So many times it happens where we need to deploy our Software/Embedded Project on Hardware. Only problem comes is creating Hardware based on ARM Processor & all its time consuming interfacing.
But there is a way to skip all this lengthy stuff known as Raspberry Pi [Official Website: http://www.raspberrypi.org].
So What is Raspberry Pi:
Currently there are two models of Raspberry Pi Model A & B. Initial sales are of the Model B, with plans to release the Model A in early 2013. Model A has one USB port and no Ethernet controller, and will cost less than the Model B with two USB ports and a 10/100 Ethernet controller.
|Model A||Model B|
|SoC:||Broadcom BCM2835 (CPU, GPU, DSP, SDRAM, and single USB port)|
|CPU:||700 MHz ARM1176JZF-S core (ARM11 family, ARMv6 instruction set)|
|GPU:||Broadcom VideoCore IV @ 250 MHzOpenGL ES 2.0 (24 GFLOPS)MPEG-2 and VC-1 (with license), 1080p 30 h.264/MPEG-4 AVC high-profile decoder and encoder|
|Memory (SDRAM):||256 MB (shared with GPU)||512 MB (shared with GPU) as of 15 October 2012|
|USB 2.0 ports:||1 (direct from BCM2835 chip)||2 (via the built in integrated 3-port USB hub)|
|Video input:||A CSI input connector allows for the connection of a RPF designed camera module|
|Video outputs:||Composite RCA (PAL and NTSC), HDMI (rev 1.3 & 1.4), raw LCD Panels via DSI14 HDMI resolutions from 640×350 to 1920×1200 plus various PAL and NTSC standards.|
|Audio outputs:||3.5 mm jack, HDMI, and, as of revision 2 boards, I²S audio (also potentially for audio input)|
|Onboard storage:||SD / MMC / SDIO card slot (3,3V card power support only)|
|Onboard network:||None||10/100 Ethernet (8P8C) USB adapter on the third port of the USB hub|
|Low-level peripherals:||8 × GPIO, UART, I²C bus, SPI bus with two chip selects, I²S audio +3.3 V, +5 V, ground|
|Power ratings:||300 mA (1.5 W)||700 mA (3.5 W)|
|Power source:||5 volt via MicroUSB or GPIO header|
|Size:||85.60 mm × 53.98 mm (3.370 in × 2.125 in)|
|Weight:||45 g (1.6 oz)|
|Operating systems:||Arch Linux ARM, Debian GNU/Linux, Fedora, FreeBSD, NetBSD, Plan 9, Raspbian OS, RISC OS, Slackware Linux|
So whats so special with this Raspberry Pi: You get a lot of freedom in choosing the OS which you want to install on Raspberry Pi.
- Full OS:
- GEORGE 3 – within an emulator.
- Arch Linux ARM
- R_Pi Bodhi Linux
- Debian ARM architecture ports, but not the Debian ARMhf architecture ports (introduced with Debian 7 Wheezy), since these are compiled for ARMv7 and the Raspberry Pi CPU is ARMv6
- Firefox OS
- Puppy Linux
- Gentoo Linux
- Google Chromium OS
- PiBang Linux
- Raspberry Pi Fedora Remix
- Slackware ARM (formerly ARMedslack)
- QtonPi a cross-platform application framework based Linux distribution based on the Qt framework
- Plan 9 from Bell Labs
- RISC OS
- Multi-purpose light distributions:
- Moebius operating system, a light ARM HF distribution based on Debian. It uses Raspbian repository, but it fits in a 1 GB SD card. It has just minimal services and its memory usage is optimized to keep a small footprint.
- Minibian, another light ARM HF distribution based on Raspbian repository.
- OpenWrt “Attitude Adjustment” 12.09
- Squeezed Arm Puppy, a version of Puppy Linux (Puppi) for the ARMv6 (sap6) specifically for the Raspberry Pi.
- Kali Linux
- Single-purpose light distributions:
Now you can start with your own PI Kit by using this quick start guide.
These kits are also available in Pune at various shops. These shops are enlisted here: http://dwij.co.in/electronics-robotics-components-shops-in-pune
You can also order your kit from https://www.crazypi.com/raspberry-pi-products.
To take this workshop in your college or enthusiastic group contact us on: Professional Raspberry Pi Workshops in Pune, India