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ATCA-7367 Installation and Use - Artesyn Embedded Technologies

1. Indicates hazardous situation which if not avoided may result in minor or moderate injury Indicates property damage message XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 300900000000000000000000000000000000000000000000000 No danger encountered Pay attention to important 3OO00000000000000000000000000000000000000000000000 i nfo rmati on H 1 1 1 1 ATCA 7367 Installation and Use 6806800K72N 21 About this Manual Summary of Changes Part Number Publication Date Description 6806800K72N September 2015 Updated ATCA 7367 IPMC information in Table 9 9 on page 199 Updated the sections Standard Compliances on page 37 Installation on pag
2. 2 2 2 2 2 1 114 4 12 2 Standard Status 222 2 24 114 DS Functional Description RU EG REA EE S SCR UR ERROR Us 121 5 1 Block Diagram rre ESSI Y Re rre 121 5 2 Processor 121 5 3 er tere eU De RR REG Ue 122 5 3 1 DDR3 Main 7 124 5 4 CHIPSETS an anal 124 5 5 WO Controller nee 125 5 6 Persistent Memory Module 128 5 7 Etherme tPorts een a nn eb 128 58 anne a 129 5 9 Storage 2 2 2 2 2 129 5 10 Embedded Flash Disk 2 2 4 130 5 10 1 SATA Embedded Flash Solid State Disc SSD 130 5 1 BIOS sans ea ss m asides ses nennen 130 5 12 IPMC anna ee en se he A 130 5 13 Serial Redirection 2 224 222 131 5 14 Serial OVerLAN 5 se OR Hr 132 5 15 USB2 0Interface 24 2 24
3. 56 2 6 1 Installing the 2 24 2 2 57 2 6 2 Removing the 2 2 2422 60 3 Controls Indicators and Connectors 63 3 1 Mechanical a er 63 3 2 Faceplate ERU EUER d Pe pt 65 32 1 LEDS rere dee beste di Few RE E EPIO TEES 67 baec nennen een 68 7367 Installation and Use 6806800K72N 3 Contents 3 2 2 1 Face Plate Connectors 68 3 3 Onboard Connectors 225255555 a en 70 3 3 1 USB2 0 FLASH Connector 2 2 70 3 3 2 JKeyIDQ cheeks bik ensure de Mi eins es 70 3 3 3 Backplane 2 2 71 3 34 i sais sie atten 73 a BIOS ne Me 77 A Introduction Reihe 77 4 2 Accessing the Blade using the Serial Console Redirection 78 4 2 1 Requirements eser EL hoes Were tbe e 79 4 2 2 Default Access Parameters 79 4 2 3 Connecting
4. 183 8 4 18 Set Payload Shutdown Time Out 184 8 4 19 Get Module State Command 4 184 8 4 20 Enable Module Site 24 186 8 4 21 Disable Module Site Command 186 8 4 22 Reset Carrier SDR Repository 187 9 FRU Information and Sensor Data Records 189 E S Ini a a 189 9 2 MAC Address una een nn een an Be nn 191 9 3 E Keying ee ne be En ne es 192 9 4 Power CODTIGHTatiOI an 195 9 5 SensorData Records nern a a nn dese sadhana 195 ATCA 7367 Installation and Use 6806800K72N 7 Contents 10 Firmware Upgrade nah 207 10 1 HPM 1 Firmware Upgrade 24 2 24 2 207 TOIT Overview ee ee pe ee 207 10 1 2 Installing 2 2222 22 2 2 207 10 1 2 1 Update Procedure 2 207 10 1 3 Interface nn sea eis eher es hen 208 10 1 3 1 KCS Interface u a ae 208 10 1 352 0 es 208 10 1 3 3 IPMI over LAN BASE en 208 10 2 IPMC Upgrade u
5. 70 Figure 3 6 P30 Backplane Connector Pinout RowsAtoD 74 Figure 3 7 P30 Backplane Connector Pinout Rows Eto H 74 Figure 3 8 P32 Backplane Connector Pinout Rows Ato 75 Figure 3 9 P32 Backplane Connector Pinout Rows Eto H 75 Figure 4 1 sind herr ae ann 81 Figure 4 2 p are 84 Figure 4 3 IPMIBoot Parameter pev e dasa re 85 Figure 4 4 WEIT 91 Figure 4 5 Advanced 2 2 92 Figure 4 6 la NM D 103 Figure 4 7 ISCSI Men une espero ER ei ste beg yp RU pap 106 Figure 4 8 fed 108 Figure 4 9 Security MENU 55 e een 110 Figure 4 10 Save amp EXIE MOD uses sete erc io reete cere lee denn 111 Figure 4 11 Event Logs Meri sire ne 112 Figure 5 1 Block Diagrami ana 121 Figure 5 2 1 35 1 5 V Voltage Selection for lt 124 Figure 5 3 ICHTOR Diagramm un 127 Figure 5 4 SFMEM 7221 Module dimensions bottom 128 Figure 6 1 Interrupt Structure 7367 135 Figure 6 2 IOH36D PCle Port Mapping ATCA 7367 138 Figure 7 1 SOL OQVEMIEW
6. 7367 Installation and Use P N 6806800K72N September 2015 EEE Copyright 2015 Artesyn Embedded Technologies Inc All rights reserved Trademarks Artesyn Embedded Technologies Artesyn and the Artesyn Embedded Technologies logo are trademarks and service marks of Artesyn Embedded Technologies Inc 2015 Artesyn Embedded Technologies Inc All other product or service names are the property of their respective owners Intel is a trademark or registered trademark of Intel Corporation or its subsidiaries in the United States and other countries Java and all other Java based marks are trademarks or registered trademarks of Oracle America Inc in the U S and other countries Microsoft Windows and Windows Me are registered trademarks of Microsoft Corporation and Windows XP is a trademark of Microsoft Corporation PICMG CompactPCI AdvancedTCA and the PICMG CompactPCI and AdvancedTCA logos are registered trademarks of the Industrial Computer Manufacturers Group UNIX is a registered trademark of The Open Group in the United States and other countries Notice While reasonable efforts have been made to assure the accuracy of this document Artesyn assumes no liability resulting from any omissions in this document or from the use of the information obtained therein Artesyn reserves the right to revise this document and to make changes from time to time in the content hereof without obligation of A
7. 5 4 4 147 8 1 5 FRU Inventory 5 147 8 1 6 Sensor Device 5 148 8 1 7 Chassis Device 5 149 8 1 7 1 System Boot Options Commands 149 8 1 8 LAN Device 5 24 2 159 8 2 PICMG3 0 Commands exse e chen Ra eee 160 8 2 1 Set Get Power Level rers ccc ccc eee cence eene e 161 8 3 Artesyn Embedded Technologies Specific Commands 162 8 3 1 Set Get Feature 162 8 3 1 1 Set Feature Configuration OXTE 163 8 3 1 2 Get Feature Configuration OXTF 164 8 3 2 Serial Output 5 4 165 6 ATCA 7367 Installation and Use 6806800K72N Contents 8 3 2 1 Set SerialOutput 165 8 3 2 2 GetSerial Output Command 166 8 4 Pigeon Point Specific 168 8 41 Get Status Command a
8. x4 x8 x8 x8 x8 x16 x16 Figure 6 2 IOH36D PCle Port Mapping ATCA 7367 Base IF 138 Tylersburg IOH36D ATCA 7367 Installation and Use 6806800K72N Serial Over LAN 7 1 Overview Serial Over LAN SOL is a mechanism that you can use to redirect the serial console from the blade via an IPMI session over the network SOL uses the RMCP protocol The IPMC is used to establish and control the SOL session SOL is only available on the base interface The sideband interface of the Intel 82576 in pass through mode is used to transmit receive its terminal characters via the base interface Figure 7 1 SOL Overview LPC Intel 5520 Hub PCI Express o0 0 ooocd n You can configure the SOL parameters using the standard IPMI commands or via an open source tool called ipmitool 7 2 Installing the ipmitool You can download the open source tool ipmitool from http ipmitool sourceforge net at the time of publishing this manual the current version is 1 8 10 Documentation for this tool is also freely available on this site ATCA 7367 Installation and Use 6806800K72N 139 Serial Over LAN 7 3 7 3 1 140 Procedure To install the ipmitool proceed as follows 1 2 Download the ipmitool tar file from http ipmitool sourceforge net to your blade Extract the source code prompt gt tar xjvf ipmitool lt version gt tar bz2 Goto the dir
9. Get Port State Compute Power Properties Set Power Level Get Power Level ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 18 Supported PICMG 3 0 Commands continued NetFn Command Request Response CMD Comments Get IPMB Link Info 0x2C 0x2D 0x18 Set AMC Port State 0x2C 0x2D 0x19 Get AMC Port State Get FRU Control Capabilities Get target upgrade capabilities Get component properties Abort firmware upgrade 0x2C 0x2D 0x30 Initiate upgrade action 0x31 Upload firmware block Finish firmware upload Get upgrade status Activate firmware 0x2C 0x2D Query self test results 0x2C 0x2D 0x36 Query rollback status 0x2C 0x2D 0x37 Initiate manual rollback 0x2C 0x2D 0x38 The firmware upgrade commands supported by the blade are implemented according to XE the PICMG HPM 1 Revision 1 0 specification The boot block can be updated with PICMG HPM 1 specific commands 8 2 1 Set Get Power Level The blade supports two power levels In case of a shelf which only allows 116 W per slot the P States of the blade will be restricted to match this requirement The second power level has no restrictions For more information refer to Chapter 4 BIOS on page 77 ATCA 7367 Installation and Use 6806800K72N 161 Supported IPMI Commands 8 3 ML 8 3 1 162 Artesyn Embedded Technologies Specific Commands The Ar
10. 48 ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation Table 2 3 Switch SW1 settings continued Switch Function TSOP or Debug Socket SPI Boot select OFF boot from TSOP SPI Flash either Default Recovery ON boot from Debug Socket SPI Flash Default Boot from TSOP SPI Flash SW1 4 ICH10 GPIO33 Pinstrap SPI Flash OFF No SPI Flash Descriptor Security Override Strap Descriptor security and ME disable if sampled LOW override and ME working in 50 51 Table 2 4 Switch SW2 Settings Switch Function Default SW2 2 IPMC Debug Console Routing OFF IPMC Debug Console at 3 pin Header ON IPMC Debug Console at Faceplate instead of FPGA COM Table 2 5 Switch SW3 Settings Function Default SW3 1 Enable manual Default SPI Boot Flash Recovery SPI Boot Flash selection OFF Boot Bank controlled by IPMI default ON Boot bank controlled by SW3 2 OFF OFF IPMC Debug Console TTL level routing OFF IPMC Debug Console at 3 pin Header IPMI selects Boot Flash SW3 2 SW3 2 controls Boot flash selection if SW3 1 is set OFF to ON OFF Booting from Boot Bank A ON Booting from Boot Bank B ATCA 7367 Installation and Use 6806800K72N 49 Hardware Preparation and Installation Table 2 5 Switch SW3 Settings continued Switch Function Default SW3 3 OFF Reset push button enabled OFF Disable face plate reset
11. Establishing a SOL Session To start a SOL session the following requirements must be fulfilled An Ethernet LAN connection to the 82576 controller of the ATCA 7367 must exist 7367 IPMC FW must correspond to version 2 00 7 and above Procedure To establish a SOL session proceed as follows 1 Make sure that the requirements detailed above are fulfilled 2 Compile and install the ipmitool on your target which is destined for opening the SOL session on the ATCA 7367 For details refer to Installing the ipmitool on page 139 3 Apply an IP address to the ATCA 7367 SOL interface For details refer to Configuring SOL Parameters on page 140 4 If necessary change user and password Default user is soluser and password is solpasswd 5 Configure the network between the ATCA 7367 and your target which is destined for opening the SOL session so that the SOL IP address is accessible ATCA 7367 Installation and Use 6806800K72N 143 Serial Over LAN 6 Start ATCA 7367 SOL session on your target with the ipmitool and the configured IP address for the ATCA 7367 SOL interface ipmitool 1 lanplus 172 16 0 221 U soluser P solpasswd k gkey sol activate For details on the command parameters refer to the ipmitool documentation available on http ipmitool sourceforge net MI To access BIOS setup screen it is necessary to reset the payload SOL session is only available Io ifthe payload is powered on an
12. Sicherheitshinweise EN Dieses Kapitel enth lt Hinweise die potentiell gef hrlichen Prozeduren innerhalb dieses Handbuchs vorrangestellt sind Beachten Sie unbedingt in allen Phasen des Betriebs der Wartung und der Reparatur des Systems die Anweisungen die diesen Hinweisen enthalten sind Sie sollten au erdem alle anderen Vorsichtsma nahmen treffen die f r den Betrieb des Produktes innerhalb Ihrer Betriebsumgebung notwendig sind Wenn Sie diese Vorsichtsma nahmen oder Sicherheitshinweise die an anderer Stelle diese Handbuchs enthalten sind nicht beachten kann das Verletzungen oder Sch den am Produkt zur Folge haben Artesyn Embedded Technologies ist darauf bedacht alle notwendigen Informationen zum Einbau und zum Umgang mit dem Produkt in diesem Handbuch bereit zu stellen Da es sich jedoch um ein komplexes Produkt mit vielfaltigen Einsatzm glichkeiten handelt k nnen wir die Vollst ndigkeit der im Handbuch enthaltenen Informationen nicht garantieren Falls Sie weitere Informationen ben tigen sollten wenden Sie sich bitte an die f r Sie zustandige Gesch ftsstelle von Artesyn Das System erf llt die f r die Industrie geforderten Sicherheitsvorschriften und darf ausschlie lich f r Anwendungen in der Telekommunikationsindustrie und im Zusammenhang mit Industriesteuerungen verwendet werden Einbau Wartung und Betrieb d rfen nur von durch Artesyn ausgebildetem oder im Bereich Elektronik oder Elektrotechnik qualifiziertem P
13. ee en ea eae 169 8 4 2 Get Serial Interface Properties Command 172 8 4 3 Set Serial Interface Properties 173 8 4 4 Get Debug Level Command 4 4 174 8 4 5 Set Debug 2 175 8 4 6 Get Hardware Address 176 8 4 7 Set Hardware Address Command 176 8 4 8 Get Handle Switch Command 177 8 4 9 Set Handle Switch 178 8 4 10 Get Payload Communication 178 8 4 11 Set Payload Communication Time Out Command 179 8 4 12 Enable Payload Control Command 180 8 4 13 Disable Payload 180 8 4 14 Reset IPMC 24 24 24 4 181 8 4 15 Hang 24 181 8 4 16 Graceful 182 8 4 17 Get Payload Shutdown Time Out Command
14. 132 5 16 SMBUS Interface a nennen en SI Re re Ea ern 133 ATCA 7367 Installation and Use 6806800K72N 5 Contents 5 17 RealTime Clock ccc 134 5 18 Single Width Mid size AMC 2 2 2 134 6 Maps and Registers io oon npe wer a 135 6 1 Interrupt Structure siiis ent Rx en ns an a ee 135 6 2 PCLEXpress Port MappinG aaa eee Pee eee Y ee 138 7 Serial LAN une 139 7 1 OVEIVIEW a ee 139 7 2 Installing 2 2 24 2 2 7 7 2 139 7 3 Configuring SOL Parameters 2 4 140 7 3 1 Using Standard IPMI 140 7 3 2 Usingpmitool ea ce a 141 7 4 Establishing 501 Session 2 4 2 2 143 8 Supported IPMI Commands 145 8 1 Standard IPMI Commands 2 2 2 4 145 8 1 1 Global IPM 5 2 4 145 8 1 2 System Interface 5 145 8 1 3 Watchdog 2 2 2 4 2 146 8 1 4 SELDevice
15. Sin n RTM and USB Ports ATCA 7367 Installation and Use 6806800K72N 47 Hardware Preparation and Installation 2 4 M Switch Settings All mechanical switches are OFF in their default configuration Switch selection used for debugging is grouped in separate devices These devices are not assembled in volume production Switches reside on the component side 1 and are not covered by any other component Blade Malfunction Switches marked as Reserved may carry production related functions and may cause the blade to malfunction if the setting is changed Therefore do not change settings of switches marked as Reserved The setting of switches which are not marked as Reserved has to be checked and changed before blade installation Blade Damage Setting resetting the switches during operation can cause blade damage Therefore check and change switch settings before you install the blade For normal operation all switches must be OFF Switches are used only for repair manual maintenance and critical crisis recovery For remote maintenance and in order that all firmware upgrade features through IPMC are available all switches must be in their default OFF position and are controlled through IPMC Table 2 3 Switch SW1 settings Switch Function Default SW1 1 Default SPI Boot Flash Write Not Write Protected protection SW1 2 Recovery SPI Boot Flash Write OFF Not Write Protected protection
16. the Blade 80 4 3 Changing Configuration 5 5 24 80 4 4 jBooEODEHOISs s oe e he ee 82 4 4 1 Supported Boot Devices 4 82 4 4 2 Selecting The 6 82 4 4 3 By Boot Selection 84 4 5 IPM Boot Parameter sa era RU EU RN ES DOT 85 4 6 Restoring BIOS Default Settings 2 2 86 47 Support for 116 Watt Slots 2 87 4 6 es Dre 87 4 9 Upgrading the 5 2 4 88 4 10 BIOS 55 5 55 see sre e tto t einen 88 4 11 BIOS Setup Utility ee oes tenia We kant 89 MOR MPH 91 4 11 2 Advanced Menu 2 2 2 2 442 2 4 92 4 11 2 1 WHEA Configuration 93 4 11 2 2 CPU Configuration 2 93 4 11 2 3 MemoryConfiguration 2 4 94 4 11
17. 0 and LAN over BASE The LAN interface is only supported if the payload is powered on M4 The BASE Ethernet controller also has to be powered on for this feature KCS Interface The standard way to upgrade the firmware of the payload is through the KCS interface Update through this interface is the fastest HPM 1 upgrade The images and the Ipmi tool need to be on the payload to be upgraded Example Prompt gt ipmitool hpm upgrade lt file gt 0 This interface represents the backplane bus and allows remote firmware upgrade count of the simultaneous upgrades is limited because of the bus speed Example from shelf manger Prompt gt ipmitool t 0x92 hpm upgrade lt file gt Example with RMCP Prompt gt ipmitool I lan 192 168 34 8 U Administrator Administrator t 0x92 hpm upgrade lt file gt IPMI over LAN BASE The IPMI over LAN interface uses the BASE Ethernet controller to do firmware upgrades The interface has to be configured before the first use Configuring this interface is described in Chapter 7 Configuring SOL Parameters on page 140 Example ATCA 7367 Installation and Use 6806800K72N Firmware Upgrade Prompt gt Ipmitool I lan H 172 16 0 221 U P hpm upgrade lt file gt 10 2 IPMC Upgrade The IPMC component is fully HPM 1 compatible and contains three elements as shown on the figure below Figure 10 1 IPMC Component Elements 0x00000 Boot Load
18. 0x04 0x05 Get Sensor Reading Factors 0x04 0x05 Set Sensor Hysteresis 0x04 0x05 Get Sensor Hysteresis 0x04 0x05 Set Sensor Threshold 0x04 0x05 Most of the threshold based sensors have fixed thresholds Before using this command check whether threshold setting is supported by using the Get Device SDR command Get Sensor Threshold 0x04 0x05 ee Set Sensor Event Enable 0x04 0x05 Get Sensor Event Enable 0x04 0x05 Get Sensor Event Status 0x04 0x05 Get Sensor Reading 0x04 0x05 eo Get Sensor 0x04 0x05 Ox2F Set Event Receiver 0x04 0x05 0x00 Get Event Receiver 0x04 0x05 0x01 Platform Event 0x04 0x05 0x02 148 ATCA 7367 Installation and Use 6806800K72N 8 1 7 8 1 7 1 Supported Commands Chassis Device Commands Table 8 7 Supported Chassis Device Commands Command NetFn Request Response CMD Set System Boot Options 0x00 0x01 Get System Boot Options 0x00 0x01 System Boot Options Commands The IPMI system boot options commands allow you to control the boot process of a blade by sending boot parameters to the blade s boot firmware for example BIOS U Boot or VxWorks The boot firmware interprets the sent boot parameters and executes the boot process accordingly Each boot parameter addresses a particular functionality and consists of a sequence of one or more bytes The IPMI specification assigns numbers to boot parameters Boot parameters 0 to 7 are
19. A 1 Artesyn Embedded Technologies Embedded Computing Documentation The publications listed below are referenced in this manual You can obtain electronic copies of Artesyn Embedded Technologies Embedded Computing publications by contacting your local Artesyn sales office For released products you can also visit our Web site for the latest copies of our product documentation 1 2 3 Go to www artesyn com computing Under SUPPORT click TECHNICAL DOCUMENTATION Under FILTER OPTIONS click the Document types drop down list box to select the type of document you are looking for In the Search text box type the product name and click GO Table B 1 Artesyn Embedded Technologies Embedded Computing Publications Document Title Publication Number Basic Blade Services Software for the ATCA 7367 6806800K42 Programmer s Reference ATCA 7367 Quick Start Guide 6806800K66 ATCA 7367 Safety Notes Summary 6806800K67 ATCA 7367 Release Notes 6806800K70 ATCA 7367 Installation and Use 6806800K72N 217 Related Documentation B 2 Related Specifications For additional information refer to the following table for related specifications As an additional help a source for the listed document is provided Please note that while these sources have been verified the information is subject to change without notice Table B 2 Related Specifications Organization Document Title PCI SIG PCI Local Bus Specification
20. Header Checksum zero checksum LSB of Manufacturer ID Write as CDh Second Byte of Manufacturer ID Write as 65h MSB of Manufacturer ID Write as 00h Artesyn Record ID 01h for Artesyn MAC Address Record s 1 Record Format Version 00h for this specification i 4 5 6 7 8 ATCA 7367 Installation and Use 6806800K72N 191 FRU Information and Sensor Data Records 9 3 M 192 Table 9 3 Artesyn MAC Addresses Record continued Offset Length Description Number of MAC Address Descriptors Artesyn MAC Address Descriptors Refer to Table 21 for definitions of Artesyn MAC Address Descriptor Table 9 4 Artesyn MAC Address Descriptor 0 1 Interface Type Refer to the table below for Interface Type Assignments 1 6 MAC Address First Octet comes first Table 9 5 Interface Type Assignments Interface Type Description ATCA Base Interface AMC MicroTCA Common Options Region 02h ATCA Fabric Interface or AMC MicroTCA Fat Pipe Region 03h Front Panel 04h AMC MicroTCA Extended Fat Pipe Region E Keying The following table lists the e keying information provided by the blade The respective information is contained in the point to point connectivity record area The fibre channel interfaces link type extension 2 described in the point to point connectivity record area are physically not supported by the b
21. Intel CPU microarchitecture Tylersburg Intel Codename for Intel IOH36D device Zoar Conventions 20 Intel Codename for Intel 82576 Ethernet device The following table describes the conventions used throughout this manual Notation 0x00000000 0 0000 bold Description Typical notation for hexadecimal numbers digits are 0 through F for example used for addresses and offsets Same for binary numbers digits are 0 and 1 Used to emphasize a word Screen Used for on screen output and code related elements or commands in body text Courier Bold Reference Used to characterize user input and to separate it from system output Used for references and for table and figure descriptions File gt Exit Notation for selecting a submenu lt text gt Notation for variables and keys text Notation for software buttons to click on the screen and parameter description Repeated item for example node 1 node 2 node 12 ATCA 7367 Installation and Use 6806800K72N About this Manual Notation Description Omission of information from example command that is not necessary at the time being Ranges for example 0 4 means one of the integers 0 1 2 3 and 4 used in registers Logical OR Indicates d hazardous situation which if not avoided could result in death or serious injury
22. Ox3B Ox3F Ox4E Ox4F Post Memory South Bridge initialization is started OEM post memory initialization codes DXE IPL is started Memory Initialization Codes 0 0 Chipset initialization OxB1 OxB2 OxB3 Detect reset state DIMM detect Clock initialization Read SPD data early memory controller initialization Check DIMM population OxB8 0 9 Channel initialization Channel training Run Build In Self Test OxBA Initialize memory map OxBB Setup RAS configuration OxBF Memory initialization complete PEI Error Codes 0x53 0x55 0x56 Memory initialization error No usable memory detected Memory not installed Invalid CPU type or Speed ATCA 7367 Installation and Use 6806800K72N BIOS Table 4 34 PEI Status Codes continued Status Code Description CPU mismatch CPU self test failed or possible CPU cache error 0x59 CPU micro code is not found or micro code update is failed 0 5 Internal CPU error Ox5B Reset PPI is not available Memory Error Codes DDR initialization error OxEB Memory test error OxED Mixed memory types OxEE Population error Recovery Progress Codes OxFO Recovery condition triggered by firmware Auto recovery OxF1 Recovery condition triggered by user Forced recovery OxF2 Recovery process started OxF3 Recovery firmware image is found OxF4 Recovery firmware image is loaded OxF5 OxF7 Reserved
23. Serial Port for Out of Band Management Windows Emergency Management Services EMS Out of Band Mgmt Port Serial Port for Out of Band Management Windows Emergency Management Services EMS Data Bits COMO Serial Port for Out of Band Management Windows Emergency Management Services EMS Parity Serial Port for Out of Band Management Windows Emergency Management Services EMS Stop Bits None Serial Port for Out of Band Management Windows Emergency Management Services EMS Terminal Type VT UTF8 is the preferred terminal type for out of band management The next best choice is VT100 and then VT100 See above in Console Redirection Settings page for more Help with Terminal Type Emulation This option is only valid when EMS Console Redirection is enabled Options VT100 VT100 VT UTF8 and ANSI Default is VT UTF8 ATCA 7367 Installation and Use 6806800K72N BIOS 101 BIOS 4 11 2 9 1 COMO Console Redirection Settings Table 4 20 COMO Console Redirection Settings Terminal Type Bits per second Data Bits Stop Bits Resolution 100x31 Legacy OS Redirection Description Emulation ANSI Extended ASCII char set VT100 ASCII char set VT100 Extends VT100 to support color function keys etc VT UTF8 Uses UTF8 encoding to map Unicode chars onto 1 or more bytes Options VT100 VT100 VT UTF8 and ANSI Default is VT100 Selects serial port transmission speed The s
24. specifications Ox1 Hard Reset Ox6F 8 0 2 Power Down 0x3 Power Cycle 0 8 Timer Interrupt 0x15 IPMC POST Management 7 4 See IPMC Spec OxFF OxFF 0x0 Performance Met Asrt Auto Subsystem discrete 3 0 Offset 0 1 0 1 Performance Lags Health 0x06 0x28 Asrt Assertion Unr Upper non recoverable threshold Uc Upper critical threshold Unc Upper non critical threshold Deass Deassertion Lnr Lower non recoverable threshold Lc Lower critical threshold Lnc Lower non critical threshold 202 ATCA 7367 Installation and Use 6806800K72N Table 9 9 Sensor Data Records continued FRU Information and Sensor Data Records Sensor Event Reading Number Sensor Sensor Type Type Event Data Byte 1 Event Data Byte 2 0x16 Version change Version Sensor specific 7 4 See IPMC Spec Change type Change discrete 3 0 Offset 0 1 2 3 4 0x2B Ox6F 5 6 7 Event Data Byte 3 OxFF Event Threshold Description 0x0 Hardware change 0x1 Firmware or software change 0 2 Hardware incompatibility 0x3 Firmware or software incompatibility 0x4 Entity is of an invalid hardware version 0 5 Entity contains invalid F W software 0x6 Hardware Change successful 0x7 Software or F W change successful Assertion Deassertion Asrt Rearm Auto 0x17 Fw Progress System Sensor specific 7 4 See Spec See IPMI Spec Firmware discrete 3 0
25. 2 4 Chipset North Bridge 95 4 11 2 5 Chipset South Bridge 97 4 11 2 6 SATA Configuration 2 98 4 11 2 7 USB Configuration 2 2 99 4 11 2 8 SuperlO Configuration 100 4 ATCA 7367 Installation and Use 6806800K72N Contents 4 11 2 9 Serial Port Console Redirection 100 4 11 2 10NetworkStack 103 4 113 IPMIMenU ee 103 4 11 3 1 System 1064 105 4 11 3 2 View FRU Information 105 4 11 4 1S CSI Men ee Fiera 106 4 11 4 1 iSCSI Port 107 4 11 5 Boot Men cree denise REY EXE een 108 4 11 5 1 Option ROM Execution 109 4 11 6 Securty ise b D ace S eti 110 4 11 7 Save amp ete e erect aee tpe ea 111 4 11 8 5 EE baa bee ERE ENS ER 112 4 12 BIOS Status Codes esee ere ee ea ah ea ER aas 114 4 12 1 Status Code
26. 6806800K72N 151 Supported IPMI Commands This timer specifies how long the IPMC waits for the payload to shut down gracefully If the payload software does not configure its OpenIPMI library to be notified for graceful shutdown requests the IPMC shuts down the payload when the timer expires Table 8 11 System Boot Options Parameter 498 Bit Description Timeout for GRACEFUL SHUTDOWN LSB given in 100 msec Timeout for GRACEFUL SHUTDOWN MSB given in 100 msec The System Boot Options parameter 98 is non volatile During blade production its data is initialized to OxFF and its state is set to invalid Its parameter data remains preserved after IPMC power cycles and firmware upgrades M 8 1 7 1 4 System Boot Options Parameter 100 The system boot options parameter 100 allows you to send multiple boot options to the blade s boot firmware and thus control the boot process The boot options which you can configure using this parameter are typically a subset of the boot options which you can configure in the boot firmware directly for example using a setup menu Details are given in this section The IPMC contains a storage area where the boot parameters are stored When the blade boots the boot firmware reads out the storage area interprets the parameters and executes the boot process accordingly Note that the boot parameters in the IPMC storage area have higher priority than the same boot options which may be configured i
27. BIOS Setup program the flash memory contains POST and Plug and Play support The BIOS displays a message during POST identifying the type of BIOS and a revision code A BIOS extension is provided for the RTM based SAS controller to support RAID configuration IPMC The blade features an Intelligent Platform Management Controller IPMC compliant to PICMG 3 0 and IPMI 1 5 and 2 0 SOL only The IPMC is a management subsystem providing monitoring event logging and recovery control The IPMC serves as the gateway for management applications to access the payload hardware The IPMC firmware FW is stored in two independent memory images Crisis recovery control is provided to allow reboot of the IPMC from a second image if the upgraded FW image is corrupted FW images can be upgraded via HPM 1 IPMI using either IPMB or KCS interface The IPMC supports the initiation of a graceful shutdown of the host CPU The IPMC can force the CPU to reset It also controls the power and reset of the payload ATCA 7367 Installation and Use 6806800K72N Functional Description 5 13 The IPMC provides a watchdog that supervises the payload If enabled the payload software needs to retrigger the Watchdog to prevent time out A watchdog time out can generate a NMI a payload reset or disabling cycling of the payload power The watchdog settings including enable disable can be changed by payload software setup menu Time out values can be selected fro
28. DDR 4 Temp Temperature DDR 5 Temp Temperature DDR 6 Temp Temperature IPMB Physical PICMG 3 0 1PMB Physical Link BMC Watchdog Watchdog 2 0x14 IPMC POST Management Subsystem Health 0x15 Version Change Version Change Fw Progress System Firmware Progres OS Boot OS boot Boot Error Boot Error System Boot Initiated POST Code Artesyn specific Discrete Digital Ox1B ATCA 7367 IPMC Artesyn IPMC Status Power Good Entity Presence Boot Bank Artesyn specific Discrete Digital Reset Source Artesyn specific Discrete Digital CPU Status Processor 0x20 196 ATCA 7367 Installation and Use 6806800K72N FRU Information and Sensor Data Records eee EEE Hotswap_AMC 0x01 sensor only exists for variants with the AMC bay populated The total oj number of sensors if there is no AMC in the slot is 0x20 ATCA 7367 Installation and Use 6806800K72N 197 FRU Information and Sensor Data Records The following figure shows the locations of all temperature sensors available on board Figure 9 1 Location of Temperature Sensors Top Edge Temp 198 ATCA 7367 Installation and Use 6806800K72N FRU Information and Sensor Data Records The sensors available on the blades are detailed in the table below For sensor threshold definition please use the ipmitool available at http sourceforge net projects ipmitool files ipmitool with the parameter sensor Table 9 9 Sensor Data
29. Enable Setup Verifying Password OxA9 Start of Setup Setup Input Wait Ready To Boot event Legacy Boot event Exit Boot Services event OxBO Runtime Set Virtual Address MAP Begin OxB1 Runtime Set Virtual Address MAP End Legacy Option ROM Initialization System Reset USB hot plug PCI bus hot plug Configuration Reset reset of NVRAM settings DXE Error Codes 0 initialization error OxD1 North Bridge initialization error 0xD2 South Bridge initialization error Some of the Architectural Protocols are not available PCI resource allocation error Out of Resources ATCA 7367 Installation and Use 6806800K72N 119 BIOS Table 4 35 DXE Status Codes continued Status Code Description No Space for Legacy Option ROM No Console Output Devices are found No Console Input Devices are found Invalid password Error loading Boot Option Loadlmage returned error Boot Option is failed Startlmage returned error Flash update is failed Reset protocol is not available 120 ATCA 7367 Installation and Use 6806800K72N Chapter 5 Functional Description 5 1 Block Diagram The block diagram shows how the devices work together and the data paths used Figure5 1 Block Diagram 5 2 Processor Westmere EP processor is a six core processor based on a 32 nm process technology first implementation of the Intel Nehalem Micro architecture The proce
30. IRQ A H SCI or TCO it must not be used for ISA legacy style Interrupts via SERIRQ In PIC Mode 8259 mode PCI Interrupts are mapped to IRQ3 7 9 12 14 or 15 If IRQ11 is used for Timer 2 software must ensure IRQ11 is not shared with any other devices to guarantee the proper operation of Timer 2 ThelCH10R does not prevent the sharing of IRQ11 Interrupts can individually be programmed to be edge or level except for IRQO IRQ2 IRQ8 and IRQ13 136 ATCA 7367 Installation and Use 6806800K72N Maps and Registers Table 6 2 APIC Mode Interrupt Mapping IRQ Interrupt Source Cascade from 8259 1 8254 Counter 0 Timer 0 legacy mode RTC Timer 1 legacy mode Option for TCI TCO Option for TCI TCO Timer 2 Option for TCI TCO Timer 3 12 SATA Primary legacy mode 15 SATA Secondary legacy mode 16 PIRQ A PIRQ B PIRQ C PROIE GPO 21 PIRQ F GPIO 22 PIRQ G GPIO 23 PIRQ H GPIO In APIC mode the PCI Interrupts A H are mapped to IRQ 16 23 ATCA 7367 Installation and Use 6806800K72N 137 Maps and Registers If an Interrupt is used for PCI IRQ A H SCI or TCO it must not be used for ISA legacy style interrupts via SERIRQ 6 2 PCI Express Port Mapping Xeon 5520 Tylersburg IOH36 PClexpress ports have the naming convention as seen in Figure IOH36D PCle Port Mapping on ATCA 7367 on page 138 Table 6 3 PClexpress Port Mapping
31. Records Sensor Number 0x00 Sensor Name Hot Swap Carrier Sensor Type Hot Swap OxFO Event Reading Type Sensor specific discrete Ox6F Event Data Byte 1 7 4 See IPMC Spec 3 0 Current State 0 1 2 3 4 5 6 or7 Event Data Byte 2 7 4 Cause 3 0 Previous State Event Data Byte 3 7 0 FRU ID Event Threshold Description For the Field Current State Previous State 0x0 MO 0 1 M1 0 2 2 0 3 3 0 4 4 0 5 5 0 6 6 0 7 7 Assertion Deassertion Asrt Rearm Auto 0x01 Hotswap_AMC Asrt Assertion Hot Swap OxFO Sensor specific discrete Ox6F 7 4 See IPMC Spec 3 0 Current State 0 1 2 3 4 5 6 or7 7 4 Cause 3 0 Previous State 7 0 FRU ID For the Field Current State Previous State 0x0 MO 0 1 M1 0x2 M2 0x3 M3 0 4 4 0 5 5 0 6 6 0 7 7 Asrt Auto Unr Upper non recoverable threshold Lnr Lower non recoverable threshold Uc Upper critical threshold Lc Lower critical threshold Unc Upper non critical threshold Deass Deassertion Lnc Lower non critical threshold ATCA 7367 Installation and Use 6806800K72N 199 FRU Information and Sensor Data Records Table 9 9 Sensor Data Records continued Sensor Event Reading Event Assertion Number Sensor Sensor Type Type Event Da
32. a trace of IPMB L messages that are arriving to going from the IPMC via IPMB L Bit 6 n a Bit 5 KCS Dump Enable If set to 1 the IPMC provides a trace of KCS messages that are arriving to going from the IPMC via KCS Bit 4 IPMB Dump Enable If set to 1 the IPMC provides a trace of IPMB messages that are arriving to going from the IPMC via IPMB O Bit 3 n a Bit 2 Alert Logging Enable If set to 1 the IPMC outputs important alert messages onto the serial debug interface Bit 1 Low level Error Logging Enable If set to 1 the IPMC outputs low level error diagnostic messages onto the serial debug interface Bit 0 Error Logging Enable If set to 1 the IPMC outputs error diagnostic messages onto the serial debug interface 174 ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 4 5 Set Debug Level Command The Set Debug Level command sets the current debug level of the IPMC firmware Table 8 33 Set Debug Level Command Description Type Byte Data Field Request Data 1 3 PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB byte first byte 1 0A byte 2 40 byte 3 00 4 Bit 7 IPMB L Dump Enable If set to 1 the IPMC provides a trace of IPMB L messages that are arriving to going from the IPMC via IPMB L Bit 6 n a Bit 5 KCS Dump Enable If set to 1 the IPMC provides a trace of KCS messages that are arriving to going from t
33. as specified in PICMG 3 0 specification Amber Attention This LED has amber color and is programmable through IPMC Its local control state is off It permits override control by higher layer software such as middle ware or applications as specified in PICMG 3 0 specification ETH connector ETH Activity Green Ethernet Activity Off No activity ATCA 7367 Installation and Use 6806800K72N 67 Controls Indicators and Connectors Table 3 1 Face Plate LEDs continued Color Description ETH Link Amber Ethernet Link established Off No Link U1 U2 Red Base Interface activity is visualized via FPGA LEDs U1 and U2 Alternatively User LED selectable color via FPGA register Red Green Colors red green amber Amber H S Blue FRU State Machine During blade Installation Permanently blue On board IPMC powers up Blinking blue Blade communicates with shelf manager OFF Bladeis active During blade removal Blinking blue Blade notifies shelf manager of its desire to deactivate Permanently blue Blade is ready to be extracted 3 2 2 Connectors 3 2 2 1 Face Plate Connectors Table 3 2 RJ45 female Serial Line Connector Pinout Pin Signal NC COMI RS232 TXD GND GND COM1_RS232_RXD NC NPD BR WwW 68 ATCA 7367 Installation and Use 6806800K72N Controls Indicators and Connectors Table 3 2 RJ45 female Serial Line Connect
34. be used Feature Selector SAS Signal Switch for AMC or Update Channel Feature Configuration 00h SAS to Zone 2 update channel 01h SAS to AMC Default 02h restore factory default Persistency Duration FFh persistent over power cycle default Completion Code Generic plus the following command specific completion codes 80h feature selector not supported 81h feature configuration not supported 82h configuration persistency duration not supported Response Data i 1 2 3 6 1 2 3 LSB of Artesyn IANA Enterprise Number A value of CDh shall be used 2nd byte of Artesyn IANA Enterprise Number A value of 65h shall be used MSB of Artesyn IANA Enterprise Number A value of O0h shall be used ATCA 7367 Installation and Use 6806800K72N 163 Supported IPMI Commands 8 3 1 2 Get Feature Configuration 0x1F This command can be used to retrieve the IPMI feature set being configured Table 8 21 Get Feature Configuration Command Request Data LSB of Artesyn IANA Enterprise Number A value of CDh shall be used 2nd byte of Artesyn IANA Enterprise Number A value of 65h shall be used MSB of Artesyn IANA Enterprise Number A value of 00h shall be used Feature Selector a value of OxEO shall be used OxEOh SAS Switch for AMC or Update Channel Response Data Completion Code Generic plus the following command specific completion codes 80h fea
35. boot options need to be stored as a sequence of zero terminated strings The following table describes in detail the format of the boot options to be used when setting or reading the System Boot Options parameter 100 Table 8 12 System Boot Options Parameter 100 Data Format Byte Description Number of bytes used for boot parameters LSB first The number of bytes must be calculated and written into these two bytes by the software which writes into the storage area The values 0x0000 and OxFFFF indicate that no data has been written to the storage area When reading from the storage area and you find any of these two values your software should assume that no user specific boot options have previously been written to the storage area ATCA 7367 Installation and Use 6806800K72N 153 Supported IPMI Commands Table 8 12 System Boot Options Parameter 100 Data Format continued Byte Description Boot parameters data The boot parameters are stored as ASCII text with the following general format lt name gt lt value gt where all name value pairs are separated by a zero byte The end of the boot parameter data is indicated by two zero bytes Allowed and supported name value pairs are blade specific Details are given below 16 byte checksum over the boot parameters data section LSB first For backward compatibility reasons the checksums 0x0000 and OxFFFF are accepted as valid They indicate that no c
36. buffer is not ready 1 IPMB L buffer is ready 185 Supported IPMI Commands 8 4 20 Enable Module Site Command The Enable Module Site command is used to enable a module site Table 8 48 Enable Module Site Command Description Type Request Data Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 byte 2 40 byte 3 00 Module Site ID Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 8 4 21 Disable Module Site Command The Disable Module Site command is used to disable a module site If a module site is disabled the IPMC firmware ignores the module inserted and acts as if the module is not present Table 8 49 Disable Module Site Command Description Type Request Data Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Module Site ID Response Data Completion Code 186 PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 ATCA 7367 Installation and Use 6806800K72N Supported IPMI Commands 8 4 22 Reset Carrier SDR Repository Command The Reset Carrier SDR Repository command is used to clear and rebuild the carrier SDR re
37. components make sure that you are working in an ESD safe environment 52 ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation Removal Procedure To remove a DIMM module proceed as follows 1 Remove blade from system as described in nstalling and Removing the Blade on page 56 2 Open locks of socket at both sides The memory module is automatically lifted up 3 Remove module from socket 4 Repeat steps 2 to 3 in order to remove further memory modules 2 5 2 SATA Module The PMEM SATA extension slot allows assembly of either a PMEM or SATA module which are available as upgrade kits for ATCA 7367 PMEM module consists of an SRAM and a flash memory The SRAM has a capacity of up to 16 MB and can be used as persistent memory i e a memory that holds up the contents during reset The flash memory has a capacity of up to 64 MB organized as two memory banks The S F memory module connects to the blade s PCI subsystem It can be configured via an FPGA register The SATA module consists of a Solid State Disc of up to 128 GB and a SATA controller and connects physically to 10 SATA Port 5 The extension module is mechanically fastened to the blade with two screws The location of the two corresponding mounting holes as well as the S F memory module connector is shown in Figure ATCA 7367 Blade Layout on page 47 The PMEM and SATA module are accessory kits and are not part of th
38. depth Single slot ATCA 280mm x 322mm Weight of blade ATCA 7367 0GB 3 07 kg ATCA 7367 12GB 3 15 kg Ordering Information As ofthe printing date of this manual this quide supports the models listed below Table 1 3 Blade Variants Ordering Information Product Name Description ATCA 7367 12GB ATCA processor blade 15638 6 core 2 0 GHz 3X 4GB 10G support site ATCA 7367 24GB ATCA processor blade L5638 6 core 2 0 GHz 3X 8GB 10G support AMC site ATCA 7367 0GB ATCA processor blade L5638 6 core 2 0 GHz OGB 10G support AMC site ATCA 7367 12GB LS ATCA processor blade L5638 6 core 2 0 GHz 3X 4GB 10G support on board SATA drive no AMC site ATCA 7367 0GB LS ATCA processor blade 15638 6 core 2 0 GHz OGB 10G support optional on board SATA drive no AMC site 1 AMC filler panel not included 2 No memory installed ATCA 7367 Installation and Use 6806800K72N 39 Introduction 40 As of the printing date of this manual the following board accessories are available Table 1 4 Blade Accessories Ordering Information ATCA7367 HDD1 SATA 80GB SATA HDD ext temp kit for on board use with ATCA 7367 xxGB LS ATCA 7360 MEM 2G 2GB DDR3 VLP memory module for ATCA 736X product series ATCA 7360 MEM 4G 4GB DDR3 VLP memory module for ATCA 736X product series ATCA 7360 MEM 8G 8GB DDR3 VLP memory module for ATCA 736X product series RTM ATCA 7360 RTM for the ATCA 736X p
39. ee 209 10 3 BIOS FPGA Upgrade 22er nase en aan 210 10 4 Upgrade Package 2 set ee na nenn en 211 A Replacing the Battery 3 ann sane smocked DERE LU DUUEE PED 213 Replacing the Battery 2 2 24 2 4 2 213 B Related Documentation 0 00 0000000000000 nn en nn ne 217 B 1 Artesyn Embedded Technologies Embedded Computing Documentation 217 B 2 Related 5 2 4 2 218 8 ATCA 7367 Installation and Use 6806800K72N List of Tables EN Table 1 1 Standard Comipliances scs nee E RU ERREUR 37 Table 1 2 Mechanical Data scat see Sod e Er e ee 39 Table 1 3 Blade Variants Ordering Information 39 Table 1 4 Blade Accessories Ordering Information 40 Table 2 1 Environmental Requirements 44 Table 2 2 Power Requirements 1 v baa tr ads Edad e ERREUR ERE RE EE RENE EE KR 46 Table 2 3 Switch SW 1 settings sau ee UR RA 48 Table 2 4 Switch SWZ Settings sis sada opes es CEP CERE EUM M nur bed ee 49 Table 2 5 Switch SW3 Settings rer 222 aa HH RERO ORE XN RUPEE ES 49 Table 2 6 SWIECh SWA Settiligs Ati ES 50 Table 3 1 Face Plate LEDS 15 521 ea l
40. ehesten a 139 Figure 8 1 System Boot Options Parameter 100 Information Flow Overview 153 Figure 9 1 Location of Temperature 198 Figure 10 1 Component Elements 209 Figure 10 2 SPI B sses een 211 Figure A 1 Location of On board Battery 213 ATCA 7367 Installation and Use 6806800K72N 13 List of Figures eee a 14 ATCA 7367 Installation and Use 6806800K72N About this Manual ee Overview of Contents This Reference Guide is intended for users qualified in electronics or electrical engineering Users must have a working understanding of Peripheral Component Interconnect PCI AdvancedTCA and telecommunications The manual contains the following chapters and appendices About this Manual on page 15 lists all conventions and abbreviations used in this manual and outlines the revision history Safety Notes on page 25 lists safety notes applicable to the blade Sicherheitshinweise on page 29 provides the German translation of the safety notes section Introduction on page 35 describes the main features of the blade Hardware Preparation and Installation on page 43 outlines the installation requirements hardware accessories switch settings installation and removal procedures Controls Indicators and Connectors on page 63 des
41. from the payload If the IPMC receives such a command before the payload communication time out time it sends the 0x00 completion code Success to the shelf manager Otherwise the OxCC completion code is sent The IPMC does not reset the payload upon receiving the Graceful Reset command or time out Ifthe IPMC participation is necessary the payload must request the IPMC to perform a payload reset The Graceful Reset commandis also used to notify the IPMC about the completion of the payload shutdown sequence Table 8 44 Graceful Reset Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 OA byte 2 40 byte 3 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 ATCA 7367 Installation and Use 6806800K72N Supported IPMI Commands 8 4 17 Get Payload Shutdown Time Out Command When the shelf manager commands the IPMC to shut down the payload i e sends the Activate FRU Deactivate command the IPMC notifies the payload by forwarding the command Activate FRU Deactivate to the KCS interface Provided the OpenIPMI driver has registered this command for notification the payload gets notified Upon receiving this notification the payload software is expected to initiate the payload shutdown sequence After p
42. lever and the latch together 2 Insert blade into the shelf by placing the top and bottom edges of the blade in the card guides of the shelf Ensure that the guiding module of shelf and blade are aligned properly 3 Apply equal and steady pressure to the blade to carefully slide the blade into the shelf until you feel resistance Continue to gently push the blade until the blade connectors engage 4 Squeeze the lever and the latch together and hook the lower and the upper handle into the shelf rail recesses ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation 5 Fully insert the blade and lock it to the shelf by squeezing the lever and the latch together and turning the handles towards the face plate If your shelf is powered on as soon as the blade is connected to the backplane power pins the blue LED is illuminated When the blade is completely installed the blue LED starts to blink This indicates that the blade announces its presence to the shelf management controller If an RTM is connected to the front blade make sure that the handles of both the RTM and Io the front blade are closed in order to power up the blade s payload 6 Waituntil the blue LED is switched off then tighten the face plate screws which secure the blade to the shelf The switched off blue LED indicates that the blade s payload has been powered up and that the blade is active 7 Connect cables to the face p
43. lt 2 gt 7 8 CLK100 RTMPCIE10 P CLK100_RTMPCIE10_M JE 8 87 JTAG TRST N 8 9 RTM IPMB SCL RTM IPMB SDA 3 3 _ n c Reserved 9 NORTM_VP12 RTM_VP12 RTM_V3P3 RTM_V3P3 Figure 3 7 P30 Backplane Connector Pinout Rows E to H ab eee 111 51_ RTM_POWERGOOD 1 2 5 53_ SA83 TX M sass 8x SAS3 M 2 3 TX P TX M 5 51 SAS1_RX_M 3 4 5 1_ _ SATA1 TX N 5574 8x 4 5 nc nc 5 6 PCIE_PORT10_RX_P lt 1 gt PCIE PORTO RX lt 1 gt gt 5 _ 10_ _ lt 1 gt PORTIO vet 6 7 PCIE_PORT10_RX_P lt 3 gt PCIE PORTIO RX M3 s e Ce Ess FS ecie_PoRTIo Tx lt 3 gt PCIE_PORT10_TX_M lt 3 gt 7 g JTAG_TCK_RTM JTAG_TNS_RTM oe es gs _ 8 9 Reserved 88 50 OUT 9 10 5 RTM_ENABLE_N Eos 2 _88 120 DAT D 74 ATCA 7367 Installation and Use 6806800K72N Controls Indicators and Connectors Figure 3 8 P32 Backplane Connector Pinout Rows A to D 1 PCIE PORT9 RX P 0 PCIE_PORTS_RX_M lt 0 gt Goal a fle Pee PoRre lt 0 gt PCIE PORTS TX M 1 2 PCIE
44. main feature of ATCA 7367 e Form factor Single slot ATCA 280mm x 322mm e Processor Intel Westmere EP Six Core processor Intel XEON 5600 series Drop in compatible with Intel Nehalem EP processor Intel XEON 5500 Series e North Bridge Xeon 5520 Tylersburg IOH36 D Provide two interfaces for connecting to up to two Intel Xeon processors Providing 36 PCI e Gen2 lanes Intel Virtualization Technology ESI interface and Management Engine FCBGA37 5mm x 37 5 mm 1295 balls South Bridge ICH10R ESI connection to Xeon 5520 Tylersburg IOH36 D Provides extensive I O support and Boot path to redundant SPI Boot flashes 1 0 interfaces include SATA USB2 0 LAN LPC interface RTC with WDT e Base interface Dual 10 100 1000Base T Ethernet e Fabric Interface Dual 1G 10Gbps Ethernet interfaces support PICMG3 1 option 1 and 9 e Update Channel One 10 100 1000Base T and SAS ports e RTM Interface Five PCl e x4 8 Port AMCI O ATCA 7367 Installation and Use 6806800K72N 35 Introduction 2 SAS Ports SAS controller is RTM 1xSATA port Telecom Clock 1x UART and 1x USB interfaces PMI Management bus e OneAMC slot GEonports 0 1 8 9 10 11 4 on ports 4 7 SAS on port 2 SATA on port3 Port 13 20 to Zone 3 TCLK and FCLK support e Front Panel 10 100 1000BASE T Ethernet Two USB2 0 Ports One serial console BIOS Chip Up to 1 MB onboard Boot 1 MB
45. memory it prints the following message and stops ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 FATAL ERROR No Memory Found E8 01 ERROR Major 80 ComputingUnit 0 Memory 5 None Detected 1009 BIOS Setup Utility The BIOS incorporates a setup utility that allows the user to alter a variety of system options This section describes the operation of the utility by describing the various options available through a set of hierarchical menus Not all options are available with all products and some depend on BIOS customizations The current settings are stored in the SPI FLASH NVRAM area and any changes can be copied back to this area via the Exit menu The operation of the BIOS defaults is described later in this document To start the utility you must press the F2 key during the early stages of POST after power up Note that this functionality operates with USB keyboards when enabled and via the console redirection facility when enabled The table below briefly describes the primary menus most of which have sub menus The following sections describe the menus in detail Table 4 2 Primary Menu Description BIOS information memory information and date and time Advanced WHEA CPU Runtime Error Logging Chipset North Bridge Chipset South Bridge SATA USB SuperlO Serial Port Console Redirection and Network Stack options IPMI information SEL and FRU options iSCSI iSCSI Initiator Name options Opt
46. reset to the Normal mode 0x02 Cold IPMC reset to the Standalone mode for a description refer to Table 8 28 0x03 Cold IPMC reset to the Manual Standalone mode for a description refer to Table 8 28 0x04 Reset the IPMC and enter Upgrade mode Completion Code 8 4 15 Hang IPMC Command PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 The IPMC provides a way to test the watchdog timer support by implementing the Hang IPMC command which simulates firmware hanging by entering an endless loop Table 8 43 Hang IPMC Command Description Type Request Data Response Data ATCA 7367 Installation and Use 6806800K72N Byte 1 3 Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Completion Code 181 Supported IPMI Commands 8 4 16 182 Table 8 43 Hang IPMC Command Description continued Type Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 Graceful Reset Command The IPMC supports the Graceful Reboot option of the FRU Control command On receiving such a command the sets the Graceful Reboot Request bit of the IPMC status sends a status update notification to the payload and waits for the Graceful Reset command
47. the IPMC IPMI boot parameter supports USER and DEFAULT area The USER area contains the current BIOS setup settings The parameters in the USER area can be modified by the BIOS setup utility and can also be modified remotely by IPMI commands For example through shelf manager The DEFAULT area holds the BIOS default settings This area is read only BIOS default settings are loaded when selecting the Restore Defaults Item on BIOS Save amp Exit Menu A detailed description of the IPMI Boot Parameter and the corresponding IPMI commands is available in the section System Boot Options Parameter 100 on page 152 The main advantage of using IPMI boot parameter is that the parameters stored as IPMI boot parameters are not changed after a BIOS upgrade or a BIOS boot bank switch BIOS will not return to the BIOS default settings after a BIOS upgrade Normally the BIOS setup parameters are stored within the BIOS flash The following figure and description helps you to understand how a BIOS setup parameter and an IPMI boot parameter interact 4 3 IPMI Boot Parameter Boot Parameter Storage EEPROM BIOS Parameter KCS IPMC PMB 0 Private 12C DEFAULT read only To ShMM ATCA 7367 Installation and Use 6806800K72N 85 BIOS 4 6 86 Board Start 1 BIOS loads BIOS Parameter from Flash and uses them for initialization 2 BIOS loads IPMI Boot Parameter from USER area 3 BIOS
48. three Project is designed to support NEBS level three The compliance tests must be done with the customer target system ATCA 7367 Installation and Use 6806800K72N 37 Introduction The product has been designed to meet the directive on the restriction of the use of certain MM hazardous substances in electrical and electronic equipment RoHS Directive 2002 95 EC Figure 1 1 Declaration of Conformity Declaration of Conformity DoC According to EN 17050 1 2004 Manufacturer s Name Artesyn Embedded Technologies Manufacturer s Address Artesyn Embedded Technologies GmbH Lilienthalstrasse 17 19 85579 Neubiberg Germany Declares that the following product Product ATCA Blade Model Names Numbers ATCA 7367 in accordance with the requirements of 2004 108 EC 2006 95 EC amp 2011 65 EU and their amending directives has been designed and manufactured to the following specifications EN 60950 1 2006 A12 2011 EN 55022 2010 Class A EN 55024 2010 ETSI EN 300 386 V1 6 1 2012 09 2011 65 EU RoHS Directive Kai Holz Director Engineering A Issue Date 10 June 2014 EMBEDDED TECHNOLOGIES 38 ATCA 7367 Installation and Use 6806800K72N Introduction 1 3 1 4 Mechanical Data The following table provides details about the blade s mechanical data such as dimensions and weight Table 1 2 Mechanical Data Feature Value Dimensions width x height x
49. 0 Clock Bus 1 Query 1 Clock Bus 1 Release 2 Clock Bus 1 Force 3 Clock Bus 1 Free Bits 4 7 Reserved Bits 0 3 Clock Bus 3 Events These bits indicate pending Clock Bus 3 requests arrived from the shelf manager 0 Clock Bus 3 Query 1 Clock Bus 3 Release 2 Clock Bus 3 Force 3 Clock Bus 3 Free ATCA 7367 Installation and Use 6806800K72N 171 Supported IPMI Commands 8 4 2 Get Serial Interface Properties Command The Get Serial Interface Properties command is used to get the properties of a particular serial interface Table 8 30 Get Serial Interface Properties Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0 byte 2 40 byte 3 00 Interface ID 0 Serial Debug Interface Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0 byte 3 40 byte 4 00 Bit 7 Echo On If this bit is set the IPMC enables echo for the given serial interface Bits 6 4 Reserved Bits 3 0 Baud Rate ID The baud rate ID defines the interface baud rate as follows 0 9600 bps 1 19200 bps 2 38400 bps 3 57600 bps unsupported 4 115200 bps unsupported 172 ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 4 3 Set Serial Interface Properties Command The Set Serial Interface Propertie
50. 01 Asrt Assertion Unr Upper non recoverable threshold Uc Upper critical threshold Unc Upper non critical threshold Deass Deassertion Lnr Lower non recoverable threshold Lc Lower critical threshold Lnc Lower non critical threshold ATCA 7367 Installation and Use 6806800K72N 201 FRU Information and Sensor Data Records Table 9 9 Sensor Data Records continued Sensor Event Reading Event Assertion Number Sensor Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold Description Deassertion Rearm 0x10 DDR 4 temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 0x11 DDR 5 temp Temp Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 0x12 DDR 6 temp Temp Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 0x13 IPMB Physical Physical Sensor specific 7 4 See IPMC Spec 7 4 Channel reading 0 0 IPMB A disabled Asrt Auto 0 discrete 3 0 Offset 0 1 2 or 3 Number For the IPMB B disabled OxF1 Ox6F ATCA 7367 this is 0x1 IPMB A enabled Oh to indicate IPMB IPMB B disabled 0 0x2 IPMB A disabled 3 0 Reserved IPMB B enabled 0x3 IPMB A enabled IPMB B enabled 0x14 BMC Watchdog Watchdog2 Sensor specific 7 4 See IPMC Spec See IPMI OxFF 0x0 Timer expired Asrt Auto 0x23 discrete 3 0 Offset 0 1 2 3 or
51. 18 PC87911 and Y2K and provides 256 bytes of backed up CMOS RAM of which 14 bytes containing the RTC time and date information and RTC configuration During power down the RTC consumes 0 9uA hr The optional power down backup method uses a Super CAP with a 1 Farad capacity This provides 300 hours of RTC SRAM backup The default battery is an external 3V lithium battery with a capacity of 200mAh which provides three years of backup 5 18 Single Width Mid size AMC ATCA 7367 supports one slot of single width mid size AMC to extend the application range of the blade by adding appropriate cards This can be straight forward storage and network interface solutions or local storage hosted on an AMC However it is also necessary to address applications requiring intelligent solutions that can handle tasks like TCP IP off load IPv4 and IPv6 stacks unicast multicast routing acceleration IPSEC acceleration firewall SRTP offload transport protocols and mobile IP among others 134 ATCA 7367 Installation and Use 6806800K72N Maps and Registers 6 1 Interrupt Structure The ATCA 7367 supports NON APIC legacy PIC Mode and APIC mode of Interrupt delivery to the CPUs The 8259 PIC Mode Interrupt Concentrator inside the CH10R supports 16 interrupts eight external signal inputs The IO APIC device inside the ICH10R supports 24 interrupt sources In APIC mode the ICH10R supports only Front side bus interrupt delivery not the serial APIC mo
52. 7 Installation and Use 6806800K72N Safety Notes System Damage WARNING The intra building port s of the equipment or subassembly is suitable for connection to intra building or unexposed wiring or cabling only The intra building port s of the equipment or subassembly MUST NOT be metallically connected to interfaces that connect to the outside plant OSP or its wiring These interfaces are designed for use as intra building interfaces only Type 2 or Type 4 ports as described in GR 1089 and require isolation from the exposed OSP cabling The addition of primary protectors is not sufficient protection in order to connect these interfaces metallically to OSP wiring The intra building port s of the equipment or subassembly must use shielded intra building cabling wiring that is grounded at both ends Operation Blade Damage Blade surface High humidity and condensation on the blade surface causes short circuits Do not operate the blade outside the specified environmental limits Make sure the blade is completely dry and there is no moisture on any surface before applying power Blade Overheating and Blade Damage Operating the blade without forced air cooling may lead to blade overheating and thus blade damage When operating the blade make sure that forced air cooling is available in the shelf When operating the blade in areas of electromagnetic radiation ensure that the blade is bolted on the system and the system is shield
53. 9 American Megatrends Inc Event Logs WESER NI THIS Ia race roc TIE eae N Press Enter to change the Smbios Event Log View Smbios Event Log configuration View System Event Log gt lt Select Screen v Select Item Enter Select Change Opt 1 General Help F2 Previous Values Optimized Defaults F4 Save ESC Exit 112 ATCA 7367 Installation and Use 6806800K72N BIOS NOTICE his menu is not intended for Customer use It is for internal debugging purpose only Table 4 31 Event Logs Menu Description Smbios EventLog Change this to enable or disable all features of Smbios Event Logging during boot Options Enabled Default Disabled Erase Event Log Choose options for Choose options for Log Erasing is done Log Erasing is done activation during reset Options No Default Yes Next reset Yes Every reset When Logis Full Choose options for reactions to a full Smbios Event Log Options Do Nothing Default Erase Immediately Multiple Event Count Increment The number of occurrences of a duplicate event that must pass before the multiple event counter associated with the log entry is updated specified as a numeric value Options 1 Default Multiple Event Time Window The number of minutes which must pass between duplicate log entries which utilize a multiple event counter The value ranges from 0 to 99 minutes Options 60 Default LogOE
54. C 72 7367 Installation and Use 6806800K72N Controls Indicators and Connectors Table 3 8 Zone 2 Connector P23 Pin Assignment continued P23 3 3 4 Zone3 The ATCA specification defines Zone 3 for user input output signals On ATCA 7367 ATCA Zone 3 Type A connector direct connect to RTM is used The same connectors are used for Zone 2 and Zone 3 Zone 3 connectors are assigned to reference designators P30 through P32 Zone 3 contains the two connectors P30 and P32 They are used to connect an RTM to the blade and carry the following signals Serial RS232_x_yyyy Serial ATA SATAx_yyy USB USBxy PCI Express PCIEx yyy 1 xxx ISMB_xxx Power VP12_RTM V3P3_RTM VP5_RTM ATCA 7367 Installation and Use 6806800K72N 73 Controls Indicators and Connectors SAS Update channels General control signals BD_PRESENTx RTM_PRSNT_N RTM_RST_KEY RTM RST Figure 3 6 P30 Backplane Connector Pinout Rows A to D cd ef gh 1 _88_SERIAL_RTM_RXD 88 SERIAL RTM_TXD ux Mg TDO 5 JTAG TDI 1 SAS2_RX_M 2 3 5 50 TX P SAS0 TX M SAS0 RX 3 4 USB ICH P8 P USB ICH P8 N 4 5 n c 5 6 PCIE PORT10 RX lt 0 gt PORT10 RX M 0 Ps Es PCIE_PORT10_TX_Pxo gt PCIE 10 TX M 0 6 7 PCIE PORT10 RX P 2 PCIE PORT10 RX M 2 De JE PORT10_TX_P lt 2 gt PCIE PORT10 TX
55. Descriptor 192 Table 9 5 Interface Type Assignments 192 Table 9 6 Contents of the Blade Point to Point Connectivity Record 193 Table 9 7 Power 2 22 2 195 Table 9 8 IPMI Sens rs OVEIVIEW dy aa ee 195 Table 9 9 Sensor Data Records 2 2 199 Table 10 1 Upgrade Package nee en a 211 Table B 1 Artesyn Embedded Technologies Embedded Computing Publications 217 Table B 2 Related Specifications nn en 218 12 ATCA 7367 Installation and Use 6806800K72N List of Figures EN Figure 1 1 Declaration 38 Figure 1 2 Serial Number Location 2 2 41 Figure 2 1 ATCA 7367 Blade 47 Figure 3 1 Mechanical Layout With 63 Figure 3 2 Mechanical Layout without and HDD 64 Figure 3 3 Mechanical Layout without AMC with 65 Figure 3 4 Face Plates bcuseae e bo Rb ee hu n p e E MAREM 66 Figure 3 5 USB2 0 Flash Disk module connector
56. Device There are two possibilities to determine the device from which BIOS attempts to boot 82 By setup to select a permanent order of boot devices By boot selection menu to select any device for the next boot up procedure only ATCA 7367 Installation and Use 6806800K72N BIOS By Setup To select the boot device by setup proceed as follows 1 From the menu select Boot Inc a copy right 2 2009 1 Mega atrends Option ROM Execution Ale the system boot order wait AMC RTM Timeout 0 wait AMC RTM Policy auto Setup Prompt Timeout 5 Bootup NumLock State on Boot Option Priorities Boot option 1 Base Network 1 Boot option 2 Base network 2 select Screen Boot Option 3 FrontPanel Network Select Item Enter select Boot Option 5 Disabled Change opt Boot Option 6 Disabled 1 General Hel Boot option 7 Disabled F2 Previous values Boot option 8 Disabled F3 optimized pefaults Boot option 9 Disabled Save ESC Exit v ersion 1 29 1121 Co 2009 American Megatrendas 2 Selectthe order of the devices from which BIOS attempts to boot the operating system 3 Enter the submenu Option Rom Execution to enable disable booting from specific devices Changes have t
57. Event Assertion Number Sensor Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold Description Deassertion Rearm Ox1F Reset Source OEM Sensor specific bit0 RST_N Payload 7 2 Reserved 0x0 Payload Reset Asrt Auto 0xD2 discrete Power on reset detected Cause delivered Ox6F bit1 Reserved 1 IPMC in Event Byte 2 3 bit2 Watchdog FRB_PB_RST_N Timeout Front board power 0 No IPMC button reset Watchdog bit3 Timeout PLD_PL_RST_N 1 IPMC Payload Reset from Watchdog PLD IPMC Timeout bit4 occurred RTM_PB_RST_N RTM power button 0 IPMC reset Watchdog Pre bit5 WDG_RST_N Timeout FPGA internal 0 No IPMC watchdog reset Watchdog Pre bit6 BIOS_RST_N Timeout BIOS reset payload 1 ipMC request Watchdog Pre bit7 OSYS RST N Timeout OS reset payload occurred 0 Reset not occurred 1 Reset occurred 0x20 CPU Status Processor 0x07 Sensor specific 7 4 See IPMC Spec OxFF OxFF Ox1 Thermal Trip Asrt Auto discrete 3 0 Offset 1 Ox6F Asrt Assertion Unr Upper non recoverable threshold Uc Upper critical threshold Unc Upper non critical threshold Deass Deassertion Lnr Lower non recoverable threshold Lc Lower critical threshold Lnc Lower non critical threshold ATCA 7367 Installation and Use 6806800K72N 205 FRU Information and Sensor Data Records _ u 206 ATCA 7367 Installation and Use 6806800K72N Chapter 10 Firmwa
58. Event Data Byte 2 Event Data Byte 3 Threshold Description Deassertion Rearm 0x08 PWR Entry OEM Sensor specific 7 4 See Spec Synchor Pwr Entr 7 6 Pwr Entry Pwr Entry Module Status Asrt Auto Status 0xD7 discrete 3 0 0h Module Module Change detected 0x6F 6 VOUT_low 0 Synchor 5 Hotswap 1 Emerson 4 Holdup Emerson Pwr 2 Alarm Entry Module 1 Enable_B 2 0 Enable_A DIG_EnableA Emerson Pwr Entry i Module DIG_EnableB 7 DIG_Fault 0 Mcu_Fault 6 HUCapEngage All other bits are 5 reserved Hotswap_Enable 4 HUCap_Switch 3 Alarm Control 1 DIG_Alarm 0 Sec MCU Fault All other bits are reserved 0x09 Bottom Edge Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto Temp 0x01 0x01 0x0A Top Edge Temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 0x0B IPMC temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 0x0C CPU temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 0x0D DDR 1 temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 OxOE DDR2 temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x01 OxOF DDR3 temp Temperature Threshold See IPMI Spec reading threshold unr uc unc Asrt Deass Auto 0x01 0x
59. I Boot Security Save amp Exit C General WHEA gt CPU Configuration Configuration settings Memory Configuration Chipset North Bridge Chipset South Bridge SATA Configuration USB Configuration Super 10 Configuration Serial Port Console Redirection Network Stack VV VV Vv y vy Select Screen v Select Item Enter Select Change Opt F1 General Help F2 Previous Values F3 Optimized Defaults F4 Save ESC Exit ion 1 29 1121 Copyright C 2009 American M Table 4 5 Advanced Menu Description Field Description WHEA Configuration General WHEA Configuration settings See later separate section for details CPU Configuration CPU Configuration Parameters See later separate section for details Chipset North Bridge North Bridge Parameters See later separate section for details Chipset South Bridge South Bridge Parameters See later separate section for details SATA Configuration SATA Devices Configuration Parameters See later separate section for details USB Configuration USB Configuration Parameters See later separate section for details 92 ATCA 7367 Installation and Use 6806800K72N BIOS Table 4 5 Advanced Menu Description continued Field Description Super IO Configuration System Super IO chip Parameters See later separate section for details Serial Port Console Serial Port Console Redirection Configuration Parameters See later Redirect
60. IE PORT8 RX P 3 PCIE PORT8 M 3 3 55 TX lt 3 gt PCIE PORT8 TX lt 3 gt 4 PORT lt 1 gt PCIE PORT RX gt ee Ee Ee s Pcie lt 1 gt PoRTZ TX lt 1 gt 5 PCIE PORT7 PCIE PORT RX e e Es TX lt 3 gt PCIE_PORT _TX_M lt 3 gt 6 PCIE PORT6 RX P 1 PCIE 6 RX M 1 P lt t gt TX lt 1 gt 7 PORT6 P 3 PORTE RX s e C Ee Ee Pcie P lt 3 gt lt 8 CLK100 RTVPCIE7 CLK100 RTMPCIE7 M givecies CLK100 RTMPCIES 9 _88_RTM_PSO_N 88 RTM DO 40 oon oO ATCA 7367 Installation and Use 6806800K72N 75 Controls Indicators and Connectors eee EEE 76 ATCA 7367 Installation and Use 6806800K72N BIOS Chapter 4 4 1 Introduction The Basic Input Output System BIOS provides an interface between the operating system and the hardware of the blade It is used for hardware configuration Before loading the operating system BIOS performs basic hardware tests and prepares the blade for the initial boot up procedure During blade production identical BIOS images are programmed into both boot flash banks It is possible to select boot flash as device to boot from This is done via an IPMI command For further details refe
61. K72N 211 Firmware Upgrade Table 10 1 HPM Upgrade Package continued Filename Description atca 7367 amcpoped ipmc hpm HPM file contains only the firmware image with AMC atca 7367 amcno poped ipmc hpm HPM file contains only the firmware image without AMC atca 7367 c01 ipmc hpm file contains only the firmware image for 1 2 atca 7367 cpu 1 0 5 hpm HPM file contains the version 1 0 5 BIOS image atca 7367 fpga 12 bin HPM file contains the version 12 FPGA image Ipmitool 1 8 9 pps 8 tgz PPS modified Ipmitool necessary for HPM upgrades on ATCA736X 212 ATCA 7367 Installation and Use 6806800K72N Replacing the Battery A 1 Replacing the Battery Some blade variants contain an on board battery Its location is shown in the following figure battery less variant based on SUPERCAP is available on demand N 7 Figure A 1 Location of On board Battery eni e NH On board Battery ATCA 7367 Installation and Use 6806800K72N 213 214 Replacing the Battery The battery provides data retention of seven years summing up all periods of actual data use Artesyn Embedded Technologies therefore assumes that there is usually no need to replace the battery except for example in case of long term spare part handling NOTICE Board System Damage Incorrect replacem
62. M Codes Enable or disable the logging of EFI Status Codes as OEM Codes if not already converted to legacy Options Enabled Default Disabled ConvertOEM Codes Enable or disable the logging of EFI Status Codes as OEM Codes if not already converted to legacy Options Disabled Default Enabled ViewSmbiosEventLog View SMBIOS Event Log ViewSystemEventLog View local System Event Log ATCA 7367 Installation and Use 6806800K72N 113 BIOS 4 12 BIOS Status Codes The following table lists the BIOS status codes applicable to the used AMI UEFI BIOS The BIOS status codes are stored in the blade s Port 80 register and can also be obtained by reading an on board IPMI sensor 4 12 1 Status Code Ranges Table 4 32 Status Code Ranges 0x01 OxOF SEC Status Codes amp Errors 0x10 Ox2F PEI execution up to and including memory detection 0x30 Ox4F PEI execution after memory detection 0x60 OxCF DXE execution up to BDS OxDO OxDF DXE errors OxEO OxE8 S3 Resume PEI OxE9 OxEF S3 Resume errors PEI OxE8 OxEF Memory initialization errors OxBO OxBF Additional Memory Initialization Status Codes OxE8 OxEE Additional Memory Error Status Codes 4 12 2 Standard Status Codes Table 4 33 SEC Status Codes Status Code Description 114 ATCA 7367 Installation and Use 6806800K72N BIOS Table 4 33 SEC Status Codes continued Status Code Description Progress Cod
63. Offset 0 1 2 Progress Ox6F OxOF See IPMI Spec 0x0 System Firmware Error Ox1 System Firmware Hang 0 2 System Firmware Progress Asrt Auto 0x16 OS Boot OS Boot Sensor specific 7 4 See Spec OxFF Ox1F discrete 3 0 Offset 0 1 2 3 4 Ox6F 5 6 OxFF 0x0 A boot completed 0x1 C boot completed 0x2 PXE boot completed 0x3 Diagnostic boot completed 0x4 CD_ROM boot completed 0x5 ROM boot completed 0x6 boot completed Asrt Auto 0x19 Boot Error Boot Error Sensor specific 7 4 See Spec OxFF Ox1E discrete 3 0 Offset 0 1 2 3 4 Ox6F Asrt Assertion Unr Upper non recoverable threshold Uc Upper critical threshold Deass Deassertion Lnr Lower non recoverable threshold Lc Lower critical threshold OxFF Reserved for future use Unc Upper non critical threshold Lnc Lower non critical threshold Asrt Auto ATCA 7367 Installation and Use 6806800K72N 203 FRU Information and Sensor Data Records Table 9 9 Sensor Data Records continued Sensor Event Reading Event Assertion Number Sensor Sensor Type Type Event Data Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold Description Deassertion Rearm Boot Initiated System Boot Sensor specific 0 0 Event Data Byte 2 Event Data Byte 3 0x0 Initiated by power up Asrt Auto Initiat
64. Output Command 165 Table 8 24 Response Data of Set Serial Output 166 Table 8 25 Request Data of Get Serial Output 167 Table 8 26 Response Data of Get Serial Output Command 167 Table 8 27 Pigeon Point Extension Commands 4 168 Table 8 28 IPMG orc 169 Table 8 29 Get Status Command 169 Table 8 30 Get Serial Interface Properties Command Description 172 Table 8 31 Set Serial Interface Properties Command 173 Table 8 32 Get Debug Level Command Description 174 Table 8 33 Set Debug Level Command 175 Table 8 34 Get Hardware Address Command Description 176 Table 8 35 Set Hardware Address Command Description 176 Table 8 36 Get Handle Switch Command Description 177 Table 8 37 Set Handle Switch Command Description 178 Table 8 38 Get Payload Communication Time Out Command Description 178 Table 8 39 Set Payload Communication Ti
65. PORT8 RX P 2 PCIE PORT9 lt 2 gt lt 2 gt PCIE PORTS TX 2 gt 2 3 PCIE PORT8 RX P 0 PCIE PORT8 RX lt 0 gt fe PCE 8 TX lt 0 gt PORT8 TX 3 4 PCIE PORTS RX P z PCIE PORT8 RX lt 2 gt PORT8 TX P lt 2 gt PCIE PORT8 TX M 2 4 5 PCIF PORT RX lt 0 gt PCIE PORT RX lt 0 gt Le 2 PCIE_PORT _TX_P lt 0 gt PCIE PORT7 TX lt 0 gt 5 6 PCIE_PORT7_RX_P lt 2 gt PORT RX M 2 lt 2 gt PCIE lt 2 gt 6 7 PCIE_PORT6_RX_P lt 0 gt PCIE 6 lt 0 gt GOES St 6 TX lt 0 gt PCIE PORTS TX lt 0 gt 7 8 PCIE_PORTE_RX_P lt 2 gt PCIE_PORT6_RX_M lt 2 gt PORT6_TX_P lt 2 gt PCIE PORT6 TX lt 2 gt 8 9 CLK100 RTMPCIES 100 RTMPCIE9 M JE ee 2 CLK100 RTMPCIES M 9 1 12 n c VP5 RTM V3P3 RTM VP12 10 Figure 3 9 P32 Backplane Connector Pinout Rows E to H OO PCIE PORT9 P 1 PCIE PORTS RX M 1 fe e E EE TX P 1 PCIE PORTS TX M 1 1 PORT9 P 3 PCIE PORTS RX e e fs Ee Ports P lt 3 gt PORTS Me3 gt 2 PCIE PORT8 P t PCIE PORTS RX M t o e Ee s lee PCIE_PORTS_TX_P lt 1 gt PORTS TX lt 1 gt 3 PC
66. Recovery Boot Flash SPI Onboard storage support 2 5 Inch SATA HDD SATA Cube SSD 16 32 64 128 GB capacity USB flash EUSB SDD 1 2 or 4 GB capacity Onboard IPMC IPMI management controller implements IPMI version 1 5 e Onboard Glue Logic FPGA for IPMC extension and onboard Control register 36 ATCA 7367 Installation and Use 6806800K72N Introduction 1 2 Standard Compliances The product is designed to meet the following standards Table 1 1 Standard Compliances Standard SN29500 8 MIL HDBK 217F GR 332 TR NWT 000357 60068 2 1 2 3 13 14 Description Reliability requirements Climatic environmental requirements The product can only be used in a restricted temperature range See section 3 15 2 Preplacement on page 31 IEC 60068 2 27 32 35 Mechanical environmental requirements EN 60950 UL 60950 in predefined Force system UL 94V 0 1 Oxygen index for PCBs below 28 Legal requirements safety Flammability EN 55022 EN 55024 EN 61000 6 2 EN 300386 FCC Part 15 Class A ANSI IPC A 610 Rev B Class 2 ANSI IPC R 700B ANSI 001 003 EMC requirements on system level Attention ATCA boards require CISPR 22 Class B on conducted emissions EMC immunity requirements industrial EMC for telecom equipment Manufacturing requirements ISO 8601 Y2K compliance NEBS Standard GR 63 CORE NEBS Standard GR 1089 CORE NEBS level
67. Revision 2 2 PCI X Addendum to the PCI Local Bus Specification 1 0 PICMG PICMG 3 0 Revision 2 0 Advanced TCA Base Specification PICMG 3 1 Revision 1 0 Specification Ethernet Fiber Channel for AdvancedTCA Systems 218 ATCA 7367 Installation and Use 6806800K72N A mS YN S Eu E EMBEDDED TECHNOLOGIES Artesyn Embedded Technologies Artesyn and the Artesyn Embedded Technologies logo are trademarks and service marks of Artesyn Embedded Technologies Inc All other product or service names are the property of their respective owners 9 2015 Artesyn Embedded Technologies Inc
68. Support Enable Disable VT d Engine Address Translation Services ATS support Pass through DMA Enable Disable VT d Engine Pass through DMA support 4 11 2 4 2 IOH Thermal Sensors Table 4 11 IOH Thermal Sensors Thermal Sensors Enable Disable integrated North Bridge thermal sensors Recommended value Disable Low Threshold Low temperature threshold for thermal sensor High Threshold High temperature threshold for thermal sensor Catastrophic Threshold Critical temperature threshold for thermal sensor 96 ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 2 5 Chipset South Bridge Table 4 12 Chipset South Bridge Description GbE Controller Enable Disable GbE controller Options Disable and Enable Default is Enable USB Configuration USB Configuration Parameters page See later separate section for details PCIE Root Ports PCIE Root Ports Configuration Configuration 4 11 2 5 1 USB Configuration Table 4 13 USB Configuration Description All USB Devices Enable Disable All USB Devices ports Options Disabled and Enabled Default is Enabled USB 2 0 EHCI Support Enable Disable USB 2 0 EHCI Support This option doesn t take effect if All USB Devices option is disabled Options Disabled and Enabled Default is Enabled Front Panel USB Enable Disable Front Panel USB port 1 This option doesn t take effect if All USB Devices option is disabled Options Disabled and Enab
69. TCA 7367 Installation and Use 6806800K72N Chapter 2 Hardware Preparation and Installation EMI 2 1 Unpacking and Inspecting the Blade Damage of Circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten their life Before touching the blade or electronic components make sure that you are working in an ESD safe environment Shipment Inspection To inspect the shipment perform the following steps 1 Verify that you have received all items of your shipment e Printed Quick Start Guide and Safety Notes Summary 7367 blade Any optional items ordered 2 Check for damage and report any damage or differences to the customer service 3 Remove the desiccant bag shipped together with the blade and dispose of it according to your country s legislation The blade is thoroughly inspected before shipment If any damage occurred during transportation or any items are missing please contact our customer s service immediately ATCA 7367 Installation and Use 6806800K72N 43 Hardware Preparation and Installation 2 2 Environmental and Power Requirements In order to meet the environmental requirements the blade has to be tested in the system in which it is to be installed Before you power up the blade calculate the power needed according to your combination of blade upgrades and accessories Environmental Requirements The environmental condi
70. Table 8 40 Enable Payload Control Command Description Type Request Data Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 8 4 13 Disable Payload Control Command The Disable Payload Control command disables payload control from the serial debug interface Table 8 41 Disable Payload Control Command Description Type Request Data Response Data Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 1 Completion Code 2 4 PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 180 ATCA 7367 Installation and Use 6806800K72N 8 4 14 Reset IPMC Command Supported Commands The Reset IPMC command allows the payload to reset the IPMC over the KCS host interface Table 8 42 Reset IPMC Command Description Type Request Data Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Response Data Reset Type Code 0x00 Cold IPMC reset to the current mode 0x01 Cold IPMC
71. action request 60 ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation eee Data Loss Removing the blade with the blue LED still blinking causes data loss Wait until the blue LED is permanently illuminated before removing the blade 3 Remove the face plate cables if applicable 4 Unfasten the screws of the face plate until the blade is detached from the shelf 5 Remove the blade from the shelf ATCA 7367 Installation and Use 6806800K72N 61 Hardware Preparation and Installation eee 62 7367 Installation and Use 6806800K72N Chapter 3 Controls Indicators and Connectors Sas a SSS 3 1 Mechanical Layout The following graphics illustrate the mechanical layout of the blade Figure 3 1 Mechanical Layout with AMC ATCA 7367 Installation and Use 6806800K72N 63 Controls Indicators and Connectors Figure 3 2 Mechanical Layout without AMC and HDD 1 64 ATCA 7367 Installation and Use 6806800K72N Controls Indicators and Connectors Figure 3 3 Mechanical Layout without AMC with HDD 3 2 FacePlate The following figure shows the connectors keys and LEDs available at the face plate ATCA 7367 Installation and Use 6806800K72N 65 Controls Indicators and Connectors The blade design provides the possibility to cover unused faceplate elements like LEDs or push buttons beh
72. age 97 Added Table PCIE Root Ports Configuration on page 98 Updated Figure Boot Menu on page 108 6806800K72D March 2011 Added Table Sensor Data Records on page 199 and Chapter 10 Firmware Upgrade on page 207 6806800K72C January 2011 Updated Zone 3 on page 73 6806800K72B June 2010 GA version 6806800K72A April 2010 EA version ATCA 7367 Installation and Use 6806800K72N 23 About this Manual eee 24 7367 Installation and Use 6806800K72N Safety Notes EMC This section provides warnings that precede potentially dangerous procedures throughout this manual Instructions contained in the warnings must be followed during all phases of operation service and repair of this equipment You should also employ all other safety precautions necessary for the operation of the equipment in your operating environment Failure to comply with these precautions or with specific warnings elsewhere in this manual could result in personal injury or damage to the equipment Artesyn Embedded Technologies intends to provide all necessary information to install and handle the product in this manual Because of the complexity of this product and its various uses we do not guarantee that the given information is complete If you need additional information ask your Artesyn representative The product has been designed to meet the standard industrial safety requirements It must not be used except in its speci
73. age of IPMI Information Host Interface KCS Version 2 0 0 00000023 interrupt KCS interrupt ATCA Powerlevel 1 116 0 Watt 15 hardwired to IRQ 6 P State Limitation Yes 2 lowest P States Autonomous FailSafe Disable POST Timer FRB2 Disable FRB2 Timer timeout 6 minutes gt lt Select Screen 2 Timeout Action Reset v Select Item 0 5 Watchdog Timer Disable Enter Select 9 5 Timer Timeou 5 minutes Change Opt 9 5 Wtd Timeout Acti Reset F1 General Help F2 Previous Values gt System Event Log F3 Optimized Defaults gt View FRU information 4 Save ESC Exit ATCA 7367 Installation and Use 6806800K72N 103 BIOS Table 4 22 IPMI Menu Field Description ATCA Powerlevel ATCA Powerlevel P State Limitation P State Limitation KCS Interrupt Enable Disable of Host Interface KCS Interrupt KCS Interrupt is hardwired to IRQ 6 1 Autonomous FailSafe If enabled BIOS will switch to backup BIOS bank automatically if the BIOS image is corrupted or the IPMC watchdog 2 is timed out by the BIOS hang up or other BIOS boot fails POST Timer FRB2 Enable or Disable FRB2 timer POST timer Options Enable and Disable Default is Disable FRB2 Timer Timeout Enter value Between 3 to 6 min for FRB2 Timer Expiration value This option is only valid when POST Timer FRB2 is enab
74. atible due to the fact that payload update of this device must also be possible This leads to the fact that an automatic boot bank switching via the IPMC is not possible which is a requirement for HPM 1 to activate Payload always has access to the active BIOS boot bank and the IPMC always has access to the inactive BIOS boot bank Users must not upgrade the FPGA firmware during payload power up phase through the IPMC because there is only one FPGA flash on this platform All HPM 1 commands are directed to the inactive BIOS boot bank this includes get component properties The following figure shows the connection of the SPI busses which are switched with Set System Boot Options gt Boot Bank parameter 0x96 Description can be found in the document OEM Extensions for MicroTCA Hardware Platform Management System activate command is not supported for the BIOS FPGA component ATCA 7367 Installation and Use 6806800K72N Firmware Upgrade Figure 10 2 SPI Busses Connection FPGA and BIOS upgrade may last from fifteen minutes up to two hours The time varies with the selected programming interface A power cycle is required after the BIOS FPGA update 10 4 Upgrade Package The HPM upgrade package for this release contains the following files Table 10 1 HPM Upgrade Package Filename Description atca 7367 ipmcboot hpm HPM file contains only the boot loader image ATCA 7367 Installation and Use 6806800
75. ce 5 Operating System 18 ATCA 7367 Installation and Use 6806800K72N About this Manual Abbreviation Definition PCB Printed Circuit Board PCI E PCI Express PHY Physical layer device for ethernet PICMG PCI Industrial Computer Manufacturers Group PLL Phase Locked Loop POST Power on Self Test PP Payload Power PRD Product Requirements Document RC Root Complex RoHS Restriction of Hazardous Substances RS232 Recommended Standard 232C interface standard for serial communication RTC Real Time Clock Rx Receive line of a duplex serial communication interface SATA Serial AT Attachment high speed serial interface standard for storage devices SDR Sensor Data Record SDRAM Synchronous Dynamic Random Access Memory SELV Safety Extra Low Voltage SerDes Serializer Deserializer SIMD Single Instruction Multiple Data SMBus System Management Bus SMI System Management Interrupt SODIMM Small Outline Dual in line Memory Module SPD Serial Presence Detect TBD To be decided TCP Transmission Control Protocol TDP Thermal Design Power Transmit line of a duplex serial communication interface ATCA 7367 Installation and Use 6806800K72N 19 About this Manual Abbreviation Definition UART Universal Asynchronous Receiver Transmitter UDP User Datagram Protocol VID Voltage Identification for Intel CPUs Westmere Intel Codename for next gen after Core2Duo
76. cribes external interfaces of the blade This includes connectors and LEDs BIOS on page 77 describes the features and setup of BIOS Functional Description on page 121 describes the functional blocks of the blade in detail This includes a block diagram description of the main components used and so on Maps and Registers on page 135 provides information on the blade s maps and registers Serial Over LAN on page 139 provides information on how to establish a serial over LAN session on your blade Supported Commands on page 145 lists all supported IPMI commands FRU Information and Sensor Data Records on page 189 provides information on the blade s FRU information and sensor data Firmware Upgrade on page 207 provides information on Firmware upgrade Replacing the Battery on page 213 provides the procedures in changing the battery Related Documentation on page 217 provides links to further blade related documentation ATCA 7367 Installation and Use 6806800K72N 15 About this Manual Abbreviations 16 This document uses the following abbreviations Abbreviation Definition AMC Advanced Mezzanine Card A generic reference to all AMC specifications AMC 0 AMC 1 AMC 2 AMC 3 AMC Bay A single AMC site on AMC carrier ATCA AVR Advanced Telecom Compute Architecture Atmel s 8 bit RISC micro controller family ATCA Artesyn s AdvancedTCA Multi service platform BBS Basic Blade Serv
77. d Sensor Data Records 9 4 Power Configuration Table 9 7 Power Configuration Description Dynamic power While the blade is powered it reconfiguration support supports only one power level Dynamic power The power level is fixed and does configuration not change Number of power draw The amount of possible power levels levels Early Power Draw Levels Complete early power level Watt including IPMC Steady state Power Draw Power level 1 116 W Complete steady power Levels Watt Power level 2 152 W consumption including IPMC Transition from early to Os steady levels sec 9 5 Sensor Data Records The sensors available on the blades are shown in the table below Table 9 8 IPMI Sensors Overview Sensor Name Sensor Type Sensor Number PICMG 3 0 FRU HotSwap 0x00 Hotswap PICMG 3 0 FRU HotSwap 0x01 Hotswap_RTM PICMG 3 0 FRU HotSwap 48V A Volts Voltage 48V B Volts Voltage 48V Amps Current HoldUP Cap Volts Voltage 0x06 ATCA 7367 Installation and Use 6806800K72N 195 FRU Information and Sensor Data Records Table 9 8 IPMI Sensors Overview continued Sensor Name Sensor Type Sensor Number PWR Entry Temp Temperature 0x07 PWR Enrty Status Power Entry Module Status 0x08 Bottom Edge Temp Temperature 0x09 Top Edge Temp Temperature IPMC Temp Temperature CPU Temp Temperature DDR 1 Temp Temperature DDR 2 Temp Temperature 0 0 DDR 3 Temp Temperature OxOF
78. d initialized by the BIOS 144 ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 1 Standard Commands The IPMC is fully compliant to the Intelligent Platform Management Interface v 1 5 This section provides information about the supported IPMI commands 8 1 1 Global IPMI Commands The IPMC supports the following global IPMI commands Table 8 1 Supported Global IPMI Commands Command NetFn Request Response CMD Comments Get Device ID 0x06 0x07 0x01 Cold Reset 0x06 0x07 Ox02 Warm Reset 0x06 0x07 0x03 Get Self Test Results 0x06 0x07 0x04 Get Device GUID 0x06 0x07 0x08 Master Write Read 0x06 0x07 0x52 Only for accessing private 2 buses 8 1 2 System Interface Commands The system interface commands are supported by blades providing a system interface Table 8 2 Supported System Interface Commands Command NetFn Request Response Set BMC Global Enables 0x06 0x07 Get BMC Global Enables 0x06 0x07 Clear Message Flags 0x06 0x07 Get Message Flags 0x06 0x07 Get Message 0x06 0x07 Send Message 0x06 0x07 0x34 ATCA 7367 Installation and Use 6806800K72N 145 Supported IPMI Commands 8 1 3 146 Table 8 2 Supported System Interface Commands continued Command NetFn Request Response CMD Set Channel Access 0x06 0x07 0x40 Get Channel Access 0x06 0x07 0x41 Get Channel Info 0x06 0x07 0x42 Set Us
79. de The following figure and tables summarize the interrupt sources and mappings for ATCA 7367 APIC mode is configured through BIOS after boot up phase which is done in legacy PIC mode Figure 6 1 Interrupt Structure on ATCA 7367 ICH10 ATCA 7367 Installation and Use 6806800K72N 135 Maps and Registers Table 6 1 Non APIC PIC mode 8259 Mode Interrupt Mapping 8259 IRQ Typical Interrupt Source Interrupt Source 0 Internal 8254 Counter 0 Timer 0 HPET 1 Keyboard IRQ1 via SERIRQ 2 Internal Slave 8259 INTR output Master 3 Serial Port A IRQ3 via SERIRQ PIRQ 4 Serial Port B IRQ4 via SERIRQ PIRQ 5 Parallel Generic IRQ5 via SERIRQ PIRQ 6 Floppy IRQ6 via SERIRQ PIRQ 7 Parallel Generic IRQ7 via SERIRQ 8 Internal RTC Internal RTC Timer 1 HPET 9 Generic IRQ9 via SERIRQ SCI TCO or PIRQ 10 Generic IRQ10 via SERIRQ SCI TCO or PIRQ ave 11 Generic IRQ11 via SERIRQ SCI TCO or PIRQ or Timer 2 HPET 12 PS 2 Mouse IRQ11 via SERIRQ SCI TCO or PIRQ or Timer 3 HPET 13 Internal State Machine output based on processor FERR assertion May optionally be used for SCI or TCO interrupt if FERR not needed 14 SATA SATA Primary legacy mode or via SERIRQ or PIRQ 15 SATA SATA Secondary legacy mode or via SERIRQ or PIRQ IRQO 1 2 8 and 13 must not be used for PCI Interrupts external inputs PIRQ A H routing If an Interrupt is used for PCI
80. e right of the screen along with their intended function General Help F2 Load Previous Values F3 Load Optimized Defaults F4 Save ESC amp Exit 90 ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 1 Main Menu Figure4 4 Menu Copyright C 2009 American Megatrends Inc 1 soot Security Save amp Exit Boot Flash Selection Socket DIP Switch 1 3 ON BIOS Information Set the Date Use Tab to Board Name Emerson ATCA 7367 switch between Data BIOS Version IT elements Build Date 10 02 2013 18 13 46 Board Information Current System Standard FPGA Version 16 Memory Information gt lt Select Screen Total Memory 6144 MB DDR3 v Select Item Enter Select Fri 07 2014 Change Opt System Time 18 33 52 F1 General Help F2 Previous Values Access Level Administrator F3 Optimized Defaults F4 Save ESC Exit BIOS Name Artesyn board name BIOS Version Artesyn BIOS version Build Date BIOS build date Total memory fitted Sets the time and date month day year format To change these values go to each field and enter the desired value Press the tab key to move from hour to minute to second or from month to day to year There is no default value System Time ATCA 7367 Installation and Use 6806800K72N 91 BIOS 4 11 2 Advanced Menu Figure 4 5 Advanced Menu opyright 2009 American Megatrends Inc iSCS
81. e 26 and Installation on page 30 6806800K72M June 2014 Re branded to Artesyn 6806800K72L February 2014 Updated Table Sensor Data Records on page 199 and Table Face Plate LEDs on page 67 Updated Table Get Handle Switch Command Description on page 177 and Table Set Handle Switch Command Description on page 178 Added a new section IPMI Boot Parameter on page 85 updated the sections Advanced Menu on page 92 IPMI Menu on page 103 updated the System Boot Options Parameter 100 Supported Parameters on page 156 Added a new section Event Logs Menu under BIOS Setup Utility section 6806800K72K September 2012 Updated Table 4 22 and Chapter 7 Using Standard IPMI Commands on page 140 6806800K72 April 2012 Updated Table Switch SW3 Settings on page 49 6806800K72H March 2012 Added a Note in Standard Compliances on page 37 Added Notice in Installation on page 26 and Installation on page 30 Updated EMC on page 25 and EMV on page 30 6806800K72G November 2011 Updated Introduction on page 77 and BIOS Setup Utility on page 89 6806800K72F September 2011 Updated Table Sensor Data Records on page 199 22 ATCA 7367 Installation and Use 6806800K72N About this Manual Part Number Publication Date Description 6806800K72E August 2011 Added BIOS Setup Utility on page 89 Updated Table CPU Configuration on page 93 Updated Table Chipset South Bridge on p
82. e Address Bit 4 IPMC ISC PD7 Hardware Address Bit 7 IPMC IMC PDO IPMB Clock Port A IPMC IMC PD1 IPMB Data Port A IPMC ISC PC5 IPMB Clock Port B Shelf Ground Shelf Ground Logic Ground Logic Ground Power Building Block Enable B Power Building Block Voltage Return A Power Building Block Voltage Return B Power Building Block Early 48V A Power Building Block Early 48V B Power Building Block Enable A Power Building Block 48V A Power Building Block 48V A ATCA 7367 Installation and Use 6806800K72N 71 Controls Indicators and Connectors Table 3 7 Zone 2 Connector P20 Pin Assignment P20 Col CD Interface Col EF Col GH CLK2A CLK2B 1 CLKs CLK1B CLK2A CLK3A CLK2B CLK3B CLK3B NC Term Term UC 1 T uc 1 _ uci X RX RX NC NC Term NC NC Term Term Fabric Channel 15 Fabric Channel 14 NC NC Term NC Term NC NC NC N Term NC NC C NC NC Term NC NC Term NC Fabric Channel 13 Interface Col EF F3 F2 3 _ Fabric TX RX channel 2 0 _ rap enr RX RX TX RX RX Fabric Channel 1 Base Channel Bi D BN DB _ 1 A A B ps C D D 6 BaseChannel BI2_D BI2 D BI2 D 2 A A B
83. e default ATCA 7367 The following procedure describes the steps to install remove the PMEM SATA module ATCA 7367 Installation and Use 6806800K72N 53 Hardware Preparation and Installation 54 Installation Procedure To install a PMEM SATA module proceed as follows Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life Before touching the module or electronic components make sure that you are working in an ESD safe environment 1 Remove the blade from the system as described in Installing and Removing the Blade on page 56 2 Plug the PMEM SATA module on the blade so that the module s standoffs fit in the blade s mounting holes 3 Fasten the PMEM SATA module to the blade using the two screws that previously had fixed the S F memory module to the blade 4 Reinstall the blade into the system as described in Installing and Removing the Blade on page 56 The additional resource either memory or SATA SSD will be detected automatically during the boot up sequence ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation 2 5 3 Removal Procedure To remove a PMEM SATA module proceed as follows Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life Before touching the module or electronic components make sure that you are wo
84. e hardware when the IPMC operates in manual standalone mode for a description refer to Table 8 28 Table 8 35 Set Hardware Address Command Description Type Request Data Response Data 176 Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Hardware Address If set to 00 the ability to override the hardware address is disabled NOTE A hardware address change only takes effect after an IPMC reset Completion Code ATCA 7367 Installation and Use 6806800K72N 8 4 8 Supported IPMI Commands Table 8 35 Set Hardware Address Command Description continued Type Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 Get Handle Switch Command The Get Handle Switch command reads the state of the hot swap handle of the IPMC Overriding of the handle switch state is allowed only if the IPMC operates in manual standalone mode for a description refer to Table 8 28 Table 8 36 Get Handle Switch Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Po 4 FRU ID specify as 0 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Syst
85. e initiator Only iqn format is accepted Port Set the iSCSI parameters on port page The options are only visible when Network Stack is enabled is the iSCSI port MAC address See later separate section for details 106 ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 4 1 iSCSI Port Table 4 26 iSCSI Port xx xx XX XX XX XX oe 1 1 Enable iSCSI Enable Disable iSCSI feature on the port Options Disabled and Enabled Default is Disabled Enable DHCP Enable Disable DHCP on the port Options Disabled and Enabled Default is Disabled Get target info via DHCP Get target info via DHCP This option is only valid when DHCP is enabled Options Disabled and Enabled Default is Disabled Initiator IP Address Enter Initiator IP address in dotted decimal notation This option is only valid when DHCP is disabled Default is 0 0 0 0 Initiator Subnet Mask Enter Initiator subnet mask in dotted decimal notation This option is only valid when DHCP is disabled Default is 0 0 0 0 Gateway Enter Initiator gateway IP address in dotted decimal notation This option is only valid when DHCP is disabled Default is 0 0 0 0 Target Name Enter iSCSI Target Name This option is only valid when DHCP is disabled or when DHCP is enabled and Get target info via DHCP is disabled Target IP Addr
86. e u nee Hehe 97 Table 4 13 USB Configuration 2 eee eR ee en 97 Table 4 14 PCIE Root Ports Configuration une ee 98 Table 4 15 SATA 2 2 2 98 Table 4 16 USB Configuration PC 99 Table 4 17 S per lO Configuration ea 100 Table 4 18 Serial Port 0 Configuration 2 2 100 ATCA 7367 Installation and Use 6806800K72N 9 List of Tables Table 4 19 Serial Port Console Redirection 100 Table 4 20 COMO Console Redirection Settings 102 Table 4 21 Network Stack scere RE Er ehe RUE E ER eK ebene 103 Table 4 22 IPM Men UST 104 Table 4 23 System EventL g ute EE ENEA ke 105 Table 4 24 View FRU 105 Table 4 25 ISCSI Menu Description u nenn ann 106 Table 4 26 ISCSI POLE KOCHEN IR nn een 107 Table 4 27 Boot Menu u en 108 Table 4 28 Option ROM EXECUTION zu 5er 109 Table 4 29 Security Menu Description 2 110 Table 4 30 Save amp Exit Menu Description 111 Table 4 31 Event Logs Menu Description wets ratiti en 113 Table 4 32 Status Code RANGES 5 ere rn Goad ea
87. ectory to which you have extracted the ipmitool prompt cd path ipmitool version Build the ipmitool prompt configure amp amp make amp amp make install Configuring SOL Parameters You can configure the following SOL parameters Table 7 1 SOL Parameters Parameter Description Set LAN Configuration Parameter IP Use this command to set the IP and MAC address address MAC address Set Channel Access Privilege level Use this command to set the privilege level Set User Name Default value is soluser Set User Password Default value is solpasswd You can use standard IPMI commands or the ipmitool to modify the parameters Using Standard IPMI Commands his example shows how to set up the SOL configuration parameter with standard IPMI commands Ipmicmd is used on the local IPMC and the IP is configured ATCA 7367 Installation and Use 6806800K72N Serial Over LAN 7 3 2 Sample Procedure To set the IP address proceed as follows 1 Establish an IPMI connection to the blade 2 Set LAN Configuration Parameter Set In Progress Lock ipmicmd k f O c 1 5 0 1 smi 0 3 Set LAN Configuration Parameter Set IP 172 16 10 11 on channel 5 ipmicmd k f 0 c 1 5 3 ac 10 0 Ob smi 0 4 Set LAN Configuration Parameter Set In Progress Commit ipmicmd k f O c 1 5 0 2 smi 0 Using ipmitool The example below shows how to setup a LAN configuration parameter for a potential SOL session with ipmito
88. ed Note Only the faceplate connector is supported No connector on the RTM available Serial connector instance number A sequential number that starts from 0 ATCA 7367 Installation and Use 6806800K72N 165 Supported IPMI Commands Table 8 23 Request Data of Set Serial Output Command continued Byte Data Field Serial output selector 0 BIOS 2 IPMC debug console All other values are reserved 8 3 2 1 2 Response Data The following table lists the response data applicable to the Set Serial Output command Table 8 24 Response Data of Set Serial Output Command Byte Data Field Completion code LSB of Artesyn Embedded Technologies IANA Enterprise number Second byte of Artesyn Embedded Technologies IANA Enterprise number 4 MSB of Artesyn Embedded Technologies IANA Enterprise number 8 3 2 2 Get Serial Output Command The Get Serial Output Command provides a way to determine which serial output source goes to a particular serial port connector i Currently only BIOS output is supported 166 ATCA 7367 Installation and Use 6806800K72N Supported IPMI Commands 8 3 2 2 1 Request Data The following table lists the request data applicable to the Get Serial Output command Table 8 25 Request Data of Get Serial Output Command Data Field LSB of Artesyn Embedded Technologies IANA Enterprise number A value of OxCD has to be used Second byte of Artesyn Embedded Tec
89. ed to a dual stacked connector The ports are USB 2 0 compliant 132 ATCA 7367 Installation and Use 6806800K72N Functional Description 5 16 SMBus Interface The SMBus interface of the ICH10R is connected to on board devices like Clock PLL s temperature sensors and the SPD PROMS of all twelve DDR3 DIMM memory modules I C Bus Repeater of type PCA9515 is used to buffer the SMBus portion going to the SPD PROMs on the DIMM The BIOS reads memory configuration parameters from SPD PROM To address more than 8 memory I2C devices the SMBus to the SPD PROMS is segmented Table 5 3 SMBus Devices Device Name Device Type Address SPD EEPROM 24 2 1010 000 b A0 SPD EEPROM 24 2 1010 001x b A2 SPD EEPROM 24 2 1010 010x b A4 SPD EEPROM 1010 011x b A6 SPD EEPROM 1010 100x b A8 SPD EEPROM 1010 101x b AA Temp Sens 0 DDR3 VREF_D margening 15190728 0x90 Clock 1 59325421 0xD2 0xD3 DB1200 clock ICS9DB1200 0 OXDD ICH10R Slave SMBus IF ICH10R 0x88 0x89 Xeon 5520 Tylersburg IOH36 D Slave Xeon 5520 Tylersburg OxEO IOH Boostrap SMBus IF IOH36 D SMBUSID option is MAX6618 PECI MAX6618 0x54 Hub ATCA 7367 Installation and Use 6806800K72N 133 Functional Description 5 17 Real Time Clock An external 32 768 kHz crystal sources the internal real time clock inside ICH10R with a frequency tolerance of 20 PPM The RTC is fully compliant with DS1287 MC146
90. ed by enclosure Injuries or Short Circuits Blade or power supply In case the ORing diodes of the blade fail the blade may trigger a short circuit between input line A and input line B so that line A remains powered even if it is disconnected from the power supply circuit and vice versa To avoid damage or injuries always check that there is no more voltage on the line that has been disconnected before continuing your work ATCA 7367 Installation and Use 6806800K72N 27 Safety Notes Switch Settings Battery Blade Malfunction Switches marked as reserved might carry production related functions and can cause the blade to malfunction if their setting is changed Therefore do not change settings of switches marked as reserved The setting of switches which are not marked as reserved has to be checked and changed before blade installation Blade Damage Setting resetting the switches during operation can cause blade damage Therefore check and change switch settings before you install the blade Blade Damage Wrong battery installation may result in hazardous explosion and blade damage Therefore always use the same type of Lithium battery as is installed and make sure the battery is installed as described in this manual Environment 28 Always dispose of used blades system components and RTMs according to your country s legislation and manufacturer s instructions ATCA 7367 Installation and Use 6806800K72N
91. ed discrete 0 1 7 4 Active BIOS 7 4 Active BIOS 0x1 Initiated by hard 0 1 Ox6F 0 2 major version sub minor reset 0x3 3 0 Active BIOS version 0 2 Initiated by warm 0 4 minor version 3 0 Reserved reset 0 3 User requested PXE boot 0x4 Automatic boot to diagnostic Ox1B POST code OEM Sensor specific 0x0 No events for this Auto 0xD2 discrete sensor Readingaccording Ox6F to EFI BIOS port80 status codes Ox1C ATCA 7367 OEM Sensor specific Noeventforthissensor Auto IPMC 0xD5 discrete Reading Value Ox6F 0 2 Reset Cause 0x1 Watchdog Reset 0x2 Software Reset 0x4 Power on Reset 3 Reserved 4 6 Reset Type 0x1 Hard Boot 0x2 Cold Boot 0x4 Warm Boot 7 Reserved 0x1D Power Good Entity Sensor specific 7 4 See IPMC Spec OxFF OxFF 0x0 Entity Present Asrt Auto Presence discrete 3 0 Offset 0 1 0 1 Entity Absent 0x25 Ox6F Ox1E Boot Bank OEM Sensor specific 0x0 OxFF OxFF Sending this event when Asrt Auto 0xD2 discrete Payload CPU boot bank Ox6F changed Asrt Assertion Unr Upper non recoverable threshold Uc Upper critical threshold Unc Upper non critical threshold Deass Deassertion Lnr Lower non recoverable threshold Lc Lower critical threshold Lnc Lower non critical threshold 204 ATCA 7367 Installation and Use 6806800K72N Table 9 9 Sensor Data Records continued FRU Information and Sensor Data Records Sensor Event Reading
92. ee Sheng a 114 Table 4 33 SEC Status ee 114 Table 4 34 PEL Status Codes nn ee 115 Table 4 35 Status Codes 4s sete eR EUIS PA et eiue tele P UE eda 118 Table 5 1 SPD 2 Address of DIMMS 2 123 Table 5 2 Ethernet Controller Types 129 Table 5 3 SMBUS Devices P 133 Table 6 1 Non APIC PIC mode 8259 Mode Interrupt Mapping 136 Table 6 2 APIC Mode Interrupt Mapping 137 Table 6 3 PClexpress Port 2 2 138 Table 7 1 140 Table 8 1 Supported Global IPMI Commands 145 Table 8 2 Supported System Interface Commands 145 Table 8 3 Supported Watchdog 146 Table 8 4 Supported SEL Device 147 Table 8 5 Supported FRU Inventory 147 Table 8 6 Supported Sensor Device 5 148 Table 8 7 Supported Chassis Device Commands 149 Table 8 8 Configurable Syst
93. ees os 67 Table 3 2 RJ45 female Serial Line Connector Pinout 68 Table 3 3 USB Connector Pinout 69 Table 3 4 10 100 1000Base T Fast Ethernet Connector Pinout 69 Table 3 5 KEYING 2 T hess 70 Table 3 6 Zone 1 Connector P1 Pin 71 Table 3 7 Zone 2 Connector P20 Pin Assignment 72 Table 3 8 Zone 2 Connector P23 Pin Assignment 72 Table 4 1 BIOS Key Codes for Terminal Emulation Program 79 Table 4 2 Primary Menu Description en 89 Table 4 3 enter rasen se 90 Table 4 4 Main Menu Description 2 7 7 91 Table 4 5 Advanced Menu Description 2 92 Table 4 6 WHEA Configuration u 2 2 un 93 Table 4 7 CPU CONTIQUISTION ke 93 Table 4 8 Memory Configuration 4 41 94 Table 4 9 Chipset North Bridge ee ces tn eem en 95 Table 4 10 Intel R VT for Directed I O Configuration 96 Table 4 11 Thermal Sensors iiis er erc ee be 96 Table 4 12 Chipset South Bridg
94. em Boot Option Parameters 149 Table 8 9 System Boot Options Parameter 96 150 Table 8 10 System Boot Options Parameter 97 151 Table 8 11 System Boot Options Parameter 98 152 Table 8 12 System Boot Options Parameter 100 Data Format 153 10 ATCA 7367 Installation and Use 6806800K72N List of Tables Table 8 13 System Boot Options Parameter 100 SET Command Usage 154 Table 8 14 System Boot Options Parameter 100 GET Command Usage 155 Table 8 15 System Boot Options Parameter 100 Supported Parameters 156 Table 8 16 boot order Devices 2 scere Rer iiki Rer UE EPA Ea dE 158 Table 8 17 Supported LAN Device 159 Table 8 18 Supported PICMG 3 0 Commands 160 Table 8 19 Set Get Feature Configuration 162 Table 8 20 Set Feature Configuration 163 Table 8 21 Get Feature Configuration Command 164 Table 8 22 Serial Output Commands 165 Table 8 23 Request Data of Set Serial
95. ems LSB Byte first byte 2 0A byte 3 40 byte 4 00 Handle Switch Status 0x00 The handle switch is open 0x01 The handle switch is closed 0x02 The handle switch state is read from hardware ATCA 7367 Installation and Use 6806800K72N 177 Supported IPMI Commands 8 4 9 Set Handle Switch Command The Set Handle Switch command sets the state of the hot swap handle switch in manual standalone mode for a description refer to Table 8 28 Table 8 37 Set Handle Switch Command Description Type Byte Request Data Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 FRU ID specify as 0 Handle Switch Status 0x00 The handle switch is open 0x01 The handle switch is closed 0x02 The handle switch state is read from hardware Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 8 4 10 Get Payload Communication Time Out Command The Get Payload Communication Time Out command reads the payload communication time out value Table 8 38 Get Payload Communication Time Out Command Description Type Byte Request Data Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems Response Data 1 LSB Byte first byte 1 0A byte 2 40 byte 3 00 C
96. en Sie sicher dass das Blade mit dem System verschraubt ist und das System durch ein Geh use abgeschirmt wird ATCA 7367 Installation and Use 6806800K72N 31 Sicherheitshinweise Verletzungen oder Kurzschl sse Blade oder Stromversorgung Falls die ORing Dioden des Blades durchbrennen kann das Blade einen Kurzschluss zwischen den Eingangsleitungen A und B verursachen In diesem Fall ist Leitung A immer noch unter Spannung auch wenn sie vom Versorgungskreislauf getrennt ist und umgekehrt Pr fen Sie deshalb immer ob die Leitung spannungsfrei ist bevor Sie Ihre Arbeit fortsetzen um Sch den oder Verletzungen zu vermeiden Schaltereinstellungen Batterie 32 Fehlfunktion des Blades Schalter die mit Reserved gekennzeichnet sind k nnen mit produktionsrelevanten Funktionen belegt sein Das Andern dieser Schalter kann im normalen Betrieb St rungen ausl sen Verstellen Sie nur solche Schalter die nicht mit Reserved gekennzeichnet sind Pr fen und ndern Sie die Einstellungen der nicht mit Reserved gekennzeichneten Schalter bevor Sie das Blade installieren Besch digung der Blade Das Verstellen von Schaltern w hrend des laufenden Betriebes kann zur Besch digung des Blades f hren Pr fen und ndern Sie die Schaltereinstellungen bevor Sie das Blade installieren Besch digung des Blades Ein unsachgem er Einbau der Batterie kann gef hrliche Explosionen und Besch digungen des Blades zur Folge haben Ve
97. ent of lithium batteries can result in a hazardous explosion Therefore replace the battery as described in this chapter Data Loss If the battery does not provide enough power anymore the RTC is initialized and the data in the NVRAM is lost Therefore replace the battery before seven years of actual battery use have elapsed Data Loss Replacing the battery always results in data loss of the devices which use the battery as power backup Therefore back up affected data before Replacing the battery Data Loss If installing another battery type other than what is mounted at board delivery may cause data loss Other battery types may be specified for other environments or may have a shorter lifespan Therefore only use the same type of lithium battery as is already installed ATCA 7367 Installation and Use 6806800K72N Replacing the Battery eee Replacement Procedure To replace the battery proceed as follows 1 Remove battery NOTICE PCB and Battery Holder Damage Removing the battery with a screw driver may damage the PCB or the battery holder To prevent this damage do not use a screw driver to remove the battery from its holder 2 Install the new battery following the positive and negative signs ATCA 7367 Installation and Use 6806800K72N 215 Replacing the Battery _ 4 4 4 4 216 ATCA 7367 Installation and Use 6806800K72N Appendix Related Documentation
98. er 0x04000 Active Firmware 0x20000 Backup Firmware 0x3C000 There are images for the boot loader and the firmware There is also combined image containing the boot loader and the firmware The Boot loader update should only be done if it s required The boot loader does not perform any upgrade action The boot loader is able to boot either of two redundant copies of the firmware in the flash depending on the current value of the special partition status byte that is stored in the internal IPMC EEPROM The boot loader can fall back to the backup copy by booting the alternate partition The boot loader manages two firmware partitions the active and backup partition It is responsible for detecting if the active firmware ATCA 7367 Installation and Use 6806800K72N 209 Firmware Upgrade 10 3 210 is invalid or has failed If the active firmware failed or is invalid the Boot loader will switch to the backup partition When switching the partitions change their roles Switching of the partitions also takes place when the firmware is upgraded and activated using the HPM 1 upgrade procedure The firmware image is the regular firmware and change with every update BIOS FPGA Upgrade BIOS has two independent boot banks The FPGA has a single boot bank The switching of this boot banks is not supported by commands of ATCA 736X Both BIOS FPGA boot banks can be updated with HPM 1 The BIOS FPGA upgrade is not fully HPM 1 comp
99. er Access 0x06 0x07 Get User Access 0x06 0x07 Set User Name 0x06 0x07 Get User Name 0x06 0x07 Set User Password 0x06 0x07 Set User Payload Access 0x06 0x07 Get User Payload Access 0x06 0x07 0x4D Set Channel Security Keys 0x06 0x07 0x5C Watchdog Commands The watchdog commands are supported by blades providing a system interface and a watchdog type 2 sensor The options pre timeout and power cycle are not supported Table 8 3 Supported Watchdog Commands Reset Watchdog Timer 0x06 0x07 Set Watchdog Timer 0x06 0x07 Get Watchdog Timer 0x06 0x07 ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 1 4 SEL Device Commands Table 8 4 Supported SEL Device Commands Command NetFn Request Response CMD Get SEL Info 0x0A 0x0B 0x40 Reserve SEL 0x0A 0x0B 0x42 Get SEL Entry 0x0A 0x0B Add SEL Entry 0x0A 0x0B Clear SEL 0x0A 0x0B Get SEL Time 0x0A 0x0B Set SEL Time 0x0A 0x0B 0x49 8 1 5 FRU Inventory Commands Table 8 5 Supported FRU Inventory Commands Command NetFn Request Response CMD Get FRU Inventory Area Info 0x0A 0x0B Read FRU Data 0x0A 0x0B Write FRU Data 0x0A 0x0B ATCA 7367 Installation and Use 6806800K72N 147 Supported IPMI Commands 8 1 6 Sensor Device Commands Table 8 6 Supported Sensor Device Commands NetFn Command Request Response CMD Comments Get Device SDR 0x04 0x05 Reserve Device SDR Repository
100. erforming this sequence the payload should send the Graceful Reset command to the IPMC over the payload Interface to notify the IPMC that the payload shutdown is complete To avoid deadlocks that may occur if the payload software does not respond the IPMC provides a special time out for the payload shutdown sequence If the payload does not send the Graceful Reset command within a definite period of time the IPMC assumes that the payload shutdown sequence is finished and resets the payload Table 8 45 Get Payload Shutdown Time Out Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0 byte 3 40 byte 4 00 Time Out measured in hundreds of milliseconds LSB first ATCA 7367 Installation and Use 6806800K72N 183 Supported IPMI Commands 8 4 18 Set Payload Shutdown Time Out Command The Set Payload Shutdown Time Out command is defined as follows Table 8 46 Set Payload Shutdown Time Out Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 OA byte 2 40 byte 3 00 Time Out measured in hundreds of milliseconds LSB first Response Data Compl
101. ernatively to the CPU serial console the IPMC serial console is also available on the face plate serial connector It can be selected via specific IPMI OEM command ATCA 7367 Installation and Use 6806800K72N 131 Functional Description 5 14 Serial Over LAN Serial Over LAN SOL enables suitably designed blades and servers to transparently redirect a serial character stream of a baseboard UART to from a remote client via LAN over RMCP sessions This enables users at remote consoles to access the serial port of a blade server and interact with a text based BIOS console operating system command line interfaces and serial text based applications The IPMC provides a dedicated sideband connection SMBus to the Base Interface Ethernet controller Data from the payload serial redirection is routed thru the sideband connection to the Base I F Vice versa the Ethernet controller filters packets based on either MAC address RMCP port number or IP address and forwards them to the serial redirection over the sideband interface Client software like is required to enable SOL and to communicate with the SOL based serial console 5 15 USB 2 0 Interface The ICH10R provides internal USB1 1 USB 2 0 host controllers with up to twelve USB 2 0 ports Two ports are routed to the faceplate one port is used onboard to connect a USB 2 0 SSD User Flash Module and one portis routed to the RTM The ports available at the faceplate are rout
102. ersonal durchgef hrt werden Die in diesem Handbuch enthaltenen Informationen dienen ausschlie lich dazu das Wissen von Fachpersonal zu erg nzen k nnen dieses jedoch nicht ersetzen Halten Sie sich von stromf hrenden Leitungen innerhalb des Produktes fern Entfernen Sie auf keinen Fall Abdeckungen am Produkt Nur werksseitig zugelassenes Wartungspersonal oder anderweitig qualifiziertes Wartungspersonal darf Abdeckungen entfernen um Komponenten zu ersetzen oder andere Anpassungen vorzunehmen Installieren Sie keine Ersatzteile oder f hren Sie keine unerlaubten Ver nderungen am Produkt durch sonst verfallt die Garantie Wenden Sie sich f r Wartung oder Reparatur bitte an die f r Sie zust ndige Gesch ftsstelle von Artesyn So stellen Sie sicher dass alle sicherheitsrelevanten Aspekte beachtet werden ATCA 7367 Installation and Use 6806800K72N 29 Sicherheitshinweise EMV Das Blade wurde in einem Artesyn Standardsystem getestet Es erf llt die f r digitale Ger te der Klasse A g ltigen Grenzwerte in einem solchen System gem den FCC Richtlinien Abschnitt 15 bzw EN 55022 Klasse A Diese Grenzwerte sollen einen angemessenen Schutz vor St rstrahlung beim Betrieb des Blades in Gewerbe sowie Industriegebieten gew hrleisten Das Blade arbeitet im Hochfrequenzbereich und erzeugt St rstrahlung Bei unsachgem em Einbau und anderem als in diesem Handbuch beschriebenen Betrieb k nnen St rungen im Hochfrequenzbereich auftrete
103. es 0 1 Power on Reset type detection soft hard 0 2 AP initialization before microcode loading 0x3 North Bridge initialization before microcode loading 0x4 South Bridge initialization before microcode loading 0x5 OEM initialization before microcode loading 0x6 Microcode loading AP initialization after microcode loading 0x8 North Bridge initialization after microcode loading 0x9 South Bridge initialization after microcode loading OxA OEM initialization after microcode loading OxB Cache initialization SEC Error Codes Reserved for future AMI SEC error codes OxE Microcode not found OxF Microcode not loaded Table 4 34 PEI Status Codes Status Code Description Progress Codes 0x10 PEI Core is started Pre memory North Bridge initialization is started Pre memory South Bridge initialization is started Memory initialization other Memory Installed CPU post memory initialization is started CPU post memory initialization Cache initialization ATCA 7367 Installation and Use 6806800K72N 115 BIOS 116 Table 4 34 PEI Status Codes continued Status Code 0x34 Description CPU post memory initialization Application Processor s AP initialization 0x35 CPU post memory initialization Boot Strap Processor BSP selection 0x36 CPU post memory initialization System Management Mode SMM initialization 0x37 Post Memory North Bridge initialization is started
104. ess Enter Target IP address in dotted decimal notation This option is only valid when DHCP is disabled or when DHCP is enabled and Get target info via DHCP is disabled Default is 0 0 0 0 Target Port Enter Target port number This option is only valid when DHCP is disabled or when DHCP is enabled and Get target info via DHCP is disabled Default is 3260 Boot LUN Enter Target LUN number This option is only valid when DHCP is disabled or when DHCP is enabled and Get target info via DHCP is disabled Default is 0 CHAP Type Options None One way and Mutual Default is None Save Changes Save changes Back to Previous Page Go back to Previous Page ATCA 7367 Installation and Use 6806800K72N 107 BIOS 4 11 5 Boot Menu Figure4 8 Boot Menu Aptio Setup Utility Copyright C 2009 American Megatrends Inc Main dvanced Boot 6 F4 Save ESC Exit Boot Configuration Option ROM Execution Spread Spectrum suppo Enabled Wait AMC RTM Timeout 5 Wait AMC RTM Policy Auto Setup Prompt Timeout 5 Bootup NumLock State 0n gt lt Select Screen Boot Option Priorities v Select Item Boot Option 1 Onboard USBHdd SMA Enter Select Boot Option 2 Base Network 1 Change Opt Boot Option 3 Base Network 2 F1 General Help Boot Option 4 Disabled F2 Pr
105. etion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 8 4 19 Get Module State Command The Get Module State command is used to query the state of a module RTM with site ID1 using any of the external interfaces Table 8 47 Get Module State Command Description Type Byte Data Field Request Data P PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0 byte 2 40 byte 3 00 Module Site ID Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0 byte 3 40 byte 4 00 184 ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 47 Get Module State Command Description continued Type ATCA 7367 Installation and Use 6806800K72N Byte Data Field Module Status Bit 0 0 Module site is enabled 1 Module site is disabled Bit 1 0 Module is not present 1 Module is present Bit 2 0 Management power is disabled 1 Management power is enabled Bit 3 0 Management power is bad 1 Management power is good Bit 4 0 Payload power is disabled 1 Payload power is enabled Bit 5 0 Payload power is bad 1 Payload power is good Bit 6 0 IPMB L buffer is not attached 1 IPMB L buffer is attached Bit 7 0 IPMB L
106. etup after Discard Changes and Exit saving the changes Save Changes and Reset Discard Changes and Reset Save Options Save Changes Discard Changes gt lt Select Screen Boot Override v Select Item Onboard USBHdd SMART eUSB 874D Enter Select Base Network 1 Change Opt Base Network 2 1 General Help FrontPanel Network F2 Previous Values UEFI Built in EFI 11 F3 Optimized Defaults F4 Save ESC Exit Restore Defaults Save Changes and Reset Reset the system after saving the changes Discard Changes and Reset system setup without saving any changes Reset Save Changes Save Changes done so far to any of the setup options Discard Changes Discard Changes done so far to any of the setup options ATCA 7367 Installation and Use 6806800K72N 111 BIOS Table 4 30 Save amp Exit Menu Description continued Field Description Restore Defaults Restore Load Defaults values for all the setup options This option is the same as pressing F3 Save as User Defaults Save the changes done so far as User Defaults Restore User Defaults Restore the User Defaults to all the setup options Boot Override The options will override the boot orders in Boot menu So you can freely select the device which you want to boot to 4 11 8 Event Logs Menu Figure 4 11 Event Logs Menu Aptio Setup Utility Copyright C 200
107. evious Values Boot Option 5 Disabled F3 Optimized Defaults ion 1 29 1121 Copyrig Table 4 27 Boot Menu Option ROM Execution Option ROM Execution Configuration page See later separate section for details Spread Spectrum support Enable Spread Spectrum Wati AMC RTM Timeout Number of seconds before starting PCI devices init Range 0 255 Wait AMC RTM Policy Force The BIOS waits specified seconds before starting PCI devices init Auto The BIOS detects AMC RTM automatically and continues to initialize PCI devices before the time expires 108 ATCA 7367 Installation and Use 6806800K72N BIOS Table 4 27 Boot Menu continued Field Description Setup Prompt Timeout Number of seconds to wait for setup activation key 65535 OxFFFF means indefinite waiting 0 means no wait not recommended Press Enter to confirm the change Default is 2 Bootup NumLock State Select the keyboard NumLock state Options On and Off Default is On Boot Option 1 Boot device option 1 Boot Option 2 Boot device option 2 Boot Option N Boot device option N 4 11 5 1 Option ROM Execution Table 4 28 Option ROM Execution Field Description Front Panel Net Boot Controls execution of the Option ROM for the Front Panel Ethernet controller Options Disabled and Enabled Default is Enabled Base Network Boot Controls execution of the Option ROM for the Base Interface Ethernet O
108. f set to 1 the addressed storage area is locked Bits 6 0 value 100 indicating this OEM boot option command ATCA 7367 Installation and Use 6806800K72N 155 Supported IPMI Commands 7 156 Table 8 14 System Boot Options Parameter 100 GET Command Usage continued Byte Description The content of the read 16 byte block In order to detect the maximum size of writable storage area your software can perform a series of read accesses while incrementing the block selector with each access Once the error code C9 is returned the limit has been reached and the total available space in the writable storage area can be easily determined by the number of previously performed successful read accesses This is supported by HPI for details refer to the System Management Interface Based on HPI B User s Guide related to your system environment The following table lists boot parameters which can be configured for the ATCA 7367 blade using the system boot option parameter 100 Artesyn Embedded Technologies provides the tool ipmibpar to interpret the ASCII parameters To obtain the tool contact your local sales representative When used in the System Boot Options parameter 100 the boot parameters and their values are case sensitive All boot options listed in the following table are set by the BIOS setup menu and can be configured using the System Boot options command 100 The IPMC and BIOS software automatically
109. fault is Both NOTE All values changed here do not take effect until computer is restarted 4 11 3 2 View FRU Informatio Table 4 24 View FRU Information Field System Manufacturer System Product Name Description Value should be gotten from IPMC FRU Value should be gotten from IPMC FRU System Version Value should be gotten from IPMC FRU System Serial Number Value should be gotten from IPMC FRU Board Manufacturer Board Product Name Board Version Board Serial Number Value should be gotten from IPMC FRU Value should be gotten from IPMC FRU Value should be gotten from IPMC FRU Value should be gotten from IPMC FRU Chassis Manufacturer Value should be gotten from IPMC FRU Chassis Product Name Value should be gotten from IPMC FRU Chassis Serial Number SDR Revision ATCA 7367 Installation and Use 6806800K Value should be gotten from IPMC FRU Value should be gotten from IPMC FRU 72N 105 BIOS 4 11 4 iSCSI Menu Figure 4 7 iSCSI Menu The worldwide unique name of the initiator Only ign format is accepted Select Screen v Select Item Enter Select Change Opt F1 General Help F2 Previous Values F3 Optimized Defaults F4 Save ESC Exit ersion 1 29 1121 Copyright C 2009 American Table 4 25 iSCSI Menu Description Field Description iSCSI Initiator Name The worldwide unique name of th
110. fic area of office telecommunication industry and industrial control Only personnel trained by Artesyn or persons qualified in electronics or electrical engineering are authorized to install remove or maintain the product The information given in this manual is meant to complete the knowledge of a specialist and must not be used as replacement for qualified personnel Keep away from live circuits inside the equipment Operating personnel must not remove equipment covers Only factory authorized service personnel or other qualified service personnel may remove equipment covers for internal subassembly or component replacement or any internal adjustment Do not install substitute parts or perform any unauthorized modification of the equipment or the warranty may be voided Contact your local Artesyn representative for service and repair to make sure that all safety features are maintained The blade has been tested in a standard Artesyn system and found to comply with the limits for a Class A digital device in this system pursuant to part 15 of the FCC Rules EN 55022 Class A respectively These limits are designed to provide reasonable protection against harmful interference when the system is operated in a commercial environment ATCA 7367 Installation and Use 6806800K72N 25 Safety Notes This is a Class A product based on the standard of the Voluntary Control Council for Interference by Information Technology Interference VCCI If t
111. file Molex Connector and features four configuration signals connected to the Glue Logic FPGA Host and IPMC can configure the memory module through the configuration pins to use the FLASH as two 32 Mb mirrored banks switchable only one visible or as continuous 64 MB Flash bank Additionally each bank is write protect able Figure 5 4 7221 Module dimensions bottom view 37 mm 48 mm Ethernet Ports The blade utilizes various Ethernet controllers that serve the ATCA Base I F Fabric I F Update Channel and Ethernet console All Ethernet interfaces have 1GbE capability except for the Fabric I F controller which can operate at 10 GbE or 1 GbE PICMG 3 1 Option 9 and 1 The fabric I F is fully operable in both 10G and 1G mode without the presence of an RTM One Ethernet portis available on the front panel Additional Ethernet ports for external access are provided via the RTM ATCA 7367 Installation and Use 6806800K72N Functional Description 5 8 5 9 ATCA 7367 Installation and Use 6806800K72N The Ethernet controllers support I O virtualization Table 5 2 Ethernet Controller Types Controller Count Ethernet Type Intel 82576 2x 10 100 1G copper Interface Location Base Interface P23 FabricInterface Intel 82599 10G 1G Serdes Faceplate Interface Intel 82567 10 100 1 G Copper Update Channel IF P20 Intel 82572 1x 1 G Serdes AMC Interface P500 2x Intel 82576 4x 1 G Serdes S
112. for future AMI progress codes Recovery Error Codes Recovery PPI is not available OxF9 Recovery capsule is not found OxFA Invalid recovery capsule OxFB OxFF Reserved for future AMI error codes ATCA 7367 Installation and Use 6806800K72N 117 BIOS Table 4 35 DXE Status Codes Status Code Description NVRAM initialization Installation of the South Bridge Runtime Services CPU DXE initialization is started PCI host bridge initialization North Bridge DXE initialization is started North Bridge DXE SMM initialization is started South Bridge DXE initialization is started South Bridge DXE SMM initialization is started South Bridge devices initialization ACPI module initialization CSM initialization Boot Device Selection BDS phase is started Driver connecting is started PCI Bus initialization is started PCI Bus Hot Plug Controller Initialization PCI Bus Enumeration PCI Bus Request Resources PCI Bus Assign Resources Console Output devices connect Console input devices connect Super IO Initialization USB initialization is started USB Reset USB Detect IDE initialization is started 118 ATCA 7367 Installation and Use 6806800K72N BIOS Table 4 35 DXE Status Codes continued Status Code Description IDE Detect IDE Enable xA4 0 SCSI initialization is started 0 5 SCSI Reset OxA6 SCSI Detect OxA7 SCSI
113. g from 5 to 200Hz and back to 5Hz at 5 20 Hz at 0 01 g2 Hz according to a rate of 0 25 octave minute Telcordia GR 63 core and ETSI EN 300 according to Telcordia GR 63 core 019 2 2 20 200 Hz at 3 dB octave Hz according to Telcordia GR 63 core and ETSI EN 300 019 2 2 Random 5 20Hz at 1 m2 s Random 20 200Hz at 3 m s Shock Half sine 11 ms 30 m s Blade level packaging Half sine 6 ms at 180 m s Free Fall 1 2 m packaged according to ETSI 300 019 2 2 100 mm unpackaged according to Telcordia GR 63 core The environmental requirements of the blade may be further limited down due to installed accessories such as hard disks or AMC modules with more restrictive environmental requirements Operating temperatures refer to the temperature of the air circulating around the blade and not to the actual component temperature NOTICE Blade Damage Blade Surface High humidity and condensation on the blade surface causes short circuits Do not operate the blade outside the specified environmental limits Make sure the blade is completely dry and there is no moisture on any surface before applying power Blade Overheating and Blade Damage Operating the blade without forced air cooling may lead to blade overheating and thus blade damage When operating the blade make sure that forced air cooling is available on the shelf ATCA 7367 Installation and Use 6806800K72N 45 Hardware Prepara
114. ge ICT In circuit Test IMC Integrated Memory Controller IPMB Intelligent Platform Management Bus IPMB L The IPMB connecting the carrier IPMC to the AMC module Intel QuickPath A cache coherent link based Interconnect specification for Interconnect Intel Intel processors chipsets and I O bridge components Intelligent Platform Management Controller ATCA 7367 Installation and Use 6806800K72N 17 About this Manual Abbreviation Definition IPMI Intelligent Platform Management Interface ITP In Target Probe 700 scheme defined by Intel Joint Test Action Group test interface for digital logic circuits L2 Level 2 as in L2 Cache LAN Local Area Network L Light emitting Diode ED LFM Linear Feet per Minute PC L Low Pin Count Low Voltage Differential Signaling Medium Access Controller Megabits per second MCH Hz Megabytes per second Memory Controller Hub also called North Bridge M Megahertz MMC Module Management Controller Module This term is used to refer to the Module card in this document MP Management Power Mean Time Between Failures MTTR Mean Time To Repair N A Not Applicable Network Equipment Building System Non maskable Interrupt Non transparent O Non volatile Random Access Memory EM Original Equipment Manufacturer 05 Out of servi
115. gure Figure 2 1 on page 47 3 Tighten the screw on the left side of the flash module Installing and Removing the Blade The blade is fully compatible to the AdvancedTCA standard and is designed to be used in AdvancedTCA shelves ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation eee EEE 2 6 1 The blade can be installed in any AdvancedTCA node slot Do not install it in an AdvancedTCA hub slot Damage of Circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten their life Before touching the blade or electronic components make sure that you are working in an ESD safe environment Blade Malfunctioning Incorrect blade installation and removal can result in blade malfunctioning When plugging the blade in or removing it do not press on the face plate but use the handles Installing the Blade To install the blade into an AdvancedTCA shelf proceed as follows ATCA 7367 Installation and Use 6806800K72N 57 Hardware Preparation and Installation 58 Installation Procedure The following procedure describes the installation of the blade It assumes that your system is powered on If your system is not powered on you can disregard the blue LED and thus skip the respective step In this case it is purely a mechanical installation 1 Ensure that the top and bottom ejector handles are in the outward position by squeezing the
116. he IPMC via KCS Bit 4 IPMB Dump Enable If set to 1 the IPMC provides a trace of IPMB messages that are arriving to going from the IPMC via IPMB O Bit 3 n a Bit 2 Alert Logging Enable If set to 1 the IPMC outputs important alert messages onto the serial debug interface Bit 1 Low level Error Logging Enable If set to 1 the IPMC outputs low level error diagnostic messages onto the serial debug interface Bit 0 Error Logging Enable If set to 1 the IPMC outputs error diagnostic messages onto the serial debug interface Response Data 1 Completion Code 2 4 PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB byte first byte 2 byte 3 40 byte 4 00 ATCA 7367 Installation and Use 6806800K72N 175 Supported IPMI Commands 8 4 6 Get Hardware Address Command The Get Hardware Address command reads the hardware address of the IPMC Table 8 34 Get Hardware Address Command Description Type Request Data Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 8 4 7 Set Hardware Address Command The Set Hardware Address command allows the user to override the hardware address read from th
117. hecksum has been calculated and stored When writing to or reading from the storage area you can only read or write chunks of 16 bytes at a time For this reason the default and user area are divided into numbered blocks of 16 bytes which need to be addressed individually For this purpose the Block Selector field in the request data field is used The Set Selector field on the other hand is used to select either the default or user area The following two tables describe in detail how the request and response data fields need to be filled and interpreted when performing SET and GET accesses Table 8 13 System Boot Options Parameter 100 SET Command Usage Byte Request Data Description Bit 7 when set to 1 the storage area on the IPMC is locked i e no other software can access it This should be set before doing any modifications and cleared again after the final access Bits 6 0 must contain the value 100 indicating this OEM system boot option Set Selector Must be set to 0 user area You can only write to the user area therefore no other values are supported Block Selector Zero based index of the 16 byte block which you want to write to Index 0 refers to the first block of 16 bytes which includes the first two bytes that indicate the boot parameter data size Depending on the total length of the boot option data your software may need to write several blocks of 16 bytes in a row each i
118. his equipment is used a domestic environment radio disturbance may arise When such trouble occurs the user may be required to take corrective actions To ensure EMC protection use only shielded cables when connecting peripherals to assure that appropriate radio frequency emissions compliance is maintained Installed blades must have the face plates installed and all vacant slots in the shelf must be covered The blade generates and uses radio frequency energy and if not installed properly and used in accordance with this guide may cause harmful interference to radio communications Operating the system in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense Installation Damage of Circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten their life Before touching the blade or electronic components make sure that you are working in an ESD safe environment Data Loss Removing the blade with the blue LED still blinking causes data loss Wait until the blue LED is permanently illuminated before removing the blade Damage of Blade and Additional Devices and Modules Incorrect installation of additional devices or modules may damage the blade or the additional devices or modules Before installing or removing an additional device or module read the respective documentation 26 ATCA 736
119. hnologies IANA Enterprise number A value of 0x65 has to be used MSB of Artesyn Embedded Technologies IANA Enterprise number A value of 0x00 has to be used Serial connector type 0 Face plate connector 1 Backplane connector All other values are reserved Note Only the faceplate connector is supported No connector on the RTM available Serial connector instance number A sequential number that starts from 0 8 3 2 2 2 Response Data The following table lists the response data applicable to the Get Serial Output command Table 8 26 Response Data of Get Serial Output Command Data Field Completion code LSB of Artesyn Embedded Technologies IANA Enterprise number Second byte of Artesyn Embedded Technologies IANA Enterprise number MSB of Artesyn Embedded Technologies IANA Enterprise number Serial output selector ATCA 7367 Installation and Use 6806800K72N 167 Supported IPMI Commands 8 4 Pigeon Point Specific Commands The IPMC supports additional IPMI commands that are specific to Pigeon Point This section provides detailed descriptions of those extensions Table 8 27 Pigeon Point Extension Commands NetFn Command Request Response CMD Get Status Table 8 29 on page 169 Ox2E Ox2F 0x00 Get Serial Interface Properties Table 8 30 on page 172 0x01 Set Serial Interface Properties Table 8 31 on page 173 0x02 Get Debug Level Table 8 32 on page 174 0x03 Set Debug Leve
120. ices BGA Ball Grid Array BIOS Basic Input Output System BOM Bill of Material Cubic Feet per Minute CG Carrier grade CK409B Clock generator standard for Intel chipset platforms CPLD Complex Programmable Logic Device CPM Critical Parameter Management CPU Central Processing Unit DDR Dual Data Rate type of SDRAM DDR3 Double Data Rate 3 synchronous dynamic random access memory SDRAM is the name of the new DDR memory standard that is being developed as the successor to DDR2 SDRAM DFM Design for Manufacturability DFT Design for Test DMA Direct Memory Access ATCA 7367 Installation and Use 6806800K72N About this Manual Abbreviation Definition DRAM Dynamic Random Access Memory ECC Error Correction Code EEPROM Electrically Erasable Programmable Read Only Memory EMC Electro magnetic Compatibility EMI Electro magnetic Interference ESD Electro static Discharge FMECA Failure Mode Effects and Criticality Analysis FRU Field Replaceable Unit FSB Front side Bus FWH Firmware Hub GA General Availability Gb Gigabit s GB Gigabyte s Gbps Gigabits per second GHz Gigahertz GigE Gigabit Ethernet GPIO General Purpose Input Output 2 Inter Integrated Circuit Bus 2 wire serial bus and protocol I O Input Output 1 32 32 bit Intel processor architecture ICH I O Control Hub also called South Brid
121. ind a custom overlay foil The following figure gives an overview of the ATCA 7367 faceplate features Figure 3 4 Face Plates Face Plate with AMC Face Plate without AMC 66 ATCA 7367 Installation and Use 6806800K72N Controls Indicators and Connectors 3 2 1 LEDs The blade s face plate provides the following interfaces and control elements Two USB 2 0 ports Serial console port to connect to either payload or IPMC serial I F Out of Service In Service Attention and Hot Swap LEDs IPMC control One 1000Base T Ethernet ports The Ethernet connector provides two status LEDs LEDs connected to FPGA for BASE IF and Faceplate IF Link Control FPGA control Recessed reset button The meaning of these LEDs is described in the following table Table 3 1 Face Plate LEDs Color Description Red Out Of Service This LED is multicolored red amber and is programmable through IPMC Its default color is red and its local control state on or off reflects the payload power state on or off It permits override control by higher layer software such as middle ware or applications as specified in PICMG 3 0 specification Green Payload Power Status This LED is multicolored green red amber and is programmable through IPMC Its default color is green and its local control state is off It permits override control by higher layer software such as middle ware or applications
122. interfaces two used on ATCA 7367 Twelve USB 2 0 interfaces four used on ATCA 7367 Two 8259 interrupt controllers and I O APIC controllers Integrated I O APIC Power management support Two 8237 DMA controller 8254 based Counter Timer timers High precision Event timers HPET RTC with 256 byte battery backed SRAM System TCO total cost of ownership reduction circuits SMBus interface Two stage Watchdog timer ATCA 7367 Installation and Use 6806800K72N 125 Functional Description PCI 2 3 interface 32 bit 33 MHz connects to PMEM module General purpose I O pins ATCA 7367 does not provide a legacy Super I O device and no legacy keyboard mouse interface Keyboard and mouse are supported through USB Serial COM interfaces are provided from FPGA 126 ATCA 7367 Installation and Use 6806800K72N Functional Description The following figure shows the I O functions provided ICH10R and those used on ATCA 7367 Figure 5 3 ICH10R Diagram DMI in ESI 10 100 1000Base T compatible mode ATCA Synch Clock IF COM_IPMC ATCA 7367 Installation and Use 6806800K72N 127 Functional Description 5 6 5 7 128 Persistent Memory Module The ATCA 7367 provides a connector to assemble the Artesyn 7221 SFMEM P N 122265 module a 48x37 low profile module integrating a PLX9030 PCI target only Bridge and 64 Mb of Flash and 16 Mb of SRAM The module connector is a 80 pin low density low pro
123. ion ROM Execution Boot mode and Boot options Security Administrator and User password options Save amp Exit Save with or without changes Load save default settings and Boot Device Override options EventLogs View Smbios Event Logs and System Event Logs This menu is not intended for Customer use It is for internal debugging purpose only ATCA 7367 Installation and Use 6806800K72N 89 BIOS The Aptio navigation can be accomplished using a combination of the keys These keys include the lt FUNCTION gt keys lt ENTER gt lt ESC gt ARROW keys and so on Table 4 3 Aptio Navigation Description ENTER The Enter key allows the user to select an option to edit its value or access asub menu gt lt Left Right The Left and Right lt Arrow gt keys allow you to select a screen For example Main screen Advanced screen Chipset screen and so on v Up Down The Up and Down lt Arrow gt keys allow you to select an item or sub screen Plus Minus The Plus and Minus lt Arrow gt keys allow you to change the field value of a particular setup item For example Date and Time Key Plus The lt Tab gt key allows you to select fields ESC The lt Esc gt key allows you to discard any changes you have made and exit the Aptio Setup When you are in sub menu lt Esc gt allows you to exit to the upper menu Function keys When other function keys become available they are displayed at th
124. ion separate section for details Network Stack Network stack settings See later separate section for details 4 11 2 1 WHEA Configuration Table 4 6 WHEA Configuration WHEA Support Enable or disable Windows Hardware Error Architecture Default is Enabled 4 11 2 2 CPU Configuration Table 4 7 CPU Configuration Processor Type Processor Type EMT64 EMT64 support status Processor Speed Processor Speed Processor Stepping Processor Stepping Microcode Revision Microcode Revision Processor Cores number Intel HT Technology Intel HT Technology support status Hyper threading Enabled for Windows XP and Linux OS optimized for Hyper Threading Technology and Disabled for other OS OS not optimized for Hyper Threading Technology When Disabled only one thread per enabled core is enabled Default is Enabled ATCA 7367 Installation and Use 6806800K72N 93 BIOS Table 4 7 CPU Configuration continued Field Description Active Processor Core Number of cores to enable in each processor package Options ALL 1 2 Default is ALL Limit CPUID Maximum Limit CPUID Maximum Options Disabled and Enabled Disabled for Windows XP Default is Disabled Hardware Prefetcher To enable disable the MLC streamer prefetcher Options Disabled and Enabled Default is Enabled Adjacent Cache Line To enable disable prefetching of adjacent cache lines Options Disabled Prefetch and Enabled Default i
125. is Manual une nr eU e Ue EE EET TES 15 Safety Notes ie 25 Sicherliershirlelse uso ur e ERR IU RR NN ARE RENE DU E NN NIRE 29 1 Introduction c ciio oce e nr ht n Rh EIU PLE YES 35 IET aa ee 35 1 2 Standard Combplianc s anne een cae re a se 37 1 3 Mechanical Data u un a esse cee E nen 39 1 4 Ordering Information nu can ee be 39 1 5 Product Identification 24 2 2 2 41 2 Hardware Preparation and Installation 43 2 1 Unpacking and Inspecting the Blade 43 2 2 Environmental and Power Requirements 44 2 2 1 Environmental 44 2 2 2 Power REQUIFEMENES u me 46 2 3 wars er ee 47 244 Switch Settings RUP au e RR 48 2 5 Installing the Blade Accessories 50 2 5 1 DIMM Memory Modules 2 51 2 5 2 SATA 53 2 5 3 USB2 0 Elash Module a in 55 2 6 Installing and Removing the Blade
126. ization phase DXE phase only U3 is glowing alternately red green and orange U1 and U2 are set to the default value base Ethernet interface link and activity LEDs The individual colors of U3 do not have any meaning U3 is just an indicator for boot progress Shortly before closing BIOS and starting an operating system LED U3 is set to OFF Upgrading the BIOS A BIOS upgrade kit for the blade is available This allows the BIOS to be upgraded The BIOS upgrade kit contains documentation which describes in detail how to upgrade the BIOS Update tool for Linux is provided with Basic Blade Services BBS For details on how to upgrade BIOS from Linux please refer to Basic Blade Services Software for the ATCA 7367 Programmer s Reference After performing a BIOS upgrade or after restoring a corrupted BIOS image all BIOS settings are reset to their default values except for parameters that are stored in IPMC storage area BIOS Error Messages In some cases the BIOS prints error messages to the console For example an error message is printed when the CMOS battery is bad or was removed In case of memory errors BIOS disables the defective DIMM module and prints a message similar to the one below and continues Memory Error Detected Disable DIMM 0 Channel 1 Node 0 DIMM Socket P03 ERROR Minor 40 ComputingUnit 0 Memory 5 None Useful 100a In this example the DIMM module in socket P03 is disabled When BIOS does not find useful
127. l Table 8 33 on page 175 0x04 Get Hardware Address Table 8 34 on page 176 0x05 Set Hardware Address Table 8 35 on page 176 0x06 Get Handle Switch Table 8 36 on page 177 0x07 Set Handle Switch Table 8 37 on page 178 0x08 Get Payload Communication Time Out Table 8 38 on page 0x09 Set Payload Communication Time Out Table 8 39 on page 179 Enable Payload Control Table 8 40 page 180 0x0B Disable Payload Control Table 8 41 on page 180 0x0C Reset IPMC Table 8 42 on page 181 0x0D Hang IPMC Table 8 43 on page 181 OxOE Graceful Reset Table 8 44 on page 182 0x11 Get Payload Shutdown Time Out Table 8 45 on page 183 0x15 Set Payload Shutdown Time Out Table 8 46 on page 184 0x16 Get Module State Table 8 47 on page 184 0x27 Enable Module Site Table 8 48 on page 186 0x28 Disable Module Site Table 8 49 on page 186 0x29 168 ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 27 Pigeon Point Extension Commands continued NetFn Command Request Response CMD Reset Carrier SDR repository Table 8 50 on page 187 Ox2E Ox2F Some of the following commands refer to IPMC modes which are defined as follows Table 8 28 IPMC Modes Mode Description Standalone In standalone mode the carrier IPMC disconnects from 0 but keeps on listening to the serial debug and payload interfaces and serving requests coming from them as well as managing the modules AMC point to p
128. lade ATCA 7367 Installation and Use 6806800K72N FRU Information and Sensor Data Records Table 9 6 Contents of the Blade Point to Point Connectivity Record Area Link Link Grouping Channel Link Link Type Descriptor No ID Interface Number Ports Type Extension Value 0 Base 0 SET Interface 1 NOTSET 2 NOT SET 3 NOT SET 0 Base 0 SET Interface 1 NOTSET 2 SET 3 NOT SET 1 Fabric 0 SET Interface 1 SET 2 SET 3 SET 1 Fabric 0 SET Interface 1 NOTSET 2 NOTSET 3 NOTSET 1 Fabric 0 SET Interface 1 SET 2 SET 3 SET 1 Fabric 0 SET Interface 1 NOTSET 2 NOT SET 3 NOT SET 2 Update 0 SET Channel 1 SET Interface 2 NOTSET 3 NOTSET ATCA 7367 Installation and Use 6806800K72N 193 FRU Information and Sensor Data Records Table 9 6 Contents of the Blade Point to Point Connectivity Record Area continued Link Link Grouping Channel Link Link Type Descriptor No ID Interface Number Ports Type Extension Value 2 Update 0 5 Channel 1 NOT SET Interface 2 NOTSET 3 NOT SET 9 0 2 Update 2 0 NOT SET OxF2 0 Channel 1 SET Interface 2 NOTSET 3 NOT SET 10 0 2 Update 2 0 SET OxF3 0 Channel 1 NOT SET Interface 2 SET 3 NOT SET 11 0 2 Update 2 0 NOT SET OxF4 0 Channel 1 5 Interface 2 NOTSET 3 SET 194 ATCA 7367 Installation and Use 6806800K72N FRU Information an
129. late if applicable ATCA 7367 Installation and Use 6806800K72N 59 Hardware Preparation and Installation 2 6 2 Removing the Blade This section describes how to remove the blade from an AdvancedTCA system Damage of Circuits Electrostatic discharge and incorrect blade installation and removal can damage circuits or shorten their life Before touching the blade or electronic components make sure that you are working in an ESD safe environment Blade Malfunctioning Incorrect blade installation and removal can result in blade malfunctioning When plugging the blade in or removing it do not press on the face plate but use the handles Removal Procedure The following procedure describes how to remove the blade from a system It assumes that the system is powered on If the system is not powered on you can disregards the blue LED and thus skip the respective step In that case it is a purely a mechanical procedure 1 Unlatch the lower handle by squeezing the lever and the latch together and turning the handle outward just enough to unlatch the handle from the face plate Do not rotate the handle fully outward The blue LED blinks indicating that the blade power down process is ongoing 2 Wait until the blue LED is illuminated permanently then unlatch the upper handle and rotate both handles fully outward If the LED continues to blink a possible reason may be that the upper layer software rejected the blade extr
130. led Default is Enabled OnBoard USB FlashDisk Enable Disable OnBoard USB FlashDisk This option doesn t take effect if All USB Devices option is disabled Options Disabled and Enabled Default is Enabled ATCA 7367 Installation and Use 6806800K72N 97 BIOS Table 4 13 USB Configuration continued Field Description ARTM USB Enable Disable RTM USB port This option doesn t take effect if All USB Devices option is disabled Options Disabled and Enabled Default is Enabled 4 11 2 5 2 PCIE Root Ports Configuration Table 4 14 PCIE Root Ports Configuration PCIE Configuration To be configured as x1 or x4 link 4 11 2 6 SATA Configuration Table 4 15 SATA Configuration Field Description SATA PortO Debug SATA device present status Or disabled by below SATA Mode SATA Port1 Zone 3 SATA device present status Or disabled by below SATA Mode SATA Port5 AMC SATA device present status Or disabled by below SATA Mode SATA Mode Determines how SATA controllers operate Options Disable IDE mode AHCI mode and RAID mode Default is IDE Serial ATA Controller O Enable Disable Serial ATA Controller 0 This option is only valid when SATA Mode is IDE mode Options Disable Enhanced and Compatible Default is Compatible Serial ATA Controller 1 Enable Disable Serial ATA Controller 1 This option is only valid when SATA Mode is IDE mode Options Disable and Enhanced Default is E
131. led Options 3 minutes 4 minutes 5 minutes and 6 minutes Default is 6 minutes FRB2 Timer out Action Configure how the system should respond if the Frb2 Timer expires Not available if Frb2 Timer is disabled Options Do Nothing Reset and Power Down Default is Reset O S Watchdog Timer If enabled starts a BIOS timer which can only be shut off by Intel Management Software after the OS loads Helps to determine that the OS successfully loaded or follows the O S Boot Watchdog Timer policy OJS wtd Timer Timeout Configure the length of the 0 5 Boot Watchdog Timer Not available if O S Boot Watchdog Timer is disabled Options 5 minutes 10 minutes 15 minutes and 20 minutes Default is 10 minutes O Swtd Timerout Action Configure how the system should respond if the O S Boot Watchdog Timer Policy Timer expires Not available if O S Boot Watchdog Timer is disabled Options Do Nothing Reset and Power Down Default is Reset System Event Log Sel Event Log configuration page See later separate section for details View FRU information FRU information page See later separate section for details 104 ATCA 7367 Installation and Use 6806800K72N 4 11 3 1 System Event Log Table 4 23 System Event Log Log EFI Status Codes BIOS Description Disable the logging of EFI Status Codes or log only error code or only progress code or both Options Disabled Both Error code and Progress code De
132. lt backup boot flash selection 0 Boot from default boot flash 1 Boot from backup boot flash Note the newly selected boot flash is connected to the payload immediately that means writing to the flash is possible Its image is executed after the next power up or cold reset of the payload The System Boot Options parameter 96 is non volatile During blade production its data is initialized to OxFF and its state is set to invalid Its parameter data remains preserved after IPMC power cycles and firmware upgrades u 150 ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 1 7 1 2 System Boot Options Parameter 97 This boot parameter is an Artesyn specific OEM parameter Its definition is given in the following table Table 8 10 System Boot Options Parameter 97 POST Type Data 1 Set Selector This is the processor ID for which the boot option is to be set 2 Data 2 POST Type Selector This parameter is used to specify the POST type that the IPMC will execute 0x00 Short POST 0x01 Long POST 0x02 to OxFF Not used The System Boot Options parameter 97 is non volatile During blade production its data is initialized to OxFF and its state is set to invalid Its parameter data remains preserved after IPMC power cycles and firmware upgrades M 8 1 7 1 3 System Boot Options Parameter 98 This boot parameter is an Artesyn specific OEM parameter ATCA 7367 Installation and Use
133. m as short as seconds to as long as minutes The IPMC is supervised by a separate hardware Watchdog which can not be disabled IPMC FW retriggers the Watchdog timer The IPMC monitors the Port 80 POST codes generated by the payload CPU The IPMC is connected to various sensors on the Blade that provide temperature sensor readings at all major devices and voltage sensor readings of all major voltages The IPMC monitors reset events caused by devices like Watchdog IPMI command and reset button The FRU information of the various modules including front board RTM and other modules can be read via the IPMC and if necessary upgraded through the IPMC The IPMC features Serial over LAN SOL for the payload CPU serial console The SOL interface is available via the ATCA Base I F SOL is activated by specific commands Serial Redirection The CPU serial redirection reroutes the console input and output that is the text output to the text screen and input from the standard keyboard Typically the console is used by the BIOS setup menus BIOS initialization and boot routines OS boot loaders and loaded OSs The serial console of the payload CPU is available via SOL In addition to the SOL capability the serial console is also available on the blade face plate using a 45 connector with Cisco pin out Ifa SOL session is established only the output is available on the face plate Inputis not possible during this time via the face plate Alt
134. me Out Command Description 179 Table 8 40 Enable Payload Control Command Description 180 Table 8 41 Disable Payload Control Command 180 Table 8 42 Reset IPMC Command Description 181 Table 8 43 Hang IPMC Command Description 181 Table 8 44 Graceful Reset Command Description 182 Table 8 45 Get Payload Shutdown Time Out Command Description 183 Table 8 46 Set Payload Shutdown Time Out Command Description 184 Table 8 47 Get Module State Command Description 184 Table 8 48 Enable Module Site Command 186 ATCA 7367 Installation and Use 6806800K72N 11 List of Tables Table 8 49 Disable Module Site Command 186 Table 8 50 Reset Carrier SDR Repository Command 187 Table 9 1 ee ead 189 Table 9 2 MAC Address Location 4 2 190 Table 9 3 Artesyn MAC Addresses Record 191 Table 9 4 Artesyn MAC Address
135. n Benutzen Sie zum Anschlie en von Peripherieger ten ausschlie lich abgeschirmte Kabel So stellen Sie sicher dass ausreichend Schutz vor St rstrahlung vorhanden ist Die Blades m ssen mit der Frontblende installiert und alle freien Steckpl tze m ssen mit Blindblenden abgedeckt sein Warnung Dies ist eine Einrichtung der Klasse A Diese Einrichtung kann im Wohnbereich Funkst rungen verursachen In diesem Fall kann vom Betreiber verlangt werden angemessene Ma nahmen durchzuf hren Installation 30 Besch digung von Schaltkreisen Elektrostatische Entladung und unsachgem er Ein und Ausbau von Blades kann Schaltkreise besch digen oder ihre Lebensdauer verk rzen Bevor Sie Blades oder elektronische Komponenten ber hren vergewissern Sie sich da Sie in einem ESD gesch tzten Bereich arbeiten Datenverlust Wenn Sie das Blade aus dem Shelf herausziehen und die blaue LED blinkt noch gehen Daten verloren Warten Sie bis die blaue LED durchgehend leuchtet bevor Sie das Blade herausziehen ATCA 7367 Installation and Use 6806800K72N Sicherheitshinweise Betrieb Besch digung des Blades und von Zusatzmodulen Fehlerhafte Installation von Zusatzmodulen kann zur Besch digung des Blades und der Zusatzmodule f hren Lesen Sie daher vor der Installation von Zusatzmodulen die zugeh rige Dokumentation Besch digung des Systems Warnung Die intra Geb ude Port 5 des Ger ts oder Baugruppe ist f r den Anschlus
136. n in Figure ATCA 7367 Blade Layout on page 47 When installing DIMM memory modules the DIMM sockets farthest away on each memory channel from the CPU device need to be populated first Only qualified DDR3 DIMMs Dual Ranked RDIMM are allowed ATCA 7367 supports low voltage DDR3 memory This is available upon request DIMM modules used within one channel must be based on the same memory technology For maximum memory performance all three channels of one CPU must be equipped with an identical amount and size of DIMMs ATCA 7367 Installation and Use 6806800K72N 51 Hardware Preparation and Installation NOTICE Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life Before touching the module or electronic components make sure that you are working in an ESD safe environment Installation Procedure To install a DIMM module proceed as follows 1 Remove blade from system as described in Installing and Removing the Blade on page 56 2 Open locks of memory module socket 3 Press module carefully into socket As soon as the memory module has been fully inserted the locks automatically close 4 If applicable repeat steps 2 to 3 to install further modules NOTICE Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life Before touching the module or electronic
137. n the firmware itself for example using the setup menu The storage areais divided into two parts the default area and the user area The user area can be read and written by an IPMI user and by default is the area which the boot firmware reads out and uses during the boot process The default area can only be read by both the IPMI user and the boot firmware Its purpose is to store factory programmed default boot options which can be used to restore the standard settings If you want the boot firmware to read out 152 ATCA 7367 Installation and Use 6806800K72N Supported IPMI Commands and use the boot parameters stored in the default area and thus use the factory settings you need to configure the blade accordingly This is typically done by an on board switch for example Clear CMOS RAM It depends on the blade and firmware which settings are stored in the default area Details are given in the following sections On some blades with particular firmware types changing a boot parameter in the firmware setup menu changes the boot parameter in the user area as well if the same parameter is defined both in the user area and the set up menu Details are given below The following figure summarizes the previously explained basic information flow related to the system boot options parameter 100 Figure 8 1 System Boot Options Parameter 100 Information Flow Overview Boot Parameters IPMC IPMI User Read Only The
138. ndividually addressed using the block selector 154 ATCA 7367 Installation and Use 6806800K72N Supported IPMI Commands Table 8 13 System Boot Options Parameter 100 SET Command Usage continued Byte 4 n n lt 19 Description Data that you want to write into the addressed block This will be a chunk of the boot parameter data If less than 16 bytes are written then only the provided data is written the remaining bytes in the addressed storage area block are left unchanged Response Data 1 0x00 Write successful 0x80 Boot parameter storage not supported by the IPMC 0x81 Storage area is locked by another software entity 0x82 Illegal write access 0xC9 Block selector is outside of the allowed range Table 8 14 System Boot Options Parameter 100 GET Command Usage Byte Request Data Description 1 Bit 7 reserved Set to 0 Bits 6 0 must contain the value 100 indicating this OEM system boot option Set Selector 0 User area 1 Default area Block Selector Zero based index of the 16 byte block which you want to read from Index 0 refers to the first block of 16 bytes which includes the first two bytes which indicate the boot parameter data size Response Data 1 0x00 Read successful 0x80 Boot parameter storage not supported by the IPMC OxC9 Block selector is outside of the allowed range 2 Reserved Set to 1 Bit 7 I
139. ng the Blade on page 56 for the exact procedure 4 Wait until the blade has completely booted and is up and running 5 Remove the blade from the system again See Installing and Removing the Blade on page 56 for the exact procedure 6 Set switch SW4 3 and SW4 4 to OFF Now the BIOS default settings are restored Support for 116 Watt Slots In order to run the board in a 116 watt slot the ATCA 7367 IPMC offers two ATCA power levels one with 116 watt and one with 152 watt If the shelf manager selects the 116 watt power level BIOS reduces the number of P states Performance states for both CPUs in the ACPI table to meetthe 116 watt power dissipation requirement for this slot When the operating system has booted and the board runs in 152 watt mode the CPU frequency reaches up to 2 0 GHz in 116 watt mode the highest CPU frequency is 1 73 GHz The selected ATCA power level is displayed on the console at power up and after reset ATCA Power Level 1 116 Watt P States Limited or ATCA Power Level 2 152 watt No Power Limit When the board is plugged into a 116 Watt slot the board runs with reduced performance LED Usage BIOS uses LEDs U1 U2 and U3 on the front panel to indicate activity of start up progress ATCA 7367 Installation and Use 6806800K72N 87 BIOS 4 9 ML 4 10 88 In boot loader phase PEI phase U1 and U2 glow red U3 is glowing alternately red green and orange In main initial
140. nhanced 98 ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 2 7 USB Configuration Table 4 16 USB Configuration USB Devices List the USB Devices attached Legacy USB Support Enables Legacy USB support AUTO option disables legacy support if no USB devices are connected DISABLE option will keep USB devices available only for EFI applications Options Enabled Disabled and Auto Default is Enabled Hand off This is a workaround for OSes without EHCI hand off support The EHCI ownership change should be claimed by driver Default is Enabled Port 60 64 Emulation Enables I O port 60h 64h emulation support This should be enabled for the complete USB keyboard legacy support for non USB aware OSes USB transfer time out The time out value for Control Bulk and Interrupt transfers Device Reset Timeout USB mass storage device Start Unit command timeout Items 10 sec 20 sec 30 sec 40 sec Default is 20 sec Device Power up delay Maximum time the device will take before it properly reports itself to the Host Controller Mass Storage Devices Mass Storage Devices list For each Mass Storage Device there is the following item to set emulation type Mass Storage Device Mass storage device emulation type AUTO enumerates devices Emulation Type according to their media format Optical drives are emulated as CDROM drives with no media will be emulated according to a drive type O
141. ntegrated DDR3 Memory Controller supporting three independent channels of DDR3 memory On ATCA 7367 each memory channel has two DIMM slots for a total of six DIMM slots Below are the features of the IMC Single rank dual rank six rank DIMMs supported Registered and unbuffered DIMMs with or without ECC supported DDR3 speeds of 800 1066 and 1333 supported 512MB 1GB 2GB 4GB chip technology supported ATCA 7367 Installation and Use 6806800K72N Functional Description RAS features supported with ECC DIMM mirroring x8 x4 SDDC sparing scrubbing Memory error signaling for uncorrectable errors Machine Check Exception MCE 5 signaled to all processors CATERR assertion can be used optionally to trigger SMI event Memory error signaling for corrected memory errors two independent mechanisms CMC signaling based on Machine Check architecture SMI NMI signaling based on CSR registers in the IMC On ATCA 7367 up to six VLP DIMMs are used and DIMM is available in Registered RDIMM version only The following table shows the address of DIMM SPD in ATCA 7367 design Table 5 1 SPD I2C Address of DIMMs DIMM Address DIMM4 OxA6 DIMM5 OxA8 DIMM6 OxAA ATCA 7367 Installation and Use 6806800K72N 123 Functional Description 5 3 1 5 4 124 ATCA 7367 supports 1 35 V and 1 5 V DDR3 technology DDR3 power supply is controlled by VID code BIOS will set up this VID to ob
142. o 4 Way 3 Way 2 Way and 1 Way Default is Auto Hardware Memory Test Disabling this option results in HW memory test being bypassed by MRC Options Disable and Enable Default is Enable 4 11 2 4 Chipset North Bridge Table 4 9 Chipset North Bridge Description Tylersburg IOH Tylersburg IOH Configuration page See later separate section for details Configuration Auto Detect RTM If enabled the RTM is detected and the RTM PCle parameter are set for this RTM If disabled the RTM PCle parameter can be set manually RTM PCle Gen1 Speed This option force RTM PCle root ports to Gen1 operation If this option is disabled RTM PCle support both Gen1 and Gen2 devices This option is active when Auto Detect RTM is set to Enable PCle to RTM Selects PCle port Bifurcation for Zone 3 connector RTM This option is active when Auto Detect RTM is set to Enable ATCA 7367 Installation and Use 6806800K72N 95 BIOS 4 11 2 4 1 Intel R VT for Directed I O Configuration Table 4 10 Intel R VT for Directed I O Configuration Field Description Intel R VT d Enable Disable Intel R Virtualization Technology for Directed 1 0 Options Disabled and Enabled Default is Disabled Interrupt Remapping Enable Disable VT d Engine Interrupt Remapping support if Intel R VT d is enabled Options Disabled and Enabled Default is Enabled Coherency Support Enable Disable VT d Engine Coherency support ATS
143. o be saved and the board has to be rebooted when changing the Option Rom Execution If BIOS is not successful at booting from one device it tries to boot from the next device on the list ATCA 7367 Installation and Use 6806800K72N 83 BIOS 44 3 By Boot Selection Menu 1 From the menu select Save 8 Exit 2 Override existing boot sequence by selecting another boot device from the boot override list Figure4 2 Exit Menu Aptio setup utility co SI pyright C Main IPMI Boot 2009 American Megatrends Inc Advanced Save Changes and Exit A Discard Changes and Exit Save Changes and Reset Discard Changes and Reset Save options Save Changes 4 Discard Changes 4 Restore Defaults Select Screen Boot override Ay Select Item USB2 USBHdd SanDisk Cruzer 8 02 Enter select Change opt Base Network 1 F1 General ep Base Network 2 F2 Previous Values Frontpanel Network F3 Optimized Defaults UEFI Built in EFI shell F4 Save ESC Exit If the selected device does not load the operating system BIOS resets the board and reverts M tothe previous boot sequence 84 ATCA 7367 Installation and Use 6806800K72N BIOS 4 5 Boot Parameter Many BIOS setup parameters and setup default parameters are stored as IPMI boot parameters within a non volatile memory controlled by
144. oint P2P and clock E keying Standalone mode is intended for debugging purposes and or operation in environment In standalone mode the carrier IPMC automatically activates and deactivates the on carrier payload and modules whenever it does not violate any carrier limitations Manual standalone Manual standalone mode is equivalent to standalone mode with only one exception carrier IPMC control over the on carrier payload is automatically disabled in manual standalone mode 8 4 1 Get Status Command The Get Status command can be used by the payload software to retrieve the status of the IPMC Table 8 29 Get Status Command Description Type Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Request Data 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 Response Data 1 Completion Code 2 4 PPS IANA Private Enterprise ID ATCA 7367 Installation and Use 6806800K72N 169 Supported IPMI Commands 170 Table 8 29 Get Status Command Description continued Type Byte Data Field Bit 7 Graceful Reboot Request If set to 1 indicates that the payload is requested to initiate the graceful reboot sequence Bit 6 Diagnostic Interrupt Request If set to 1 indicates that a payload diagnostic interrupt request has arrived Bit 5 Shutdo
145. ol for base 1 channel 5 n0s70 ipmitool lan set 5 ipaddr 172 16 0 221 Setting LAN IP Address to 172 16 0 221 n0s70 The following example shows how to query the LAN parameters that are currently in use for potential SOL session for base 1 channel 5 and base 2 channel 6 root localhost ipmitool lan print 5 Set in Progress Set Complete Auth Type Support Auth Type Enable Callback User Operator Admin ATCA 7367 Installation and Use 6806800K72N 141 Serial Over LAN 142 IP Address Source IP Address Subnet Mask MAC Address Default Gateway IP Default Gateway MAC RMCP Cipher Suites Cipher Suite Priv Max OEM Unspecified L725 16 0 221 255 255 0 0 00 00 00 00 00 00 172 1030 1 00 00 00 00 00 00 122 33 Not Available root localhost ipmitool lan print 6 Set in Progress Auth Type Support Auth Type Enable IP Address Source IP Address Subnet Mask MAC Address Default Gateway IP Default Gateway MAC Set Complete Callback User Operator Admin OEM Unspecified 72 220 255 255 0 0 00 00 00 00 00 00 727 3051 00 00 00 00 00 00 ATCA 7367 Installation and Use 6806800K72N Serial Over LAN 7 4 RMCP Cipher Suites 5 1 2239 Cipher Suite Priv Not Available root localhost MAC Address 00 00 00 00 00 00 means the address is shared between base and SOL interface The address can be found out in the MAC address record of the FRU
146. ompletion Code 178 ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 38 Get Payload Communication Time Out Command Description continued Type Byte Data Field PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 5 Payload Time out Payload communication time out measured in hundreds of milliseconds Thus the payload communication time out may vary from 0 1 to 25 5 seconds 8 4 11 Set Payload Communication Time Out Command The Set Payload Communication Time Out command sets the payload communication time out value Table 8 39 Set Payload Communication Time Out Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0 00400 16394 Pigeon Point Systems LSB Byte first byte 1 0 byte 2 40 byte 3 00 Payload Time out Payload communication time out measured in hundreds of milliseconds Thus the payload communication time out may vary from 0 1 to 25 5 seconds Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 ATCA 7367 Installation and Use 6806800K72N 179 Supported IPMI Commands 8 4 12 Enable Payload Control Command The Enable Payload Control command enables payload control from the serial debug interface
147. or Pinout continued Signal VP5_USB USB_x_D USB_x_D GND Table 3 4 10 100 1000Base T Fast Ethernet Connector Pinout Name BI_DA Bi directional pair A BI_DA Bi directional pair A BI_DB Bi directional pair B BI_DC Bi directional pair C BI DC Bi directional pair C DB Bi directional pair B BI_DD Bi directional pair BI_DD Bi directional pair D ATCA 7367 Installation and Use 6806800K72N 69 Controls Indicators and Connectors eee 3 3 Onboard Connectors 3 3 1 USB2 0 FLASH Connector One USB Port of ICH10R is connected to the onboard USB Flash Disk Module Figure 3 5 USB2 0 Flash Disk module connector pinout Nc 2 5v0C input Nc 2 use bata Nc 5 uss1 patat NC GND NC KEY blocked uDOC 2x5 Bottom View 3 3 2 Keying Mechanical keying is provided according to ATCA 3 0 base specification Table 3 5 Keying Key Value Zone 1 2 A1 K1 Keying Default 11 Keyed Zone 3 A2 K2 Keying synch to RTM 70 ATCA 7367 Installation and Use 6806800K72N Controls Indicators and Connectors 3 3 3 Backplane Connectors Table 3 6 Zone 1 Connector 1 Pin Assignment Contact Number Destination Description ISC PCO Hardware Address Bit 0 IPMC ISC PC1 Hardware Address Bit 1 IPMC ISC PC2 Hardware Address Bit 2 IPMC ISC PC3 Hardware Address Bit 3 IPMC ISC PD4 Hardwar
148. ost watchdog gt watchdog is on 5 minutes timeout action reset ATCA 7367 Installation and Use 6806800K72N 157 Supported IPMI Commands Table 8 15 System Boot Options Parameter 100 Supported Parameters continued Parameter Description Values rtm_auto Auto detection of RTM on off auto detect on off genlon genloff Force Gen1 on off 4 4 4 4 8 8 4 4 8 8 16 PCle bifurcation Examples rtm auto off gen1on x4x4x8 gt RTM auto detect off Gen1 on PCle x4x4x8 rtm auto on gen1on x4x4x8 gt RTM auto detect on ignore other parameter boot order Boot priority order device1 devcice2 device8 See boot order Devices Table 8 16 boot order Devices Device Description SATA device 0 Debug SATA SATA device 1 RTM Debug SATA SATA device 5 Onboard SATA sataonboard SATA device 5 Onboard SATA sashdd SAS HDD mounted on the RTM 5 50 nn SAS Controller nn SCSI ID use this when a SAS array is connected to the RTM basenet1 Basel Network usb1 USB frontpanel 1 usb2 USB frontpanel 2 usbonboard USB onboard HDD 158 ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 16 boot_order Devices continued Device Description USB cdrom USB hdd USB floppy disk Built in UEFI shell usbcdrom usbhdd usbfdd efishell Up to 8 boot devices are supported Example boot_order
149. peed must be matched on the other side Long or noisy lines may require lower speeds Options 9600 19200 57600 and 115200 Default is 9600 Data Bits Options 7 and 8 Default is 8 A parity bit can be sent with the data bits to detect some transmission errors Even parity bit is 0 if the num of 1 s in the data bits is even Odd parity bit is 0 if num of 1 s in the data bits is odd Mark parity bit is always 1 Space Parity bit is always 0 Mark and Space Parity do not allow for error detection They can be used as an additional data bit Options None Even Odd Mark and Space Default is None Stop bits indicate the end of a serial data packet A start bit indicates the beginning The standard setting is 1 stop bit Communication with slow devices may require more than 1 stop bit Options 1 and 2 Default is 1 Enables or disables extended terminal resolution On Legacy OS the number of Rows and Columns supports redirection 80x25 and 100x31 Default is 80x25 102 ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 2 10 Network Stack Table 4 21 Network Stack Dd osi Network stack Enable Disable the network stack Pxe and UEFI Options Disable and Enable Default is Disable 4 11 3 IPMI Menu Figure4 6 Menu Aptio Setup Utility Copyright C 2009 American Megatrends Inc IPMI iSCSI Boot Security Save amp Exit Enable Disable us
150. pository Table 8 50 Reset Carrier SDR Repository Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0A byte 2 40 byte 3 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 0A byte 3 40 byte 4 00 ATCA 7367 Installation and Use 6806800K72N 187 Supported IPMI Commands 2 5 amp _ 188 7367 Installation and Use 6806800K72N Chapter 9 FRU Information and Sensor Data Records 9 1 FRU Information The blade provides the following FRU information in FRU ID 0 Table 9 1 FRU information Board info area Mfg date time According to Platform Management FRU information Storage Definition v1 0 Board product name Product name of the specific blade variant Board serial number Defined by Artesyn Board part number Defined by Artesyn Product info area Product manufacturer EMERSON Product serial number Defined by Artesyn Product part number Defined by Artesyn ATCA 7367 Installation and Use 6806800K72N 189 FRU Information and Sensor Data Records Table 9 1 FRU information continued Description Multi record info area Blade Point To Point PICMG record ID 0x14 Connectivity Record Area The contents are described in the section E Keying Ca
151. ptions Auto Floppy Forced FDD Hard Disk and CD ROM Default is Auto ATCA 7367 Installation and Use 6806800K72N 99 BIOS 4 11 2 8 Super IO Configuration Table 4 17 Super IO Configuration Description Super IO Chip The Super IO device is fixed to FPGA Serial Devices Serial Port 0 Set Parameters of Serial Port 0 COMA See later separate section for Configuration details 4 11 2 8 1 Serial Port 0 Configuration Table 4 18 Serial Port 0 Configuration Field Description Serial Port Enable Disable Serial Port Default is Enabled Change Settings Select an optimal setting for Super IO Device This option is only valid when Serial Port is enabled Options Auto 10 3F8h IRQ 4 10 3F8h 3 4 5 6 7 10 11 12 1O 2F8h IRQ 3 4 5 6 7 10 11 12 10 3E8h IRQ 3 4 5 6 7 10 11 12 1O 2E8h IRQ 3 4 5 6 7 10 11 12 Default is IO 3F8h IRQ 4 4 11 2 9 Serial Port Console Redirection Table 4 19 Serial Port Console Redirection COMO Console Redirection Enable Disable Console Redirection Default is Enabled 100 ATCA 7367 Installation and Use 6806800K72N Table 4 19 Serial Port Console Redirection continued Field COMO Console Redirection Settings Serial Port for Out of Band Management Windows Emergency Management Services EMS Console Redirection Description See later separate section for details Enable Disable Console Redirection Default is Enabled
152. ptions Disabled and Enabled Default is Enabled ARTM Network Boot Controls execution of the Option ROM for the Ethernet on the ARTM Options Disabled and Enabled Default is Disabled ARTM SAS Boot Controls execution of the Option ROM for the SAS controller on the ARTM Options Disabled and Enabled Default is Enabled ATCA 7367 Installation and Use 6806800K72N 109 BIOS 4 11 6 Security Menu Figure 4 9 Security Menu Aptio Setup ee 2009 American Megatrends Inc Password Description Set Setup Administrator Password If ONLY the Administrator s password is set then this only limits access to Setup and is only asked for when entering Setup If ONLY the User s password is set then this is a power on password and must be entered to boot or enter Setup In Setup the User will have Administrator rights Select Screen v Select Item User Password Enter Select Change Opt F1 General Help F2 Previous Values F3 Optimized Defaults F4 Save ESC Exit Table 4 29 Security Menu Description Field Description Setup Administrator Password Set Setup Administrator Password User Password Set Setup User Password 110 ATCA 7367 Installation and Use 6806800K72N BIOS 4 11 7 Save 8 Exit Menu Figure 4 10 Save amp Exit Menu Aptio Setup Utility Copyright C 2609 American Megatrends Inc Advanced I 5 5 Boot Security Exit system s
153. push button ON Reset push button disabled Table 2 6 Switch SW4 Settings Switch Function Default Top block Swap configuration Top Swap enabled OFF enabled GP 55 GNT3 pin strap internal Pull up ON disable Top Swap TCO timer timeout reboot mode Speaker Pin TCO Reboot Timer enabled strap OFF enable SPKR input internal Pull down ON disabled SW4 3 Load BIOS Defaults OFF SW4 4 SW4 3 OFF load BIOS Defaults if SW4 4 ON 00 Normal operation 01 Load Bios Defaults ON Port80 to COM1 10 Crisis recovery SW4 4 BIOS Crisis Recovery OFF 11 Pot80 to COM1 OFF BIOS Crisis Recovery if SW4 3 ON 2 5 Installing the Blade Accessories The following additional components are available for the blade DIMM memory modules persistent memory module 50 ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation 2 5 1 7 7 module USB flash module Rear transition modules AMC module They are described in detail in the following sections For order numbers refer to section Ordering Information on page 39 DIMM Memory Modules The blade provides six memory slots for main memory DIMM modules You may install and or remove DIMM memory modules in order to adapt the main memory size to your needs The corresponding installation removal procedures are described in this section The location of the DIMM Memory Modules are show
154. r to section Supported IPM Commands on page 145 The BIOS used on the blade is based on the AMI UEFI BIOS with several Artesyn Embedded Technologies extensions integrated Its main features are Initialize CPU chipset and memory Initialize PCI devices e Setup utility for setting configuration data PMC support Serial console redirection for remote blade access Boot operation system The BIOS complies with the following specifications UEFI Specification 2 0 Plug and Play BIOS Specification 1 0A PCI BIOS Specification 2 1 SMBIOS Specification 2 3 BIOS Boot Specification 1 01 PXE2 1 ATCA 7367 Installation and Use 6806800K72N 77 BIOS 4 2 78 SMP 1 4 ACPI3 0b The BIOS contains online documentation which describes in detail the available menu options Therefore the description in this manual is limited to the main BIOS functions The BIOS setup program is required to configure the blade hardware This configuration is necessary for operating the blade and connected peripherals The configuration data are stored in the same flash device from which the board boots When you are not sure about configuration settings restore the default values This option is provided in case a value has been changed and you wish to reset settings To restore the default values press F3 in Setup Loading the BIOS default values will affect all set up items and will reset options previou
155. re Upgrade EN 10 1 10 1 1 10 1 2 10 1 2 1 HPM 1 Firmware Upgrade Overview The primary update mechanism for the ATCA 7367 blades is the FCU tool which is delivered with the BBS package for the board However the ATCA 736X board family also supports upgrade of the firmware with the HPM 1 specification Upgradable components of the board include the BIOS flash FPGA flash and IPMC flash For update it is recommended to use the Pigeon Point System modified Ipmitool Installing the Ipmitool procedure 1 Getthe Pigeon Point System Ipmitool from the package Ipmitool 1 8 9 pps 8 tgz 2 Extract the source code Prompt gt tar xzvf Ipmitool 1 8 9 pps lt version gt tgz 3 Go to the directory where you have extracted the Ipmitool Prompt gt cd lt path gt Ipmitool 1 8 9 pps lt version gt 4 Build the Ipmitool Prompt gt configure amp amp make amp amp make install Update Procedure The Ipmitool update requires two steps for an update 1 Upgrade the component Example ipmitool hpm upgrade lt file gt 2 Activate the component Example ipmitool hpm activate ATCA 7367 Installation and Use 6806800K72N 207 Firmware Upgrade 10 1 3 10 1 3 1 10 1 3 2 10 1 3 3 208 Both steps can also be integrated into one command ipmitool hpm upgrade lt file gt activate Interface The HPM 1 upgrade supports three different interfaces for upgrading the firmware These are KCS
156. rking in an ESD safe environment 1 Remove the blade from the system as described in Installing and Removing the Blade on page 56 2 Remove the two screws holding the PMEM SATA module 3 Remove the PMEM SATA module from the blade 4 Reinstall the blade into the system as described in Installing and Removing the Blade on page 56 USB 2 0 Flash Module The blades provides a USB 2 0 flash module with a capacity of 4 GB or 16 GB The corresponding removal installation procedures are described in this section ATCA 7367 Installation and Use 6806800K72N 55 Hardware Preparation and Installation 2 6 56 The location of the USB 2 0 Flash Module is shown in Figure ATCA 7367 Blade Layout on page 47 NOTICE Damage of Circuits Electrostatic discharge and incorrect module installation and removal can damage circuits or shorten their life Before touching the module or electronic components make sure that you are working in an ESD safe environment Removal Procedure To remove a USB flash module proceed as follows 1 Remove blade from system as described in Removing the Blade on page 60 2 Remove the screw on the left side of the flash module see figure Figure 2 1 on page 47 3 Lift the flash module from the socket Installation Procedure To install a USB flash module proceed as follows 1 Remove blade from system as described in Removing the Blade on page 60 2 Insert new flash module in socket see fi
157. roduct series 6X GbE 2X SAS 1X slot for optional HDD RTM ATCA 7360 L RTM for the ATCA 736X product series 2X GbE 2X SAS 1X slot for optional HDD ATCA7360 HDD1 SAS 147GB SAS HDD for the RTM ATCA 7360 ATCA7360 HDD2 SAS 300GB SAS HDD for the RTM ATCA 7360 ATCA7360 HDD3 SATA 80GB SATA HDD ext temp for the RTM ATCA 7360 RTM ATCA 7360 FC RTM for the ATCA 736X product series 6X GBE 2X SAS 2X 2 ATCA7360 MMOD SATA1 32GB on board solid state disk at SATA for ATCA 736X product series ATCA7360 MMOD SATA2 64GB on board solid state disk at SATA for ATCA 736X product 3 ATCA7360 SFMMOD Reset persistent memory 16MB SRAM 64MB flash for the ATCA 736X product series AMCFILLER MS AMC filler panel mid size for ATCA F12X ATCA F140 and ATCA 7367 RJ45 DSUB ATCA7140 45 DSUB cable for the ATCA 7140 7150 7350 736X SA BBS WR30 7367 CD BBS SW and WR PNE 3 0 for ATCA 7367 1 HDD kit option for RTM ATCA 7360 and RTM ATCA 7360 L 2 RoHS 5 6 lead exemption 3 Persistent memory and solid state disk mutually exclusive ATCA 7367 Installation and Use 6806800K72N Introduction 1 5 Product Identification The following graphics shows the location of the serial number label Figure 1 2 Serial Number Location ATCA 7367 Installation and Use 6806800K72N 41 Introduction eee EEE 42 A
158. rrier Information table PICMG record ID Ox1A r record Carrier activation and PICMG record ID 0x17 r current management record Carrier point to point PICMG record ID 0x18 r connectivity records AMC point to point PICMG record ID 0x19 connectivity User Info Area Artesyn OEM ID 0x48 OxOE 0x00 0x00 Followed by 255 byte of user info area data Custom usage Table 9 2 MAC Address Location MAC Address records Location Comments Base interface 1 Base interface 2 Update channel 190 7367 Installation and Use 6806800K72N FRU Information and Sensor Data Records 9 2 Table 9 2 MAC Address Location continued MAC Address records Location Comments 7 Connect to AMC Port 0 or Only valid for variants 10 with AMC bay populated Connect to AMC Port 1 or 11 Connect to AMC Port 8 Connect to AMC Port 9 MAC Address Record The blade provides one OEM FRU record which contains information about on board MAC addresses The format of the record is described in the following table Table 9 3 Artesyn MAC Addresses Record Offset Length Description Record Type ID A value of COh OEM shall be used for Artesyn OEM records End of List Version 7 End of List Set to 1b for the last record 6 4 Reserved Write as 000b 3 0 Record format version Write as 2h Record Length Record Checksum zero checksum
159. rtesyn to notify any person of such revision or changes Electronic versions of this material may be read online downloaded for personal use or referenced in another document as a URL to an Artesyn website The text itself may not be published commercially in print or electronic form edited translated or otherwise altered without the permission of Artesyn It is possible that this publication may contain reference to or information about Artesyn products machines and programs programming or services that are not available in your country Such references or information must not be construed to mean that Artesyn intends to announce such Artesyn products programming or services in your country Limited and Restricted Rights Legend If the documentation contained herein is supplied directly or indirectly to the U S Government the following notice shall apply unless otherwise agreed to in writing by Artesyn Use duplication or disclosure by the Government is subject to restrictions as set forth in subparagraph b 3 of the Rights in Technical Data clause at DFARS 252 227 7013 Nov 1995 and of the Rights in Noncommercial Computer Software and Documentation clause at DFARS 252 227 7014 Jun 1995 Contact Address Artesyn Embedded Technologies Artesyn Embedded Technologies Marketing Communications Lilienthalstr 17 19 2900 S Diablo Way Suite 190 85579 Neubiberg Munich Tempe Arizona 85282 Germany Contents About th
160. rwenden Sie deshalb nur den Batterietyp der auch bereits eingesetzt wurde und befolgen Sie die Installationsanleitung ATCA 7367 Installation and Use 6806800K72N Sicherheitshinweise 25 m Umweltschutz Entsorgen Sie alte Batterien und oder Blades Systemkomponenten RTMs stets gem der in Ihrem Land g ltigen Gesetzgebung und den Empfehlungen des Herstellers ATCA 7367 Installation and Use 6806800K72N 33 Sicherheitshinweise eee 34 7367 Installation and Use 6806800K72N Chapter 1 Introduction 1 1 Features ATCA 7367 is a high performance single processor AdvancedTCA Server blade and AdvancedTCA NODE board designed according to PICMG 3 0 Revision 3 0 Advanced TCA Base Specification ATCA 7367 is a single board computer that offers a powerful processing complex through a single six core Intel Westmere EP processor and support for up to 48GB DDR3 memory Furthermore ATCA 7367 provides local storage Onboard SATA disk SATA Cube onboard flash disk or through the RTM standard I O and redundant Gigabit Ethernet connections to the back plane s Base Interfaces PICMG3 0 and Fabric Interfaces PICMG 3 1 Option1 9 Another important feature is that ATCA 7367 provides AMC support and is compatible with different AMC boards to meet application specific requirements The ATCA 7367 provides system management capabilities and is hot swap compatible based on the ATCA specification The following lists the
161. s Enabled Intel Virtualization When enabled a VMM can utilize the additional hardware capabilities Technology provided by Vanderpool Technology Options Disabled and Enabled Default is Enabled Turbo Mode Enable Disable Intel Turbo mode Options Disabled and Enabled Default is Enabled Performance Watt Optimized Turbo Boost engages after the highest performance state is sustained for more than two seconds Traditional Intel Turbo Boost Technology is engaged immediately when possible 4 11 2 3 MemoryConfiguration Table 4 8 Memory Configuration Field Description DIMM Information Submenu for displaying DIMM presence and size information QPI Link QPI Link Speed and Frequency Configuration Page Total Memory Total Memory fitted Current Memory Mode Current Memory Mode Current Memory Speed Current Memory Speed Mirroring Mirroring support status 94 ATCA 7367 Installation and Use 6806800K72N BIOS Table 4 8 Memory Configuration Field Description Sparing Sparing support status DIMM Information Display DIMM presence and Size information Memory Mode Select the mode for memory initialization Options Independent Mirroring and Lock Step Default is Independent channel Interleaving Select different Channel Interleaving setting Options Auto 6 Way 4 Way 3 Way 2 Way and 1 Way Default is Auto Rank Interleaving Select different rank Interleaving setting Options Aut
162. s an den inner Geb ude oder unbelichteten Verdrahtung oder Verkabelung nur Die intra Geb ude Port s des Ger ts oder Baugruppe muss nicht metallisch mit Schnittstellen die an der Au enanlage OSP oder dessen Verkabelung anschlie en angeschlossen werden Diese Schnittstellen sind f r die Verwendung als intra Geb ude Schnittstellen nur entworfen Typ 2 oder Typ 4 Ports wie in GR 1089 beschrieben und erfordern Isolierung von der freiliegenden OSP Verkabelung Die Zugabe von prim ren Schutz nicht ausreichenden Schutz um diese Schnittstellen metallisch mit OSP Verdrahtung verbinden Die intra Geb ude Port s des Ger tes oder einer Unterbaugruppe m ssen abgeschirmte innerGeb udeVerkabelung Verdrahtung die an beiden Enden geerdet ist zu verwenden Besch digung des Blades Hohe Luftfeuchtigkeit und Kondensat auf der Oberfl che des Blades k nnen zu Kurzschl ssen f hren Betreiben Sie das Blade nur innerhalb der angegebenen Grenzwerte f r die relative Luftfeuchtigkeit und Temperatur Stellen Sie vor dem Einschalten des Stroms sicher dass sich auf dem Blade kein Kondensat befindet berhitzung und Besch digung des Blades Betreiben Sie das Blade ohne Zwangsbel ftung kann das Blade berhitzt und schlie lich besch digt werden Bevor Sie das Blade betreiben m ssen Sie sicher stellen dass das Shelf ber eine Zwangsk hlung verf gt Wenn Sie das Blade in Gebieten mit starker elektromagnetischer Strahlung betreiben stell
163. s command is used to set the properties of a particular serial interface Table 8 31 Set Serial Interface Properties Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0 00400 16394 Pigeon Point Systems LSB Byte first byte 1 0 byte 2 40 byte 3 00 Interface ID 0 Serial Debug Interface Bit 7 Echo On If this bit is set the IPMC enables echo for the given serial interface Bits 6 4 Reserved Bits 3 0 Baud Rate ID The baud rate ID defines the interface baud rate as follows 0 9600 bps 1 19200 bps 2 38400 bps 3 57600 bps unsupported 4 115200 bps unsupported Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 ATCA 7367 Installation and Use 6806800K72N 173 Supported IPMI Commands 8 4 4 Get Debug Level Command The Get Debug Level command gets the current debug level of the IPMC firmware Table 8 32 Get Debug Level Command Description Type Byte Data Field Request Data PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 1 0 byte 2 40 byte 3 00 Response Data Completion Code PPS IANA Private Enterprise ID 0x00400A 16394 Pigeon Point Systems LSB Byte first byte 2 byte 3 40 byte 4 00 Bit 7 IPMB L Dump Enable If set to 1 the IPMC provides
164. sas0_03 basenet0 usbkey sata1 8 1 8 LAN Device Commands Table 8 17 Supported LAN Device Commands Command NetFn Request Response CMD Set LAN Configuration Parameters OxOC OxOD Get LAN Configuration Parameters OxOC OxOD Set SOL Configuration Parameters OxOC OxOD 0x21 Get SOL Configuration Parameters OxOC OxOD 0x22 ATCA 7367 Installation and Use 6806800K72N 159 Supported IPMI Commands 8 2 160 PICMG 3 0 Commands The Artesyn Embedded Technologies IPMC is a fully compliant AdvancedTCA intelligent Platform Management Controller it supports all required and mandatory AdvancedTCA commands as defined in the PICMG 3 0 and AMC 0 R2 0 specifications Table 8 18 Supported PICMG 3 0 Commands Command Get PICMG Properties NetFn Request Response 0x2C 0x2D Comments Get Address Info 0x2C Ox2D FRU Control Get FRU LED Properties Get FRU LED Color Capabilities 0x2C 0x2D 0x2C Ox2D 0x2C Ox2D The blade supports the cold reset and graceful reboot options Set FRU LED State 0x2C 0x2D Get FRU LED State 0x2C 0x2D Set IPMB State Set FRU Activation Policy Get FRU Activation Policy Set FRU Activation 0x2C 0x2D 0x2C 0x2D 0x0A 0x2C 0x2D 0x0B Get Device Locator Record ID 0 2 0 20 0x2C Ox2D The Artesyn Embedded Technologies IPMCs support the standard PICMG 3 0 and the extended AMC 0 R2 0 versions of this command Set Port State
165. sly altered e Ifyou set the default values the displayed default values takes effect only after the BIOS setup is saved and closed Accessing the Blade using the Serial Console Redirection The blade firmware provides a serial console redirection feature allowing remote access to the blade through a terminal connected to the blade s serial interface The terminal can be connected to display VGA text information Terminal keyboard input is redirected and treated as a normal PC keyboard input The serial console redirection feature can be configured via a setup utility ATCA 7367 Installation and Use 6806800K72N 4 2 1 4 2 2 BIOS Requirements For serial console redirection the following is required Terminal or terminal emulation which supports a VT100 or ANSI mode NULL modem cable Terminal emulation programs such as TeraTermPro can be used In order to use TeraTermPro using the function keys the keyboard configuration file of TeraTermPro has to be modified as follows Table 4 1 BIOS Key Codes for Terminal Emulation Program Function Key Key Code Default Access Parameters By default the blade can be accessed using the serial interface COM1 This interface is using a RJ 45 connector at the blade s face plate ANULL Modem cable is available as accessory kit for the blade It converts the RJ 45 connector to a standard DSUB connector which can be connected to a remote terminal The following comm
166. ssor family features a range of thermal design power TDP envelopes from 40 W TDP up to 130 W TDP The processor features two Intel QuickPath Interconnect point to point links capable of up to 6 4GT S 12MB of shared Last Level cache L3 and an Integrated Memory Controller IMC The processor support all the existing Streaming SIMD Extensions 2 SSE2 Streaming SIMD Extensions 3 SSE3 and Streaming SIMD Extensions 4 SSE4 The processor support several Advanced Technologies Execute Disable Bit Intel 64 Technology Enhanced Intel SpeedStep Technology Intel Virtualization Technology and Simultaneous Multi Threading SMT 1 N ATCA 7367 Installation and Use 6806800K72N Functional Description 5 3 122 The following lists the main features of Westmere EP processor Socket LGA 1366 Core Speed 2 0 GHz Cache Size Instruction cache 32Kb per core Data Cache 32KB per core 256KB Mid Level Cache L2 per core 12MB shared L3 cache running at core speed e Data transfer rate Two full width Intel QuickPath Interconnect links 5 86GT s in each direction Multi core support up to six core per processor Integrated memory controller supporting DDR3 Memory speed 800 1066 1333MHz Package 1366 balls TDP 40 W 130 W varies depending on SKU The maximum power consumption of the processor allowed for 7367 5 NEBS application is 60 W Memory The Westmere EP has an i
167. standard parameters whose structure and functionality is defined by the IPMI specification The boot parameters 96 to 127 are OEM specific which can be used for different purposes When using the Get Set System Boot Options commands except for parameter 100 use the response request data fields with the Set Selector and the Block Selector set to 0x00 When using the Get Set System Boot Option for the parameter 100 the Set Selector and the Block Selector have a specific meaning Details are given in System Boot Options Parameter 100 on page 152 for details The following table lists which boot properties can be configured and the corresponding boot parameter number Table 8 8 Configurable System Boot Option Parameters Configurable Boot Property Corresponding Boot Parameter Number Selection between default and backup boot flash as device to boot from POST Type Timeout for graceful shutdown ATCA 7367 Installation and Use 6806800K72N 149 Supported IPMI Commands Table 8 8 Configurable System Boot Option Parameters continued Configurable Boot Property Corresponding Boot Parameter Number BIOS boot parameters as defined in Table 8 15 on page 156 8 1 7 1 1 System Boot Options Parameter 96 This boot parameter is an Artesyn specific OEM boot parameter Its definition is given in the following table Table 8 9 System Boot Options Parameter 96 Data Byte Description Bits 7 1 Reserved Bit 0 Defau
168. synchronize the settings made in the BIOS setup menu and the settings specified using the System Boot Options command 100 Changing a parameter in either of these automatically changes the respective value in the other Table 8 15 System Boot Options Parameter 100 Supported Parameters baudrate Console baud rate 9600 19200 57600 115200 ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 15 System Boot Options Parameter 100 Supported Parameters continued Parameter Description Values usb USB support fp_on fp_off rtm_on rtm_off onboard_on onb oard_off Example usb fp_off rtm_off onboard_on gt Front panel USB off RTM USB off Onboard Flash USB on os_boot_watchdog OS boot Watchdog on off timout in minutes action IPMI Timeoutrange 1 2 3 5 7 10 15 20 action noaction reset poweroff Example os boot watchdog on 10 reset gt watchdog is on 10 minutes timeout action reset frontnet boot Boot from Front Panel off on Network basenet_boot Boot from Base off on Network artm_net_boot Boot from ARTM off on Network artm_sas_boot Boot from ARTM SAS off on device artm_fc_boot Boot from ARTM FC off on device hyper_threading Enable disable hyper on off threading turbo_mode Enable disable turbo on off mode Post Watchdog On off timeout in minutes action IPMI Timeout range 3 4 5 5 action noaction reset poweroff Example post watchdog on 5 reset p
169. ta Byte 1 Event Data Byte 2 Event Data Byte 3 Threshold Description Deassertion Rearm 0x02 Hotswap_RTM Hot Swap Sensor specific 7 4 See IPMC Spec 7 4 Cause 7 0 FRU ID For the Field Current Asrt Auto OxFO discrete 3 0 Current State 0 1 3 0 Previous State Previous State Ox6F 2 3 4 5 6 or 7 State 0x0 MO 0 1 M1 0x2 2 0x3 M3 0 4 4 0 5 5 0x6 M6 0 7 7 0x03 48V A Volts Voltage Threshold See IPMI Spec reading threshold unr uc Inr Ic Asrt Deass Auto 0x02 0x01 0x04 48V B Volts Voltage Threshold See IPMI Spec reading threshold unr uc Inr Ic Asrt Deass Auto 0x02 0x01 0x05 48V Amps Current 0x03 Threshold No event for this sensor Auto 0x01 0x06 HoldUp Cap Voltage Threshold See IPMI Spec reading threshold unr uc Inr Ic Asrt Deass Auto Volts 0x02 0x01 0x07 PWR Entry Temperature Threshold See IPMI Spec reading threshold ucnc Asrt Deass Auto Temp 0x01 0x01 Asrt Assertion Unr Upper non recoverable threshold Uc Upper critical threshold Unc Upper non critical threshold Deass Deassertion Lnr Lower non recoverable threshold Lc Lower critical threshold Lower non critical threshold 200 ATCA 7367 Installation and Use 6806800K72N Table 9 9 Sensor Data Records continued FRU Information and Sensor Data Records Sensor Event Reading Event Assertion Number Sensor Sensor Type Type Event Data Byte 1
170. tain the needed supply voltage according to DIMM SPD information which is shown in the following figure Figure5 2 1 35 1 5 V Voltage Selection for DIMMs DDR3 Main Memory ATCA 7367 provides single Westmere EP CPU with Integrated Memory Controller IMC IMC supports three independent 72 bit 64 bit Data 8 bit ECC wide DDR3 memory channels ATCA 7367 supports two VLP DIMM sockets for each memory channel resulting in a total of six DDR3 DIMM sockets Supported DDR3 speeds are DDR3 800 PC3 6400 DDR3 1066 PC3 8500 and DDR3 1333 PC3 10600 Chipset The Intel 5520 chipset provides access to the I O subsystem The chipset provides up to 36 Express generation 2 lanes The blade makes use of 5 times x4 PCle lanes routed to the Zone 3 connector The chipset is connected to the ICH10R I O Controller via the Enterprise South Bridge Interface ESI ATCA 7367 Installation and Use 6806800K72N Functional Description 5 5 Controller The ICH10R provides extensive I O interface support and the boot path to SPI Boot Flash devices for the processor is connected to the system through the Enterprise Southbridge Interface ESI of the Xeon 5520 chipset The following is a list of the main internal features and the I O interface functions provided by the ICH10R Southbridge Six x4 PCI Express 1 1 interface LPC interface SPI interface Boot Flash up to two devices 20 33 MHz Six serial ATA SATA
171. tesyn Embedded Technologies IPMC supports several commands which are not defined in the IPMI or PICMG 3 0 specification but are introduced by Artesyn Embedded Technologies serial output commands e Before sending any of these commands the shelf management software must check whetherthe receiving IPMI controller supports Artesyn Embedded Technologies specific commands by using the IPMI command Get Device Sending Artesyn Embedded Technologies specific commands to IPMI controllers which do not support these IPMI commands will lead to no or undefined results e Proper handling of these commands is required to write a portable application Set Get Feature Configuration ATCA 7367 provides an OEM command to control the SAS signal which routes from the RTM Table 8 19 Set Get Feature Configuration NetFn Command Name Request Response CMD Description Set Feature Configuration Ox2E Ox2F Get Feature Configuration Ox2E Ox2F Ox1F ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 3 1 1 Set Feature Configuration 0x1E This command is used to switch SAS signal to AMC or Update Channel Table 8 20 Set Feature Configuration Command Data Field LSB of Artesyn IANA Enterprise Number A value of CDh shall be used Request Data Ce 4 2nd byte of Artesyn IANA Enterprise Number A value of 65h shall be used MSB of Artesyn IANA Enterprise Number A value of 00h shall
172. tion and Installation 2 2 2 46 Power Requirements The blade s power requirements depend on the installed hardware accessories If you want to install accessories on the blade the load of the respective accessory has to be added to that of the blade In the following table you will find typical examples of power requirements with and without accessories installed For information on the accessories power requirements refer to the documentation delivered together with the respective accessory or consult your local Artesyn Embedded Technologies representative for further details The blade must be connected to a TNV 2 or a safety extra low voltage SELV circuit A TNV 2 circuit is a circuit whose normal operating voltages exceed the limits for a SELV circuit under normal operating conditions and which is not subject to over voltages from telecommunication networks Table 2 2 Power Requirements Characteristic Value Max power consumption of ATCA 7367 No power 152W limit Max power consumption of ATCA 7367 P states 116W limited ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation 2 3 Blade Layout The following figure shows the location of components on the ATCA 7367 Figure2 1 ATCA 7367 Blade Layout DCDC m Single width for 12 116 DE E Mid size EN AMC e j 7 1 __ Y 6 ICH10R 82572 VL
173. tions must be tested and proven in the shelf configuration used The conditions refer to the surrounding of the blade within the user environment Table 2 1 Environmental Requirements Operating Normal Operation 5 C 41 F to 40 C 104 F according to Telcordia GR 63 CORE NEBS and ETSI EN 300 019 1 3 Class 3 1 Exceptional Operation 5 C 23 F to 55 C 131 F according to Telcordia GR 63 CORE NEBS Note This exceeds ETSI EN 300 019 1 3 Class 3 1E requirements 5 C to 45 C 0 25 C min according to Telcordia GR 63 CORE Non Operating 40 C 40 F to 70 C 158 F according to Telcordia GR 63 CORE NEBS and ETSI EN 300 019 1 2 Class 2 3 Note This exceeds ETSI EN 300 019 1 1 Class 1 2 requirements storage from 25 Cto 55 C Note This may be further limited by installed accessories 0 25 C min Normal Operation 5 rH to 85 rh non condensing Exceptional Operation 5 to 90 non condensing According to Telcordia GR 63 CORE NEBS and EN 300 019 1 3 Classes 3 1 and 3 1E 5 to 95 non condensing according to Telcordia GR 63 CORE NEBS and EN 300 019 1 1 Classes 1 2 and 2 3 2 2 1 Requirement Temperature Temp Change Rel Humidity 44 ATCA 7367 Installation and Use 6806800K72N Hardware Preparation and Installation Table 2 1 Environmental Requirements continued Requirement Operating Non Operating Vibration 1
174. torage ATCA 7367 supports the following types of storage e Onboard HDD SSD with standard 2 5 inch form factor Onboard SATA Cube Persistent RAM module Onboard USB Flash eUSB Storage RTM with SATA SAS support Storage AMC Storage Controller Using an optional RTM the blade provides a Serial Attached SCSI SAS controller One on board hard disk drive located on the RTM is connected to the controller A minimum of two 2 ports are available on the RTM face plate They can be used to attach an external storage RAID JBOD Another SAS port of the controller is routed to ATCA Zone 3 for the purposes of synchronizing with a RTM based disk located in a logically paired ATCA slot 129 Functional Description 5 10 5 10 1 5 11 5 12 130 Embedded Flash Disk By default the ATCA 7367 provides an onboard USB Flash module 4 GB solid state disk The disk can keep data application SW and OS boot images Booting from the device is supported The flash disk controller provides a wear leveling algorithm to improve the longevity of the flash device SATA Embedded Flash Solid State Disc SSD As an option a SATA embedded flash SSD solution can be provided through assembly of the ATCA 7367 SATA module which is available as an accessory kit BIOS ATCA 7367 provides a BIOS firmware that is stored in flash memory It can be updated remotely via Ethernet or locally via operating system Along with the BIOS and
175. ture selector not supported LSB of Artesyn IANA Enterprise Number A value of CDh shall be used 2nd byte of Artesyn IANA Enterprise Number A value of 65h shall be used MSB of Artesyn IANA Enterprise Number A value of 00h shall be used Feature Configuration 00h SAS to Zone 2 update channel 01h SAS to AMC Persistency Duration FFh persistent over power cycle 164 ATCA 7367 Installation and Use 6806800K72N Supported Commands 8 3 2 Serial Output Commands Table 8 22 Serial Output Commands Command Name NetFn Request Response Description Set Serial Output Ox2E Ox2F 0x15 See Set Serial Output Command on page 165 Get Serial Output Ox2E Ox2F 0x16 See Get Serial Output Command on page 166 8 3 2 1 Set Serial Output Command The Set Serial Output command selects the serial port output source for a serial port connector 8 3 2 1 1 Request Data The following table lists the request data applicable to the Set Serial Output command Table 8 23 Request Data of Set Serial Output Command LSB of Artesyn Embedded Technologies IANA Enterprise number A value of OxCD has to be used Second byte of Artesyn Embedded Technologies IANA Enterprise number A value of 0x65 has to be used MSB of Artesyn Embedded Technologies IANA Enterprise number A value of 0x00 has to be used Serial connector type 0 Face plate connector 1 Backplane connector All other values are reserv
176. ue 27 2009 10 46 00 Administrator gt lt Select Screen Select Item Enter Select Change opt F1 General Hel Previous values F3 optimized Defaults Save ESC Exit Make sure that BIOS is properly configured prior to installing the operating system and its drivers If you save changes in setup the next time the blade boots BIOS will configure the system according to the setup selections stored If those values cause the system boot to fail reboot and enter setup to get the default values or to change the selections that caused the failure In order to navigate in setup use the arrow keys on the keyboard to highlight items on the menu All other navigation possibilities are shown at the bottom of the menu Additionally an item specific help is displayed on the right side of the menu window 81 BIOS 4 4 Boot Options This section describes which boot devices are supported by the BIOS and how to select the boot device 44 1 Supported Boot Devices The BIOS supports booting from the following devices sources USB devices such as floppy CD ROM and hard disk Solid State Disk connected to the SATA interface available only when SSD SATA is assembled Storage devices connected to the SAS controller by RTM Network Front Panel Ethernet Base Ethernet and Ethernet on RTM Storage devices connected to the Fiber Channel module via RTM iSCSI block devices 4 4 2 Selecting The Boot
177. unication parameters are used by default Baud rate 9600 Flow control None e VT 100 8databits Noparity 1stopbit ATCA 7367 Installation and Use 6806800K72N 79 BIOS 4 2 3 Connecting to the Blade Procedure In order to connect to the blade using the serial console redirect feature proceed as follows 1 Configure terminal to communicate using the same parameters as in BIOS setup 2 Connect terminal to NULL modem cable 3 Connect NULL modem cable to COM port of the blade 4 Start up blade 4 3 Changing Configuration Settings When the system is turned on or rebooted the presence and functionality of the system components is tested by POST Power On Self Test 80 ATCA 7367 Installation and Use 6806800K72N BIOS ATCA 7367 Installation and Use 6806800K72N Figure 4 1 Main Menu Press lt F2 gt when requested The main menu appears It looks similar to the one shown in the following figure BIOS Information Board Na Build Date Board Information Current system FPGA Version Boot Flash Selection Memory Information Total Memory system Time Access Version 1 29 1121 2009 American Megatrends Inc uri Exit set the Date Use Tab to switch between Data elements Emerson 7367 1 1 07 03 26 2010 12 11 02 Standard Socket DIP Switch 1 3 ON 4096 MB DDR3 T
178. updates the BIOS Parameter in the flash according to the IPMI Boot Parameter 4 BIOS will reset the board if BIOS Parameter changes Change Settings 1 User enters the BIOS setup and changes some parameters 2 User selects Save or Save and Exit option 3 BIOS writes the parameter to the BIOS Parameter in the Flash 4 BIOS writes the parameter to the IPMI Boot Parameter USER area Load Defaults 1 2 3 4 5 6 User enters BIOS setup and selects Load Defaults BIOS reads Default Parameter from Flash into the Setup BIOS reads IPMI Boot Parameter DEFAULT area into the Setup User select Save or Save and Exit option BIOS writes the parameter to the BIOS Parameter in the Flash BIOS writes the parameter to the IPMI Boot Parameter USER area Restoring BIOS Default Settings The blade provides an on board configuration switch that allows to load BIOS settings from the DEFAULT area of the IPMI Boot Parameters In order to restore the BIOS default settings using this switch you have to proceed as follows Procedure To restore the BIOS default settings proceed as follows 1 Remove the blade from the system See Installing and Removing the Blade on page 56 for the exact procedure ATCA 7367 Installation and Use 6806800K72N BIOS 4 7 4 8 2 Set the on board switch SW4 3 OFF and SW4 4 ON See Switch Settings on page 48 for the exact location of SW4 3 Install and power up the blade See Installing and Removi
179. wn Alert If setto 1 indicates that the payload is going to be shutdown Bit 4 Reset Alert If set to 1 indicates that the payload is going to be reset Bit 3 Sensor Alert If set to 1 indicates that at least one of the IPMC sensors detects a threshold crossing Bits 2 1 Mode The current IPMC modes are defined as 0 Normal 1 Standalone for a description refer to Table 8 28 2 Manual Standalone for a description refer to Table 8 28 Bit 0 Control If set to 0 the IPMC control over the payload is disabled Bits 4 7 Metallic Bus 2 Events These bits indicate pending Metallic Bus 2 requests arrived from the shelf manager 0 Metallic Bus 2 Query 1 Metallic Bus 2 Release 2 Metallic Bus 2 Force 3 Metallic Bus 2 Free Bits 0 3 Metallic Bus 1 Events These bits indicate pending Metallic Bus 1 requests arrived from the shelf manager 0 Metallic Bus 1 Query 1 Metallic Bus 1 Release 2 Metallic Bus 1 Force 3 Metallic Bus 1 Free ATCA 7367 Installation and Use 6806800K72N Supported Commands Table 8 29 Get Status Command Description continued Type Byte Data Field Bits 4 7 Clock Bus 2 Events These bits indicate pending Clock Bus 2 requests arrived from the shelf manager 0 Clock Bus 2 Query 1 Clock Bus 2 Release 2 Clock Bus 2 Force 3 Clock Bus 2 Free Bits 0 3 Clock Bus 1 Events These bits indicate pending Clock Bus 1 requests arrived from the shelf manager

ATCA-7367 Installation and Use - Artesyn Embedded Technologies

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