Kontron MSP8020, MSP8021, MSP80202 User Manual



USER GUIDE

MSP8020 Series

Doc. Rev. 1.1

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 2



MSP8020 SERIES USER GUIDE

Disclaimer

Kontron would like to point out that the information contained in this manual may be subject to alteration, particularly as a
result of the constant upgrading of Kontron products. This document does not entail any guarantee on the part of Kontron
with respect to technical processes described in the manual or any product characteristics set out in the manual. Kontron
assumes no responsibility or liability for the use of the described product(s), conveys no license or title under any patent,
copyright or mask work rights to these products and makes no representations or warranties that these products are free
from patent, copyright or mask work right infringement unless otherwise specified. Applications that are described in this
manual are for illustration purposes only. Kontron makes no representation or warranty that such application will be
suitable for the specified use without further testing or modification. Kontron expressly informs the user that this manual
only contains a general description of processes and instructions which may not be applicable in every individual case. In
cases of doubt, please contact Kontron.

This manual is protected by copyright. All rights are reserved by Kontron. No part of this document may be reproduced,
transmitted, transcribed, stored in a retrieval system, or translated into any language or computer language, in any form or
by any means (electronic, mechanical, photocopying, recording, or otherwise), without the express written permission of
Kontron. Kontron points out that the information contained in this manual is constantly being updated in line with the
technical alterations and improvements made by Kontron to the products and thus this manual only reflects the technical
status of the products by Kontron at the time of publishing.

Brand and product names are trademarks or registered trademarks of their respective owners.
© 2013, 2014 by Kontron America, 2016 by Kontron Ag

Kontron Ag
Lise-Meitner-Str. 3-5

86156 Augsburg
Germany

www.kontron.com

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 3

Revision History

Revision

Brief Description of Changes

Date of Issue

1.0

Initial issue

2014-Mar-18

1.1

CI, Block diagram correction, Power consumption clarification, KVM hint, SWMI update,
Sensors lists add.

2016-May-26

Customer Service

Visit our site at www.kontron.com

Customer Comments

If you have any difficulties using this user's guide, discover an error, or just want to provide some feedback, please
send a message to Kontron. Detail any errors you find. We will correct the errors or problems as soon as possible
and post the revised user's guide on our website. Thank you.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 4

SYMBOLS USED IN THIS MANUAL

DANGER indicates a hazardous situation which, if not avoided,
will result in death or serious injury.

WARNING indicates a hazardous situation which, if not avoided,
could result in death or serious injury.

CAUTION indicates a hazardous situation which, if not avoided,
may result in minor or moderate injury.

NOTICE indicates a property damage message.

Electric Shock!
This symbol and title warn of hazards due to electrical shocks (> 60 V) when touching

products or parts of them. Failure to observe the precautions indicated and/or prescribed by
the law may endanger your life/health and/or result in damage to your material.

Please refer also to the "High-Voltage Safety Instructions" portion below in this section.

ESD Sensitive Device!
This symbol and title inform that the electronic boards and their components are sensitive

to static electricity. Care must therefore be taken during all handling operations and
inspections of this product in order to ensure product integrity at all times.

HOT Surface!
Do NOT touch! Allow to cool before servicing.

This symbol indicates general information about the product and the user manual.
This symbol also indicates detail information about the specific product configuration.

This symbol precedes helpful hints and tips for daily use.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 5

TABLE OF CONTENTS

Symbols Used in this Manual ......................................................................................................................................................................... 4

Table of Contents ............................................................................................................................................................................................... 5

List of Tables ....................................................................................................................................................................................................... 5

List of Figures ...................................................................................................................................................................................................... 6

List of Acronyms ................................................................................................................................................................................................. 6

Electrostatic Discharge .................................................................................................................................................................................... 7

Limited Warranty ............................................................................................................................................................................................... 7

1/ Product Description ............................................................................................................................................................................. 8

1.1. Product Overview ........................................................................................................................................................................................ 8

1.2. Block Diagram ............................................................................................................................................................................................ 10

1.3. PCI Mapping ................................................................................................................................................................................................. 11

1.4. MSP-Node Key Components ................................................................................................................................................................. 12

1.5. MSP-Node Features ................................................................................................................................................................................. 13

1.6. MSP-Node: LEDs and Buttons .............................................................................................................................................................. 13

1.7. Interfacing.................................................................................................................................................................................................... 14

1.7.1. MAC Addresses table: ........................................................................................................................................................................... 16

1.7.2. Management Network Connection .................................................................................................................................................. 16

2/ Extracting and Inserting an MSP-Node ..................................................................................................................................... 20

2.1. Extracting an MSP-Node ....................................................................................................................................................................... 20

2.2. Inserting an MSP-Node ......................................................................................................................................................................... 20

2.3. System Behavior upon Hot Swap ........................................................................................................................................................ 21

3/ Software Configurations and Conventions .............................................................................................................................. 22

4/ Configuring MSP-Nodes .................................................................................................................................................................. 23

4.1. MSP-Node Reset ...................................................................................................................................................................................... 23

4.2. Boot Order ................................................................................................................................................................................................. 24

5/ Performing Updates ......................................................................................................................................................................... 25

5.1. OneClick Update for an MSP-Node..................................................................................................................................................... 25

5.2. OneClick Update for a system (all components) .......................................................................................................................... 25

6/ Appendix A Sensor Lists .............................................................................................................................................................. 26

LIST OF TABLES

Table 1: PCI Mapping ......................................................................................................................................................................................... 11

Table 2: MSP-Node key components per server ................................................................................................................................... 12

Table 3: MSP-Node features ........................................................................................................................................................................ 13

Table 4: MSP802x MAC addresses ............................................................................................................................................................. 16

Table 5: Default usernames and passwords of management interfaces ..................................................................................... 19

Table 6: BMC Sensor list ............................................................................................................................................................................... 26

Table 7: MMC Sensor list ................................................................................................................................................................................ 27

Table 8: Detailed information for specific sensors .............................................................................................................................. 29

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 6

LIST OF FIGURES

Figure 1: SYMKLOUD layers ............................................................................................................................................................................. 8

Figure 2: MSP802x in rear of chassis .......................................................................................................................................................... 9

Figure 3: MSP802x block diagram .............................................................................................................................................................. 10

Figure 4: MSP802x LEDs and buttons ...................................................................................................................................................... 13

Figure 5: Server Ethernet connections ...................................................................................................................................................... 15

Figure 6: Diagram of interface paths with a management networking connection .................................................................. 18

Figure 7: Diagram of interface paths with a serial console connection......................................................................................... 19

Figure 8: Processor MSP-Node safety lock location ........................................................................................................................... 20

LIST OF ACRONYMS

BMC Base Management Controller
CLI Command-Line Interface
ECC Error Checking and Correction
ETSI European Telecommunications Standards Institute
FRU Field Replaceable Unit
HPM PICMG Hardware Platform Management specification family
iCLI Industrial Command-Line Interface
IOL IPMI-Over-LAN
IPMI Intelligent Platform Management Interface
KCS Keyboard Controller Style
KVM Keyboard Video Mouse
MEI Management Engine Interface

MMC Module Management Controller
PCIe PCI-Express
PICMG® PCI Industrial Computer Manufacturers Group
RTC Real Time Clock
SEL System Event Log
SFP+ Small Form-factor Pluggable that supports data rates up to 10.0 Gbps
ShMC Shelf Management Controller
SMBus System Management Bus
SMWI System Monitor Web Interface
SNMP Simple Network Management Protocol
SOL Serial Over LAN
SSH Secure Shell
STP Spanning Tree Protocol
THOL Tested Hardware and Operating System List
VLP Very Low Profile

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 7

ELECTROSTATIC DISCHARGE

The MSP8020 is sensitive to electrostatic discharge (ESD). Users must observe the appropriate

precautions when handling ESD-sensitive devices.

LIMITED WARRANTY

Kontron grants the original purchaser of Kontron's products a TWO YEAR LIMITED HARDWARE WARRANTY as described in
the following. However, no other warranties that may be granted or implied by anyone on behalf of Kontron are valid unless
the consumer has the express written consent of Kontron.

Kontron warrants their own products, excluding software, to be free from manufacturing and material defects for a period
of 24 consecutive months from the date of purchase. This warranty is neither transferable nor extendible to cover any other
users or long- term storage of the product. It does not cover products which have been modified, altered or repaired by any
other party than Kontron or their authorized agents. Furthermore, any product which has been, or is suspected of being
damaged as a result of negligence, improper use, incorrect handling, servicing or maintenance, or which has been damaged
as a result of excessive current/voltage or temperature, or which has had its serial number(s), any other markings or parts
thereof altered, defaced or removed will also be excluded from this warranty.

If the customer's eligibility for warranty has not been voided, in the event of any claim, he may return the product at the
earliest possible convenience to the original place of purchase, together with a copy of the original document of purchase, a
full description of the application the product is used on and a description of the defect. Pack the product in such a way as to
ensure safe transportation (see our safety instructions).

Kontron provides for repair or replacement of any part, assembly or sub-assembly at their own discretion, or to refund the
original cost of purchase, if appropriate. In the event of repair, refunding or replacement of any part, the ownership of the
removed or replaced parts reverts to Kontron, and the remaining part of the original guarantee, or any new guarantee to
cover the repaired or replaced items, will be transferred to cover the new or repaired items. Any extensions to the original
guarantee are considered gestures of goodwill, and will be defined in the "Repair Report" issued by Kontron with the repaired
or replaced item.

Kontron will not accept liability for any further claims resulting directly or indirectly from any warranty claim, other than the
above specified repair, replacement or refunding. In particular, all claims for damage to any system or process in which the
product was employed, or any loss incurred as a result of the product not functioning at any given time, are excluded. The
extent of Kontron liability to the customer shall not exceed the original purchase price of the item for which the claim exists.

Kontron issues no warranty or representation, either explicit or implicit, with respect to its products reliability, fitness,
quality, marketability or ability to fulfill any particular application or purpose. As a result, the products are sold "as is," and
the responsibility to ensure their suitability for any given task remains that of the purchaser. In no event will Kontron be
liable for direct, indirect or consequential damages resulting from the use of our hardware or software products, or
documentation, even if Kontron were advised of the possibility of such claims prior to the purchase of the product or during
any period since the date of its purchase.

Please remember that no Kontron employee, dealer or agent is authorized to make any modification or addition to the above
specified terms, either verbally or in any other form, written or electronically transmitted, without the company's consent.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 8

1/ PRODUCT DESCRIPTION

1.1. PRODUCT OVERVIEW

The MSP8020-series MSP-Nodes are processor nodes for the SYMKLOUD MS2900-Series platform. Nine MSP-Nodes can be
installed in each MS29xx and each MSP-Node has two CPU engines (servers). When used with two Hubs, each server
supports two 1GbE ports.

MSP802x references throughout this guide refer to any variants in this series as described in
Table 2: MSP-Node key components per server, unless specified otherwise.

MS29xx references throughout this guide refer to any variants of the SYMKLOUD-MS Series
Platform (e.g. MS2900, MS2910), unless specified otherwise.

MSH89xx references throughout this guide refer to any variants of the SYMKLOUD-MS
Series HubNodes (e.g. MSH8900, MSH8910), unless specified otherwise.

An OS must be loaded on each server for the system to be fully operational.

Figure 1: SYMKLOUD layers

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 9

Figure 2: MSP802x in rear of chassis

For information on other SYMKLOUD MS29xx
user manual.

To ensure you have the latest document version or to consult other SYMKLOUD documents,
visit Kontron website at http://kontron.com/.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 10

1.2. BLOCK DIAGRAM

Figure 3: MSP802x block diagram

For a block diagram of the entire MS29xx system, refer to the SYMKLOUD MS29xx Platform

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 11

1.3. PCI MAPPING

Table 1: PCI Mapping

Bus: Device.
Function

Device
ID

Component

Description

Note
CPU*

00:00.0

0d04

Host bridge

Intel Corporation (rev. 08)

GT3

00:01.0

0d01

PCI bridge

Intel Corporation (rev. 08)

GT3

00:02.0

0d26

VGA compatible
controller

Intel Corporation (rev. 08)

GT3

00.03.0

0d0c

Audio device

Intel Corporation (rev. 08)

GT3

Chipset

00:16.0

8c3a

Communication
controller

Intel Corporation Lynx Point MEI Controller No. 1 (rev. 04)

00:16.3

8c3d

Serial controller

Intel Corporation Lynx Point KT Controller (rev. 04)

00:19.0

153a

Ethernet controller

Intel Corporation Ethernet Connection I217-LM

00:1a.0

8c2d

USB controller

Intel Corporation Lynx Point USB Enhanced Host Controller No. 2

00:1d.0

8c26

USB controller

Intel Corporation Lynx Point USB Enhanced Host Controller No. 1

00:1f.0

8c4f

ISA bridge

Intel Corporation Lynx Point LPC Controller (rev. 05)

00:1f.2

8c03

SATA controller

Intel Corporation Lynx Point 6-Port SATA AHCI Controller

00:1f.3

8c22

SMBus

Intel Corporation Lynx Point SMBus Controller (rev. 05)

Network devices

01:00.0

1537

Ethernet controller

Intel Corporation I210 Gigabit Backplane Connection (rev. 03)

*Other CPU SKUs could be available for this MSP-Node.
PCI mapping is CPU SKU-dependent; the mapping might change depending on the exact SKU.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 12

1.4. MSP-NODE KEY COMPONENTS

Table 2: MSP-Node key components per server

Component1

Description

CPU2

MSP8020: -4860EQ GT3, 6 MB cache, 1.8 GHz, quad-core, 47 W,
750-

MSP8021: -4700EQ GT2, 6 MB cache, 2.4-3.4 GHz, quad-core, 47 W,
400-1000 MHz Intel® HD Graphics 4600

MSP8022: Intel® Xeon® E3-1278L v4, 6M Cache, 2-3.3 GHz, quad-core, 47W,
800-1000 MHz

Chipset

One Intel® QM87 PCH

System memory

2 DIMM slots for up to 16 GB DDR3, supports ULP/VLP unbuffered 1.35V DDR3 with ECC
MSP8022: E3-1278L v4 support 16G DIMM for 32GB total/Server

Network
connections

1 Intel® 1GbE controller I210-IS
1 chipset integrated MAC with Intel® 1GbE I217-LM PHY

Storage

1 M.2 SSD

M.2 connectivity

1 SATA 6 Gbps
1 USB 3.0
1 PCIe x2 Gen 2

I/O devices

1 serial port accessible through:

 MS29xx Hub serial RJ45 (one connection shared by both servers), refer to

The Kontron ipmitool package can be downloaded from the Kontron MS2900 web page
under Tool:

 http://www.kontron.com/products/solutions/cloud-computing-platform-

solutions/symkloud-ms2900-web.html

Ensure the protocol is enabled for the interface you want to access.

 Figure 7
 SOL via the BMC

1 KVM (Keyboard, Video, Mouse) accessible over LAN

BIOS

16 MB SPI Phoenix UEFI BIOS

Refer to the Intel website ark.intel.com for more information on Intel components

1

Some of the components are optional.

2

Other CPUs could be available for the MSP802x

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 13

1.5. MSP-NODE FEATURES

Table 3: MSP-Node features

Feature

Description

Remote management

IPMI 2.0
IOL
SOL
KVM/virtual media
Comprehensive sensor network and event monitoring

 Refer to the MSP802x Sensor List for a list of sensors.

Validated OS

Ubuntu Server, 64-bit, long-term support release 12.04
Windows 7, 64-bit, SP1
CentOS Linux, 64-bit, release 6.4



Hot swap

Supported

 Refer to the MSH89xx for information on system behavior

upon hot swap.

Power consumption

82W typical
Peak measured with 32 GB of 1600 MHz DDR3 and 2 SSDs running a

combination of CPU, GPU, memory, storage and network stress test
applications.

1.6. MSP-NODE: LEDS AND BUTTONS

Figure 4: MSP802x LEDs and buttons

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 14

Table 4: LED status description and button behavior

LED status

State

ID (blue)

Power (green)

Status (amber)

Identify command in progress

Blinking3

Not affected

Not affected

Payload power ON for at least one server

OFF

ON

ON: not healthy

OFF: healthy

Payload power OFF (Both servers are OFF)

ON

OFF

ON: not healthy

OFF: healthy

Power button

State

Short press

Long press

Power OFF for both servers

Powers-on both servers

Nothing happens

Power ON for only one server

Performs a clean shutdown of the online
server

Turns all servers off immediately
Power ON for both servers

Performs a clean shutdown of both servers

Turns all servers off immediately

1.7. INTERFACING

Two types of connections can be established from MSP-Nodes components: a networking connection and a serial console
connection.

Refer to the user guide of the hub used in the platform for information on how to access the
SM and for the locations of the management and console ports.

3

Fast blink, 1 Hz, 50%

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 15

For Server1 (CPU1), the F1 (fabric 1) port connects to HUB1 and the B2 (base 2) port connects to HUB2; For Server2 (CPU2), the
F2 port connects to HUB2, and the B1 port connects to HUB1. Refer to Figure 5 for a visual reference.
The KVM functionality of each server utilises its fabric port; if the connection to either hub is lost, the KVM functionality of
one server will also be lost.

Each server supports two 1GbE links for the application level.

For a complete port mapping and network topology of the system, refer to the MSH89xx

Figure 5: Server Ethernet connections

For more information, refer to the MSP802x block diagram (Figure 3).

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 16

1.7.1. MAC ADDRESSES TABLE:

The following table explains how the 6 MAC addresses are assigned to each MSP802x:
Table 4: MSP802x MAC addresses

Interface/Port

MAC value

Server

Bus:Dev.Fn

Device: Driver

Notes

Base: B2

<Base_MAC>

1

01:00.0

I210: igb

Fabric: F1[.1]

<Base_MAC>+1

1

00:19.0

I217: e1000

Fabric: F2.2

N/A

N/A

N/A

N/A

Fabric: F1.3

N/A

N/A

N/A

N/A

Fabric: F2.4

N/A

N/A

N/A

N/A

Base: B1

<Base_MAC>+2

2

01:00.0

I210: igb

Fabric: F2[.1]

<Base_MAC>+3

2

00:19.0

I217: e1000

Fabric: F1.2

N/A

N/A

N/A

N/A

Fabric: F2.3

N/A

N/A

N/A

N/A

Fabric: F1.4

N/A

N/A

N/A

N/A

Board-BMC

<Base_MAC>+4

BMC

N/A

N/A

Not used

<Base_MAC>+5

N/A

N/A

N/A

Not used

No additional Fabric ports (F1.2, F1.3 and F1.4 as well as F2.2, F2.3 and F2.4) are supported when using MSP802x, regardless
of the MSH-HubNode used.

1.7.2. MANAGEMENT NETWORK CONNECTION

The SYMKLOUD platform comes with a System Monitor (SM). The SM includes a web user interface and a programmatic API
to access system components, including its ShMCs and MSP-Nodes.

The IOL IP address of the component you want to connect to might be required when using certain paths. The IP address of
external entities must be in the same subnet as that of the SYMKLOUD components as no default gateway is configured. The
default IOL IP addresses are shown in Figure 5.

Figure 5: Default IP addresses

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 17

The MSP802x includes a KVM functionality that gives users remote access to the servers. The remote console is the
redirected screen, keyboard and mouse of the remote host system. Through media redirection, this functionality allows
users to mount a device, e.g. a USB drive or ISO image, to the servers as a remote device. Once mounted, the device appears
as a local device.

For configuration, refer to the MSP802x KVM Configuration guide on Kontron website under
product MS2900 Manuals

 http://www.kontron.com/products/systems/cloud-systems/symkloud-ms2900-

media.html

The Kontron ipmitool package can be downloaded from the Kontron MS2900 web page
under Tool:

 http://www.kontron.com/products/solutions/cloud-computing-platform-

solutions/symkloud-ms2900-web.html

Ensure the protocol is enabled for the interface you want to access.

Figure 6 and

The Kontron ipmitool package can be downloaded from the Kontron MS2900 web page
under Tool:

 http://www.kontron.com/products/solutions/cloud-computing-platform-

solutions/symkloud-ms2900-web.html

Ensure the protocol is enabled for the interface you want to access.

Figure 7

The Kontron ipmitool package can be downloaded from the Kontron MS2900 web page
under Tool:

 http://www.kontron.com/products/solutions/cloud-computing-platform-

solutions/symkloud-ms2900-web.html

Ensure the protocol is enabled for the interface you want to access.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 18

Figure 6: Diagram of interface paths with a management networking connection

SOL cannot be active at the same time as a serial port backplane connection on the MSH89xx hub. When a connection is
attempted via the serial port while an SOL session is open, SOL will be disconnected. When an SOL connection is attempted
while a serial port connection is active, the serial port connection will be disconnected.

Example of an SOL connection to serial console (OS):

1. Connect to the management port with a cable or via a network.

2. Establish an SOL connection using ipmitool:

 From a PC (for Server1):

ipmitool H <BMC IP address> -U admin P admin I lanplus sol activate [1]

 From a PC (for Server2):

ipmitool H <BMC IP address> -U admin P admin I lanplus sol activate 2

3. The OS specific prompt is displayed, e.g., Login.

The Kontron ipmitool package can be downloaded from the Kontron MS2900 web page
under Tool:

 http://www.kontron.com/products/solutions/cloud-computing-platform-

solutions/symkloud-ms2900-web.html

Ensure the protocol is enabled for the interface you want to access.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 19

Figure 7: Diagram of interface paths with a serial console connection

The serial port communication parameters are 115200 baud, no parity, 8 data bits and backspace key set to "Ctrl-h". BIOS
POST and configuration menu redirection is VT100+. OS console support/configuration is customer specific.

- - -

2 times in a row.

Example of a serial connection to serial console (OS):

1.

2. Establish a connection using the PC terminal emulator with the parameters 115200
baud, no parity and one stop bit

3. To configure the hub console port MUX, type Ctrl-g <Node No. (1-9)>, then Ctrl-gg

<Node Server No. (1-2)>

Table 5: Default usernames and passwords of management interfaces

Configuration interface

Username

Password

SystemMonitor WebUI

admin

admin

ShMC CLI

admin

admin

Server serial console (OS)

Customer specific

Customer specific

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 20

2/ EXTRACTING AND INSERTING AN MSP-NODE

2.1. EXTRACTING AN MSP-NODE

ESD Sensitive Device!
Take all necessary ESD protection measures.

Steps in blue apply only to hot swap procedures.

1. Press the power button of the MSP-Node to be extracted. (The power button should be configured in the operating
system so that it performs a clean shutdown when pressed.)

2. The ID LED of the MSP-Node becomes steady blue: the node is ready to be extracted.

3. To extract the MSP-Node from the slot, pull on the handle while pressing the safety lock (Figure 8) towards the left.

Figure 8: Processor MSP-Node safety lock location

2.2. INSERTING AN MSP-NODE

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 21

ESD Sensitive Device!
Take all necessary ESD protection measures.

1. Holding the handle, insert an MSP-Node.

2. Push it in until the safety lock locks in place. The ID LED becomes steady blue and then turns off during BMC
initialization.

3. After BMC initialization, the power LED of the MSP-Node becomes steady green: the servers are powered on and
ready to use.

2.3. SYSTEM BEHAVIOR UPON HOT SWAP

The system is electrically designed to support a surprise extraction. However, this type of
extraction is not recommended and could affect system performance and functionalities.

When a hot swap procedure is performed on an MSP802x, the following systems and functionalities could be affected:

 All MSP-Nodes: Node-dedicated applications could be affected.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 22

3/ SOFTWARE CONFIGURATIONS AND CONVENTIONS

Before configuring MSP-Nodes, read the following list of mandatory tasks. Refer to this list to ensure the basic tasks
required for proper system operation have been performed. Note that some of these tasks may already have been done.

Mandatory tasks:

 Booting from LAN, from virtual media or from onboard storage
 Installing an OS

Conventions:
The following conventions are used in this guide:

 Elements between < > in blue are variables. The value shown is an example or an instruction of what to enter. Items

between ( ) show a value range for the variable spelled out, e.g., <Switch No. (1-5)> means that you must enter the
number of the switch and that this number can be between 1 and 5.

 The | symbol indicates a choice between two or more alternatives, e.g. x|y|z
 Elements in black bold are selectable menu items or button names.
 Elements in blue italics are configuration options or types.
 The > symbol separates a series of operations required to access a specific element.

Refer to the MSH89xx

Refer to the SYMKLOUD MS29xx Platform Quick Start Guide for a list of default IP addresses.

Configuration command tables:
Sections 5/ contain 2-column tables. The first column describes steps that can be performed in the Web-type interface(s)

named in the header. The second column describes steps that can be performed in CLI-type interface(s) specified in the
header. See Figure 6 and

The Kontron ipmitool package can be downloaded from the Kontron MS2900 web page
under Tool:

 http://www.kontron.com/products/solutions/cloud-computing-platform-

solutions/symkloud-ms2900-web.html

Ensure the protocol is enabled for the interface you want to access.

Figure 7 to find out how to access the specified Web-type or CLI-type interface.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 23

4/ CONFIGURING MSP-NODES

4.1. MSP-NODE RESET

To reset a server on an MSP-Node:

From the server serial console

Send a break sequence (ctrl-break)

From the SMWI

Navigate to the target server
Under Power Commands, select Reset.

From the ShMC CLI (impacts both Servers)

ipmitool>
ipmitool> set targetaddr <BMC IP address>
ipmitool> power reset

From an IOL remote PC (impacts both Servers)

ipmitool H <BMC IP address> -U admin P admin power reset

OR

ipmitool H <ShMC IP address > -U admin P admin t <BMC IP address> power reset

All tasks described in this section reset both servers except the serial port Ctrl-break .
For the serial console connection, the key-combination may be terminal emulator

specific, e.g. with PuTTY, type Ctrl-break or use menu> Special command> Break.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 24

4.2. BOOT ORDER

To set the boot order of an MSP-Node server:

Perform a reset of the server (section 4.1)
Press F2 when prompted to enter the bios setup menu
Select the Boot tab to display the current boot order

To choose the Boot Option Priority

Use the up or down arrow key to select a boot device
Use the + or key to move the boot device up or down
Select the Save & Exit tab
Select Save Changes and Reset

You can boot from a LAN or from onboard storage.
The default Boot Priority Order is as follows: SATA storage (if installed), Base Interface LAN,

Fabric Interface LAN.

To override the boot order of an MSP-Node server (temporarily):

Perform a server reset (section 4.1)
Press F5 when prompted to enter the Boot Menu
Detected boot devices are displayed
Use the up or down arrow key to select a boot device
Press Enter

You can boot from a LAN or from onboard storage

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 25

5/ PERFORMING UPDATES

A ZIP file provided by Kontron contains firmware updates for MSP-Node firmware components.

5.1. ONECLICK UPDATE FOR AN MSP-NODE

To update the firmware of the MSP- BMC, BIOS and FPGA:

SMWI

Computer command prompt

Dashboard > OneClick Upgrade
Click on advanced settings
Select the target platform from the dropdown list
Select the target MSP-Node from the dropdown list
Click on bundle settings
Click on CHANGE BUNDLE FILE
Select the proper .zip file
Click on Open
Wait for the transfer to finish
Click on START UPGRADE

To update all updatable firmware of the MSP-Node

ipmitool H <BMC IP address> -U admin P admin hpm
upgrade <HPM file> all activate

API calls available to update an MSP-Node

Notes

This operation must be repeated for all MSP-Nodes

The IPMI command to update the BIOS firmware
upgrades both servers.

5.2. ONECLICK UPDATE FOR A SYSTEM (ALL COMPONENTS)

To update the firmware of the BMC, BIOS and FPGA of all system components:

SMWI

Computer command prompt

Dashboard > OneClick Upgrade
Click on bundle settings
Click on CHANGE BUNDLE FILE
Select the proper .zip file
Click on Open
Wait for the transfer to finish
Click on START UPGRADE

API

API calls available to update a system

Notes

The update will be performed only for components with
firmware files included in the OneClick Upgrade bundle.

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 26

6/ APPENDIX A SENSOR LISTS

The following tables contain information on the sensors of the MSP802x. Table 7 provides detailed information on the
sensors described in blue in either Table 5 BMC sensor list or Table 6 MMC sensor list.

Table 6: BMC Sensor list

ID

Hex ID

Sensor Name

Sensor Type Code

Reading Type Code

Description

0

0x00

FRU0 Hot Swap

F0h ATCA HotSwap
Sensor

6Fh (Sensor
Specific)

ATCA HotSwap Sensor
1

0x01

FRU1 Hot Swap

2

0x02

FRU2 Hot Swap

3

0x03

FRU0 Reconfig

12h System Event

6Fh (Sensor
Specific)

Sensor population change on carrier

4

0x04

Temp Brd Inlet

01h (Temperature)

01h (Threshold
Based)

Board Inlet Temperature

5

0x05

Temp Brd Outlet

Board Outlet Temperature

6

0x06

Temp Vcore Out.

Board Outlet Temperature

7

0x07

Temp BMC

BMC Temperature

8

0x08

Temp CPU 1

Server1 CPU Temperature

9

0x09

Temp CPU 2

Server2 CPU Temperature

10

0x0A

Temp DIMM A
CPU1

DIMM A Server1 Temperature via SPD

11

0x0B

Temp DIMM A
CPU2

DIMM A Server2 Temperature via SPD

12

0x0C

Temp DIMM B
CPU1

DIMM B Server1 Temperature via SPD

13

0x0D

Temp DIMM B
CPU2

DIMM B Server2 Temperature via SPD

14

0x0E

Vcc +12.0V SUS

02h (Voltage)

01h (Threshold
Based)

On-board 12V suspend power supply

15

0x0F

Vcc +3.3V SUS

On-board 3.3V suspend power supply

16

0x10

Vcc +1.5V SUS

On-board 1.5V suspend power supply

17

0x11

Vcc +1.2V SUS

On-board 1.2V suspend power supply

18

0x12

Brd Inp. Current

03h (Current)

01h (Threshold
Based)

Board current in Amps

19

0x13

Brd Inp. Power

0Bh (Watt)

01h (Threshold
Based)

Power consumption in watts of the
complete blade

20

0x14

Power State

D1h (OEM Power
State)

6Fh (Sensor
Specific)

Board Power State

21

0x15

Ver Change BMC

2Bh (Version
Change)

6Fh (Sensor
Specific)

BMC Firmware Change Detection

22

0x16

Ver Change FPGA

FPGA Firmware Change Detection

23

0x17

Ver Change BIOS

BIOS Firmware Change Detection

24

0x18

IPMI Info-1

C0h (OEM Firmware
Info)

70h (OEM Kontron
Internal Diagnostic)

Internal Management Controller
firmware diagnostic

25

0x19

IPMI Info-2

71h (OEM Kontron
Internal Diagnostic)

26

0x1A

POST Value

C6h (OEM POST
Value)

6Fh (Sensor
Specific)

Show current postcode value
(No event generated)

27

0x1B

Health Status

24h (Platform Alert)

7Fh (OEM Health
Status)

General health status
(Aggregation of critical sensors)

28

0x1C

EventRcv ComLost

1Bh Cable/
Interconnect

03h (Digital
Discrete)

Communication loss with the event
receiver (ShMC)

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 27

ID

Hex ID

Sensor Name

Sensor Type Code

Reading Type Code

Description

29

0x1D

BMC Reboot

24h (Platform Alert)

03h (Digital
Discrete)

BMC Reboot detection

30

0x1E

BMC Storage Err

28h (Management
Subsystem Health)

6Fh (Sensor
Specific)

Management sub-system health
(non-volatile memory error)

31

0x1F

BMC SEL State

10h (Event Logging
Disable)

6Fh (Sensor
Specific)

Specify the status of the SEL
(Cleared/Almost full/Full)

32

0x20

SEL Time Set

12h (System)

6Fh (Sensor
Specific)

Specify when SEL time change

33

0x21

Jumper Status

D3h (OEM Jumper
Status)

6Fh (Sensor
Specific)

Reflects on-board jumper presence

34

0x22

Thermal Error

0Ah (Cooling Device)

03h (Digital
Discrete)

Cooling problem

Table 7: MMC Sensor list

ID

Hex ID

Sensor Name

Sensor Type Code

Reading Type Code

Description

0

0x00

Bx:IPMI Info-1

C0h
(OEM Firmware
Info)

70h (OEM Kontron
Internal Diagnostic)

Internal Management Controller
firmware diagnostic

1

0x01

Bx:IPMI Info-2

71h (OEM Kontron
Internal Diagnostic)

2

0x02

Bx:ModuleHotSwap

F2h Module Hot
Swap

6Fh (Sensor Specific)

Module Hot Swap

3

0x03

Bx:MMC Stor Err

28h
(Management
Subsystem
Health)

6Fh (Sensor Specific)

Management sub-system health
(non-volatile memory error)

4

0x04

Bx:IPMI Watchdog

23h (Watchdog)

6Fh (Sensor Specific)

IPMI Watchdog
(payload watchdog)

5

0x05

Bx:CPU Reset

CFh (Board
Reset)

03h
(Digital Discrete)

Board reset type and sources

6

0x06

Bx:Vddq

02h
(Voltage)

01h (Threshold Based)

On-board Vddq payload power supply

7

0x07

Bx:Vcc +3.3V

On-board 3.3V payload power supply

8

0x08

Bx:Vcc +3.3V L

On-board 3.3V L payload power supply

9

0x09

Bx:Vcc +1.5V

On-board 1.5V payload power supply

10

0x0A

Bx:Vcc +1.05V

On-board 1.05V payload power supply

11

0x0B

Bx:Power State

D1h (OEM Power
State)

6Fh (Sensor Specific)

Board Power State

12

0x0C

Bx:Power Good

08h
(Power Supply)

77h (OEM)

Actual power good status

13

0x0D

Bx:PowerGood Evt

03h (Digital Discrete)
Power good status event that occur

since the last power on or reset

14

0x0E

Bx:PWROK Capt. 1

Latched power rail status
15

0x0F

Bx:PWROK Capt. 2

16

0x10

Bx:CPU Status

07h
(Processor)

6Fh
(Sensor Specific)

Processor 0 Status

17

0x11

Bx:ACPI State

22h (System
ACPI Power
State)

6Fh
(Sensor Specific)

Advance Configuration and
Power Interface State

18

0x12

Bx:MMC SEL State

10h (Event
Logging Disable)

6Fh
(Sensor Specific)

Specify the status of the SEL
(Cleared/Almost full/Full)

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 28

ID

Hex ID

Sensor Name

Sensor Type Code

Reading Type Code

Description

19

0x13

Bx:Health Status

24h
(Platform Alert)

7Fh (OEM Health
Status)

General health status
(Aggregation of critical sensors)

20

0x14

Bx:POST Value

C6h (OEM POST
Value)

6Fh
(Sensor Specific)

Show current postcode value
(No event generated)

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 29

Table 8: Detailed information for specific sensors

Sensor

Name

Event/Re

ading

type code

Sensor

Type

Sensor Specific

offset

Event Trigger

IPMI

Info-1

Bx:IPMI

Info-1

70h

OEM

Kontron

Firmware

Info 1

C0h

OEM

Kontron

Firmware

Info

00h
01h
02h to 0Eh
0Fh

Event Code Assert Trigger
Event Overflow Trigger
Code Assert Line (Binary Encoded)
Unused, Reserved

IPMI

Info-2

Bx:IPMI

Info-2

75h

OEM

Kontron

Firmware

Info 2

C0h

OEM

Kontron

Firmware

Info

00h
01h
02h to 0Eh
0Fh

Event Code Assert Trigger
Unused Trigger
Code Assert File Id (Binary Encoded)
Unused, Reserved

Bx:Powe

r Good

77h

OEM

Kontron

Power

Good

08h

Standard

IPMI
Power
Supply

00h
01h
02h
03h
04h
05h
06h
07h
08h
09h
0Ah
0Bh
0Ch
0Dh
0Eh
0Fh

1.05V_M

0.75V_SUS

1.25V_SUS

1.5V_SUS

3.3V_SUS
Combined (3.3V_SUS & 1.5V_SUS & 1.25V_SUS & 0.75V_SUS)

1.5V_S0

3.3V_S0
Vcore

1.05V_S0
VttDdr
Vddq
Unused
Unused
Unused
Unused

Jumper

Status

6Fh

Standard

IPMI

sensor

specific

D3h

Kontron

OEM

Jumper

Status
Sensor

00h
01h
02h
03h
04h
05h
06h
07h
08h
09h

Jumper 00 Present ( JP4: 1-2 )
Jumper 01 Present ( JP4: 3-4 )
Jumper 02 Present ( JP4: 5-6 )
Jumper 03 Present ( JP4: 7-8 )
Jumper 04 Present ( JP4: 9-10 )
Jumper 05 Present ( JP4: 11-12 )
Jumper 06 Present ( JP4: 13-14 )
Jumper 07 Present ( JP3: 1-2 )
Jumper 08 Present ( JP3: 3-4 )
Jumper 09 Present ( JP3: 5-6 )

Power

State

Bx:

Power

State

6Fh

Standard

IPMI

sensor

specific

D1h

Kontron

OEM
Power

state

sensor

00h
01h
02h
03h
04h

Power ON
Power OFF
Power ON Request
Power OFF Request
Full Reset In Progress

POST
Value

Bx:POST

Value

6Fh

Standard

IPMI
sensor
specific

C6h

OEM

Kontron

POST Code

Value

00h to 07h
14h

POST code LOW byte value, no event generated on these offsets

POST Code Error Event Trigger
Event Data 2: POST Low Nibble
Event Data 3: POST High Nibble

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 30

Sensor

Name

Event/Re

ading

type code

Sensor

Type

Sensor Specific

offset

Event Trigger

Bx:CPU

Reset

03h

Standard

IPMI

Discrete

CFh

OEM

Kontron

Reset

00h
01h
State Asserted /
State Deasserted

Event Data 2: Reset Type

00h: Warm reset
01h: Cold reset
02h: Forced Cold [ Warm reset reverted to Cold ]
03h: Soft reset [ Software jump ]
04h: Hard Reset
05h: Forced Hard [ Warm reset reverted to Hard ]

Event Data 3: Reset Source

00h: IPMI Watchdog [ cold, warm or forced cold ]
( IPMI Watchdog2 sensors gives additional details )
01h: IPMI commands [ cold, warm or forced cold ]
( chassis control, FRU control )
02h: Processor internal check stop
03h: Processor internal reset request
04h: Reset button [ warm or forced cold ]
05h: Power up [ cold ]
06h: Legacy Initial Watchdog /
Warm Reset Loop Detection * [ cold reset ]
07h: Legacy Programmable Watchdog [ cold, warm or forced cold ]
08h: Software Initiated [ soft, cold, warm of forced cold ]
09h: Setup Reset [ Software Initiated Cold ]
0Ah: Power Cycle / Full Reset / Global Platform Reset

FFh: Unknown

Health
Status

Bx:

Health
Status

7Fh

(OEM

Health

Status)

24h

(Platform

Alert)

00h Status not
available in current
state
01h Healthy
02h Informational
fault
03h Minor fault
04h Major fault
05h Critical fault

Event Data 3:
If the sensor is an aggregation sensor, then event data 2 is used to return the
ID of the first sensor from the aggregation that caused the fault.

Sensor Aggregation List:
FRU0
ID: Sensor Name
04h: Temp Brd Inlet
05h: Temp Brd Outlet
07h: Temp BMC

08h: Temp Server1 CPU
09h: Temp Server2 CPU

0Eh: Vcc +12.0V SUS
0Fh: Vcc +3.3V SUS
10h: Vcc +1.5V SUS
11h: Vcc +1.2V SUS

FRU1/2:
ID: Sensor Name
04h: Bx:IPMI Watchdog
06h: Bx:Vddq
07h: Bx:Vcc +3.3V
08h: Bx:Vcc +3.3V L
09h: Bx:Vcc +1.5V
0Ah: Bx:Vcc +1.05V
0Eh: Bx:PWROK Capt. 1
0Fh: Bx:PWROK Capt. 2

MSP8020 Series User Guide Rev. 1.1

www.kontron.com // 31



CORPORATE OFFICES

EUROPE, MIDDLE EAST
& AFRICA

NORTH AMERICA

ASIA PACIFIC

Lise-Meitner-Str. 3-5
86156 Augsburg
Germany
Tel.: +49 821 4086-0
Fax: +49 821 4086-111
info@kontron.com

14118 Stowe Drive
Poway, CA 92064-7147
USA
Tel.: +1 888 294 4558
Fax: +1 858 677 0898
info@us.kontron.com

1~2F, 10 Building, No. 8 Liangshuihe 2nd Street,
Economical & Technological Development Zone,
Beijing, 100176, P.R. China
Tel.: +86 10 63751188
Fax: +86 10 83682438
info@kontron.cn

About Kontron
Kontron, a global leader in embedded computing technology and trusted advisor in IoT,

works closely with its customers, allowing them to focus on their core competencies by
offering a complete and integrated portfolio of hardware, software and services designed
to help them make the most of their applications.

With a significant percentage of employees in research and development, Kontron creates
many of the s
life numerous technologies and applications that touch millions of lives. The result is an
accelerated time-to-market, reduced total-cost-of-ownership, product longevity and the
best possible overall application with leading-edge, highest reliability embedded
technology

Kontron is a listed company. Its shares are traded in the Prime Standard segment of the

For more

information, please visit: http://www.kontron.com/