I'm new to iMX31 and embedded systems, please help me to understand the translation from SDRAM address to ARM CPU address, especially in "special" command modes of the SDRAM controller.

Here is the SDRAM initialization code I have problem with:

    ldr r0, ESDCTL_BASE_W
    mov r2, #SDRAM_BASE_ADDR /* 0x80000000 */

    ldr r1, =0x92100000 /* Precharge */
    str r1, [r0]
    ldr r1, =0x0
    ldr r12, =0x80000F00
    str r1, [r12]

    ldr r1, =0xA2100000 /* Auto-refresh */
    str r1, [r0]
    ldr r1, =0x0
    str r1, [r2]

    ldr r1, SDRAM_0xB2100000 /* Load Mode Register */
    str r1, [r0]
    ldr r1, =0x0
    strb r1, [r2, #0x33]

    ldr r1, =0xFF
    ldr r12, =0x81000000

The RAM I have is Micron LPDDR MT46H64M32LF, and this code follows the initialization procedure nicely, but in PRECHARGE step, where is the address 0x80000F00 coming from?

From iMX31 reference manual I learned that during the PRECHARGE step, I need to set SDRAM pin A10 to HIGH which will therefore result a PRECHARGE ALL. Here is the text on PRECHARGE from RM:

...While in this mode, an access (either read or write) to the SDRAM/LPDDR address space will generate a precharge command cycle. SDRAM/LPDDR address bit A10 determines whether a single bank, or all banks, are precharged by the command. Accessing an address with the SDRAM/LPDDR address A10 low will precharge only the bank selected by the bank addresses, as illustrated in Figure 19-75. Conversely, accesses with A10 high will precharge all banks regardless of the bank address, ...Note that A10 is the SDRAM pin, not the A10 bit ARM address bus. Translation of the SDRAM A10 to the corresponding ARM address is dependent on the memory configuration.

And here is another text on multiplexed address bus during “special” mode:

During “special” mode, for example, precharge mode (SMODE=1) or load mode registers (SMODE=3) there is no address shifting, means that CPU address A0 is mapped on MA0 at all memory width. For example, in order to drive MA10 bit (for the precharge all command) the CPU A10 bit should be set (for both 16 or 32 bit external devices). The same logic is valid for the load mode register command, as can be seen on the initialization routine example on Section, “SDRAM Initialization.”

According to the text above and assuming A0 is the first bit of 0x80000000, setting A10 to 1 should give address 0x80000400, not the 0x80000F00 in the code. Why??? Is there anything related to the characteristics of DDR? And how can I get the proper translation between SDRAM pins and ARM CPU address?

Update: The code snippet I showed here is supposed to work with DDR. For SDRAM, it actually uses 0x80000400 in PRECHARGE.

  • Maybe the programmer just used a shotgun approach to setting A10 high, by setting A8 to A11? – starblue Mar 18 '11 at 6:30
  • @starblue It's probably not. I updated my question to give more information. – Ye Liu Mar 18 '11 at 14:00
  • Here's a link for anyone interested: electronics.stackexchange.com/questions/11666/… – JYelton Mar 18 '11 at 22:37
  • I have a feeling this code is wrong and you're getting away with it anyway. SDRAM/DDR has a funny habit of working well beyond spec... but it hits you every now and then (and certainly if you're making a lot of devices). It looks to me like it really should be 0x80000400. Perhaps @starblue is right and it's just a lazy/shotgun programming thing. – John Ripley Mar 19 '11 at 8:18
  • The code is not wrong. The base address of the SDRAM is 0x80000000. The value 0xf00 is setting the A10 bit. SDRAM gets commands via the address bits when special cycles are run (comb of R/W, RAS and CAS). See the table at wikipedia. – artless noise May 21 '14 at 18:08