Difference between revisions of "RPiconfig"

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(Add description of hdmi_force_edid_3d)
(Describe warranty setting options)
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| ARM/GPU core voltage adjust. [-16,8] equates to [0.8V,1.4V] with 0.025V steps. force_turbo will allow values higher than 6. Default 0 (1.2V) <ref name=voltages>What this means is that you can specify -16 and expect about 0.8V as the GPU/core voltage. This is 0.4V below the normal value of 1.2. If you specify 16, you'd get 0.4V ABOVE the normal value of 1.2V, or 1.6V. The fact that someone carefully specified "8" and "1.4V" as the upper limit in the examples leads me to think that it is likely to shorten the life of your raspberry pi significantly if you would specify values above "8".  So: don't specify values above zero, but if you do, don't go above 8.</ref>
+
| ARM/GPU core voltage adjust. [-16,8] equates to [0.8V,1.4V] with 0.025V steps. <ref name=voltages>What this means is that you can specify -16 and get 0.8V as the GPU/core voltage, and specify 8 and get 1.4V. Default is 0 (1.2V). Values above 6 are only allowed when force_turbo or current_limit_override are specified (which set the warranty bit)</ref>
 
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!align="right"|force_turbo
 
!align="right"|force_turbo
| Disables dynamic cpufreq driver and minimum settings below. Enables h264/v3d/isp overclock options. Default 0
+
| Disables dynamic cpufreq driver and minimum settings below. Enables h264/v3d/isp overclock options. Default 0. May set warranty bit.
 
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!align="right"| current_limit_override
 
!align="right"| current_limit_override
| Disables SMPS current limit protection when set to "0x5A000020". Can help if you are currently hitting a reboot failure when overclocking too high. <ref name=current_limit_override>http://www.raspberrypi.org/phpBB3/viewtopic.php?f=29&t=6201&start=325#p170793</ref>
+
| Disables SMPS current limit protection when set to "0x5A000020". Can help if you are currently hitting a reboot failure when overclocking too high. May set warrany bit.<ref name=current_limit_override>http://www.raspberrypi.org/phpBB3/viewtopic.php?f=29&t=6201&start=325#p170793</ref>
 
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Revision as of 07:10, 20 May 2013


As the raspberry PI doesn't have a conventional BIOS, the various system configuration parameters that would normally be kept and set using the BIOS are now stored on a text file named "config.txt".

The Raspberry Pi config.txt file is read by the GPU before the ARM core is initialised.

This file is an optional file on the boot partition. It would normally be accessible as /boot/config.txt from Linux, but from Windows (or OS X) it would be seen as a file in the accessible part of the card.

To edit the configuration file, see the instructions at R-Pi_ConfigurationFile.

You can get your current active settings with the following commands:

vcgencmd get_config <config> - lists a specific config value. E.g. vcgencmd get_config arm_freq
vcgencmd get_config int - lists all the integer config options that are set (non-zero)
vcgencmd get_config str - lists all the string config options that are set (non-null)

File format

The format is "property=value" where value is an integer. You may specify only one option per line. Comments may be added by starting a line with the '#' character.

Note: In the newer Raspberry Pi models there is # before every line, if you want changes to have an affect then 'uncomment' meaning remove the #.

Here is an example file

# Set stdv mode to PAL (as used in Europe)
sdtv_mode=2
# Force the monitor to HDMI mode so that sound will be sent over HDMI cable
hdmi_drive=2
# Set monitor mode to DMT
hdmi_group=2
# Set monitor resolution to 1024x768 XGA 60Hz (HDMI_DMT_XGA_60)
hdmi_mode=16
# Make display smaller to stop text spilling off the screen
overscan_left=20
overscan_right=12
overscan_top=10
overscan_bottom=10

And here is another example file, containing extended documentation of features.

Memory

disable_l2cache disable ARM access to GPU's L2 cache. Needs corresponding L2 disabled kernel. Default 0

gpu_mem GPU memory in megabyte. Sets the memory split between the ARM and GPU. ARM gets the remaining memory. Min 16. Default 64

gpu_mem_256 GPU memory in megabyte for the 256MB Raspberry Pi. Ignored by the 512MB RP. Overrides gpu_mem. Max 192. Default not set

gpu_mem_512 GPU memory in megabyte for the 512MB Raspberry Pi. Ignored by the 256MB RP. Overrides gpu_mem. Max 448. Default not set

disable_pvt Disable adjusting the refresh rate of RAM every 500ms (measuring RAM temparature).

CMA - Dynamic Memory Split

The firmware and kernel as of 19. November 2012 supports CMA, which means the memory split between ARM and GPU is managed dynamically at runtime. You can find an example config.txt here.

cma_lwm When GPU has less than cma_lwm (low water mark) memory available it will request some from ARM.

cma_hwm When GPU has more than cma_hwm (high water mark) memory available it will release some to ARM.

The following options need to be in cmdline.txt for CMA to work:

 coherent_pool=6M smsc95xx.turbo_mode=N

Video

Video mode options

sdtv_mode defines the TV standard for composite output (default=0)

sdtv_mode=0    Normal NTSC
sdtv_mode=1    Japanese version of NTSC – no pedestal
sdtv_mode=2    Normal PAL
sdtv_mode=3    Brazilian version of PAL – 525/60 rather than 625/50, different subcarrier

sdtv_aspect defines the aspect ratio for composite output (default=1)

sdtv_aspect=1  4:3
sdtv_aspect=2  14:9
sdtv_aspect=3  16:9

sdtv_disable_colourburst disables colour burst on composite output. The picture will be monochrome, but possibly sharper

sdtv_disable_colourburst=1  colour burst is disabled

hdmi_safe Use "safe mode" settings to try to boot with maximum hdmi compatibility. This is the same as the combination of: hdmi_force_hotplug=1, config_hdmi_boost=4, hdmi_group=2, hdmi_mode=4, disable_overscan=0

 hdmi_safe=1

hdmi_ignore_edid Enables the ignoring of EDID/display data if your display is a crappy Chinese one

 hdmi_ignore_edid=0xa5000080

hdmi_edid_file when set to 1, will read the edid data from the edid.dat file instead of from the monitor.[1]

hdmi_edid_file=1

hdmi_force_edid_audio Pretends all audio formats are supported by display, allowing passthrough of DTS/AC3 even when not reported as supported.

 hdmi_force_edid_audio=1

hdmi_force_edid_3d Pretends all CEA modes support 3D even when edid doesn't indicate support for them.

 hdmi_force_edid_3d=1

avoid_edid_fuzzy_match Avoid fuzzy matching of modes described in edid. Picks the standard mode with matching resolution and closest framerate even if blanking is wrong.

 avoid_edid_fuzzy_match=1

hdmi_ignore_cec_init Doesn't sent initial active source message. Avoids bringing (CEC enabled) TV out of standby and channel switch when rebooting.

 hdmi_ignore_cec_init=1

hdmi_ignore_cec Pretends CEC is not supported at all by TV. No CEC functions will be supported.

 hdmi_ignore_cec=1

hdmi_force_hotplug Pretends HDMI hotplug signal is asserted so it appears a HDMI display is attached

 hdmi_force_hotplug=1 Use HDMI mode even if no HDMI monitor is detected

hdmi_ignore_hotplug Pretends HDMI hotplug signal is not asserted so it appears a HDMI display is not attached

 hdmi_ignore_hotplug=1 Use composite mode even if HDMI monitor is detected

hdmi_pixel_encoding Force the pixel encoding mode. By default it will use the mode requested from edid so shouldn't need changing.

 hdmi_pixel_encoding=0 default       (limited for CEA, full for DMT)
 hdmi_pixel_encoding=1 RGB limited   (16-235)
 hdmi_pixel_encoding=2 RGB full      ( 0-255)
 hdmi_pixel_encoding=3 YCbCr limited (16-235)
 hdmi_pixel_encoding=4 YCbCr limited ( 0-255)

hdmi_drive chooses between HDMI and DVI modes

 hdmi_drive=1 Normal DVI mode (No sound)
 hdmi_drive=2 Normal HDMI mode (Sound will be sent if supported and enabled)

hdmi_group defines the HDMI type

Not specifying the group, or setting to 0 will use the preferred group reported by the edid.

hdmi_group=1   CEA
hdmi_group=2   DMT

hdmi_mode defines screen resolution in CEA or DMT format

These values are valid if hdmi_group=1 (CEA)
hdmi_mode=1    VGA
hdmi_mode=2    480p  60Hz
hdmi_mode=3    480p  60Hz  H
hdmi_mode=4    720p  60Hz
hdmi_mode=5    1080i 60Hz
hdmi_mode=6    480i  60Hz
hdmi_mode=7    480i  60Hz  H
hdmi_mode=8    240p  60Hz
hdmi_mode=9    240p  60Hz  H
hdmi_mode=10   480i  60Hz  4x
hdmi_mode=11   480i  60Hz  4x H
hdmi_mode=12   240p  60Hz  4x
hdmi_mode=13   240p  60Hz  4x H
hdmi_mode=14   480p  60Hz  2x
hdmi_mode=15   480p  60Hz  2x H
hdmi_mode=16   1080p 60Hz
hdmi_mode=17   576p  50Hz
hdmi_mode=18   576p  50Hz  H
hdmi_mode=19   720p  50Hz
hdmi_mode=20   1080i 50Hz
hdmi_mode=21   576i  50Hz
hdmi_mode=22   576i  50Hz  H
hdmi_mode=23   288p  50Hz
hdmi_mode=24   288p  50Hz  H
hdmi_mode=25   576i  50Hz  4x
hdmi_mode=26   576i  50Hz  4x H
hdmi_mode=27   288p  50Hz  4x
hdmi_mode=28   288p  50Hz  4x H
hdmi_mode=29   576p  50Hz  2x
hdmi_mode=30   576p  50Hz  2x H
hdmi_mode=31   1080p 50Hz
hdmi_mode=32   1080p 24Hz
hdmi_mode=33   1080p 25Hz
hdmi_mode=34   1080p 30Hz
hdmi_mode=35   480p  60Hz  4x
hdmi_mode=36   480p  60Hz  4xH
hdmi_mode=37   576p  50Hz  4x
hdmi_mode=38   576p  50Hz  4x H
hdmi_mode=39   1080i 50Hz  reduced blanking
hdmi_mode=40   1080i 100Hz
hdmi_mode=41   720p  100Hz
hdmi_mode=42   576p  100Hz
hdmi_mode=43   576p  100Hz H
hdmi_mode=44   576i  100Hz
hdmi_mode=45   576i  100Hz H
hdmi_mode=46   1080i 120Hz
hdmi_mode=47   720p  120Hz
hdmi_mode=48   480p  120Hz
hdmi_mode=49   480p  120Hz H
hdmi_mode=50   480i  120Hz
hdmi_mode=51   480i  120Hz H
hdmi_mode=52   576p  200Hz
hdmi_mode=53   576p  200Hz H
hdmi_mode=54   576i  200Hz
hdmi_mode=55   576i  200Hz H
hdmi_mode=56   480p  240Hz
hdmi_mode=57   480p  240Hz H
hdmi_mode=58   480i  240Hz
hdmi_mode=59   480i  240Hz H
H means 16:9 variant (of a normally 4:3 mode).
2x means pixel doubled (i.e. higher clock rate, with each pixel repeated twice)
4x means pixel quadrupled (i.e. higher clock rate, with each pixel repeated four times)
These values are valid if hdmi_group=2 (DMT)
Note: according to http://www.raspberrypi.org/phpBB3/viewtopic.php?f=26&t=20155&p=195417&hilit=2560x1600#p195443 
there is a pixel clock limit which means the highest supported mode is 1920x1200 @60Hz with reduced blanking.
hdmi_mode=1    640x350   85Hz
hdmi_mode=2    640x400   85Hz
hdmi_mode=3    720x400   85Hz
hdmi_mode=4    640x480   60Hz
hdmi_mode=5    640x480   72Hz
hdmi_mode=6    640x480   75Hz
hdmi_mode=7    640x480   85Hz
hdmi_mode=8    800x600   56Hz
hdmi_mode=9    800x600   60Hz
hdmi_mode=10   800x600   72Hz
hdmi_mode=11   800x600   75Hz
hdmi_mode=12   800x600   85Hz
hdmi_mode=13   800x600   120Hz
hdmi_mode=14   848x480   60Hz
hdmi_mode=15   1024x768  43Hz  DO NOT USE
hdmi_mode=16   1024x768  60Hz
hdmi_mode=17   1024x768  70Hz
hdmi_mode=18   1024x768  75Hz
hdmi_mode=19   1024x768  85Hz
hdmi_mode=20   1024x768  120Hz
hdmi_mode=21   1152x864  75Hz
hdmi_mode=22   1280x768        reduced blanking
hdmi_mode=23   1280x768  60Hz
hdmi_mode=24   1280x768  75Hz
hdmi_mode=25   1280x768  85Hz
hdmi_mode=26   1280x768  120Hz reduced blanking
hdmi_mode=27   1280x800        reduced blanking
hdmi_mode=28   1280x800  60Hz
hdmi_mode=29   1280x800  75Hz
hdmi_mode=30   1280x800  85Hz
hdmi_mode=31   1280x800  120Hz reduced blanking
hdmi_mode=32   1280x960  60Hz
hdmi_mode=33   1280x960  85Hz
hdmi_mode=34   1280x960  120Hz reduced blanking
hdmi_mode=35   1280x1024 60Hz
hdmi_mode=36   1280x1024 75Hz
hdmi_mode=37   1280x1024 85Hz
hdmi_mode=38   1280x1024 120Hz reduced blanking
hdmi_mode=39   1360x768  60Hz
hdmi_mode=40   1360x768  120Hz reduced blanking
hdmi_mode=41   1400x1050       reduced blanking
hdmi_mode=42   1400x1050 60Hz
hdmi_mode=43   1400x1050 75Hz
hdmi_mode=44   1400x1050 85Hz
hdmi_mode=45   1400x1050 120Hz reduced blanking
hdmi_mode=46   1440x900        reduced blanking
hdmi_mode=47   1440x900  60Hz
hdmi_mode=48   1440x900  75Hz
hdmi_mode=49   1440x900  85Hz
hdmi_mode=50   1440x900  120Hz reduced blanking
hdmi_mode=51   1600x1200 60Hz
hdmi_mode=52   1600x1200 65Hz
hdmi_mode=53   1600x1200 70Hz
hdmi_mode=54   1600x1200 75Hz
hdmi_mode=55   1600x1200 85Hz
hdmi_mode=56   1600x1200 120Hz reduced blanking
hdmi_mode=57   1680x1050       reduced blanking
hdmi_mode=58   1680x1050 60Hz
hdmi_mode=59   1680x1050 75Hz
hdmi_mode=60   1680x1050 85Hz
hdmi_mode=61   1680x1050 120Hz reduced blanking
hdmi_mode=62   1792x1344 60Hz
hdmi_mode=63   1792x1344 75Hz
hdmi_mode=64   1792x1344 120Hz reduced blanking
hdmi_mode=65   1856x1392 60Hz
hdmi_mode=66   1856x1392 75Hz
hdmi_mode=67   1856x1392 120Hz reduced blanking
hdmi_mode=68   1920x1200       reduced blanking
hdmi_mode=69   1920x1200 60Hz
hdmi_mode=70   1920x1200 75Hz
hdmi_mode=71   1920x1200 85Hz
hdmi_mode=72   1920x1200 120Hz reduced blanking
hdmi_mode=73   1920x1440 60Hz
hdmi_mode=74   1920x1440 75Hz
hdmi_mode=75   1920x1440 120Hz reduced blanking
hdmi_mode=76   2560x1600       reduced blanking
hdmi_mode=77   2560x1600 60Hz
hdmi_mode=78   2560x1600 75Hz
hdmi_mode=79   2560x1600 85Hz
hdmi_mode=80   2560x1600 120Hz reduced blanking
hdmi_mode=81   1366x768  60Hz
hdmi_mode=82   1080p     60Hz
hdmi_mode=83   1600x900        reduced blanking
hdmi_mode=84   2048x1152       reduced blanking
hdmi_mode=85   720p      60Hz
hdmi_mode=86   1366x768        reduced blanking

overscan_left number of pixels to skip on left

overscan_right number of pixels to skip on right

overscan_top number of pixels to skip on top

overscan_bottom number of pixels to skip on bottom

framebuffer_width console framebuffer width in pixels. Default is display width minus overscan.

framebuffer_height console framebuffer height in pixels. Default is display height minus overscan.

framebuffer_depth console framebuffer depth in bits per pixel. Default is 16. 8bit is valid, but default RGB palette makes an unreadable screen. 24bit looks better but has corruption issues as of 20120615. 32bit has no corruption issues but needs framebuffer_ignore_alpha=1 and shows the wrong colors as of 20120615.

framebuffer_ignore_alpha set to 1 to disable alpha channel. Helps with 32bit.

test_mode enable test sound/image during boot for manufacturing test.

disable_overscan set to 1 to disable overscan.

config_hdmi_boost configure the signal strength of the HDMI interface. Default is 0. Try 4 if you have interference issues with hdmi. 7 is the maximum.

display_rotate rotates the display clockwise on the screen (default=0) or flips the display.

display_rotate=0        Normal
display_rotate=1        90 degrees
display_rotate=2        180 degrees
display_rotate=3        270 degrees
display_rotate=0x10000  horizontal flip
display_rotate=0x20000  vertical flip

Note: the 90 and 270 degrees rotation options require additional memory on GPU, so won't work with the 16M GPU split. Probably the reason for:

  • Crashes my RPI before Linux boots if set to "1" -- REW 20120913.

Which values are valid for my monitor?

Your HDMI monitor may support only a limited set of formats. To find out which formats are supported, use the following method.

  • Set the output format to VGA 60Hz (hdmi_group=1 hdmi_mode=1) and boot up the Raspberry Pi
  • Enter the following command to give a list of CEA supported modes
/opt/vc/bin/tvservice -m CEA
  • Enter the following command to give a list of DMT supported modes
/opt/vc/bin/tvservice -m DMT
  • Enter the following command to show your current state
/opt/vc/bin/tvservice -s
  • Enter the following commands to dump more detailed information from your monitor
/opt/vc/bin/tvservice -d edid.dat
/opt/vc/bin/edidparser edid.dat

The edid.dat should also be provided when troubleshooting problems with the default HDMI mode

Licensed Codecs

Hardware decoding of additional codecs can be enabled by purchasing a license that is locked to the CPU serial number of your Raspberry Pi.

decode_MPG2 License key to allow hardware MPEG-2 decoding.

 decode_MPG2=0x12345678

decode_WVC1 License key to allow hardware VC-1 decoding.

 decode_WVC1=0x12345678

License setup for SD-card sharing between multiple Pis. Maximum of 8 licenses at once.

 decode_XXXX=0x12345678,0xabcdabcd,0x87654321,...

Boot

disable_commandline_tags stop start.elf from filling in ATAGS (memory from 0x100) before launching kernel

cmdline (string) command line parameters. Can be used instead of cmdline.txt file

kernel (string) alternative name to use when loading kernel. Default "kernel.img"

kernel_address address to load kernel.img file at

kernel_old (bool) if 1, load kernel at 0x0

ramfsfile (string) ramfs file to load

ramfsaddr address to load ramfs file at

initramfs (string address) ramfs file and adress to load it at (it's like ramfsfile+ramfsaddr in one option). NOTE: this option uses different syntax than all other options - you should not use "=" character here. Example:

initramfs initramf.gz 0x00800000

device_tree_address address to load device_tree at

init_uart_baud initial uart baud rate. Default 115200

init_uart_clock initial uart clock. Default 3000000 (3Mhz)

init_emmc_clock initial emmc clock. Default 100000000 (100MHz)

boot_delay wait for given number of seconds in start.elf before loading kernel. delay = 1000 * boot_delay + boot_delay_ms. Default 1

boot_delay_ms wait for given number of milliseconds in start.elf before loading kernel. Default 0

avoid_safe_mode if set to 1, safe_mode boot won't be enabled. Default 0

Overclocking

NOTE: Setting any of the parameters which overvolt your Raspberry Pi will set a permanent bit within the SOC, making it posibly to detect that you Pi has been overclocked. This was meant to void warranty if the device has been overclocked. Since 19th of September 2012 you can overclock your Pi without affecting your warranty[2]

The latest kernel has a cpufreq kernel driver with the "ondemand" governor enabled by default. It has no effect if you have no overclock settings. But when you do, the arm frequency will vary with processor load. Non default values are only used when needed according to the used governor. You can adjust the minimum values with the *_min config options or disable dynamic clocking with force_turbo=1. [3]

Overclock and overvoltage will be disabled at runtime when the SoC reaches 85°C to cool it down . You should not hit the limit, even with maximum settings at 25°C ambient temperature. [4]

Overclocking options

Option Description
arm_freq Frequency of ARM in MHz. Default 700
gpu_freq Sets core_freq, h264_freq, isp_freq, v3d_freq together. Default 250
core_freq Frequency of GPU processor core in MHz. It has an impact on ARM performance since it drives L2 cache. Default 250
h264_freq Frequency of hardware video block in MHz. Default 250
isp_freq Frequency of image sensor pipeline block in MHz. Default 250
v3d_freq Frequency of 3D block in MHz. Default 250
avoid_pwm_pll Unlink core_freq from the rest of the gpu. Can cause low quality analog audio, which should be fixed with latest firmware. Default 0
sdram_freq Frequency of SDRAM in MHz. Default 400
over_voltage ARM/GPU core voltage adjust. [-16,8] equates to [0.8V,1.4V] with 0.025V steps. [5]
over_voltage_sdram Sets over_voltage_sdram_c, over_voltage_sdram_i, over_voltage_sdram_p together
over_voltage_sdram_c SDRAM controller voltage adjust. [-16,8] equates to [0.8V,1.4V] with 0.025V steps. Default 0 (1.2V) [5]
over_voltage_sdram_i SDRAM I/O voltage adjust. [-16,8] equates to [0.8V,1.4V] with 0.025V steps. Default 0 (1.2V)[5]
over_voltage_sdram_p SDRAM phy voltage adjust. [-16,8] equates to [0.8V,1.4V] with 0.025V steps. Default 0 (1.2V)[5]
force_turbo Disables dynamic cpufreq driver and minimum settings below. Enables h264/v3d/isp overclock options. Default 0. May set warranty bit.
initial_turbo Enables turbo mode from boot for the given value in seconds (up to 60) or until cpufreq sets a frequency. Can help with sdcard corruption if overclocked. Default 0 [6]
arm_freq_min Minimum value of arm_freq used for dynamic clocking. Default 700
core_freq_min Minimum value of core_freq used for dynamic clocking. Default 250
sdram_freq_min Minimum value of sdram_freq used for dynamic clocking. Default 400
over_voltage_min Minimum value of over_voltage used for dynamic clocking. Default 0
temp_limit Overheat protection. Sets clocks and voltages to default when the SoC reaches this Celsius value. Setting this higher than default voids warranty. Default 85
current_limit_override Disables SMPS current limit protection when set to "0x5A000020". Can help if you are currently hitting a reboot failure when overclocking too high. May set warrany bit.[7]

force_turbo mode

 force_turbo=0

enables dynamic clocks and voltage for the ARM core, GPU core and SDRAM. When busy, ARM frequency go up to "arm_freq" and down to "arm_freq_min" on idle. "core_freq", "sdram_freq" and "over_voltage" behave the same. "over_voltage" is limited to 6 (1.35V). Non default values for the h264/v3d/isp parts are ignored.

 force_turbo=1

disables dynamic clocking, so all frequencies and voltages stay high. Overclocking of h264/v3d/isp GPU parts is allowed as well as setting "over_voltage" to 8 (1.4V). [8]

Clocks relationship

The GPU core, h264, v3d and isp share a PLL, therefore need to have related frequencies. ARM, SDRAM and GPU each have their own PLLs and can have unrelated frequencies.[9]

The following is not necessary with "avoid_pwm_pll=1".

pll_freq = floor(2400 / (2 * core_freq)) * (2 * core_freq)
gpu_freq = pll_freq / [even number]

The effective gpu_freq is automatically rounded to nearest even integer, so asking for core_freq=500 and gpu_freq=300 will result in divisor of 2000/300 = 6.666 => 6 and so 333.33MHz.

Tested values

The following table shows some successfull attempts of overclocking, which can be used for orientation. These settings may not work on every device and can shorten the lifetime of the Broadcom SoC.

arm_freq gpu_freq core_freq h264_freq isp_freq v3d_freq sdram_freq over_voltage over_voltage_sdram
800
900 275 500
900 450 450
930 350 500
1000 500 500 6
1050 6
1150 500 600 8

There are reports that Hynix RAM is not as good as Samsung RAM for overclocking.

SD Card Usage with Overclocking

 SD Card Setup redirect : http://elinux.org/RPi_Easy_SD_Card_Setup
 Usage of Class 6 & 10 SD Cards ( SHDC / SHDX )  with Overclocking  may make the SD Card Filesystems  on RPI Instable after few days or weeks.
 It´s Equal what  ext4 , NTFS or other .
 It´s Equal what  SD Card vendor.
 It´s Equal what  PI Models.
 This don´t mater any SD Card size -   verified truely shure at 16Gb and up.
 ! It Matters when you UNDER-Power your PI ( i.e less then the PI base setup SPECs !
 
 https://github.com/popcornmix Comment at https://github.com/raspberrypi/linux/issues/280:
 "Overclocking can cause sdcard errors. 
  It tends to be board specific (i.e. some Pi's are more tolerant to overclock and sdcard corruption). 
  I believe it is generally core_freq that causes the sdcard corruption (rather than arm_freq or sdram_freq)"
 
 At type of Writing ( April 2013 ) this Note there are 137 Threads at http://www.raspberrypi.org/phpBB3/index.php with SD cards Issues, allmost from Overclocking .
 If you use Class 6 & 10 SD Cards and want an stable running PI :   DON´t  try Overclocking   or you Losing probably DATA 

Monitoring Temperature and Voltage

To monitor the Pi's temperature, look at: /sys/class/thermal/thermal_zone0/temp
To monitor the Pi's current frequency, look at: /sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq
To monitor the Pi's PSU voltage, you'll need a multimeter, across the power supply test points, or the expansion header.

It's generally a good idea to keep the core temp below 70 degrees, and the voltage above 4.8V. (Note that some, not necessarily cheap, USB power supplies fall as low as 4.2V, this is because they are usually designed to charge a 3.7V LiPo battery, rather than to supply a solid 5V to a computer). Also, a heatsink can be helpful, especially if the Pi is to be run inside a case. A suitable heatsink is the self-adhesive BGA (ball-grid-array) 14x14x10 mm heatsink, part 674-4756 from RS Components.

Overclock stability test

Most overclocking issues show up right away with a failure to boot, but it is possible to get filesystem corruption that arises over time. Here is a script to stress-test the stability of the system, specifically the SD-card. If this script runs to completion, without any errors showing in dmesg, then the Pi is probably stable with these settings.

If the system does crash, then hold down the shift key during boot, which will temporarily disable all overclocking. Also, note that SD-card issues are usually affected by the core_freq, rather than the arm_freq, and that there is a surprisingly big jump in this (from 250 MHz to 500 MHz) between the High speed (950 MHz) and Turbo (1 GHz) presets in raspi-config.

#!/bin/bash
#Simple stress test for system. If it survives this, it's probably stable.
#Free software, GPL2+

echo "Testing overclock stability..."

#Max out the CPU in the background (one core). Heats it up, loads the power-supply. 
nice yes >/dev/null &

#Read the entire SD card 10x. Tests RAM and I/O
for i in `seq 1 10`; do echo reading: $i; sudo dd if=/dev/mmcblk0 of=/dev/null bs=4M; done

#Writes 512 MB test file,  10x.
for i in `seq 1 10`; do echo writing: $i; dd if=/dev/zero of=deleteme.dat bs=1M count=512; sync; done

#Clean up
killall yes
rm deleteme.dat

#Print summary. Anything nasty will appear in dmesg.
echo -n "CPU freq: " ; cat /sys/devices/system/cpu/cpu0/cpufreq/scaling_cur_freq
echo -n "CPU temp: " ; cat /sys/class/thermal/thermal_zone0/temp
dmesg | tail 

echo "Not crashed yet, probably stable."

References