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authorStefan Roese <sr@denx.de>2007-03-31 13:15:06 +0200
committerStefan Roese <sr@denx.de>2007-03-31 13:15:06 +0200
commitcabee756a6532986729477c3cc1ea16ef8517ad2 (patch)
tree4cf0d172ebdbc1fa8c0340aa2d0e4e520958f862 /cpu/ppc4xx/44x_spd_ddr2.c
parent60723803431ac75cad085690789e433d5ab9174e (diff)
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ppc4xx: Update 44x_spd_ddr2 code (440SP/440SPe)
Additional RAM information is now printed upon powerup, like DDR2 frequency and CAS latency. Signed-off-by: Stefan Roese <sr@denx.de>
Diffstat (limited to 'cpu/ppc4xx/44x_spd_ddr2.c')
-rw-r--r--cpu/ppc4xx/44x_spd_ddr2.c68
1 files changed, 49 insertions, 19 deletions
diff --git a/cpu/ppc4xx/44x_spd_ddr2.c b/cpu/ppc4xx/44x_spd_ddr2.c
index abb5e41..b56629b 100644
--- a/cpu/ppc4xx/44x_spd_ddr2.c
+++ b/cpu/ppc4xx/44x_spd_ddr2.c
@@ -585,16 +585,23 @@ static void get_spd_info(unsigned long *dimm_populated,
#ifdef CONFIG_ADD_RAM_INFO
void board_add_ram_info(int use_default)
{
+ PPC440_SYS_INFO board_cfg;
u32 val;
if (is_ecc_enabled())
- puts(" (ECC enabled, ");
+ puts(" (ECC");
else
- puts(" (ECC not enabled, ");
+ puts(" (ECC not");
+
+ get_sys_info(&board_cfg);
+
+ mfsdr(SDR0_DDR0, val);
+ val = MULDIV64((board_cfg.freqPLB), SDR0_DDR0_DDRM_DECODE(val), 1);
+ printf(" enabled, %d MHz", (val * 2) / 1000000);
mfsdram(SDRAM_MMODE, val);
val = (val & SDRAM_MMODE_DCL_MASK) >> 4;
- printf("CL=%d)", val);
+ printf(", CL%d)", val);
}
#endif
@@ -1323,6 +1330,7 @@ static void program_mode(unsigned long *dimm_populated,
mfsdr(SDR0_DDR0, sdr_ddrpll);
sdram_freq = MULDIV64((board_cfg.freqPLB), SDR0_DDR0_DDRM_DECODE(sdr_ddrpll), 1);
+ debug("sdram_freq=%d\n", sdram_freq);
/*------------------------------------------------------------------
* Handle the timing. We need to find the worst case timing of all
@@ -1352,6 +1360,7 @@ static void program_mode(unsigned long *dimm_populated,
/* t_wr_ns = max(t_wr_ns, (unsigned long)dimm_spd[dimm_num][36] >> 2); */ /* not used in this loop. */
cas_bit = spd_read(iic0_dimm_addr[dimm_num], 18);
+ debug("cas_bit[SPD byte 18]=%02x\n", cas_bit);
/* For a particular DIMM, grab the three CAS values it supports */
for (cas_index = 0; cas_index < 3; cas_index++) {
@@ -1370,7 +1379,8 @@ static void program_mode(unsigned long *dimm_populated,
if ((tcyc_reg & 0x0F) >= 10) {
if ((tcyc_reg & 0x0F) == 0x0D) {
/* Convert from hex to decimal */
- cycle_time_ns_x_100[cas_index] = (((tcyc_reg & 0xF0) >> 4) * 100) + 75;
+ cycle_time_ns_x_100[cas_index] =
+ (((tcyc_reg & 0xF0) >> 4) * 100) + 75;
} else {
printf("ERROR: SPD reported Tcyc is incorrect for DIMM "
"in slot %d\n", (unsigned int)dimm_num);
@@ -1378,9 +1388,12 @@ static void program_mode(unsigned long *dimm_populated,
}
} else {
/* Convert from hex to decimal */
- cycle_time_ns_x_100[cas_index] = (((tcyc_reg & 0xF0) >> 4) * 100) +
+ cycle_time_ns_x_100[cas_index] =
+ (((tcyc_reg & 0xF0) >> 4) * 100) +
((tcyc_reg & 0x0F)*10);
}
+ debug("cas_index=%d: cycle_time_ns_x_100=%d\n", cas_index,
+ cycle_time_ns_x_100[cas_index]);
}
/* The rest of this routine determines if CAS 2.0, 2.5, 3.0, 4.0 and 5.0 are */
@@ -1393,8 +1406,10 @@ static void program_mode(unsigned long *dimm_populated,
* Bit 7 6 5 4 3 2 1 0
* TBD 4.0 3.5 3.0 2.5 2.0 1.5 1.0
*/
- if (((cas_bit & 0x40) == 0x40) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_4_0_tcyc_ns_x_100 = max(max_4_0_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x40) == 0x40) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_4_0_tcyc_ns_x_100 = max(max_4_0_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1402,8 +1417,10 @@ static void program_mode(unsigned long *dimm_populated,
cas_4_0_available = FALSE;
}
- if (((cas_bit & 0x10) == 0x10) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_3_0_tcyc_ns_x_100 = max(max_3_0_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x10) == 0x10) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_3_0_tcyc_ns_x_100 = max(max_3_0_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1411,8 +1428,10 @@ static void program_mode(unsigned long *dimm_populated,
cas_3_0_available = FALSE;
}
- if (((cas_bit & 0x08) == 0x08) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_2_5_tcyc_ns_x_100 = max(max_2_5_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x08) == 0x08) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_2_5_tcyc_ns_x_100 = max(max_2_5_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1420,8 +1439,10 @@ static void program_mode(unsigned long *dimm_populated,
cas_2_5_available = FALSE;
}
- if (((cas_bit & 0x04) == 0x04) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_2_0_tcyc_ns_x_100 = max(max_2_0_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x04) == 0x04) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_2_0_tcyc_ns_x_100 = max(max_2_0_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1434,8 +1455,10 @@ static void program_mode(unsigned long *dimm_populated,
* Bit 7 6 5 4 3 2 1 0
* TBD 6.0 5.0 4.0 3.0 2.0 TBD TBD
*/
- if (((cas_bit & 0x20) == 0x20) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_5_0_tcyc_ns_x_100 = max(max_5_0_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x20) == 0x20) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_5_0_tcyc_ns_x_100 = max(max_5_0_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1443,8 +1466,10 @@ static void program_mode(unsigned long *dimm_populated,
cas_5_0_available = FALSE;
}
- if (((cas_bit & 0x10) == 0x10) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_4_0_tcyc_ns_x_100 = max(max_4_0_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x10) == 0x10) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_4_0_tcyc_ns_x_100 = max(max_4_0_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1452,8 +1477,10 @@ static void program_mode(unsigned long *dimm_populated,
cas_4_0_available = FALSE;
}
- if (((cas_bit & 0x08) == 0x08) && (cas_index < 3) && (cycle_time_ns_x_100[cas_index] != 0)) {
- max_3_0_tcyc_ns_x_100 = max(max_3_0_tcyc_ns_x_100, cycle_time_ns_x_100[cas_index]);
+ if (((cas_bit & 0x08) == 0x08) && (cas_index < 3) &&
+ (cycle_time_ns_x_100[cas_index] != 0)) {
+ max_3_0_tcyc_ns_x_100 = max(max_3_0_tcyc_ns_x_100,
+ cycle_time_ns_x_100[cas_index]);
cas_index++;
} else {
if (cas_index != 0)
@@ -1476,6 +1503,9 @@ static void program_mode(unsigned long *dimm_populated,
cycle_3_0_clk = MULDIV64(ONE_BILLION, 100, max_3_0_tcyc_ns_x_100) + 10;
cycle_4_0_clk = MULDIV64(ONE_BILLION, 100, max_4_0_tcyc_ns_x_100) + 10;
cycle_5_0_clk = MULDIV64(ONE_BILLION, 100, max_5_0_tcyc_ns_x_100) + 10;
+ debug("cycle_3_0_clk=%d\n", cycle_3_0_clk);
+ debug("cycle_4_0_clk=%d\n", cycle_4_0_clk);
+ debug("cycle_5_0_clk=%d\n", cycle_5_0_clk);
if (sdram_ddr1 == TRUE) { /* DDR1 */
if ((cas_2_0_available == TRUE) && (sdram_freq <= cycle_2_0_clk)) {