QUANTA STRATOS S210 Series S210-X12RS User Manual

STRATOS S210 Series

S210-X12RS

Ultra-Socket High Memory

1U Rackmount Server

User's Guide

Version: 1.0

CONVENTIONS

XV

Conventions

Several different typographic conventions are used throughout
this manual. Refer to the following examples for common
usage.

Bold type face denotes menu items, buttons and application
names.

Italic type face denotes references to other sections, and the
names of the folders, menus, programs, and files.

<Enter> type face denotes keyboard keys.

WARNING!

Warning information appears before the text it references and
should not be ignored as the content may prevent damage to
the device.

CAUTION!

CAUTIONS APPEAR BEFORE THE TEXT IT REFERENCES, SIMILAR TO
NOTES AND WARNINGS. CAUTIONS, HOWEVER, APPEAR IN CAPITAL
LETTERS AND CONTAIN VITAL HEALTH AND SAFETY INFORMATION.

Important:

Indicates information that is important to know for the proper
completion of a procedure, choice of an option, or completing a
task.

!

!

Note:

Highlights general or useful information and tips.

ACRONYMS

XVI

Acronyms

TERM DEFINITION

A/D Analog to Digital

ACPI Advanced Configuration and Power Interface

ASF Alerting Standard Forum

Asserted

Active-high (positive true) signals are asserted when in
the high electrical state (near power potential). Active­low (negative true) signals are asserted when in the low
electrical state (near ground potential).

BIOS Basic Input/Output System

BIST Built-In Self Test

BMC

At the heart of the IPMI architecture is a microcontroller
called the Baseboard management controller (BMC)

Bridge

Circuitry connecting one computer bus to another,
allowing an agent on one to access the other

BSP Bootstrap processor

Byte 8-bit quantity

CLI Command Line Interface

CMOS

In terms of this specification, this describes the PC-AT
compatible region of battery-backed 128 bytes of
memory, which normally resides on the baseboard

CPU Central Processing Unit

Deasserted

A signal is deasserted when in the inactive state. Active­low signal names have “_L” appended to the end of the
signal mnemonic. Active-high signal names have no “_L”
suffix. To reduce confusion when referring to active-high
and active-low signals, the terms one/zero, high/low, and
true/false are not used when describing signal states.

DTC Data Transfer Controller

EEPROM Electrically Erasable Programmable Read-Only Memory

EMP Emergency Management Port

FRU Field Replaceable Unit

GB 1024 MB.

GPIO General Purpose Input/Out

HSC Hot-Swap Controller

Hz Hertz (1 cycle/second)

I

2

C

Inter-Integrated Circuit bus

IANA Internet Assigned Numbers Authority

IBF Input buffer

ICH I/O Controller Hub

ICMB Intelligent Chassis Management Bus

IERR Internal Error

IP Internet Protocol

IPMB Intelligent Platform Management Bus

ACRONYMS

XVII

IPMI Intelligent Platform Management Interface

ITP In-Target Probe

KB 1024 bytes.

KCS Keyboard Controller Style

KVM Keyboard, Video, Mouse

LAN Local Area Network

LCD Liquid Crystal Display

LCT Lower Critical Threshold

LED Light Emitting Diode

LNCT Lower Non-Critical Threshold

LNRT Lower Non-Recoverable Threshold

LPC Low Pin Count

LSI Large Scale Integration

LUN Logical Unit Number

MAC Media Access Control

MB 1024 KB

MD2 Message Digest 2 – Hashing Algorithm

MD5 Message Digest 5 – Hashing Algorithm – Higher Security

Ms Milliseconds

Mux Multiplexer

NIC Network Interface Card

NMI Nonmaskable Interrupt

NM Node Management

OBF Output buffer

OEM Original Equipment Manufacturer

Ohm Unit of electrical resistance

PDB Power Distribution Board

PEF Platform Event Filtering

PEP Platform Event Paging

PERR Parity Error

POH Power-On Hours

POST Power-On Self Test

PWM Pulse Width Modulation

RAC Remote Access Card

RAM Random Access Memory

RMCP Remote Management Control Protocol

ROM Read Only Memory

RTC

Real-Time Clock. Component of the chipset on the
baseboard.

RTOS Real Time Operation System

SCI Serial Communication Interface

SDC SCSI Daughter Card

SDR Sensor Data Record

SEEPROM

Serial Electrically Erasable Programmable Read-Only
Memory

ACRONYMS

XVIII

SEL System Event Log

SERR System Error

SMBus

A two-wire interface based on the I

2

C protocol. The
SMBus is a low-speed bus that provides positive
addressing for devices, as well as bus arbitration

SMI

Server Management Interrupt. SMI is the highest priority
nonmaskable interrupt

SMM Server Management Mode

SMS Server Management Software

SNMP Simple Network Management Protocol

SOL Serial Over LAN

UART Universal Asynchronous Receiver/Transmitter

UCT Upper Critical Threshold

UDP User Datagram Protocol

UNCT Upper Non-Critical Threshold

UNRT Upper Non-Recoverable Threshold

WDT Watchdog Timer

Word 16-bit quantity

SAFETY INFORMATION

XIX

Safety Information

Important Safety Instructions

Read all caution and safety statements in this document before
performing any of the instructions.

Warnings

Heed safety instructions: Before working with the server,
whether using this manual or any other resource as a refer­ence, pay close attention to the safety instructions. Adhere to
the assembly instructions in this manual to ensure and maintain
compliance with existing product certifications and approvals.
Use only the described, regulated components specified in this
manual. Use of other products / components will void the UL
listing and other regulatory approvals of the product and will
most likely result in non-compliance with product regulations in
the region(s) in which the product is sold.

System power on/off: The power button DOES NOT turn off
the system AC power. To remove power from system, you must
unplug the AC power cord from the wall outlet. Make sure the
AC power cord is unplugged before opening the chassis, add­ing, or removing any components.

Hazardous conditions, devices and cables: Hazardous elec­trical conditions may be present on power, telephone, and com­munication cables. Turn off the server and disconnect the
power cord, telecommunications systems, networks, and

modems attached to the server before opening it. Otherwise,
personal injury or equipment damage can result.

Electrostatic discharge (ESD) and ESD protection: ESD can
damage drives, boards, and other parts. We recommend that
you perform all procedures in this chapter only at an ESD work­station. If one is not available, provide some ESD protection by
wearing an antistatic wrist strap attached to chassis ground any
unpainted metal surface on the server when handling parts.

ESD and handling boards: Always handle boards carefully.
They can be extremely sensitive to electrostatic discharge
(ESD). Hold boards only by their edges. After removing a board
from its protective wrapper or from the server, place the board
component side up on a grounded, static free surface. Use a
conductive foam pad if available but not the board wrapper. Do
not slide board over any surface.

Installing or removing jumpers: A jumper is a small plastic
encased conductor that slips over two jumper pins. Some jump­ers have a small tab on top that can be gripped with fingertips
or with a pair of fine needle nosed pliers. If the jumpers do not
have such a tab, take care when using needle nosed pliers to
remove or install a jumper; grip the narrow sides of the jumper
with the pliers, never the wide sides. Gripping the wide sides
can damage the contacts inside the jumper, causing intermittent
problems with the function controlled by that jumper. Take care
to grip with, but not squeeze, the pliers or other tool used to
remove a jumper, or the pins on the board may bend or break.

REVISION HISTORY

XX

Revision History

Refer to the table below for the updates made to this manual.

Copyright

Copyright © 2014 Quanta Computer Inc. This publication,
including all photographs, illustrations and software, is pro­tected under international copyright laws, with all rights
reserved. Neither this manual, nor any of the material contained
herein, may be reproduced without the express written consent
of the manufacturer. All trademarks and logos are copyrights of
their respective owners.

Version 1.0.2 3/11/14

Disclaimer

The information in this document is subject to change without
notice. The manufacturer makes no representations or warran-

ties with respect to the contents hereof and specifically dis­claims any implied warranties of merchantability or fitness for
any particular purpose. Furthermore, the manufacturer reserves
the right to revise this publication and to make changes from
time to time in the content hereof without obligation of the man­ufacturer to notify any person of such revision or changes.

For the latest information and updates please refer to

www.QuantaQCT.com

All the illustrations in this technical guide are for reference only
and are subject to change without prior notice.

DATE CHAPTER UPDATES

3/11/14

Specification Ivy-Bridge plafform support

BIOS Adding iSCSI and other sections

BMC Adding SNMP and Quanta SMASH

REVISION HISTORY

XXI

About the Server

Chapter 1

About the Server

Chapter 1

ABOUT THE SERVER INTRODUCTION

1-1

1.1 Introduction

This manual is written for system technicians who are responsible for troubleshooting, upgrading, and repairing the server chassis.
This document provides an overview of the hardware features of the chassis, troubleshooting information, and instructions on how to
add and replace components of the multi-node server series.The document also provides information on the BIOS, and Baseboard
Management Controller (BMC).

For the latest version of this manual, see www.QauntaQCT.com.

System Features

The system comprises a 1U/28.66” long chassis using 16.5” x

19.18” mainboard. The major components are featured as fol­lows:

 Chipset: Intel

®

C602 series, upgradeable ROM kit sup-

port.

 Processors (x2): Intel

®

Xeon processor E5-2600 / E5-

2600 v2 product family.

 PCI Express: (1) PCIe x16 G3 Low profile riser slot, (1)

PCIe x8 G3 Network Mezzanine slot, (1) PCIe x8 G3 SAS/
RAID Mezzanine slot.

 Memory: Up to twenty-four DIMM slots are available.

DDR3 800/1066/1333/1600/1866 MHz RDIMM/LR-DIMM
memory is supported.

 Storage: Up to ten 2.5" SATA/SAS hot-plug drives or four

3.5" SATA/SAS hot-plug drives. One SATADOM is
optional.

 Network: Intel

®

Powerville I350GbE RJ45 or Intel® Twin-

ville X540 10G BASE T RJ45 dual-port on board.

Note:

A second processor must be installed (in
processor slot 2) to activate the expansion slot and
to allow the mezzanine card in there to function
properly.

Note:

Expansion cards descriebed in the document are
optional components.

Table 1-1: Specification

Chassis type 1U Chassis

ABOUT THE SERVER SYSTEM FEATURES

1-2

Size (L x W x H)

 728.0 mm x 438.0 mm x 43.2 mm
 28.6" x 17.2" x 1.7"

MB factor (W x L)

 487.17 mm x 419.1 mm
 19.18" x 16.5"

Processor

(2) Intel

®

Xeon® processor E5-2600/ E5-

2600 V2 family, up to 130W

Chipset

Intel

®

C602 (Patsburg A)

SAS Controller

Intel® SAS controller

 Intel

®

C602 (Patsburg A) upgrade ROM

#1 (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM

#2 (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM

#5 (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM

#6 (optional)

or

LSI SAS controller

 Quanta LSISAS 2008 Mezzanine card

(optional)

 Quanta LSISAS 2108 Mezzanine card

(optional)

 Quanta LSISAS 2208 Mezzanine card

(optional)

 Quanta LSISAS 2308 Mezzanine card

(optional)

Table 1-1: Specification (Continued)

System Memory

 (24) DDR3 800/1066/1333/1600/1866

MHz

 ECC RDIMM/LR-DIMM slots up to 768

GB

Storage

 (10) 2.5" SATA/SAS hot-plug drives, or
 (4) 3.5" SATA/SAS hot-plug drives
 (1) SATADOM (optional)

HDD Backplane 1 to 1 or expander

PCI Expansion Slot

 (1) PCIe x16 G3 low profile riser slot
 (1) PCIe x8 G3 10GbE SFP+ Mezzanine

slot

 (1) PCIe x8 G3 Quanta LSISAS/RAID

Mezzanine slot

Table 1-1: Specification (Continued)

ABOUT THE SERVER SYSTEM FEATURES

1-3

Software RAID Options

Intel® SW RAID

 Intel

®

RSTe SATA RAID 0/1/10 (AHCI

HDD)

 Intel

®

C602 (Patsburg A) upgrade ROM

#1 RAID 0/1/10 for SCU (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM

#2 RAID 0/1/10/5 for SCU (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM

#5 RAID 0/1/10 for SCU (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM

#6 RAID 0/1/10/5 for SCU (optional)

 Intel

®

C602 (Patsburg A) upgrade ROM
#9 SATA RAID 0/1/10/5 for SCU
(optional)

or

LSI SW RAID

 Quanta LSISAS 2008 mezzanine card

for RAID 0/1/10 (optional)

 Quanta LSISAS 2308 mezzanine card

for RAID 0/1/10 (optional)

Hardware RAID Options

 Quanta LSISAS2208 PD-32 mezzanine

card for RAID 0/1/10/5 (optional)

 Quanta LSISAS2208 PD-32 mezzanine

card + LSI RAID 6 Key for RAID 0/1/10/5/
6/50/60 (optional)

Table 1-1: Specification (Continued)

Network Interface

 (2) Intel

®

Powerville I350 GbE RJ45

ports, or

 (2) Intel

®

Twinville X540 10G BASE T

RJ45 ports

Management Port (1) Dedicated GbE RJ45 management port

Integrated Graphics BMC

Aspeed AST2300 8MB DDR3 Video
memory

Rear I/O Interface

 (2) USB 2.0 ports
 (1) VGA port
 (1) RS232 serial Port
 (2) GbE or 10G BASE-T RJ45 ports
 (1) GbE RJ45 management port
 (1) ID button with LED

Power Supply

 (1) 750W high efficiency PSU, 100-

240VAC 50/60Hz

 (1) 750W high efficiency redundant PSU,

100-240VAC 50/60Hz (optional)

TPM Yes (optional)

RoHS Yes

Systems Management

 IPMI v2.0 Compliant
 On board "KVM over IP" support

Table 1-1: Specification (Continued)

ABOUT THE SERVER PACKAGE CONTENTS

1-4

Package Contents

The following list includes the package components:

 (1) 1U chassis system

 (1) Mainboard modules

 (2) Processor heatsinks

 (1) Power supply

 (1) Power cord (Optional)

 (1) CD (user manual included)

 (1) Rail kit