ALXD800EEXJ2VD AMD (ADVANCED MICRO DEVICES), ALXD800EEXJ2VD Datasheet - Page 216

ALXD800EEXJ2VD

Manufacturer Part Number

ALXD800EEXJ2VD

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.ALXD800EEXJ2VD.pdf (675 pages)

Specifications of ALXD800EEXJ2VD

Operating Temperature (min)

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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6.1.2

The GLMC employs some methods of power control for

power savings. One method is that it TRI-STATEs the

GLMC address and control pins when there is no valid

address or control data being driven (i.e., when all the chip

selects are inactive (high). This feature is enabled via

GLMC MSR 2000001Dh[12] (TRI_STATE_DIS), and is dis-

abled by default.

The second and third methods of power control are

effected via the GLMC’s GLD_MSR_PM register (MSR

20002004h). The two modes of power control achievable

via this register are PMode0 and PMode1. If PMode0 is

enabled, whenever the GLMC’s internal state machines

are idle and no requests or data are being processed, the

GLMC will shut off one of its two clocks, mb_clk, to save

power. Its other clock, mc_clk, remains active to maintain

the refresh counters. If it needs to perform a refresh, or if a

GLIU request comes into the GLMC, mb_clock is reacti-

vated on the next cycle and the GLMC resumes full power.

If PMode1 is enabled, the GLMC goes into a deeper level

of power-down when it becomes idle. It first sets up the

DRAM to go into self-refresh, then shuts off both of its

clocks. A wakeup signal in the form of a GLIU request (or

reset if the system powers down completely) gets the

GLMC back into full power. Per DRAM requirements, the

GLMC waits 200 mc_clocks before accepting the next

GLIU request (see GLMC MSR 2000001Ah[15:8]). Also, in

order to avoid going into PMode0 or PMode1 unnecessar-

ily, there are programmable sensitivity counters for both

modes (see GLMC MSR 20000020h) that provide a way to

filter out idle periods less than the duration specified in

these counters.

Sequence of steps that occur on entry into PMode1 (i.e.,

Save-to-Ram):

6.1.2.1

0) If Save-to-RAM, ACPI software performs all necessary

memory writes to Save-to-Ram.

216

— Finish any outstanding memory transactions if any.

— Issue self-refresh command to put DIMMs in self-

— Turn off both GLMC’s internal mc_clk and mb_clk.

If necessary, write a non-zero value to PM1_SENS

counter (MSR 200000020h[63:32]). This filters out

GLMC idle periods less than counter value, so

PMode1/Save-to-Ram is only entered on sufficiently

long idle periods.

Set PMode1 in MSR 20002004h[2] to 1 to enable

PMode1. On the next GLMC idle condition that is

longer than the value in PM1_SENS, the GLMC per-

forms the following:

refresh. This entails issuing a refresh command with

CKE = 0.

Power Control

Entry into PMode1 (Save-to-RAM)

33234C

6.1.2.2

Either a reset or a GLIU request wakes up the GLMC from

PMode1, triggering the following sequence:

6.1.3

This is the recommended sequence that BIOS should take

to initialize the GLMC and DRAMs properly:

10) Wait at least 200 SDCLKs before performing the first

— MSR 20000018h except REF_INT bits [23:8]

— MSR 20000019h

— MSR 2000001Ah[15:8] = C8h

— MSR 20002004h[2] = 0, [0] = 1

Both internal clocks, mb_clk and mc_clk, resume on

next clock after wakeup event.

CKE is released on next clock after clocks resume. If

power was removed during entry into PMode1, CKE is

released as in a cold boot sequence.

After 200 SDCLKs (as set in PM1_UP_DLY (MSR

2000001Ah[15:8])), the GLMC starts accepting mem-

ory reads/writes.

Initialize the following GLMC registers/bits based on

Serial Presence Detect (SPD) values:

Initialize the following GLMC registers:

Release MASK_CKE[1:0] (MSR 2000001Dh[9:8] =

11).

Set/clear REF_TST bit (MSR 20000018h[3]) 16 times

to force 8 refreshes. This also causes a precharge-all

before the first refresh, per JEDEC requirement.

Initialize REF_INT (MSR 20000018h[23:8]) to set

refresh interval.

Perform load-mode with MSR_BA = 01 (MSR

200000018h[29:28] = 01) to initialize DIMM Extended

Mode register. Load-mode is performed by setting/

clearing PROG_DRAM (MSR 200000018h[0]).

Set RST_DLL (MSR 20000018h[27] = 1), perform sec-

ond

20000018h[29:28]) to initialize Mode register and reset

DLL.

Perform third load-mode (MSR 20000018h[29:28] =

00) and RST_DLL cleared (MSR 20000018h[27] = 0).

Clear TRISTATE_DIS (MSR 2000001Dh[12] = 0) to

enable the GLMC TRI_STATE during idle cycles (i.e.,

CS[3:0]# = Fh).

read/write operation.

BIOS Initialization Sequence

Resume from PMode1

load-mode

AMD Geode™ LX Processors Data Book

with

GeodeLink™ Memory Controller

MSR_BA

(MSR

ALXD800EEXJ2VD AMD (ADVANCED MICRO DEVICES), ALXD800EEXJ2VD Datasheet - Page 216

ALXD800EEXJ2VD

Specifications of ALXD800EEXJ2VD

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