it. Either way.”
And then they strapped it on their trailer and left! 😀 I’m all of… um… $215 richer. Yay. At least I don’t have that pile rotting up the driveway any more… :p
Now, when they saw my Golf, they tried to get me to sell it, but… I just got that thing running. Glow plugs help a LOT with starting a diesel in this damn cold weather. 😉
I burned the CDs of my recovery partition, and saved ISOs of them onto my server. That way, I could restore the system in the future despite proceeding to nuke that partition. After that, I realized that I needed a hell of a lot more HDD space than that… so I started deleting crap, and got myself TONS of room. After some SNAFUs with defragging, then shrinking the partition, Ubuntu installed just fine.
Now, here’s something that is awesome. In my previous attempts to use Linux, I found that I had to install a whole bunch of BS to get the tiniest thing to work.
On Ubuntu… it just… works. Sure, I’ve had to install the occasional package now and then, but Ubuntu’s howtos actually… make sense! And are… helpful! And I’ve not noticed the dependency hell that I found on the RPM-based distros I’ve used. Then again, I am trying to stay within the distro’s packages when possible…
Anyway, I’ve only booted into Windows a couple times. Funny part is, Windows has slowed down a LOT since this… 😆