"In some ways, the project resembles the One Laptop Per Child (OLPC) scheme,"
"The volunteer team has to produce a better working prototype, has to show that it really can be manufactured for around £15,"
So yeah, it really IS like it... Especially in that their stated price won't end up being what they sell for in the end.
At the $25 stated on their homepage, I'd buy a few of them for playing with... Well, if it had an ethernet port, anyhow. A computer without an ethernet port isn't much of a computer these days.
If you need a USB hub to use one effectively, then the true price just went up by a third or so.
Why not make the thing twice as thick, providing room to add an ethernet port and a second USB port? Then much more of the associated costs will be incorporated into the unit.
I think "effectively" is really dependent on the end user. If the goal is to provide an easy and cheap system for school children to work with, much like the OLPC, then internet may not be something that is available or required for the target demographic. In the case of your standard hacker, it would obviously be awesome to have all the additional items on-board, but with the ease of adding a USB hub and all required additions to it you can expand on it as much as you want in what ever cost range you can afford.
The mini-USB bluetooth adaptor that they currently have stock of in my local pound shop (for, not surprisingly, £1) (they look very like http://cgi.ebay.co.uk//300388440707 so may be the same thing) work perfectly will under Ubuntu (at least on 10.04 and 11.04). So as long as the bluetooth stack doesn't eat too much of that small chunk of RAM and network speed is not a big issue you could use the PAN or DUN profiles for networking on the cheap, tethering to a phone or a desktop/laptop with bt and PAN/DUN support.
The official site doesn't say anything about power but as the image only shows USB and screen connections I assume it runs off the power a USB connection can provide, so it could probably run nicely off a pair of AA or AAA batteries. I can think of a number of play projects for monitoring (attach a cam, mic, temperature probe, and so on via USB) or display (attach a small LCD screen and/or a beeper and you've got a portable status monitor for some other project).
Something like this could be great fun for a nerd like me to spend a bit of time playing with. A bit like an Arduino for a software-only person. If they do hit the market at the £15 estimated or there abouts I'd certainly buy a couple, as I'm sure would a couple of my friends.
I assumed (from the video of Braben) that it was the other way around; it's powered by the HDMI connection to a TV. This makes kind of sense, since it's a USB host. It allows you to connect stuff like keyboards and mice, which a USB device wouldn't do.
What's ... interesting about that reasoning is that according the Wikipedia, HDMI sources at most 50 mA at 5 V, which is 10% of what a USB root port is expected to deliver (500 mA).
Perhaps it will require a power supply, unless you can find a power-efficient keyboard. Shouldn't be impossible I guess, keyboards are fairly passive.
But it also supports composite out - if you were connecting the display that way it would need power from somewhere else.
Perhaps the connections seen at the top of it in http://www.raspberrypi.org/pcb.jpg are providing the power - it looks like they end up plugging into the USB hub (if that is the case then it must be a powered hub, but a passive hub could presumably be used if the board were getting power from elsewhere like a battery connected to those contacts).
I've not watched the video yet (no speakers/headphones handy) so I could be missing something they show/say in there.
True, for composite you'd need a different power supply.
I agree that the wires in the picture look like they're coming off of the USB hub, and also that the hub looks like the powered variety.
So, probably they'll go with at least one, preferably many, ways to power the machine externally. I hope they leave HDMI only as an option though, since it's incredibly neat.
Oh, and I agree with others that they should look hard at integrating WiFi onboard.
The micro-form 802.11 adaptors are noticeably more expensive than the BT ones though. I've seen the BT ones for £1 but the WiFi ones no cheaper than £9.
With PoE you wouldn't need a wireless connection at all of course.
With the built in 1080p h.264 high profile decode[1] for £15 this could be the world's cheapest media centre. It might not be enough to run boxee, but should this go to market at that price, a lightweight media centre distro would definitely make this something else.
I think I'd probably buy two or three for hacking on.
Looking back at the computing lessons I had in secondary school, I learnt a lot but I think that having access to something like this would have been much more beneficial than using Access and VB6 for coursework (in 2007).
I hope they can actually get the cost down to something close to the £15 they say. Good luck to them.
I'm confused - he said its good for children who might not have a computer at home, but there is only an HDMI connection. What is the likelihood of a family not owning a PC - but does own a TV advanced enough for HDMI?
Absolutely agree. I help move some of the poorer families at our church, and I'm always astounded at where their money is spent. One family wore hand me down clothes and had little else in their house, but they had a 60"+ TV in their living room.
Most families have a TV, and just about every TV you can purchase these days has HDMI. I'm incredibly sad when my teacher friends describe how few of their students have computers at home to do their work.
Wow. This looks amazing! Have contacted them and said I'd like to buy some, and I wouldn't mind writing or porting some educational open-source games on them. Great, great idea.
I've been wondering when this generation's Commodore 64 or Atari 800 would show up. It seems like it is the smartphone / iPod touch, but those just don't seem to do the trick for this type of stuff.
I do wonder what could be built while keeping the price under £60 / $100.
This would be ridiculously awesome. Gumstix sell similar form-factor ARM boards for $130. You can get cheaper ARM boards (pico-SAM9G45 for $70: http://www.mini-box.com/pico-SAM9G45-X) but they are much larger. This is only somewhat larger than a Teensy++ (http://www.pjrc.com/teensy/), which is $24 but is powered by a diminutive AVR chip.
* How is it powered? I assume neither composite video or HDMI can provide power to it (which would be cool), in the photo it looks like some it's probably powered from that ribbon cable that's soldered to the through-holes on the side. Would be neat if you could power it from (say) common older mobile phone chargers.
* I wonder which ARM SoC (system-on-a-chip) it's using,and what their open source support is like.
* Neat it has GPIO (general purpose input-output pins), I wonder where they are broken out? The row of 6 full-size through-holes in the photo look good, but it doesn't look there is much additional board real-estate for making other easy-to-solder additions.
* I know from working w/ WM8505 devices that ARM9 + 128Mb RAM is a fairly sorry combination for Ubuntu. I'd be surprised if they final device isn't built on something like Debian, they still support ARM9 (Ubuntu stopped after partial support in 9.04), have lower spec requirements overall, and their 'armel' package repository is huge.
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it's similar (but very much different) to http://www.MyLowCostPC.com project, that, unfortunately, hasn't raised, so far, the founds to develop it
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but the Raspberry Pi is much close to this one http://humaneinfo.com/pc.html
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When you factor in the cost of a monitor or TV, keyboard, and mouse (plus any other peripherals required for your curriculum and the USB hub you would need to use them), I think that this $200 laptop is probably a more cost-effective solution:
http://www.norhtec.com/products/gecko/index.html
36 comments
[ 2.9 ms ] story [ 62.2 ms ] threadAt 20€ they're going to sell like crazy.
Probably not; they're likely using a SOC with integrated memory.
"The volunteer team has to produce a better working prototype, has to show that it really can be manufactured for around £15,"
So yeah, it really IS like it... Especially in that their stated price won't end up being what they sell for in the end.
At the $25 stated on their homepage, I'd buy a few of them for playing with... Well, if it had an ethernet port, anyhow. A computer without an ethernet port isn't much of a computer these days.
[1] http://www.raspberrypi.org/ubuntu.jpg
Why not make the thing twice as thick, providing room to add an ethernet port and a second USB port? Then much more of the associated costs will be incorporated into the unit.
The mini-USB bluetooth adaptor that they currently have stock of in my local pound shop (for, not surprisingly, £1) (they look very like http://cgi.ebay.co.uk//300388440707 so may be the same thing) work perfectly will under Ubuntu (at least on 10.04 and 11.04). So as long as the bluetooth stack doesn't eat too much of that small chunk of RAM and network speed is not a big issue you could use the PAN or DUN profiles for networking on the cheap, tethering to a phone or a desktop/laptop with bt and PAN/DUN support.
The official site doesn't say anything about power but as the image only shows USB and screen connections I assume it runs off the power a USB connection can provide, so it could probably run nicely off a pair of AA or AAA batteries. I can think of a number of play projects for monitoring (attach a cam, mic, temperature probe, and so on via USB) or display (attach a small LCD screen and/or a beeper and you've got a portable status monitor for some other project).
Something like this could be great fun for a nerd like me to spend a bit of time playing with. A bit like an Arduino for a software-only person. If they do hit the market at the £15 estimated or there abouts I'd certainly buy a couple, as I'm sure would a couple of my friends.
What's ... interesting about that reasoning is that according the Wikipedia, HDMI sources at most 50 mA at 5 V, which is 10% of what a USB root port is expected to deliver (500 mA).
Perhaps it will require a power supply, unless you can find a power-efficient keyboard. Shouldn't be impossible I guess, keyboards are fairly passive.
Perhaps the connections seen at the top of it in http://www.raspberrypi.org/pcb.jpg are providing the power - it looks like they end up plugging into the USB hub (if that is the case then it must be a powered hub, but a passive hub could presumably be used if the board were getting power from elsewhere like a battery connected to those contacts).
I've not watched the video yet (no speakers/headphones handy) so I could be missing something they show/say in there.
I agree that the wires in the picture look like they're coming off of the USB hub, and also that the hub looks like the powered variety.
So, probably they'll go with at least one, preferably many, ways to power the machine externally. I hope they leave HDMI only as an option though, since it's incredibly neat.
Oh, and I agree with others that they should look hard at integrating WiFi onboard.
http://www.tigerdirect.ca/applications/SearchTools/item-deta...
It should be possible to power this thing with power over ethernet.
With PoE you wouldn't need a wireless connection at all of course.
I think I'd probably buy two or three for hacking on.
I hope they can actually get the cost down to something close to the £15 they say. Good luck to them.
Most families have a TV, and just about every TV you can purchase these days has HDMI. I'm incredibly sad when my teacher friends describe how few of their students have computers at home to do their work.
I do wonder what could be built while keeping the price under £60 / $100.
Still I am blown away by the size
* How is it powered? I assume neither composite video or HDMI can provide power to it (which would be cool), in the photo it looks like some it's probably powered from that ribbon cable that's soldered to the through-holes on the side. Would be neat if you could power it from (say) common older mobile phone chargers.
* I wonder which ARM SoC (system-on-a-chip) it's using,and what their open source support is like.
* Neat it has GPIO (general purpose input-output pins), I wonder where they are broken out? The row of 6 full-size through-holes in the photo look good, but it doesn't look there is much additional board real-estate for making other easy-to-solder additions.
* I know from working w/ WM8505 devices that ARM9 + 128Mb RAM is a fairly sorry combination for Ubuntu. I'd be surprised if they final device isn't built on something like Debian, they still support ARM9 (Ubuntu stopped after partial support in 9.04), have lower spec requirements overall, and their 'armel' package repository is huge.
If only their site wasn't so uselessly spartan!