Intel NetStructure® MPCBL0001 High Performance Single Board Computer

Contents

3.9Hot-Swap Process

The MPCBL0001 SBC has the ability to be hot-swapped in and out of a chassis. The onboard IPMC manages the SBC’s power-up and power-down transitions. The list below, along with Figure 6, illustrates this process.

1.Ejector latch is opened. HOT_SWAP_PB# assertion. IPMC firmware detects the assertion of this signal.

2.IPMC sends "Deactivation Request" message to CMM. M state moves from M4-> M5.

3.Board moves from M5 -> M6 if the CMM grants the request.

4.The IPMC's ACPI timer (3 minutes) starts if an ACPI-enable OS is loaded. Otherwise, it goes to Step 7 below. The IPMC asserts 20 ms pulse on SMC_PWRBTN#.

5.The Power Button Status register (PWRBTN_STS) is set. It then asserts SCI/SMI# to the OS. If ACPI OS is enabled, SCI interrupt handler on the OS is called. Interrupt handler clears PWRBTN_STS bit. OS starts to perform a graceful shutdown.

6.ICH3 detects "LOW" on the ICH3_PWRBTN#. Asserts ICH3_SLP_S3# and ICH3_SLP_S5# to IPMC. Upon detection of ICH3_SLP_S5# and ICH3_SLP_S3#, board transitions to Step 7 below. If ICH3 doesn't assert the signals, the board will transition to Step 7 below upon the ACPI timer expiration.

7.The firmware deasserts payload power and sets the IPMI locked bit before it transitions from M6 to M1 state.

Note: If the upper-level software moves the IPMC to M6, the same procedure is followed, starting with Step 4.

Figure 6. Hot-Swap Process

ICH3

 

ACPI-OS

4

5

6

IPMC

1

CMM

2

3

7

Technical Product Specification

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Order #273817

 

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Intel MPCBL0001 manual Hot-Swap Process