I have had a chance to do some power draw monitoring of my Raspberry Pi and to compare with other low power ARM devices devices such as the SheevaPlug. The Raspberry Pi is really hard to beat – pulling roughly 2.0w when idle (with nothing plugged in to the USB or A/V outputs) to 3.2-3.3w at load (with HDMI output and USB keyboard and mouse) when using a standard Amazon Kindle charger as the power source. Something I’ve not had a moment to try is decoding HD video as I’d imagine that would load both the CPU and GPU but I can’t see the load being much higher given the combined CPU and GPU part (I’ll update this post when I confirm this).
Contrast these figures against 4.0w idle to 4.9-5.2w load for the SheevaPlug (also without any USB attachments). Admittedly the SheevaPlug has a slightly faster (1.2Ghz vs 700Mhz) ARM processor than the Raspberry Pi, but it also lacks the RCA/HDMI video output circuitry and has a wonky integrated PSU.
Probably the biggest difference between power consumption of the two devices will be related to power supply efficiency. As I already mentioned, the SheevaPlugs are renowned for being let down by cheap and inadequate integrated power supplies. In fact, I’m on my second Plug for that very reason. Since there is no (easy) way to test both devices with the same power supply, any comparison should probably be taken with a grain of salt.
Exciting news! According to a blog post made a couple of days ago, the Raspberry Pi team expects the first boards to be available for purchase before the end of Feb! But a little background, the Raspberry Pi project is the brainchild of Eben Upton, formerly a lecture at Cambridge who set out with a simple goal – to try to reignite British educational system passion for by recapturing the programming frontier spirit of the BBC Micros of old. Seven years later and the boards are ready, compact and bristling with ports and potential.
Despite the original focus, the project has been blessed by a huge amount of interest and I for one am excited to get my hands on a board (or possibly several) to see what I can make them do. The boards have already been shown to run XBMC, Quake3 and have the approximate graphical capabilities of the original XBOX – I can’t wait to see what will happen in the coming weeks.