Difference between revisions of "Fedora ARM Secondary Architecture/SheevaPlug"

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High efficiency POL DC-DC converters
 
High efficiency POL DC-DC converters
  
== '''Development Interface''''''''''' ==
+
'''Development Interface'''
  
  
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SDIO expansion
 
SDIO expansion
 
JTAG OpenOCD support via USB
 
JTAG OpenOCD support via USB
 
+
'''High Speed I/O & Peripherals'''
''''''High speed I/O & Peripherals ''''''
 
 
 
 
GE, USB 2.0 Host
 
GE, USB 2.0 Host
 
RTC w/ Battery
 
RTC w/ Battery

Revision as of 15:21, 16 April 2010

SheevaPlug Specifications

Sheeva CPU Core

1.2 GHz operation

L1 Cache: 16K Instruction + 16K Data

L2 Cache: 256KB

Memory

DDR2 400MHz, 16-bit bus

512MB DDR2: 1Gb x8, 4 devices

Power efficient Samsung devices

NAND FLASH Controller, 8-bit bus

512MB NAND FLASH: 4Gb x8, direct boot

128-bit eFuse Memory

Power Power input: 100-240VAC/50-60Hz 19W DC Consumption: 5V/3.0A High efficiency POL DC-DC converters

Development Interface


System Development Board JTAG and Console Interface via USB SDIO expansion JTAG OpenOCD support via USB High Speed I/O & Peripherals GE, USB 2.0 Host RTC w/ Battery UL/CE/FCC certified


For more information

Accessing SheevaPlug from a Windows box

Connecting to the Sheevaplug Using Windows



Installing F12 on an SD

1. Plugn ethernet cable into the SheevaPlug and connect it to your router.

2. Check the DHCP table on the router to find out the IP that was assigned to the SheevaPlug (i.e. 192.168.15.109)

3. SSH root@<ip address> (i.e. 192.168.15.109)

4. Insert the SD card into the SheevaPlug's card reader slot.

5. dmesg | tail (shows the mount point) (i.e. /dev/mmc1)

6. Partition the SD card using fdisk /dev/mmc1


Booting from the SheevaPlug

Configuring U-boot