136 lines
6.1 KiB
Markdown
136 lines
6.1 KiB
Markdown
# Sandy Bridge Raminit
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## Introduction
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This documentation is intended to document the closed source memory controller
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hardware for Intel 2nd Gen (Sandy Bride) and 3rd Gen (Ivy Bridge) core-i CPUs.
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The memory initialization code has to take care of lots of duties:
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1. Selection of operating frequency
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* Selection of common timings
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* Applying frequency specific compensation values
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* Read training of all populated channels
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* Write training of all populated channels
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* Adjusting delay networks of address and command signals
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* DQS training of all populated channels
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* Programming memory map
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* Report DRAM configuration
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* Error handling
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## Definitions
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```eval_rst
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+---------+-------------------------------------------------------------------+------------+--------------+
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| Symbol | Description | Units | Valid region |
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+=========+===================================================================+============+==============+
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| SCK | DRAM system clock cycle time | s | |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| tCK | DRAM system clock cycle time | 1/256th ns | |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| DCK | Data clock cycle time: The time between two SCK clock edges | s | |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| timA | IO phase: The phase delay of the IO signals | 1/64th DCK | [0-512) |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| SPD | Manufacturer set memory timings located on an EEPROM on every DIMM| bytes | |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| REFCK | Reference clock, either 100 or 133 | Mhz | 100, 133 |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| MULT | DRAM PLL multiplier | | [3-12] |
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+---------+-------------------------------------------------------------------+------------+--------------+
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| XMP | Extreme Memory Profiles | | |
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+---------+-------------------------------------------------------------------+------------+--------------+
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```
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## (Inoffical) register documentation
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- [Sandy Bride - Register documentation](SandyBridge_registers.md)
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## Frequency selection
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- [Sandy Bride - Frequency selection](Sandybridge_freq.md)
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## Read training
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- [Sandy Bride - Read training](Sandybridge_read.md)
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### SMBIOS type 17
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The SMBIOS specification allows to report the memory configuration in use.
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On GNU/Linux you can run `# dmidecode -t 17` to view it.
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Example output of dmidecode:
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```
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Handle 0x0045, DMI type 17, 34 bytes
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Memory Device
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Array Handle: 0x0042
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Error Information Handle: Not Provided
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Total Width: 64 bits
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Data Width: 64 bits
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Size: 8192 MB
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Form Factor: DIMM
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Set: None
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Locator: ChannelB-DIMM0
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Bank Locator: BANK 2
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Type: DDR3
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Type Detail: Synchronous
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Speed: 933 MHz
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Manufacturer: 0420
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Serial Number: 00000000
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Asset Tag: 9876543210
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Part Number: F3-1866C9-8GSR
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Rank: 2
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Configured Clock Speed: 933 MHz
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```
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The memory frequency printed by dmidecode is the active memory frequency. It's
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**not** the double datarate and it's **not** the one encoded maximum frequency
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in each DIMM's SPD.
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> **Note:** This feature is available since coreboot 4.4
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### MRC cache
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The name *MRC cache* might be missleading as in case of *Native ram init*
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there's no MRC, but for historical reasons it's still named *MRC cache*.
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The MRC cache is part of flash memory that is writeable by coreboot.
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At the end of the boot process coreboot will write the RAM training results to
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flash for future use, as RAM training is time intensive. Storing the results
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allows to boot faster on normal boot and allows to support S3 resume,
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as the RAM training results can't be stored in RAM (you need to configure
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the memory controller first to access RAM).
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The MRC cache needs to be invalidated in case the memory configuration has
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been changed. To detect a changed memory configuration the CRC16 of each DIMM
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is stored to MRC cache.
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> **Note:** This feature is available since coreboot 4.4
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### Error handling
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As of writing the only supported error handling is to disable the failing
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channel and restart the memory training sequence. It's very likely to succeed,
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as memory channels operate independent of each other.
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In case no DIMM could be initilized coreboot will halt. The screen will stay
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black until you power of your device. On some platforms there's additional
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feedback to indicate such an event.
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If you find `dmidecode -t 17` to report only half of the memory installed,
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it's likely that a fatal memory init failure had happened.
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It is assumed, that a working board with less physical memory, is much better,
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than a board that doesn't boot at all.
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> **Note:** This feature is available since coreboot 4.5
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Try to swap memory modules and or try to use a different vendor. If nothing
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helps you could have a look at capter [Debuggin] or report a ticket
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at [ticket.coreboot.org]. Please provide a full RAM init log,
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that has been captured using EHCI debug.
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To enable extensive RAM training logging enable the Kconfig option
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`DEBUG_RAM_SETUP`
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#### Lenovo Thinkpads
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Lenovo Thinkpads do have an additional feature to indicate that RAM init has
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failed and coreboot has died (it calls die() on fatal error, thus the name).
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The Kconfig options
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`H8_BEEP_ON_DEATH`
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`H8_FLASH_LEDS_ON_DEATH`
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enable blinking LEDs and enable a beep to indicate death.
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> **Note:** This feature is available since coreboot 4.7
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## Debugging
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It's recommended to use an external debugger, such as serial or EHCI debug
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dongle. In case of failing memory init the board might not boot at all,
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preventing you from using CBMEM.
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