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authorPatrick Rudolph <siro@das-labor.org>2016-01-26 08:45:21 +0100
committerMartin Roth <martinroth@google.com>2016-02-20 05:11:37 +0100
commitbd1fdc6e84cae1f3fa705ae229a6b8ab67f2960a (patch)
tree49928772522c5a8e4c0206e7b6940548539784fe /src/device/dram
parentc3b0b7281326de836890fdb16eb92737f44b4e59 (diff)
nb/intel/sandybridge/raminit: Add XMP support
Some vendors store lower frequency profiles in the regular SPD, if the SPD contains a XMP profile. To make use of the board's and DIMM's maximum supported DRAM frequency, try to parse the XMP profile and use it instead. Validate the XMP profile to make sure that the installed DIMM count per channel is supported and the requested voltage is supported. To reduce complexity only XMP Profile 1 is read. Allows my DRAM to run at 800Mhz instead of 666Mhz as encoded in the default SPD. Test system: * Gigabyte GA-B75M-D3H * Intel Pentium CPU G2130 Change-Id: Ib4dd68debfdcfdce138e813ad5b0e8e2ce3a40b2 Signed-off-by: Patrick Rudolph <siro@das-labor.org> Reviewed-on: https://review.coreboot.org/13486 Reviewed-by: Martin Roth <martinroth@google.com> Tested-by: build bot (Jenkins)
Diffstat (limited to 'src/device/dram')
-rw-r--r--src/device/dram/ddr3.c117
1 files changed, 117 insertions, 0 deletions
diff --git a/src/device/dram/ddr3.c b/src/device/dram/ddr3.c
index fe9de2d8e7..6bfaabcd76 100644
--- a/src/device/dram/ddr3.c
+++ b/src/device/dram/ddr3.c
@@ -116,6 +116,8 @@ int spd_decode_ddr3(dimm_attr * dimm, spd_raw_data spd)
/* Don't assume we memset 0 dimm struct. Clear all our flags */
dimm->flags.raw = 0;
+ dimm->dimms_per_channel = 3;
+
/* Make sure that the SPD dump is indeed from a DDR3 module */
if (spd[2] != SPD_MEMORY_TYPE_SDRAM_DDR3) {
printram("Not a DDR3 SPD!\n");
@@ -180,14 +182,17 @@ int spd_decode_ddr3(dimm_attr * dimm, spd_raw_data spd)
printram(" Supported voltages:");
if (reg8 & (1 << 2)) {
dimm->flags.operable_1_25V = 1;
+ dimm->voltage = 1250;
printram(" 1.25V");
}
if (reg8 & (1 << 1)) {
dimm->flags.operable_1_35V = 1;
+ dimm->voltage = 1300;
printram(" 1.35V");
}
if (!(reg8 & (1 << 0))) {
dimm->flags.operable_1_50V = 1;
+ dimm->voltage = 1500;
printram(" 1.5V");
}
printram("\n");
@@ -338,6 +343,118 @@ int spd_decode_ddr3(dimm_attr * dimm, spd_raw_data spd)
return ret;
}
+/**
+ * \brief Decode the raw SPD XMP data
+ *
+ * Decodes a raw SPD XMP data from a DDR3 DIMM, and organizes it into a
+ * @ref dimm_attr structure. The SPD data must first be read in a contiguous
+ * array, and passed to this function.
+ *
+ * @param dimm pointer to @ref dimm_attr structure where the decoded data is to
+ * be stored
+ * @param spd array of raw data previously read from the SPD.
+ *
+ * @param profile select one of the profiles to load
+ *
+ * @return @ref spd_status enumerator
+ * SPD_STATUS_OK -- decoding was successful
+ * SPD_STATUS_INVALID -- invalid SPD or not a DDR3 SPD
+ * SPD_STATUS_CRC_ERROR -- CRC did not verify
+ * SPD_STATUS_INVALID_FIELD -- A field with an invalid value was
+ * detected.
+ */
+int spd_xmp_decode_ddr3(dimm_attr *dimm,
+ spd_raw_data spd,
+ enum ddr3_xmp_profile profile)
+{
+ int ret;
+ u32 mtb; /* medium time base */
+ u8 *xmp; /* pointer to XMP profile data */
+
+ /* need a valid SPD */
+ ret = spd_decode_ddr3(dimm, spd);
+ if (ret != SPD_STATUS_OK)
+ return ret;
+
+ /* search for magic header */
+ if (spd[176] != 0x0C || spd[177] != 0x4A) {
+ printram("Not a DDR3 XMP profile!\n");
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_INVALID;
+ }
+
+ if (profile == DDR3_XMP_PROFILE_1) {
+ if (!(spd[178] & 1)) {
+ printram("Selected XMP profile disabled!\n");
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_INVALID;
+ }
+ printram(" XMP Profile 1\n");
+ xmp = &spd[185];
+
+ /* Medium Timebase =
+ * Medium Timebase (MTB) Dividend /
+ * Medium Timebase (MTB) Divisor */
+ mtb = (((u32) spd[180]) << 8) / spd[181];
+
+ dimm->dimms_per_channel = ((spd[178] >> 2) & 0x3) + 1;
+ } else {
+ if (!(spd[178] & 2)) {
+ printram("Selected XMP profile disabled!\n");
+ dimm->dram_type = SPD_MEMORY_TYPE_UNDEFINED;
+ return SPD_STATUS_INVALID;
+ }
+ printram(" XMP Profile 2\n");
+ xmp = &spd[220];
+
+ /* Medium Timebase =
+ * Medium Timebase (MTB) Dividend /
+ * Medium Timebase (MTB) Divisor */
+ mtb = (((u32) spd[182]) << 8) / spd[183];
+
+ dimm->dimms_per_channel = ((spd[178] >> 4) & 0x3) + 1;
+ }
+ printram(" Max DIMMs per channel: %u\n",
+ dimm->dimms_per_channel);
+
+ printram(" XMP Revision: %u.%u\n", spd[179] >> 4, spd[179] & 0xf);
+
+ /* calculate voltage in mV */
+ dimm->voltage = (xmp[0] & 1) * 50;
+ dimm->voltage += ((xmp[0] >> 1) & 0xf) * 100;
+ dimm->voltage += ((xmp[0] >> 5) & 0x3) * 1000;
+ printram(" Requested voltage: %u mV\n", dimm->voltage);
+
+ /* SDRAM Minimum Cycle Time (tCKmin) */
+ dimm->tCK = xmp[1] * mtb;
+ /* CAS Latencies Supported */
+ dimm->cas_supported = (xmp[9] << 8) + xmp[8];
+ /* Minimum CAS Latency Time (tAAmin) */
+ dimm->tAA = xmp[2] * mtb;
+ /* Minimum Write Recovery Time (tWRmin) */
+ dimm->tWR = xmp[8] * mtb;
+ /* Minimum RAS# to CAS# Delay Time (tRCDmin) */
+ dimm->tRCD = xmp[7] * mtb;
+ /* Minimum Row Active to Row Active Delay Time (tRRDmin) */
+ dimm->tRRD = xmp[17] * mtb;
+ /* Minimum Row Precharge Delay Time (tRPmin) */
+ dimm->tRP = xmp[6] * mtb;
+ /* Minimum Active to Precharge Delay Time (tRASmin) */
+ dimm->tRAS = (((xmp[9] & 0x0f) << 8) + xmp[10]) * mtb;
+ /* Minimum Active to Active/Refresh Delay Time (tRCmin) */
+ dimm->tRC = (((xmp[9] & 0xf0) << 4) + xmp[11]) * mtb;
+ /* Minimum Refresh Recovery Delay Time (tRFCmin) */
+ dimm->tRFC = ((xmp[15] << 8) + xmp[14]) * mtb;
+ /* Minimum Internal Write to Read Command Delay Time (tWTRmin) */
+ dimm->tWTR = xmp[20] * mtb;
+ /* Minimum Internal Read to Precharge Command Delay Time (tRTPmin) */
+ dimm->tRTP = xmp[16] * mtb;
+ /* Minimum Four Activate Window Delay Time (tFAWmin) */
+ dimm->tFAW = (((xmp[18] & 0x0f) << 8) + xmp[19]) * mtb;
+
+ return ret;
+}
+
/*
* The information printed below has a more informational character, and is not
* necessarily tied in to RAM init debugging. Hence, we stop using printram(),