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System Memory Design Guidelines (DDR-SDRAM)

106 Intel

852GM Chipset Platform Design Guide

7.3.5.5. Control Group Package Length Table

The package length data in Table 40 below should be used to match the overall length of each command

signal to its associated clock reference length. Note that due to the relatively small variance in package

length and adequate timing margins it is acceptable to use a fixed 500-mil nominal package length for

all control signals, thereby reducing the complexity of the motherboard length calculations.

Table 40. Control Group Package Lengths

Signal Pin Number Package Length (mils)

SCS#[0] AD23 502

SCS#[1] AD26 659

SCS#[2] AC22 544

SCS#[3] AC25 612

SCKE[0] AC7 443

SCKE[1] AB7 389

SCKE[2] AC9 386

SCKE[3] AC10 376

7.3.6. Command Signals – SMA[12:6,3,0], SBA[1:0], SRAS#, SCAS#,

SWE#

The Intel 852GM GMCH chipset command signals, SMA[12:0], SBA[1:0], SRAS#, SCAS#, and SWE#

clocked into the DDR SDRAMs using the clock signals SCK/SCK#[5:0]. The GMCH drives the

command and clock signals together, with the clocks crossing in the valid command window. There are

two supported topologies for the command signal group, Topology 1, which is a daisy chain topology,

and Topology 2, which implements a T routing topology. Both topologies place a series resistor

between the two SO-DIMMs to dampen the SO-DIMM to SO-DIMM resonance. Topology 2 is the

topology that best allows for placement of the SO-DIMMs back to back in the butterfly configuration,

thus minimizing the SO-DIMM footprint area.

7.3.6.1. Command Topology 1

The command signal routing should transition from an external layer to an internal signal layer under

the GMCH. Keep to the same internal layer until transitioning back to an external layer immediately

prior to connecting the SO-DIMM0 connector pad. At the via transition for SO-DIMM0, continue the

signal route on the same internal layer to the series termination resistor (Rs), connected to SO-DIMM1.

At this resistor the signal should transition to an external layer immediately prior to the pad of Rs. After

the series resistor, Rs, continue the signal route on the external layer landing on the appropriate

connector pad of SO-DIMM1. After SO-DIMM1, transition to the same internal layer or stay on the

external layer and route the signal to Rt.

Intel suggests that the parallel termination (Rt) be placed on both sides of the board to simplify routing

and minimize trace lengths. All internal and external signals should be ground referenced to keep the

path of the return current continuous.